ABUSE SECTION.

9.2 Abuse. Asenapine has not been systematically studied in animals or humans for its abuse potential or its ability to induce tolerance or physical dependence. Thus, it is not possible to predict the extent to which CNS-active drug will be misused, diverted and/or abused once it is marketed. Patients should be evaluated carefully for history of drug abuse, and such patients should be observed carefully for signs that they are misusing or abusing asenapine (e.g., drug-seeking behavior, increases in dose).

ADVERSE REACTIONS SECTION.

6 ADVERSE REACTIONS. The following adverse reactions are discussed in more detail in other sections of the labeling:Use in Elderly Patients with Dementia-Related Psychosis [see Boxed Warning and Warnings and Precautions 5.1 and 5.2 )] Neuroleptic Malignant Syndrome [see Warnings and Precautions 5.3 )] Tardive Dyskinesia [see Warnings and Precautions 5.4 )] Metabolic Changes [see Warnings and Precautions 5.5 )] Hypersensitivity Reactions [see Contraindications, Warnings and Precautions 5.6 )] Orthostatic Hypotension, Syncope, and other Hemodynamic Effects [see Warnings and Precautions 5.7 )] Falls [see Warnings and Precautions 5.8 )] Leukopenia, Neutropenia, and Agranulocytosis [see Warnings and Precautions 5.9 )] QT Interval Prolongation [see Warnings and Precautions 5.10 )] Hyperprolactinemia [see Warnings and Precautions 5.11 )] Seizures [see Warnings and Precautions 5.12 )] Potential for Cognitive and Motor Impairment [see Warnings and Precautions 5.13 )] Body Temperature Regulation [see Warnings and Precautions 5.14 )] Dysphagia [see Warnings and Precautions 5.15 )] The most common adverse reactions (>=5% and at least twice the rate of placebo) reported with acute treatment in adults with schizophrenia were akathisia, oral hypoesthesia, and somnolence. The safety profile of asenapine in the maintenance treatment of schizophrenia in adults was similar to that seen with acute treatment. The most common adverse reactions (>=5% and at least twice the rate of placebo) reported with acute monotherapy treatment of manic or mixed episodes associated with bipolar disorder in adults were somnolence, oral hypoesthesia dizziness, extrapyramidal symptoms (excluding akathisia) and akathisia; and during the adjunctive therapy trial in bipolar disorder in adults were somnolence and oral hypoesthesia. The rates were lower at the mg twice daily dose than the 10mg twice daily dose for all of these most common adverse reactions. The safety profile of asenapine in the maintenance treatment of manic or mixed episodes associated with bipolar disorder in adults was similar to that seen with acute treatment. The adult information below is derived from clinical trial database for asenapine consisting of over 5355 patients and/or healthy subjects exposed to one or more sublingual doses of asenapine. total of 1427 asenapine-treated patients were treated for at least 24 weeks and 785 asenapine-treated patients had at least 52 weeks of exposure at therapeutic doses. In 3-week monotherapy trial, the most common adverse reactions (>=5% and at least twice the rate of placebo) reported in pediatric patients with bipolar disorder treated with asenapine were somnolence, dizziness, dysgeusia, oral hypoesthesia, nausea, increased appetite, fatigue, and increased weight. No new major safety findings were reported from 50-week, open-label, uncontrolled safety trial. total of 651 pediatric patients were treated with asenapine. Of these patients, 352 pediatric patients were treated with asenapine for at least 180 days and 58 pediatric patients treated with asenapine had at least year of exposure. The safety of asenapine was evaluated in 403 pediatric patients with bipolar disorder who participated in 3-week, placebo-controlled, double-blind trial, of whom 302 patients received asenapine at fixed doses ranging from 2.5 mg to 10 mg twice daily. The stated frequencies of adverse reactions represent the proportion of individuals who experienced treatment-emergent adverse event of the type listed. reaction was considered treatment emergent if it occurred for the first time or worsened while receiving therapy following baseline evaluation.. Use in Elderly Patients with Dementia-Related Psychosis [see Boxed Warning and Warnings and Precautions 5.1 and 5.2 )] Neuroleptic Malignant Syndrome [see Warnings and Precautions 5.3 )] Tardive Dyskinesia [see Warnings and Precautions 5.4 )] Metabolic Changes [see Warnings and Precautions 5.5 )] Hypersensitivity Reactions [see Contraindications, Warnings and Precautions 5.6 )] Orthostatic Hypotension, Syncope, and other Hemodynamic Effects [see Warnings and Precautions 5.7 )] Falls [see Warnings and Precautions 5.8 )] Leukopenia, Neutropenia, and Agranulocytosis [see Warnings and Precautions 5.9 )] QT Interval Prolongation [see Warnings and Precautions 5.10 )] Hyperprolactinemia [see Warnings and Precautions 5.11 )] Seizures [see Warnings and Precautions 5.12 )] Potential for Cognitive and Motor Impairment [see Warnings and Precautions 5.13 )] Body Temperature Regulation [see Warnings and Precautions 5.14 )] Dysphagia [see Warnings and Precautions 5.15 )] The most commonly observed adverse reactions (incidence >=5% and at least twice that for placebo) were (6.1):Schizophrenia Adults: akathisia, oral hypoesthesia, somnolence. Bipolar Disorder Adults (Monotherapy): somnolence, oral hypoesthesia, dizziness, extrapyramidal symptoms (excluding akathisia) and akathisia. Bipolar Disorder Pediatric Patients (Monotherapy): somnolence, dizziness, dysgeusia, oral paresthesia, nausea, increased appetite, fatigue, increased weight. Bipolar Disorder Adults (Adjunctive): somnolence, oral hypoesthesia.To report SUSPECTED ADVERSE REACTIONS, contact Greenstone LLC at 1-800-438-1985 or FDA at 1-800-FDA-1088 or www.fda.gov/medwatch.. Schizophrenia Adults: akathisia, oral hypoesthesia, somnolence. Bipolar Disorder Adults (Monotherapy): somnolence, oral hypoesthesia, dizziness, extrapyramidal symptoms (excluding akathisia) and akathisia. Bipolar Disorder Pediatric Patients (Monotherapy): somnolence, dizziness, dysgeusia, oral paresthesia, nausea, increased appetite, fatigue, increased weight. Bipolar Disorder Adults (Adjunctive): somnolence, oral hypoesthesia.. 6.1 Clinical Trials Experience. Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of drug cannot be directly compared to rates in the clinical trials of another drug and may not reflect the rates observed in practice. Adult Patients with Schizophrenia: The following findings are based on the short-term placebo-controlled pre-marketing trials for schizophrenia (a pool of three 6-week fixed-dose trials and one 6-week flexible-dose trial) in which sublingual asenapine was administered in doses ranging from to 10 mg twice daily. Adverse Reactions Associated with Discontinuation of Treatment: total of 9% of asenapine-treated patients and 10% of placebo-treated patients discontinued due to adverse reactions. There were no drug-related adverse reactions associated with discontinuation in patients treated with asenapine at the rate of at least 1% and at least twice the placebo rate. Adverse Reactions Occurring at an Incidence of 2% or More in senapine -Treated Patients with Schizophrenia Adverse reactions associated with the use of asenapine (incidence of 2% or greater, rounded to the nearest percent, and asenapine incidence greater than placebo) that occurred during acute therapy (up to 6-weeks in patients with schizophrenia) are shown in Table 8.Table 8: Adverse Reactions Reported in 2% or More of Adult Patients in Any Asenapine Dose Group and Which Occurred at Greater Incidence Than in the Placebo Group in 6-Week Schizophrenia TrialsSystem Organ Class/ Preferred TermPlaceboN=378%asenapine mg twice dailyN=274%asenapine 10 mg twice dailyN=208%All asenapine5 mg or 10 mg twice daily N=572%Gastrointestinal disordersConstipation6745Dry mouth1312Oral hypoesthesia1675Salivary hypersecretion0<142Stomach discomfort1<132Vomiting5475General disordersFatigue3433Irritability<1212InvestigationsIncreased weight <1223Metabolism disordersIncreased appetite<1302Nervous system disordersAkathisia34116Dizziness4735Extrapyramidal symptoms (excluding akathisia)+ 791210Somnolence 7151313Psychiatric disordersInsomnia13161515Vascular disordersHypertension2232 Akathisia includes: akathisia and hyperkinesia.+ Extrapyramidal symptoms included dystonia, oculogyration, dyskinesia, tardive dyskinesia, muscle rigidity, parkinsonism, tremor, and extrapyramidal disorder (excluding akathisia). Somnolence includes the following events: somnolence, sedation, and hypersomnia. Also includes the Flexible-dose trial (N=90). Dose-Related Adverse Reactions: In the short term schizophrenia trials the incidence of akathisia appeared to be dose-related (see Table 8). Monotherapy in Adult Patients with Bipolar Mania: The following findings are based on the short-term placebo-controlled trials for bipolar mania (a pool of two 3-week flexible-dose trials and one 3-week fixed-dose trial) in which sublingual asenapine was administered in doses of mg or 10 mg twice daily. Adverse Reactions Associated with Discontinuation of Treatment: Approximately 10% (61/620) of asenapine-treated patients in short-term, placebo-controlled trials discontinued treatment due to an adverse reaction, compared with about 7% (22/329) on placebo. There were no adverse reactions associated with discontinuation in patients treated with asenapine at the rate of at least 1% and at least twice the placebo rate. Adverse Reactions Occurring at an Incidence of 2% or More Among senapine -Treated (Monotherapy patients with Bipolar Disorder Adverse reactions associated with the use of asenapine (incidence of 2% or greater, rounded to the nearest percent, and asenapine incidence greater than placebo) that occurred during acute monotherapy (up to 3-weeks in patients with bipolar mania) are shown in Table 9.Table 9: Adverse Reactions Reported in 2% or More of Adult Patients in Any Asenapine Dose Group and Which Occurred at Greater Incidence Than in the Respective Placebo Group in 3-Week Bipolar Mania Fixed and Flexible Dose TrialsSystem Organ Class/Preferred Term(Fixed Dose Study)AllPlaceboaAll asenapine mg or 10 mg twice dailybPlaceboasenapine5 mg twice dailyasenapine 10 mg twice dailyN=126%N=122%N=119%N=329%N=620%Gastrointestinal disorders Oral Hypoesthesiac 21324110Nausea345 55Constipation 243 44Dyspepsiah 64544Vomiting21333Abdominal Paind 02 33Dry Mouth53123Toothache 12223General disordersFatiguee 225 24Infections and InfestationsNasopharyngitisi 21523Investigations Weight Increase 10113Alanine Aminotransferase Increase00301Metabolism disordersIncreased appetite21624Musculoskeletal and connective tissue disordersArthralgia112 12Nervous system disordersSomnolencef 42026 523Dizziness53548Extrapyramidal symptoms (excluding akathisia)g 771148Akathisia 141526Dysgeusia 039<14Psychiatric Disorders Bipolar Disorder/Mania 38356Agitation14334Anxiety30323a Includes fixed and flexible dose trialsb Asenapine mg to 10 mg twice daily with fixed and flexible dosing.c Oral Hypoesthesia includes the preferred terms: oral hypoesthesia, oral paresthesia, and oral dysaesthesia.d Abdominal pain includes the preferred terms: abdominal pain, abdominal pain upper, abdominal pain lower, and abdominal discomfort.e Fatigue includes the preferred terms: fatigue and lethargy.f Somnolence includes the preferred terms: somnolence, sedation, and hypersomnia. Extrapyramidal symptoms (excluding akathisia) includes the preferred terms: dyskinesia, dystonia, resting tremor, tremor, oromandibular dystonia, myoclonus, muscle spasms, muscle rigidity, musculoskeletal stiffness, muscle contractions involuntary, blepharospasm, tongue disorder, and Parkinsonism. Dyspepsia includes the preferred terms: dyspepsia and gastroesophageal reflux disease.i Nasopharyngitis includes the preferred terms: nasopharyngitis and upper respiratory tract infection. Bipolar Disorder/Mania includes the preferred terms: bipolar disorder, bipolar disorder and mania. Monotherapy in Pediatric Patients with Bipolar Mania: The following findings are based on 3-week, placebo-controlled trial for bipolar mania in which asenapine was administered at doses of 2.5 mg, mg, or 10 mg twice daily. Adverse Reactions Leading to Discontinuation of Treatment: total of 6.7% (7/104) of patients treated with asenapine 2.5 mg twice daily, 5.1% (5/99) of patients treated with asenapine mg twice daily, and 5.1% (5/99) of patients treated with asenapine 10 mg twice daily discontinued treatment due to adverse reactions compared to 4% (4/101) on placebo. The most common adverse reactions that led to discontinuation in pediatric patients treated with asenapine (rates at least 2% in any asenapine arm and at least twice the placebo rate) were somnolence (3% in the 2.5 mg twice daily group, 1% in the 5mg twice daily group, and 2% in the 10 mg twice daily group), abdominal pain (2% in the 10 mg twice daily group), and nausea (2% in the 10 mg twice daily group). No placebo-treated patients dropped out for these events. Adverse Reactions Occurring with senapine at an Incidence of 2% or More in senapine -treated Bipolar Patients: Adverse reactions associated with the use of asenapine (incidence of >=2% in any asenapine dose group and greater than placebo) that occurred during acute therapy are shown in Table 10.Table 10: Adverse Reactions Reported in 2% or More of Pediatric Patients (Ages 10 to 17 Years) in Any Asenapine Dose Group and Which Occurred at Greater Incidence Than in the Placebo Group in 3-Week Bipolar Mania TrialSystem Organ Class/AE Preferred TermPlaceboasenapine2.5 mgtwice dailyasenapine5 mgtwice dailyasenapine10 mgtwice dailyAll asenapine2.5 mg, mg, and 10 mgN=101%N=104%N=99%N=99%N=302%Cardiac Disorders Tachycardia1 03011Gastrointestinal Disorders Oral hypoesthesia2425253027 Nausea36666Vomiting34444 Abdominal pain3 79356 Glossodynia00201General Disorders and Administrative Site Disorders Fatigue4 548149 Irritability11121Injury, Poisoning, and Procedural Complications Muscle strain00021Investigations Increased weight06223 Hyperinsulinemia5 01312 ALT increased00021 AST increased00021Metabolism and Nutrition Disorders Increased appetite210968 Dehydration10201Musculoskeletal and Connective Tissue Disorders Myalgia00211Nervous System Disorders Somnolence6 1246534949 Headache681199 Dizziness361057 Dysgeusia24596 Akathisia02212 Parkinsonism01021Psychiatric Disorders Insomnia33433 Suicidal ideation14133 Anger00021Reproductive System and Breast Disorders Dysmenorrhea10201Respiratory, Thoracic, and Mediastinal Disorders Oropharyngeal pain20311 Nasal congestion10201 Dyspnea00201Skin and Subcutaneous Tissue Disorders Rash10121 Includes the preferred terms tachycardia and heart rate increased. Includes the preferred terms oral hypoesthesia, oral paresthesia, and oral dysesthesia. Includes the preferred terms abdominal pain, abdominal pain upper, abdominal pain lower, and abdominal discomfort. Includes the preferred terms fatigue and lethargy. Includes the preferred terms hyperinsulinemia and blood insulin increased. Includes the preferred terms somnolence, sedation, and hypersomnia. Dose-Related Adverse Reactions: In the short term pediatric bipolar trial the incidence of fatigue appeared to be dose-related (see Table 10). Adjunctive Therapy in Adult Patients with Bipolar Mania: The following findings are based on 12 week placebo-controlled trial (with 3 week efficacy endpoint) in adult patients with bipolar mania in which sublingual asenapine was administered in doses of mg or 10 mg twice daily as adjunctive therapy with lithium or valproate. Adverse Reactions Associated with Discontinuation of Treatment: Approximately 16% (25/158) of asenapine-treated patients discontinued treatment due to an adverse reaction, compared with about 11% (18/166) on placebo. The most common adverse reactions associated with discontinuation in subjects treated with asenapine (rates at least 1% and at least twice the placebo rate) were depression (2.5%), suicidal ideation (2.5%), bipolar disorder (1.9%), insomnia (1.9%) and depressive symptoms (1.3%). Adverse Reactions Occurring at an Incidence of 2% or More Among senapine -Treated (Adjunctive) Bipolar Patients: Adverse reactions associated with the use of asenapine (incidence of 2% or greater, rounded to the nearest percent, and asenapine incidence greater than placebo) that occurred during acute adjunctive therapy at weeks, time when most of the patients were still participating in the trial, are shown in Table 11.Table 11: Adverse Reactions Reported in 2% or More of Adult Patients In Any Asenapine-Dose Group and Which Occurred at Greater Incidence Than in the Placebo Group at Weeks in Adjunctive Bipolar Mania TrialsSystem Organ Class/Preferred TermPlaceboN=166%asenapine5 mg or 10 mg twice dailyN=158%Gastrointestinal disordersDyspepsia23Oral hypoesthesia05General disordersFatigue24Edema peripheral<13InvestigationsIncreased weight03Nervous system disordersDizziness24Other extrapyramidal symptoms (excluding akathisia)+ 56Somnolence 1022Psychiatric disordersInsomnia810Vascular disordersHypertension<13 Asenapine mg to 10 mg twice daily with flexible dosing.+ Extrapyramidal symptoms included: dystonia, parkinsonism, oculogyration, and tremor (excluding akathisia). Somnolence includes the following events: somnolence and sedation. Dystonia: Symptoms of dystonia, prolonged abnormal contractions of muscle groups, may occur in susceptible individuals during the first few days of treatment. Dystonic symptoms include: spasm of the neck muscles, sometimes progressing to tightness of the throat, swallowing difficulty, difficulty breathing, and/or protrusion of the tongue. While these symptoms can occur at low doses, they occur more frequently and with greater severity with high potency and at higher doses of first generation antipsychotic drugs. An elevated risk of acute dystonia is observed in males and younger age groups [see Dosage and Administration 2.3 ), Use in Specific Populations 8.4 ), and Clinical Pharmacology 12.3 )]. Extrapyramidal Symptoms: In the short-term, placebo-controlled schizophrenia and bipolar mania adult trials, data was objectively collected on the Simpson Angus Rating Scale for extrapyramidal symptoms (EPS), the Barnes Akathisia Scale (for akathisia) and the Assessments of Involuntary Movement Scales (for dyskinesias). The mean change from baseline for the all-asenapine mg or 10 mg twice daily treated group was comparable to placebo in each of the rating scale scores. In the short-term, placebo-controlled schizophrenia adult trials, the incidence of reported EPS-related events, excluding events related to akathisia, for asenapine-treated patients was 10% versus 7% for placebo; and the incidence of akathisia-related events for asenapine-treated patients was 6% versus 3% for placebo. In short-term placebo-controlled bipolar mania adult trials, the incidence of EPS-related events, excluding events related to akathisia, for asenapine-treated patients was 8% versus 4% for placebo; and the incidence of akathisia-related events for asenapine-treated patients was 7% versus 3% for placebo. The incidence rates of all EPS events (including akathisia) were lower at the mg twice daily dose (11% of N=122) than the 10 mg twice daily dose (25% of N=119) in fixed-dose study. In 3-week, placebo-controlled pediatric trial with bipolar disorder, the incidences of EPS-related events, excluding events related to akathisia, were 4%, 3%, and 5% for patients treated with asenapine 2.5 mg, mg, and 10 mg twice daily, respectively, as compared to 3% for placebo-treated patients. EPS-related events include: bradykinesia, dyskinesia, dystonia, oromandibular dystonia, muscle contractions involuntary, muscle twitching, musculoskeletal stiffness, parkinsonism, protrusion tongue, resting tremor, and tremor. For events of akathisia, incidences were 2%, 2%, and 1% for pediatric patients treated with asenapine 2.5 mg, mg, and 10 mg twice daily, respectively, as compared to 0% for placebo-treated patients. Other Findings: Oral hypoesthesia and/or oral paresthesia may occur directly after administration of asenapine and usually resolves within hour. Laboratory Test Abnormalities: Transaminases: Transient elevations in serum transaminases (primarily ALT) in the short-term schizophrenia and bipolar mania adult trials were more common in treated patients. In short-term, placebo-controlled schizophrenia adult trials, the mean increase in transaminase levels for asenapine-treated patients was 1.6 units/L compared to decrease of 0.4 units/L for placebo-treated patients. The proportion of patients with transaminase elevations >=3 times ULN (at Endpoint) was 0.9% for asenapine-treated patients versus 1.3% for placebo-treated patients. In short-term, placebo-controlled bipolar mania adult trials, the mean increase in transaminase levels for asenapine-treated patients was 6.1 units/L compared to decrease of 3.9 units/L in placebo-treated patients. The proportion of patients with transaminase elevations >=3 times upper limit of normal (ULN) (at Endpoint) was 2.1% for asenapine-treated patients versus 0.7% for placebo-treated patients. The incidence rate of transaminase elevations >=3 times ULN is 3% of N=95 for 10 mg twice daily dose, and 0% of N=108 for the mg twice daily dose and 0% of N=115 for placebo in fixed-dose study. In 52-week, double-blind, comparator-controlled trial that included primarily adult patients with schizophrenia, the mean increase from baseline of ALT was 1.7 units/L. In 3-week, placebo-controlled pediatric trial with bipolar disorder, transient elevations in serum transaminases (primarily ALT) were more common in treated patients. The proportion of pediatric patients with ALT elevations >=3 times upper limit of normal (ULN) was 2.4% for patients treated with asenapine 10 mg twice daily versus none for the other asenapine dose groups and placebo-treated patients. Prolactin: In short-term, placebo-controlled adult schizophrenia trials, the mean decreases in prolactin levels were 6.5 ng/mL for asenapine-treated patients compared to 10.7 ng/mL for placebo-treated patients. The proportion of patients with prolactin elevations >=4 times ULN (at Endpoint) were 2.6% for asenapine-treated patients versus 0.6% for placebo-treated patients. In short-term, placebo-controlled bipolar mania adult trials, the mean increase in prolactin levels was 6.7ng/mL for asenapine-treated patients compared to decrease of 1.0 ng/mL for placebo-treated patients. The proportion of patients with prolactin elevations >=4 times ULN (at Endpoint) were 2.0% for asenapine-treated patients versus 0.8% for placebo-treated patients. In long-term (52-week), double-blind, comparator-controlled adult trial that included primarily patients with schizophrenia, the mean decrease in prolactin from baseline for asenapine-treated patients was 26.9 ng/mL. In 3-week, placebo-controlled pediatric trial with bipolar disorder, the mean increases (at Endpoint) in prolactin levels were 3.2 ng/mL for patients treated with asenapine 2.5 mg twice daily, 2.1 ng/mL for patients treated with asenapine mg twice daily, and 6.4 ng/mL for patients treated with asenapine 10 mg twice daily compared to an increase of 2.5 ng/mL for placebo-treated patients. There were no reports of prolactin elevations >=4 times ULN (at Endpoint) for patients treated with asenapine or placebo. Galactorrhea or dysmenorrhea were reported in 0% of patients treated with asenapine 2.5 mg twice daily, 2% of patients treated with asenapine mg twice daily, and 1% of patients treated with asenapine 10 mg twice daily compared to 1% of placebo-treated patients. There were no reports of gynecomastia in this trial. Creatine Kinase (CK): The proportion of adult patients with CK elevations >3 times ULN at any time were 6.4% and 11.1% for patients treated with asenapine mg twice daily and 10 mg twice daily, respectively, as compared to 6.7% for placebo-treated patients in pre-marketing short-term, fixed-dose trials in schizophrenia and bipolar mania. The clinical relevance of this finding is unknown. The proportion of patients with CK elevations >=3 times ULN during 3-week trial in pediatric bipolar disorder at any time were 1%, 0%, and 1% for patients treated with asenapine 2.5 mg, mg, and 10 mg twice daily, respectively, versus 3% for placebo-treated patients. ther Adverse Reactions Observed During the Premarketing Evaluation of Asenapine Following is list of MedDRA terms that reflect adverse reactions reported by patients treated with sublingual asenapine at multiple doses of >=5 mg twice daily during any phase of trial within the database of adult patients. The reactions listed are those that could be of clinical importance, as well as reactions that are plausibly drug-related on pharmacologic or other grounds. Reactions already listed for either adults or pediatric patients in other parts of Adverse Reactions 6 ), or those considered in Contraindications 4 ), Warnings and Precautions 5 or Overdosage 10 are not included. Reactions are further categorized by MedDRA system organ class and listed in order of decreasing frequency according to the following definitions: those occurring in at least 1/100 patients (frequent) (only those not already listed in the tabulated results from placebo-controlled trials appear in this listing); those occurring in 1/100 to 1/1,000 patients (infrequent); and those occurring in fewer than 1/1,000 patients (rare).Blood and lymphatic disorders: infrequent anemia; rare thrombocytopenia Cardiac disorders: infrequent: temporary bundle branch block Eye disorders: infrequent accommodation disorderGastrointestinal disorders: infrequent swollen tongue General disorders: rare idiosyncratic drug reaction Investigations: infrequent hyponatremia Nervous system disorders: infrequent dysarthria Following is list of MedDRA terms not already listed either for adults or pediatric patients in other parts of Adverse Reactions 6 ), or those considered in Contraindications 4 ), Warnings and Precautions 5 or Overdosage 10 that reflect adverse reactions reported by pediatric patients (Ages 10 to 17 years) treated with sublingual asenapine at doses of 2.5 mg, mg, or 10 mg twice daily during any phase of trial within the database of pediatric patients.Eye disorders: infrequent: diplopia, vision blurredGastrointestinal disorders: infrequent: gastroesophageal reflux disease Injury, Poisoning, and Procedural Complication : infrequent: fall Skin and subcutaneous tissue disorders: infrequent photosensitivity reaction Renal and urinary disorders: infrequent: enuresis. 6.2 Postmarketing Experience The following adverse reactions have been identified during post-approval use of asenapine. Because these reactions are reported voluntarily from population of uncertain size, it is not always possible to establish causal relationship to drug exposure. In many cases, the occurrence of these adverse reactions led to discontinuation of therapy. Application site reactions, primarily in the sublingual area, have been reported. These application site reactions included oral ulcers, blisters, peeling/sloughing, and inflammation. Choking has been reported by patients, some of whom may have also experienced oropharyngeal muscular dysfunction or hypoesthesia.

BOXED WARNING SECTION.

WARNING: INCREASED MORTALITY IN ELDERLY PATIENTS WITH DEMENTIA-RELATED PSYCHOSIS. Elderly patients with dementia-related psychosis treated with antipsychotic drugs are at an increased risk of death. Asenapine is not approved for the treatment of patients with dementia-related psychosis [see Warnings and Precautions (5.1, 5.2)].. WARNING: INCREASED MORTALITY IN ELDERLY PATIENTS WITH DEMENTIA-RELATED PSYCHOSISSee full prescribing information for complete boxed warning.Elderly patients with dementia-related psychosis treated with antipsychotic drugs are at an increased risk of death. Asenapine is not approved for the treatment of patients with dementia-related psychosis. (5.1, 5.2).

DRUG INTERACTIONS SECTION.

7 DRUG INTERACTIONS. Antihypertensive Drugs: Asenapine may cause hypotension. (5.7, 7.1, 12.3) Paroxetine (CYP2D6 substrate and inhibitor): Reduce paroxetine by half when used in combination with asenapine. (7.1, 12.3). Antihypertensive Drugs: Asenapine may cause hypotension. (5.7, 7.1, 12.3) Paroxetine (CYP2D6 substrate and inhibitor): Reduce paroxetine by half when used in combination with asenapine. (7.1, 12.3). 7.1 Drugs Having Clinically Important Drug Interactions with Asenapine Table 12: Clinically Important Drug Interactions with AsenapineConcomitant Drug Name or Drug ClassClinical RationaleClinical RecommendationAntihypertensive Drugs Because of its 1-adrenergic antagonism with potential for inducing hypotension, Asenapine may enhance the effects of certain antihypertensive agents [see Warnings and Precautions 5.7 )].Monitor blood pressure and adjust dosage of antihypertensive drug accordingly.Strong CYP1A2 Inhibitors (e.g., Fluvoxamine)Asenapine is metabolized by CYP1A2. Marginal increase of asenapine exposure was observed when Asenapine is used with fluvoxamine at 25 mg administered twice daily see Clinical Pharmacology 12.3 )]. However, the tested fluvoxamine dose was suboptimal. Full therapeutic dose of fluvoxamine is expected to cause greater increase in asenapine exposure. Dosage reduction for Asenapine based on clinical response may be necessary. CYP2D6 substrates and inhibitors (e.g., paroxetine)Asenapine may enhance the inhibitory effects of paroxetine on its own metabolism. Concomitant use of paroxetine with asenapine increased the paroxetine exposure by 2-fold as compared to use paroxetine alone [see Clinical Pharmacology 12.3 )]. Reduce paroxetine dose by half when paroxetine is used in combination with asenapine.. 7.2 Drugs Having No Clinically Important Interactions with Asenapine No dosage adjustment of asenapine is necessary when administered concomitantly with paroxetine (see Table 12 in Drug Interactions (7.1) for paroxetine dosage adjustment), imipramine, cimetidine, valporate, lithium, or CYP3A4 inducer (e.g., carbamazepine, phenytoin, rifampin). In addition, valproic acid and lithium pre-dose serum concentrations collected from an adjunctive therapy study were comparable between asenapine-treated patients and placebo-treated patients indicating lack of effect of asenapine on valproic and lithium plasma levels.

CARCINOGENESIS & MUTAGENESIS & IMPAIRMENT OF FERTILITY SECTION.

13.1 Carcinogenesis, Mutagenesis, Impairment of Fertility. Carcinogenesis: In lifetime carcinogenicity study in CD-1 mice asenapine was administered subcutaneously at doses up to those resulting in plasma levels (AUC) estimated to be times those in humans receiving the MRHD of 10 mg twice daily. The incidence of malignant lymphomas was increased in female mice, with no-effect dose resulting in plasma levels estimated to be 1.5 times those in humans receiving the MRHD. The mouse strain used has high and variable incidence of malignant lymphomas, and the significance of these results to humans is unknown. There were no increases in other tumor types in female mice. In male mice, there were no increases in any tumor type. In lifetime carcinogenicity study in Sprague-Dawley rats, asenapine did not cause any increases in tumors when administered subcutaneously at doses up to those resulting in plasma levels (AUC) estimated to be times those in humans receiving the MRHD. Mutagenesis: No evidence for genotoxic potential of asenapine was found in the in vitro bacterial reverse mutation assay, the in vitro forward gene mutation assay in mouse lymphoma cells, the in vitro chromosomal aberration assays in human lymphocytes, the in vitro sister chromatid exchange assay in rabbit lymphocytes, or the in vivo micronucleus assay in rats. Impairment of Fertility: Asenapine did not impair fertility in rats when tested at doses up to 11 mg/kg twice daily given orally. This dose is 10 times the maximum recommended human dose of 10 mg twice daily given sublingually on mg/m2 basis.

CLINICAL PHARMACOLOGY SECTION.

12 CLINICAL PHARMACOLOGY. Figure 1. Figure 2. Figure 3. 12.1 Mechanism of Action. The mechanism of action of asenapine, in schizophrenia and bipolar disorder, is unknown. It has been suggested that the efficacy of asenapine in schizophrenia could be mediated through combination of antagonist activity at D2 and 5-HT2A receptors.. 12.2 Pharmacodynamics. Asenapine exhibits high affinity for serotonin 5-HT1A, 5-HT1B, 5-HT2A, 5-HT2B, 5-HT2C, 5-HT5A, 5-HT6, and 5-HT7 receptors (Ki values of 2.5, 2.7, 0.07, 0.18, 0.03, 1.6, 0.25, and 0.11 nM, respectively), dopamine D2A, D2B, D3, D4, and D1 receptors (Ki values of 1.3, 1.4, 0.42, 1.1, and 1.4 nM, respectively), 1A, 2A, 2B, and 2C -adrenergic receptors (Ki values of 1.2, 1.2, 0.33 and 1.2 nM, respectively), and histamine H1 receptors (Ki value 1.0 nM), and moderate affinity for H2 receptors (Ki value of 6.2 nM). In in vitro assays asenapine acts as an antagonist at these receptors. Asenapine has no appreciable affinity for muscarinic cholinergic receptors (e.g., Ki value of 8128 nM for M1).. 12.3 Pharmacokinetics. Following single mg dose of asenapine, the mean Cmax was approximately ng/mL and was observed at mean tmax of hour. Elimination of asenapine is primarily through direct glucuronidation by UGT1A4 and oxidative metabolism by cytochrome P450 isoenzymes (predominantly CYP1A2). Following an initial more rapid distribution phase, the mean terminal half-life is approximately 24 hrs. With multiple-dose twice-daily dosing, steady-state is attained within days. Overall, steady-state asenapine pharmacokinetics are similar to single-dose pharmacokinetics. Absorption: Following sublingual administration, asenapine is rapidly absorbed with peak plasma concentrations occurring within 0.5 to 1.5 hours. The absolute bioavailability of sublingual asenapine at mg is 35%. Increasing the dose from mg to 10 mg twice daily (a two-fold increase) results in less than linear (1.7 times) increases in both the extent of exposure and maximum concentration. The absolute bioavailability of asenapine when swallowed is low (<2% with an oral tablet formulation). The intake of water several (2 or 5) minutes after asenapine administration resulted in decreased asenapine exposure. Therefore, eating and drinking should be avoided for 10 minutes after administration [see Dosage and Administration 2.1 )]. Distribution: Asenapine is rapidly distributed and has large volume of distribution (approximately 20 25 L/kg), indicating extensive extravascular distribution. Asenapine is highly bound (95%) to plasma proteins, including albumin and 1-acid glycoprotein. Metabolism and Elimination: Direct glucuronidation by UGT1A4 and oxidative metabolism by cytochrome P450 isoenzymes (predominantly CYP1A2) are the primary metabolic pathways for asenapine. Asenapine is high clearance drug with clearance after intravenous administration of 52 L/h. In this circumstance, hepatic clearance is influenced primarily by changes in liver blood flow rather than by changes in the intrinsic clearance, i.e., the metabolizing enzymatic activity. Following an initial more rapid distribution phase, the terminal half-life of asenapine is approximately 24 hours. Steady-state concentrations of asenapine are reached within days of twice daily dosing. After administration of single dose of [14C]-labeled asenapine, about 90% of the dose was recovered; approximately 50% was recovered in urine, and 40% recovered in feces. About 50% of the circulating species in plasma have been identified. The predominant species was asenapine N+-glucuronide; others included N-desmethylasenapine, N-desmethylasenapine N-carbamoyl glucuronide, and unchanged asenapine in smaller amounts. Asenapine activity is primarily due to the parent drug. In vitro studies indicate that asenapine is substrate for UGT1A4, CYP1A2 and to lesser extent CYP3A4 and CYP2D6. Asenapine is weak inhibitor of CYP2D6. Asenapine does not cause induction of CYP1A2 or CYP3A4 activities in cultured human hepatocytes. Coadministration of asenapine with known inhibitors, inducers or substrates of these metabolic pathways has been studied in number of drug-drug interaction studies see Drug Interactions 7.1 )]. Food: crossover study in 26 healthy adult male subjects was performed to evaluate the effect of food on the pharmacokinetics of single mg dose of asenapine. Consumption of food immediately prior to sublingual administration decreased asenapine exposure by 20%; consumption of food hours after sublingual administration decreased asenapine exposure by about 10%. These effects are probably due to increased hepatic blood flow. In clinical trials establishing the efficacy and safety of asenapine, patients were instructed to avoid eating for 10 minutes following sublingual dosing. There were no other restrictions with regard to the timing of meals in these trials see Dosage and Administration 2.1 ]. Water: In clinical trials establishing the efficacy and safety of asenapine, patients were instructed to avoid drinking for 10 minutes following sublingual dosing. The effect of water administration following 10 mg sublingual asenapine dosing was studied at different time points of 2, 5, 10, and 30 minutes in 15 healthy adult male subjects. The exposure of asenapine following administration of water 10 minutes after sublingual dosing was equivalent to that when water was administered 30 minutes after dosing. Reduced exposure to asenapine was observed following water administration at minutes (19% decrease) and minutes (10% decrease) see Dosage and Administration 2.1 ]. Drug Interaction Studies: Effects of other drugs on the exposure of asenapine are summarized in Figure 1. In addition, population pharmacokinetic analysis indicated that the concomitant administration of lithium had no effect on the pharmacokinetics of asenapine.Figure 1: Effect of Other Drugs on Asenapine Pharmacokinetics The effects of asenapine on the pharmacokinetics of other co-administered drugs are summarized in Figure 2.Coadministration of paroxetine with asenapine caused two-fold increase in the maximum plasma concentrations and systemic exposure of paroxetine. Asenapine enhances the inhibitory effects of paroxetine on its own metabolism by CYP2D6.Figure 2: Effect of Asenapine on Other Drug Pharmacokinetics Studies in Special Populations: Exposures of asenapine in special populations are summarized in Figure 3. Additionally, based on population pharmacokinetic analysis, no effects of sex, race, BMI, and smoking status on asenapine exposure were observed. Exposure in elderly patients is 30-40% higher as compared to adults. Figure 3: Effect of Intrinsic Factors on Asenapine Pharmacokinetics.

CLINICAL STUDIES SECTION.

14 CLINICAL STUDIES. Efficacy of asenapinewas established in the following trials:Two fixed-dose, short-term trials and one flexible-dose, maintenance trial in adult patients with schizophrenia as monotherapy see Clinical Studies 14.1 )] One fixed-dose and two flexible-dose, short-term trials of monotherapy in adults with manic or mixed episodes associated with bipolar disorder [see Clinical Studies 14.2 )] One flexible-dose, maintenance trial of monotherapy in adults with bipolar disorder [see Clinical Studies 14.2 )] One fixed-dose, short term trial of monotherapy in children (10 to 17 years) with manic or mixed episodes associated with bipolar disorder [see Clinical Studies 14.2 )] One flexible-dose, short-term trial in adult patients with manic or mixed episode associated with bipolar disorder as adjunctive treatment to lithium or valproate [see Clinical Studies 14.2 )] Two fixed-dose, short-term trials and one flexible-dose, maintenance trial in adult patients with schizophrenia as monotherapy see Clinical Studies 14.1 )] One fixed-dose and two flexible-dose, short-term trials of monotherapy in adults with manic or mixed episodes associated with bipolar disorder [see Clinical Studies 14.2 )] One flexible-dose, maintenance trial of monotherapy in adults with bipolar disorder [see Clinical Studies 14.2 )] One fixed-dose, short term trial of monotherapy in children (10 to 17 years) with manic or mixed episodes associated with bipolar disorder [see Clinical Studies 14.2 )] One flexible-dose, short-term trial in adult patients with manic or mixed episode associated with bipolar disorder as adjunctive treatment to lithium or valproate [see Clinical Studies 14.2 )] Figure 4. Figure 5. 14.1 Schizophrenia. The efficacy of asenapine in the treatment of schizophrenia in adults was evaluated in three fixed-dose, short-term (6 week), randomized, double-blind, placebo-controlled, and active-controlled (haloperidol, risperidone, and olanzapine) trials of adult patients who met DSM-IV criteria for schizophrenia and were having an acute exacerbation of their schizophrenic illness. In two of the three trials asenapine demonstrated superior efficacy to placebo. In third trial, asenapine could not be distinguished from placebo; however, an active control in that trial was superior to placebo. In the two positive trials for asenapine, the primary efficacy rating scale was the Positive and Negative Syndrome Scale (PANSS). The PANSS is 30 text scale that measures positive symptoms of schizophrenia (7 texts), negative symptoms of schizophrenia (7 texts), and general psychopathology (16 texts), each rated on scale of (absent) to (extreme); total PANSS scores range from 30 to 210. The primary endpoint was change from baseline to endpoint on the PANSS total score. The results of the asenapine trials in schizophrenia follow: In trial 1, 6-week trial (n=174), comparing asenapine (5 mg twice daily) to placebo, asenapine mg twice daily was statistically superior to placebo on the PANSS total score (Trial in Table 13). In trial 2, 6-week trial (n=448), comparing two fixed doses of asenapine (5 mg and 10 mg twice daily) to placebo, asenapine mg twice daily was statistically superior to placebo on the PANSS total score. Asenapine 10 mg twice daily showed no added benefit compared to mg twice daily and was not significantly different from placebo (Trial in Table 13). An examination of population subgroups did not reveal any clear evidence of differential responsiveness on the basis of age, sex or race. Table 13: Short-Term Schizophrenia Trials Establishing Efficacy in AdultsTrial NumberTreatment GroupPrimary Efficacy Measure: PANSS Total ScoreMean Baseline Score (SD)LS Mean Change from Baseline (SE)Placebo-subtracted Differencea (95% CI)Trial 1asenapine mg twice daily96.5 (16.4)-14.4 (2.6)-9.7 (-17.6, -1.8)Placebo92.4 (14.9)-4.6 (2.5)--Trial 2asenapine mg twice daily89.2 (12.0)-16.2 (1.7)-5.5 (-10.7, -0.2)asenapine 10 mg twice daily89.1 (12.9)-14.9 (1.7)-4.1 (-9.4, 1.2)Placebo88.9 (11.7)-10.7 (1.6)--SD: standard deviation; SE: standard error; LS Mean: least-squares mean; CI: confidence interval, not adjusted for multiple comparisons. Difference (drug minus placebo) in least-squares mean change from baseline. Doses that are demonstrated to be effective. Maintenance of efficacy has been demonstrated in placebo-controlled, double-blind, multicenter, flexible dose (5 mg or 10 mg twice daily based on tolerability) clinical trial with randomized withdrawal design. All patients were initially administered mg twice daily for week and then titrated up to 10 mg twice daily. total of 700 patients entered open-label treatment with asenapine for period of 26 weeks. Of these, total of 386 patients who met pre-specified criteria for continued stability (mean length of stabilization was 22 weeks) were randomized to double-blind, placebo-controlled, randomized withdrawal phase. Asenapine was statistically superior to placebo in time to relapse or impending relapse defined as increase in PANSS >=20% from baseline and Clinical Global Impression-Severity of Illness (CGI-S) score >=4 (at least days within week) or PANSS score >=5 on hostility or uncooperativeness texts and CGI-S score >=4 (>=2 days within week), or PANSS score >=5 on any two of the following texts: unusual thought content, conceptual disorganization, or hallucinatory behavior texts, and CGI-S score >=4 (>=2 days within week) or investigator judgment of worsening symptoms or increased risk of violence to self (including suicide) or other persons. The Kaplan-Meier curves of the time to relapse or impending relapse during the double-blind, placebo-controlled, randomized withdrawal phase of this trial for asenapine and placebo are shown in Figure 4.Figure 4: Kaplan-Meier Estimation of Percent Relapse/Impending Relapse for asenapine and placebo. 14.2 Bipolar Disorder. Monotherapy Adults The efficacy of asenapine in the treatment of acute mania was established in two similarly designed 3-week, randomized, double-blind, placebo-controlled, and active-controlled (olanzapine) trials of adult patients who met DSM-IV criteria for Bipolar Disorder with an acute manic or mixed episode with or without psychotic features. The primary rating instrument used for assessing manic symptoms in these trials was the Young Mania Rating Scale (YMRS), an 11-text clinician-rated scale traditionally used to assess the degree of manic symptomatology in range from (no manic features) to 60 (maximum score). Patients were also assessed on the Clinical Global Impression Bipolar (CGI-BP) scale. In both trials, all patients randomized to asenapine were initially administered 10 mg twice daily, and the dose could be adjusted within the dose range of to 10 mg twice daily from Day onward based on efficacy and tolerability. Ninety percent of patients remained on the 10 mg twice daily dose. Asenapine was statistically superior to placebo on the YMRS total score and the CGI-BP Severity of Illness score (mania) in both studies (Trials and in Table 14). In another 3-week, randomized, double-blind, placebo-controlled trial (n=359), comparing two fixed doses of asenapine (5 mg and 10 mg twice daily) to placebo, both doses were statistically superior to placebo on the YMRS total score and CGI-BP Severity of Illness overall score. (Trial in Table 14). An examination of subgroups did not reveal any clear evidence of differential responsiveness on the basis of age, sex, or race. Maintenance of efficacy has been demonstrated in placebo-controlled, double-blind, multicenter, flexible dose (5 mg or 10 mg twice daily based on tolerability) clinical trial with randomized withdrawal design. All patients were initially administered or 10 mg twice daily, and the option to titrate down to mg twice daily was provided based on tolerability. total of 549 patients entered open-label treatment with asenapine for period of 12 to 16 weeks. Of these, total of 252 patients who met pre-specified criteria for continued stability were randomized to and treated in double-blind, placebo-controlled, randomized withdrawal phase. Asenapine was statistically superior to placebo in time to relapse defined as 1) YMRS or MADRS score >= 16; 2) requirement or initiation of any non-study medication to treat mixed, manic, or depressive symptoms, including an antipsychotic, antidepressant, or mood-stabilizing agent; 3) requirement or initiation of psychiatric hospitalization; 4) investigator judgment to discontinue the study due to mood event. The Kaplan-Meier curves of the time to relapse during the double-blind, placebo-controlled, randomized withdrawal phase of this trial for asenapine and placebo are shown in Figure 5.Figure 5: Kaplan-Meier Estimation of Percent Relapse for Asenapine and Placebo Time (days) represents the number of days from randomization in the double-blind period to the first date of achieving relapse status. The product limit estimators are based on the Kaplan-Meier distribution with censoring at last contact date. Pediatric patients: The efficacy of asenapine in the treatment of acute mania was established in single, 3-week, placebo-controlled, double-blind trial of 403 pediatric patients 10 to 17 years of age, of whom 302 patients received asenapine at fixed doses of 2.5 mg, mg and 10 mg twice daily. All patients were started on 2.5 mg twice daily. For those assigned to mg twice daily, the dose was increased to mg twice daily after days. For those assigned to 10 mg twice daily, the dose was increased from 2.5 to mg twice daily after days, and then to 10 mg twice daily after additional days. Asenapine was statistically superior to placebo in improving YMRS total score and the CGI-BP Severity of Illness overall score as measured by the change from baseline to week (Trial Pediatric in Table 14). An examination of subgroups did not reveal any clear evidence of differential responsiveness on the basis of age, sex, and race. Adjunctive Therapy: The efficacy of asenapine as an adjunctive therapy in acute mania was established in 12-week, placebo-controlled trial with 3-week primary efficacy endpoint involving 326 adult patients with manic or mixed episode of Bipolar Disorder, with or without psychotic features, who were partially responsive to lithium or valproate monotherapy after at least weeks of treatment. All patients randomized to asenapine were initially administered mg twice daily, and the dose could be adjusted within the dose range of to 10 mg twice daily from Day onward based on efficacy and tolerability. Asenapine was statistically superior to placebo in the reduction of manic symptoms (measured by the YMRS total score) as an adjunctive therapy to lithium or valproate monotherapy at Week (Trial Adjunctive in Table 14).Table 14: Acute Bipolar Trials Establishing Efficacy in Adults and Pediatric Patients 10 to 17 YearsStudy NumberTreatment GroupPrimary Efficacy Measure: YMRS Total ScoreMean Baseline Score (SD)LS Mean Change from Baseline (SE)Placebo-subtracted Differencea (95% CI)Trial 1asenapine 5-10 mg twice daily29.4 (6.7)-11.5 (0.8)-3.7 (-6.6, -0.7)Placebo28.3 (6.3)-7.8 (1.1)--Trial 2asenapine 5-10 mg twice daily28.3 (5.5)-10.8 (0.8)-5.3 (-8.0, -2.5)Placebo29.0 (6.1)-5.5 (1.0)--Trial 3asenapine mg twice dailyasenapine 10 mg twice dailyPlacebo29.7 (5.9)30.2 (5.4)30.0 (5.6)-14.4 (1.0)-14.9 (1.0)-10.9 (1.0)-3.5 (-6.3, -0.7)-4.0 (-6.9, -1.2)--Trial 4(Pediatric 10 to17 years)asenapine 2.5 mg twice daily29.5 (5.7)-12.8 (0.8)-3.2 (-5.6, -0.8)asenapine mg twice daily30.4 (5.9)-14.9 (0.8)-5.3 (-7.7, -2.9)asenapine 10 mg twice daily30.1 (5.7)-15.8 (0.9)-6.2 (-8.6, -3.8)Placebo30.1 (5.7)- 9.6 (0.9)--Trial (Adjunctive)asenapine 5-10 mg twice daily lithium/ Valproate28.0 (5.6) -10.3 (0.8) -2.4 (-4.4, -0.3) Lithium/Valproate28.2 (5.8)-7.9 (0.8)--SD: standard deviation; SE: standard error; LS Mean: least-squares mean; CI: confidence interval, not adjusted for multiple comparisons. Difference (drug minus placebo) in least-squares mean change from baseline. Doses that are demonstrated to be effective.

CLINICAL TRIALS EXPERIENCE SECTION.

6.1 Clinical Trials Experience. Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of drug cannot be directly compared to rates in the clinical trials of another drug and may not reflect the rates observed in practice. Adult Patients with Schizophrenia: The following findings are based on the short-term placebo-controlled pre-marketing trials for schizophrenia (a pool of three 6-week fixed-dose trials and one 6-week flexible-dose trial) in which sublingual asenapine was administered in doses ranging from to 10 mg twice daily. Adverse Reactions Associated with Discontinuation of Treatment: total of 9% of asenapine-treated patients and 10% of placebo-treated patients discontinued due to adverse reactions. There were no drug-related adverse reactions associated with discontinuation in patients treated with asenapine at the rate of at least 1% and at least twice the placebo rate. Adverse Reactions Occurring at an Incidence of 2% or More in senapine -Treated Patients with Schizophrenia Adverse reactions associated with the use of asenapine (incidence of 2% or greater, rounded to the nearest percent, and asenapine incidence greater than placebo) that occurred during acute therapy (up to 6-weeks in patients with schizophrenia) are shown in Table 8.Table 8: Adverse Reactions Reported in 2% or More of Adult Patients in Any Asenapine Dose Group and Which Occurred at Greater Incidence Than in the Placebo Group in 6-Week Schizophrenia TrialsSystem Organ Class/ Preferred TermPlaceboN=378%asenapine mg twice dailyN=274%asenapine 10 mg twice dailyN=208%All asenapine5 mg or 10 mg twice daily N=572%Gastrointestinal disordersConstipation6745Dry mouth1312Oral hypoesthesia1675Salivary hypersecretion0<142Stomach discomfort1<132Vomiting5475General disordersFatigue3433Irritability<1212InvestigationsIncreased weight <1223Metabolism disordersIncreased appetite<1302Nervous system disordersAkathisia34116Dizziness4735Extrapyramidal symptoms (excluding akathisia)+ 791210Somnolence 7151313Psychiatric disordersInsomnia13161515Vascular disordersHypertension2232 Akathisia includes: akathisia and hyperkinesia.+ Extrapyramidal symptoms included dystonia, oculogyration, dyskinesia, tardive dyskinesia, muscle rigidity, parkinsonism, tremor, and extrapyramidal disorder (excluding akathisia). Somnolence includes the following events: somnolence, sedation, and hypersomnia. Also includes the Flexible-dose trial (N=90). Dose-Related Adverse Reactions: In the short term schizophrenia trials the incidence of akathisia appeared to be dose-related (see Table 8). Monotherapy in Adult Patients with Bipolar Mania: The following findings are based on the short-term placebo-controlled trials for bipolar mania (a pool of two 3-week flexible-dose trials and one 3-week fixed-dose trial) in which sublingual asenapine was administered in doses of mg or 10 mg twice daily. Adverse Reactions Associated with Discontinuation of Treatment: Approximately 10% (61/620) of asenapine-treated patients in short-term, placebo-controlled trials discontinued treatment due to an adverse reaction, compared with about 7% (22/329) on placebo. There were no adverse reactions associated with discontinuation in patients treated with asenapine at the rate of at least 1% and at least twice the placebo rate. Adverse Reactions Occurring at an Incidence of 2% or More Among senapine -Treated (Monotherapy patients with Bipolar Disorder Adverse reactions associated with the use of asenapine (incidence of 2% or greater, rounded to the nearest percent, and asenapine incidence greater than placebo) that occurred during acute monotherapy (up to 3-weeks in patients with bipolar mania) are shown in Table 9.Table 9: Adverse Reactions Reported in 2% or More of Adult Patients in Any Asenapine Dose Group and Which Occurred at Greater Incidence Than in the Respective Placebo Group in 3-Week Bipolar Mania Fixed and Flexible Dose TrialsSystem Organ Class/Preferred Term(Fixed Dose Study)AllPlaceboaAll asenapine mg or 10 mg twice dailybPlaceboasenapine5 mg twice dailyasenapine 10 mg twice dailyN=126%N=122%N=119%N=329%N=620%Gastrointestinal disorders Oral Hypoesthesiac 21324110Nausea345 55Constipation 243 44Dyspepsiah 64544Vomiting21333Abdominal Paind 02 33Dry Mouth53123Toothache 12223General disordersFatiguee 225 24Infections and InfestationsNasopharyngitisi 21523Investigations Weight Increase 10113Alanine Aminotransferase Increase00301Metabolism disordersIncreased appetite21624Musculoskeletal and connective tissue disordersArthralgia112 12Nervous system disordersSomnolencef 42026 523Dizziness53548Extrapyramidal symptoms (excluding akathisia)g 771148Akathisia 141526Dysgeusia 039<14Psychiatric Disorders Bipolar Disorder/Mania 38356Agitation14334Anxiety30323a Includes fixed and flexible dose trialsb Asenapine mg to 10 mg twice daily with fixed and flexible dosing.c Oral Hypoesthesia includes the preferred terms: oral hypoesthesia, oral paresthesia, and oral dysaesthesia.d Abdominal pain includes the preferred terms: abdominal pain, abdominal pain upper, abdominal pain lower, and abdominal discomfort.e Fatigue includes the preferred terms: fatigue and lethargy.f Somnolence includes the preferred terms: somnolence, sedation, and hypersomnia. Extrapyramidal symptoms (excluding akathisia) includes the preferred terms: dyskinesia, dystonia, resting tremor, tremor, oromandibular dystonia, myoclonus, muscle spasms, muscle rigidity, musculoskeletal stiffness, muscle contractions involuntary, blepharospasm, tongue disorder, and Parkinsonism. Dyspepsia includes the preferred terms: dyspepsia and gastroesophageal reflux disease.i Nasopharyngitis includes the preferred terms: nasopharyngitis and upper respiratory tract infection. Bipolar Disorder/Mania includes the preferred terms: bipolar disorder, bipolar disorder and mania. Monotherapy in Pediatric Patients with Bipolar Mania: The following findings are based on 3-week, placebo-controlled trial for bipolar mania in which asenapine was administered at doses of 2.5 mg, mg, or 10 mg twice daily. Adverse Reactions Leading to Discontinuation of Treatment: total of 6.7% (7/104) of patients treated with asenapine 2.5 mg twice daily, 5.1% (5/99) of patients treated with asenapine mg twice daily, and 5.1% (5/99) of patients treated with asenapine 10 mg twice daily discontinued treatment due to adverse reactions compared to 4% (4/101) on placebo. The most common adverse reactions that led to discontinuation in pediatric patients treated with asenapine (rates at least 2% in any asenapine arm and at least twice the placebo rate) were somnolence (3% in the 2.5 mg twice daily group, 1% in the 5mg twice daily group, and 2% in the 10 mg twice daily group), abdominal pain (2% in the 10 mg twice daily group), and nausea (2% in the 10 mg twice daily group). No placebo-treated patients dropped out for these events. Adverse Reactions Occurring with senapine at an Incidence of 2% or More in senapine -treated Bipolar Patients: Adverse reactions associated with the use of asenapine (incidence of >=2% in any asenapine dose group and greater than placebo) that occurred during acute therapy are shown in Table 10.Table 10: Adverse Reactions Reported in 2% or More of Pediatric Patients (Ages 10 to 17 Years) in Any Asenapine Dose Group and Which Occurred at Greater Incidence Than in the Placebo Group in 3-Week Bipolar Mania TrialSystem Organ Class/AE Preferred TermPlaceboasenapine2.5 mgtwice dailyasenapine5 mgtwice dailyasenapine10 mgtwice dailyAll asenapine2.5 mg, mg, and 10 mgN=101%N=104%N=99%N=99%N=302%Cardiac Disorders Tachycardia1 03011Gastrointestinal Disorders Oral hypoesthesia2425253027 Nausea36666Vomiting34444 Abdominal pain3 79356 Glossodynia00201General Disorders and Administrative Site Disorders Fatigue4 548149 Irritability11121Injury, Poisoning, and Procedural Complications Muscle strain00021Investigations Increased weight06223 Hyperinsulinemia5 01312 ALT increased00021 AST increased00021Metabolism and Nutrition Disorders Increased appetite210968 Dehydration10201Musculoskeletal and Connective Tissue Disorders Myalgia00211Nervous System Disorders Somnolence6 1246534949 Headache681199 Dizziness361057 Dysgeusia24596 Akathisia02212 Parkinsonism01021Psychiatric Disorders Insomnia33433 Suicidal ideation14133 Anger00021Reproductive System and Breast Disorders Dysmenorrhea10201Respiratory, Thoracic, and Mediastinal Disorders Oropharyngeal pain20311 Nasal congestion10201 Dyspnea00201Skin and Subcutaneous Tissue Disorders Rash10121 Includes the preferred terms tachycardia and heart rate increased. Includes the preferred terms oral hypoesthesia, oral paresthesia, and oral dysesthesia. Includes the preferred terms abdominal pain, abdominal pain upper, abdominal pain lower, and abdominal discomfort. Includes the preferred terms fatigue and lethargy. Includes the preferred terms hyperinsulinemia and blood insulin increased. Includes the preferred terms somnolence, sedation, and hypersomnia. Dose-Related Adverse Reactions: In the short term pediatric bipolar trial the incidence of fatigue appeared to be dose-related (see Table 10). Adjunctive Therapy in Adult Patients with Bipolar Mania: The following findings are based on 12 week placebo-controlled trial (with 3 week efficacy endpoint) in adult patients with bipolar mania in which sublingual asenapine was administered in doses of mg or 10 mg twice daily as adjunctive therapy with lithium or valproate. Adverse Reactions Associated with Discontinuation of Treatment: Approximately 16% (25/158) of asenapine-treated patients discontinued treatment due to an adverse reaction, compared with about 11% (18/166) on placebo. The most common adverse reactions associated with discontinuation in subjects treated with asenapine (rates at least 1% and at least twice the placebo rate) were depression (2.5%), suicidal ideation (2.5%), bipolar disorder (1.9%), insomnia (1.9%) and depressive symptoms (1.3%). Adverse Reactions Occurring at an Incidence of 2% or More Among senapine -Treated (Adjunctive) Bipolar Patients: Adverse reactions associated with the use of asenapine (incidence of 2% or greater, rounded to the nearest percent, and asenapine incidence greater than placebo) that occurred during acute adjunctive therapy at weeks, time when most of the patients were still participating in the trial, are shown in Table 11.Table 11: Adverse Reactions Reported in 2% or More of Adult Patients In Any Asenapine-Dose Group and Which Occurred at Greater Incidence Than in the Placebo Group at Weeks in Adjunctive Bipolar Mania TrialsSystem Organ Class/Preferred TermPlaceboN=166%asenapine5 mg or 10 mg twice dailyN=158%Gastrointestinal disordersDyspepsia23Oral hypoesthesia05General disordersFatigue24Edema peripheral<13InvestigationsIncreased weight03Nervous system disordersDizziness24Other extrapyramidal symptoms (excluding akathisia)+ 56Somnolence 1022Psychiatric disordersInsomnia810Vascular disordersHypertension<13 Asenapine mg to 10 mg twice daily with flexible dosing.+ Extrapyramidal symptoms included: dystonia, parkinsonism, oculogyration, and tremor (excluding akathisia). Somnolence includes the following events: somnolence and sedation. Dystonia: Symptoms of dystonia, prolonged abnormal contractions of muscle groups, may occur in susceptible individuals during the first few days of treatment. Dystonic symptoms include: spasm of the neck muscles, sometimes progressing to tightness of the throat, swallowing difficulty, difficulty breathing, and/or protrusion of the tongue. While these symptoms can occur at low doses, they occur more frequently and with greater severity with high potency and at higher doses of first generation antipsychotic drugs. An elevated risk of acute dystonia is observed in males and younger age groups [see Dosage and Administration 2.3 ), Use in Specific Populations 8.4 ), and Clinical Pharmacology 12.3 )]. Extrapyramidal Symptoms: In the short-term, placebo-controlled schizophrenia and bipolar mania adult trials, data was objectively collected on the Simpson Angus Rating Scale for extrapyramidal symptoms (EPS), the Barnes Akathisia Scale (for akathisia) and the Assessments of Involuntary Movement Scales (for dyskinesias). The mean change from baseline for the all-asenapine mg or 10 mg twice daily treated group was comparable to placebo in each of the rating scale scores. In the short-term, placebo-controlled schizophrenia adult trials, the incidence of reported EPS-related events, excluding events related to akathisia, for asenapine-treated patients was 10% versus 7% for placebo; and the incidence of akathisia-related events for asenapine-treated patients was 6% versus 3% for placebo. In short-term placebo-controlled bipolar mania adult trials, the incidence of EPS-related events, excluding events related to akathisia, for asenapine-treated patients was 8% versus 4% for placebo; and the incidence of akathisia-related events for asenapine-treated patients was 7% versus 3% for placebo. The incidence rates of all EPS events (including akathisia) were lower at the mg twice daily dose (11% of N=122) than the 10 mg twice daily dose (25% of N=119) in fixed-dose study. In 3-week, placebo-controlled pediatric trial with bipolar disorder, the incidences of EPS-related events, excluding events related to akathisia, were 4%, 3%, and 5% for patients treated with asenapine 2.5 mg, mg, and 10 mg twice daily, respectively, as compared to 3% for placebo-treated patients. EPS-related events include: bradykinesia, dyskinesia, dystonia, oromandibular dystonia, muscle contractions involuntary, muscle twitching, musculoskeletal stiffness, parkinsonism, protrusion tongue, resting tremor, and tremor. For events of akathisia, incidences were 2%, 2%, and 1% for pediatric patients treated with asenapine 2.5 mg, mg, and 10 mg twice daily, respectively, as compared to 0% for placebo-treated patients. Other Findings: Oral hypoesthesia and/or oral paresthesia may occur directly after administration of asenapine and usually resolves within hour. Laboratory Test Abnormalities: Transaminases: Transient elevations in serum transaminases (primarily ALT) in the short-term schizophrenia and bipolar mania adult trials were more common in treated patients. In short-term, placebo-controlled schizophrenia adult trials, the mean increase in transaminase levels for asenapine-treated patients was 1.6 units/L compared to decrease of 0.4 units/L for placebo-treated patients. The proportion of patients with transaminase elevations >=3 times ULN (at Endpoint) was 0.9% for asenapine-treated patients versus 1.3% for placebo-treated patients. In short-term, placebo-controlled bipolar mania adult trials, the mean increase in transaminase levels for asenapine-treated patients was 6.1 units/L compared to decrease of 3.9 units/L in placebo-treated patients. The proportion of patients with transaminase elevations >=3 times upper limit of normal (ULN) (at Endpoint) was 2.1% for asenapine-treated patients versus 0.7% for placebo-treated patients. The incidence rate of transaminase elevations >=3 times ULN is 3% of N=95 for 10 mg twice daily dose, and 0% of N=108 for the mg twice daily dose and 0% of N=115 for placebo in fixed-dose study. In 52-week, double-blind, comparator-controlled trial that included primarily adult patients with schizophrenia, the mean increase from baseline of ALT was 1.7 units/L. In 3-week, placebo-controlled pediatric trial with bipolar disorder, transient elevations in serum transaminases (primarily ALT) were more common in treated patients. The proportion of pediatric patients with ALT elevations >=3 times upper limit of normal (ULN) was 2.4% for patients treated with asenapine 10 mg twice daily versus none for the other asenapine dose groups and placebo-treated patients. Prolactin: In short-term, placebo-controlled adult schizophrenia trials, the mean decreases in prolactin levels were 6.5 ng/mL for asenapine-treated patients compared to 10.7 ng/mL for placebo-treated patients. The proportion of patients with prolactin elevations >=4 times ULN (at Endpoint) were 2.6% for asenapine-treated patients versus 0.6% for placebo-treated patients. In short-term, placebo-controlled bipolar mania adult trials, the mean increase in prolactin levels was 6.7ng/mL for asenapine-treated patients compared to decrease of 1.0 ng/mL for placebo-treated patients. The proportion of patients with prolactin elevations >=4 times ULN (at Endpoint) were 2.0% for asenapine-treated patients versus 0.8% for placebo-treated patients. In long-term (52-week), double-blind, comparator-controlled adult trial that included primarily patients with schizophrenia, the mean decrease in prolactin from baseline for asenapine-treated patients was 26.9 ng/mL. In 3-week, placebo-controlled pediatric trial with bipolar disorder, the mean increases (at Endpoint) in prolactin levels were 3.2 ng/mL for patients treated with asenapine 2.5 mg twice daily, 2.1 ng/mL for patients treated with asenapine mg twice daily, and 6.4 ng/mL for patients treated with asenapine 10 mg twice daily compared to an increase of 2.5 ng/mL for placebo-treated patients. There were no reports of prolactin elevations >=4 times ULN (at Endpoint) for patients treated with asenapine or placebo. Galactorrhea or dysmenorrhea were reported in 0% of patients treated with asenapine 2.5 mg twice daily, 2% of patients treated with asenapine mg twice daily, and 1% of patients treated with asenapine 10 mg twice daily compared to 1% of placebo-treated patients. There were no reports of gynecomastia in this trial. Creatine Kinase (CK): The proportion of adult patients with CK elevations >3 times ULN at any time were 6.4% and 11.1% for patients treated with asenapine mg twice daily and 10 mg twice daily, respectively, as compared to 6.7% for placebo-treated patients in pre-marketing short-term, fixed-dose trials in schizophrenia and bipolar mania. The clinical relevance of this finding is unknown. The proportion of patients with CK elevations >=3 times ULN during 3-week trial in pediatric bipolar disorder at any time were 1%, 0%, and 1% for patients treated with asenapine 2.5 mg, mg, and 10 mg twice daily, respectively, versus 3% for placebo-treated patients. ther Adverse Reactions Observed During the Premarketing Evaluation of Asenapine Following is list of MedDRA terms that reflect adverse reactions reported by patients treated with sublingual asenapine at multiple doses of >=5 mg twice daily during any phase of trial within the database of adult patients. The reactions listed are those that could be of clinical importance, as well as reactions that are plausibly drug-related on pharmacologic or other grounds. Reactions already listed for either adults or pediatric patients in other parts of Adverse Reactions 6 ), or those considered in Contraindications 4 ), Warnings and Precautions 5 or Overdosage 10 are not included. Reactions are further categorized by MedDRA system organ class and listed in order of decreasing frequency according to the following definitions: those occurring in at least 1/100 patients (frequent) (only those not already listed in the tabulated results from placebo-controlled trials appear in this listing); those occurring in 1/100 to 1/1,000 patients (infrequent); and those occurring in fewer than 1/1,000 patients (rare).Blood and lymphatic disorders: infrequent anemia; rare thrombocytopenia Cardiac disorders: infrequent: temporary bundle branch block Eye disorders: infrequent accommodation disorderGastrointestinal disorders: infrequent swollen tongue General disorders: rare idiosyncratic drug reaction Investigations: infrequent hyponatremia Nervous system disorders: infrequent dysarthria Following is list of MedDRA terms not already listed either for adults or pediatric patients in other parts of Adverse Reactions 6 ), or those considered in Contraindications 4 ), Warnings and Precautions 5 or Overdosage 10 that reflect adverse reactions reported by pediatric patients (Ages 10 to 17 years) treated with sublingual asenapine at doses of 2.5 mg, mg, or 10 mg twice daily during any phase of trial within the database of pediatric patients.Eye disorders: infrequent: diplopia, vision blurredGastrointestinal disorders: infrequent: gastroesophageal reflux disease Injury, Poisoning, and Procedural Complication : infrequent: fall Skin and subcutaneous tissue disorders: infrequent photosensitivity reaction Renal and urinary disorders: infrequent: enuresis.

CONTRAINDICATIONS SECTION.

4 CONTRAINDICATIONS. Asenapine is contraindicated in patients with:o Severe hepatic impairment (Child-Pugh C) [see Specific Populations 8.7 ), Clinical Pharmacology 12.3 )]. A history of hypersensitivity reactions to asenapine. Reactions have included anaphylaxis, angioedema, hypotension, tachycardia, swollen tongue, dyspnea, wheezing and rash [see Warnings and Precautions 5.6 ), Adverse Reactions 6 )]. Severe hepatic impairment (Child-Pugh C). (8.7, 12.3) Known hypersensitivity to asenapine, or to any components in the formulation. (4, 5.6, 17). Severe hepatic impairment (Child-Pugh C). (8.7, 12.3) Known hypersensitivity to asenapine, or to any components in the formulation. (4, 5.6, 17).

CONTROLLED SUBSTANCE SECTION.

9.1 Controlled Substance. Asenapine sublingual tablets are not controlled substance.

DESCRIPTION SECTION.

11 DESCRIPTION. Asenapine sublingual tablets contain asenapine maleate which is an atypical antipsychotic that is available for sublingual administration. Asenapine belongs to the class dibenzo-oxepino pyrroles. The chemical designation is (3aRS,12bRS)-5-Chloro-2-methyl-2,3,3a,12b-tetrahydro-1Hdibenzo[2,3:6,7]oxepino[4,5-c]pyrrole (2Z)-2-butenedioate (1:1). Its molecular formula is C17H16ClNOoC4H4O4 and its molecular weight is 401.84 (free base: 285.8). The chemical structure is: Asenapine maleate is white to off-white powder. Asenapine sublingual tablets, black cherry flavor, are supplied for sublingual administration in tablets containing 2.5 mg, mg or 10 mg asenapine; inactive ingredients include gelatin, mannitol, sucralose, and black cherry flavor.. The chemical structure for Asenapine sublingual tablets contain asenapine maleate which is an atypical antipsychotic that is available for sublingual administration. Asenapine belongs to the class dibenzo-oxepino pyrroles. The chemical designation is (3aRS,12bRS)-5-Chloro-2-methyl-2,3,3a,12b-tetrahydro-1Hdibenzo[2,3:6,7]oxepino[4,5-c]pyrrole (2Z)-2-butenedioate (1:1). Its molecular formula is C17H16ClNOC4H4O4 and its molecular weight is 401.84 (free base: 285.8).

DOSAGE & ADMINISTRATION SECTION.

2 DOSAGE AND ADMINISTRATION. Starting DoseRecommended DoseMaximumDoseSchizophrenia acute treatment in adults (2.2) mg sublingually twice daily5 mg sublingually twice daily10 mg sublingually twice dailySchizophrenia maintenance treatment in adults (2.2)5 mg sublingually twice daily 5-10 mg sublingually twice daily10 mg sublingually twice dailyBipolar mania adults: acute and maintenance monotherapy (2.3) 5-10 mg sublingually twice daily5-10 mg sublingually twice daily10 mg sublingually twice dailyBipolar mania -pediatric patients (10 to 17 years): monotherapy (2.3)2.5 mg sublingually twice daily2.5-10 mg sublingually twice daily10 mg sublingually twice dailyBipolar mania adults: as an adjunct to lithium or valproate (2.3) mg sublingually twice daily5-10 mg sublingually twice daily10 mg sublingually twice dailyDo not swallow tablet. Asenapine sublingual tablets should be placed under the tongue and left to dissolve completely. The tablet will dissolve in saliva within seconds. Eating and drinking should be avoided for 10 minutes after administration. (2.1, 17). Do not swallow tablet. Asenapine sublingual tablets should be placed under the tongue and left to dissolve completely. The tablet will dissolve in saliva within seconds. Eating and drinking should be avoided for 10 minutes after administration. (2.1, 17). 2.1 Administration Instructions. Asenapine is sublingual tablet. To ensure optimal absorption, patients should be instructed to place the tablet under the tongue and allow it to dissolve completely. The tablet will dissolve in saliva within seconds. Asenapine sublingual tablets should not be split, crushed, chewed, or swallowed [s ee Clinical Pharmacology 12.3 )]. Patients should be instructed to not eat or drink for 10 minutes after administration see Clinical Pharmacology 12.3 ].. 2.2 Schizophrenia. The recommended dose of asenapine is mg given twice daily. In short-term controlled trials, there was no suggestion of added benefit with 10 mg twice daily dose, but there was clear increase in certain adverse reactions. If tolerated, daily dosage can be increased to 10 mg twice daily after one week. The safety of doses above 10 mg twice daily has not been evaluated in clinical studies [see Clinical Studies 14.1 )] . 2.3 Bipolar Disorder. Acute Treatment of Manic or Mixed Episodes:Monotherapy in Adults: The recommended starting and treatment dose of asenapine is mg to 10 mg twice daily. The safety of doses above 10 mg twice daily has not been evaluated in clinical trials [see Clinical Studies 14.2 )] Monotherapy in Pediatric atients: The recommended dose of asenapine is 2.5 mg to 10 mg twice daily in pediatric patients 10 to 17 years of age, and dose may be adjusted for individual response and tolerability. The starting dose of asenapine is 2.5 mg twice daily. After days, the dose can be increased to mg twice daily, and from mg to 10 mg twice daily after additional days. Pediatric patients aged 10 to 17 years appear to be more sensitive to dystonia with initial dosing with asenapine when the recommended escalation schedule is not followed [see Use in Specific Populations 8.4 )]. The safety of doses greater than 10 mg twice daily has not been evaluated in clinical trials [see Use in Specific Populations 8.4 and Clinical Pharmacology 12.3 )]. Adjunctive Therapy in Adults The recommended starting dose of asenapine is mg twice daily when administered as adjunctive therapy with either lithium or valproate. Depending on the clinical response and tolerability in the individual patient, the dose can be increased to 10 mg twice daily. The safety of doses above 10 mg twice daily as adjunctive therapy with lithium or valproate has not been evaluated in clinical trials. For patients on asenapine, whether used as monotherapy or as adjunctive therapy with lithium or valproate, it is generally recommended that responding patients continue treatment beyond the acute episode.Maintenance Treatment of Bipolar Disorder:Monotherapy in Adults: Continue on the asenapine dose that the patient received during stabilization (5 mg to 10 mg twice daily). Depending on the clinical response and tolerability in the individual patient, dose of 10 mg twice daily can be decreased to mg twice daily. The safety of doses above 10 mg twice daily has not been evaluated in clinical trials [see Clinical Studies 14.2 )].

DOSAGE FORMS & STRENGTHS SECTION.

3 DOSAGE FORMS AND STRENGTHS. Asenapine 2.5 mg tablets, black cherry flavor, are round, white to off-white sublingual tablets, with hexagon on one side. Asenapine mg tablets, black cherry flavor, are round, white to off-white sublingual tablets, with 5 on one side within circle. Asenapine 10 mg tablets, black cherry flavor, are round, white to off-white sublingual tablets, with 10 on one side within circle.. Asenapine 2.5 mg tablets, black cherry flavor, are round, white to off-white sublingual tablets, with hexagon on one side. Asenapine mg tablets, black cherry flavor, are round, white to off-white sublingual tablets, with 5 on one side within circle. Asenapine 10 mg tablets, black cherry flavor, are round, white to off-white sublingual tablets, with 10 on one side within circle.. Sublingual tablets, black cherry flavor: 2.5 mg, mg and 10 mg (3).

DRUG ABUSE AND DEPENDENCE SECTION.

9 DRUG ABUSE AND DEPENDENCE. 9.1 Controlled Substance. Asenapine sublingual tablets are not controlled substance.. 9.2 Abuse. Asenapine has not been systematically studied in animals or humans for its abuse potential or its ability to induce tolerance or physical dependence. Thus, it is not possible to predict the extent to which CNS-active drug will be misused, diverted and/or abused once it is marketed. Patients should be evaluated carefully for history of drug abuse, and such patients should be observed carefully for signs that they are misusing or abusing asenapine (e.g., drug-seeking behavior, increases in dose).

GERIATRIC USE SECTION.

8.5 Geriatric Use. Clinical studies of asenapine in the treatment of schizophrenia and bipolar mania did not include sufficient numbers of patients aged 65 and over to determine whether or not they respond differently than younger patients. Of the approximately 2,250 patients in pre-marketing clinical studies of asenapine, 1.1% (25) were 65 years of age or over. Multiple factors that might increase the pharmacodynamic response to asenapine, causing poorer tolerance or orthostasis, could be present in elderly patients, and these patients should be monitored carefully. Based on pharmacokinetic study in elderly patients, dosage adjustments are not recommended based on age alone [see Clinical Pharmacology 12.3 )]. Elderly patients with dementia-related psychosis treated with asenapine are at an increased risk of death compared to placebo. Asenapine is not approved for the treatment of patients with dementia-related psychosis see Boxed Warning ].

HOW SUPPLIED SECTION.

16 HOW SUPPLIED/STORAGE AND HANDLING. Asenapine Sublingual Tablets are supplied as:2.5 mg Tablets, black cherry flavorRound, white to off-white sublingual tablets, with hexagon on one side.Child-resistant packaging Box of 60 blisters with 10 tablets NDC 59762-1091-65 mg Tablets, black cherry flavorRound, white to off-white sublingual tablets, with 5 on one side within circle.Child-resistant packagingBox of 60 blisters with 10 tablets NDC 59762-2012-610 mg Tablets, black cherry flavorRound, white to off-white sublingual tablets, with 10 on one side within circle.Child-resistant packagingBox of 60 blisters with 10 tablets NDC 59762-2888-6Storage Store at 20oC to 25oC (68oF to 77oF); excursions permitted between 15oC and 30oC (59oF and 86oF) [see USP Controlled Room Temperature].

INDICATIONS & USAGE SECTION.

1 INDICATIONS AND USAGE. Asenapine sublingual Tablets are indicated for:o Schizophrenia in adults [see Clinical Studies 14.1 )] Bipolar disorder [see Clinical Studies (14.2)]o Acute monotherapy of manic or mixed episodes, in adults and pediatric patients 10 to 17 years of ageo Adjunctive treatment to lithium or valproate in adultso Maintenance monotherapy treatment in adults. Asenapine is an atypical antipsychotic indicated for (1):Schizophrenia in adults Bipolar disorder Acute monotherapy treatment of manic or mixed episodes, in adults and pediatric patients 10 to 17 years of age Adjunctive treatment to lithium or valproate in adults Maintenance monotherapy treatment in adults. Schizophrenia in adults Bipolar disorder Acute monotherapy treatment of manic or mixed episodes, in adults and pediatric patients 10 to 17 years of age Adjunctive treatment to lithium or valproate in adults Maintenance monotherapy treatment in adults.

INFORMATION FOR PATIENTS SECTION.

17 PATIENT COUNSELING INFORMATION. Advise the patient to read the FDA-approved patient labeling (Instructions for Use). Dosage and Administration Counsel patients on proper sublingual administration of asenapine sublingual tablets and advise them to read the FDA-approved patient labeling (Instructions for Use). When initiating treatment with asenapine sublingual tablets, provide dosage escalation instructions [see Dosage and Administration 2 )]. Hypersensitivity Reactions Counsel patients on the signs and symptoms of serious allergic reaction (e.g., difficulty breathing, itching, swelling of the face, tongue or throat, feeling lightheaded etc.) and to seek immediate emergency assistance if they develop any of these signs and symptoms [see Contraindications 4 ), Warnings and Precautions 5.6 and Adverse Reactions 6 )].Application Site Reactions Inform patients that application site reactions, primarily in the sublingual area, including oral ulcers, blisters, peeling/sloughing and inflammation have been reported. Instruct patients to monitor for these reactions [see Adverse Reactions 6.2 )] Inform patients that numbness or tingling of the mouth or throat may occur directly after administration of asenapine sublingual tablets and usually resolves within hour see Adverse eactions 6.1 ].Neuroleptic Malignant Syndrome Counsel patients about potentially fatal symptom complex sometimes referred to as Neuroleptic Malignant Syndrome (NMS) that has been reported in association with administration of antipsychotic drugs. Patients should contact their healthcare provider or report to the emergency room if they experience the following signs and symptoms of NMS, including hyperpyrexia, muscle rigidity, altered mental status, and evidence of autonomic instability (irregular pulse or blood pressure, tachycardia, diaphoresis, and cardiac dysrhythmia) [see Warnings and Precautions 5.3 )].Tardive Dyskinesia Counsel patients on the signs and symptoms of tardive dyskinesia and to contact their healthcare provider if these abnormal movements occur [see Warnings and Precautions 5.4 )]. Metabolic Changes (Hyperglycemia and Diabetes Mellitus, Dyslipidemia, and Weight Gain) Educate patients about the risk of metabolic changes, how to recognize symptoms of hyperglycemia (high blood sugar) and diabetes mellitus, and the need for specific monitoring, including blood glucose, lipids, and weight [see Warnings and Precautions 5.5 )]. Orthostatic Hypotension Educate patients about the risk of orthostatic hypotension (symptoms include feeling dizzy or lightheaded upon standing) especially early in treatment, and also at times of re-initiating treatment or increases in dose see Warnings and Precautions 5.7 ].Leukopenia/Neutropenia Advise patients with pre-existing low WBC or history of drug induced leukopenia/neutropenia they should have their CBC monitored while taking asenapine sublingual tablets [s ee Warnings and Precautions 5.9 )].HyperprolactinemiaCounsel patients on the signs and symptoms of hyperprolactinemia and to contact their healthcare provider if these abnormalities occur [see Warnings and Precautions 5.11 )]. Interference with Cognitive and Motor Performance Caution patients about performing activities requiring mental alertness, such as operating hazardous machinery or operating motor vehicle, until they are reasonably certain that asenapine therapy does not affect them adversely [see Warnings and Precautions 5.13 )].Heat Exposure and Dehydration Counsel patients regarding appropriate care in avoiding overheating and dehydration [see Warnings and Precautions 5.14 )].Concomitant Medications Advise patients to inform their health care provider if they are taking, or plan to take, any prescription or over-the-counter medications since there is potential for interactions [see Drug Interactions 7.1 )].Pregnancy Advise patients that asenapine sublingual tablets may cause fetal harm as well as extrapyramidal and/or withdrawal symptoms in neonate. Advise patients to notify their healthcare provider with known or suspected pregnancy [see Use in Specific Populations 8.1 )].Pregnancy Registry Advise patients that there is pregnancy exposure registry that monitors pregnancy outcomes in women exposed to asenapine during pregnancy [see Use in Specific Populations 8.1 )].Distributed by:Greenstone, LLCPeapack, NJ 07977 (C) 2019 Allergan. All rights reserved.

LACTATION SECTION.

8.2 Lactation Risk Summary Lactation studies have not been conducted to assess the presence of asenapine in human milk, the effects of asenapine on the breastfed infant, or the effects of asenapine on milk production. Asenapine is excreted in rat milk. The development and health benefits of breastfeeding should be considered along with the mothers clinical need for asenapine and any potential adverse effects on the breastfed infant from asenapine or from the underlying maternal condition.

MECHANISM OF ACTION SECTION.

12.1 Mechanism of Action. The mechanism of action of asenapine, in schizophrenia and bipolar disorder, is unknown. It has been suggested that the efficacy of asenapine in schizophrenia could be mediated through combination of antagonist activity at D2 and 5-HT2A receptors.

NONCLINICAL TOXICOLOGY SECTION.

13 NONCLINICAL TOXICOLOGY. 13.1 Carcinogenesis, Mutagenesis, Impairment of Fertility. Carcinogenesis: In lifetime carcinogenicity study in CD-1 mice asenapine was administered subcutaneously at doses up to those resulting in plasma levels (AUC) estimated to be times those in humans receiving the MRHD of 10 mg twice daily. The incidence of malignant lymphomas was increased in female mice, with no-effect dose resulting in plasma levels estimated to be 1.5 times those in humans receiving the MRHD. The mouse strain used has high and variable incidence of malignant lymphomas, and the significance of these results to humans is unknown. There were no increases in other tumor types in female mice. In male mice, there were no increases in any tumor type. In lifetime carcinogenicity study in Sprague-Dawley rats, asenapine did not cause any increases in tumors when administered subcutaneously at doses up to those resulting in plasma levels (AUC) estimated to be times those in humans receiving the MRHD. Mutagenesis: No evidence for genotoxic potential of asenapine was found in the in vitro bacterial reverse mutation assay, the in vitro forward gene mutation assay in mouse lymphoma cells, the in vitro chromosomal aberration assays in human lymphocytes, the in vitro sister chromatid exchange assay in rabbit lymphocytes, or the in vivo micronucleus assay in rats. Impairment of Fertility: Asenapine did not impair fertility in rats when tested at doses up to 11 mg/kg twice daily given orally. This dose is 10 times the maximum recommended human dose of 10 mg twice daily given sublingually on mg/m2 basis.

OVERDOSAGE SECTION.

10 OVERDOSAGE. Human Experience: In adult pre-marketing clinical studies involving more than 3,350 patients and/or healthy subjects, accidental or intentional acute overdosage of asenapine was identified in patients. Among these few reported cases of overdose, the highest estimated ingestion of asenapine was 400 mg. Reported adverse reactions at the highest dosage included agitation and confusion. Management of Overdosage: There is no specific antidote to asenapine. The possibility of multiple drug involvement should be considered. An electrocardiogram should be obtained and management of overdose should concentrate on supportive therapy, maintaining an adequate airway, oxygenation and ventilation, and management of symptoms. Consult with Certified Poison Control Center for up-to-date guidance and advice on the management of overdosage (1-800-222-1222.) Hypotension and circulatory collapse should be treated with appropriate measures, such as intravenous fluids and/or sympathomimetic agents (epinephrine and dopamine should not be used, since beta stimulation may worsen hypotension in the setting of asenapine-induced alpha blockade). In case of severe extrapyramidal symptoms, anticholinergic medication should be administered. Close medical supervision and monitoring should continue until the patient recovers.

PACKAGE LABEL.PRINCIPAL DISPLAY PANEL.

PRINCIPAL DISPLAY PANEL. NDC 59762-1091-6asenapine sublingual tablets2.5 mg60 TabletsBlack Cherry FlavorRx Only. PRINCIPAL DISPLAY PANELasenapine sublingual tablets2.5 mg60 TabletsBlack Cherry FlavorRx Only.

PEDIATRIC USE SECTION.

8.4 Pediatric Use. Safety and efficacy of asenapine in pediatric patients below the age of 10 years of age have not been evaluated.Bipolar Disorder The safety and efficacy of asenapine as monotherapy in the treatment of bipolar disorder were established in 3-week, placebo-controlled, double-blind trial of 403 pediatric patients 10 to 17 years of age, of whom 302 patients received asenapine at fixed doses ranging from 2.5 mg to 10 mg twice daily [see Dosage and Administration 2.3 ), Adverse Reactions 6.1 ), Clinical Pharmacology 12.3 ), and Clinical Studies 14.2 )]. In Phase study, pediatric patients aged 10 to 17 years appeared to be more sensitive to dystonia with initial dosing with asenapine when the recommended dose escalation schedule was not followed. Similar safety findings were reported from 50-week, open-label, uncontrolled safety trial in pediatric patients with bipolar disorder treated with asenapine monotherapy. The safety and efficacy of asenapine as adjunctive therapy in the treatment of bipolar disorder have not been established in the pediatric population. In general, the pharmacokinetics of asenapine in pediatric patients (10 to 17 years) and adults are similar [see Clinical Pharmacology 12.3 )].Schizophrenia Efficacy of asenapine was not demonstrated in an 8-week, placebo-controlled, double-blind trial, in 306 adolescent patients aged 12 to 17 years with schizophrenia at doses of 2.5 and mg twice daily. The most common adverse reactions (proportion of patients equal or greater than 5% and at least twice placebo) reported were somnolence, akathisia, dizziness, and oral hypoesthesia or paresthesia. The proportion of patients with an equal or greater than 7% increase in body weight at endpoint compared to baseline for placebo, asenapine 2.5 mg twice daily, and asenapine mg twice daily was 3%, 10%, and 10%, respectively. The clinically relevant adverse reactions identified in the pediatric schizophrenia trial were generally similar to those observed in the pediatric bipolar and adult bipolar and schizophrenia trials. No new major safety findings were reported from 26-week, open-label, uncontrolled safety trial in pediatric patients with schizophrenia treated with asenapine monotherapy.Juvenile Animal Data Subcutaneous administration of asenapine to juvenile rats for 56 days from day 14 of age to day 69 of age at 0.4, 1.2, and 3.2 mg/kg/day (0.2, 0.6 and 1.5 times the maximum recommended human dose of 10 mg twice daily given sublingually on mg/m2 basis) resulted in significant reduction in body weight gain in animals of both sexes at all dose levels from the start of dosing until weaning. Body weight gain remained reduced in males to the end of treatment, however, recovery was observed once treatment ended. Neurobehavioral assessment indicated increased motor activity in animals at all dose levels following the completion of treatment, with the evidence of recovery in males. There was no recovery after the end of treatment in female activity pattern as late as day 30 following the completion of treatment (last retesting). Therefore, No Observed Adverse Effect Level (NOAEL) for the juvenile animal toxicity of asenapine could not be determined. There were no treatment-related effects on the startle response, learning/memory, organ weights, microscopic evaluations of the brain and, reproductive performance (except for minimally reduced conception rate and fertility index in males and females administered 1.2 and 3.2 mg/kg/day).

PHARMACODYNAMICS SECTION.

12.2 Pharmacodynamics. Asenapine exhibits high affinity for serotonin 5-HT1A, 5-HT1B, 5-HT2A, 5-HT2B, 5-HT2C, 5-HT5A, 5-HT6, and 5-HT7 receptors (Ki values of 2.5, 2.7, 0.07, 0.18, 0.03, 1.6, 0.25, and 0.11 nM, respectively), dopamine D2A, D2B, D3, D4, and D1 receptors (Ki values of 1.3, 1.4, 0.42, 1.1, and 1.4 nM, respectively), 1A, 2A, 2B, and 2C -adrenergic receptors (Ki values of 1.2, 1.2, 0.33 and 1.2 nM, respectively), and histamine H1 receptors (Ki value 1.0 nM), and moderate affinity for H2 receptors (Ki value of 6.2 nM). In in vitro assays asenapine acts as an antagonist at these receptors. Asenapine has no appreciable affinity for muscarinic cholinergic receptors (e.g., Ki value of 8128 nM for M1).

PHARMACOKINETICS SECTION.

12.3 Pharmacokinetics. Following single mg dose of asenapine, the mean Cmax was approximately ng/mL and was observed at mean tmax of hour. Elimination of asenapine is primarily through direct glucuronidation by UGT1A4 and oxidative metabolism by cytochrome P450 isoenzymes (predominantly CYP1A2). Following an initial more rapid distribution phase, the mean terminal half-life is approximately 24 hrs. With multiple-dose twice-daily dosing, steady-state is attained within days. Overall, steady-state asenapine pharmacokinetics are similar to single-dose pharmacokinetics. Absorption: Following sublingual administration, asenapine is rapidly absorbed with peak plasma concentrations occurring within 0.5 to 1.5 hours. The absolute bioavailability of sublingual asenapine at mg is 35%. Increasing the dose from mg to 10 mg twice daily (a two-fold increase) results in less than linear (1.7 times) increases in both the extent of exposure and maximum concentration. The absolute bioavailability of asenapine when swallowed is low (<2% with an oral tablet formulation). The intake of water several (2 or 5) minutes after asenapine administration resulted in decreased asenapine exposure. Therefore, eating and drinking should be avoided for 10 minutes after administration [see Dosage and Administration 2.1 )]. Distribution: Asenapine is rapidly distributed and has large volume of distribution (approximately 20 25 L/kg), indicating extensive extravascular distribution. Asenapine is highly bound (95%) to plasma proteins, including albumin and 1-acid glycoprotein. Metabolism and Elimination: Direct glucuronidation by UGT1A4 and oxidative metabolism by cytochrome P450 isoenzymes (predominantly CYP1A2) are the primary metabolic pathways for asenapine. Asenapine is high clearance drug with clearance after intravenous administration of 52 L/h. In this circumstance, hepatic clearance is influenced primarily by changes in liver blood flow rather than by changes in the intrinsic clearance, i.e., the metabolizing enzymatic activity. Following an initial more rapid distribution phase, the terminal half-life of asenapine is approximately 24 hours. Steady-state concentrations of asenapine are reached within days of twice daily dosing. After administration of single dose of [14C]-labeled asenapine, about 90% of the dose was recovered; approximately 50% was recovered in urine, and 40% recovered in feces. About 50% of the circulating species in plasma have been identified. The predominant species was asenapine N+-glucuronide; others included N-desmethylasenapine, N-desmethylasenapine N-carbamoyl glucuronide, and unchanged asenapine in smaller amounts. Asenapine activity is primarily due to the parent drug. In vitro studies indicate that asenapine is substrate for UGT1A4, CYP1A2 and to lesser extent CYP3A4 and CYP2D6. Asenapine is weak inhibitor of CYP2D6. Asenapine does not cause induction of CYP1A2 or CYP3A4 activities in cultured human hepatocytes. Coadministration of asenapine with known inhibitors, inducers or substrates of these metabolic pathways has been studied in number of drug-drug interaction studies see Drug Interactions 7.1 )]. Food: crossover study in 26 healthy adult male subjects was performed to evaluate the effect of food on the pharmacokinetics of single mg dose of asenapine. Consumption of food immediately prior to sublingual administration decreased asenapine exposure by 20%; consumption of food hours after sublingual administration decreased asenapine exposure by about 10%. These effects are probably due to increased hepatic blood flow. In clinical trials establishing the efficacy and safety of asenapine, patients were instructed to avoid eating for 10 minutes following sublingual dosing. There were no other restrictions with regard to the timing of meals in these trials see Dosage and Administration 2.1 ]. Water: In clinical trials establishing the efficacy and safety of asenapine, patients were instructed to avoid drinking for 10 minutes following sublingual dosing. The effect of water administration following 10 mg sublingual asenapine dosing was studied at different time points of 2, 5, 10, and 30 minutes in 15 healthy adult male subjects. The exposure of asenapine following administration of water 10 minutes after sublingual dosing was equivalent to that when water was administered 30 minutes after dosing. Reduced exposure to asenapine was observed following water administration at minutes (19% decrease) and minutes (10% decrease) see Dosage and Administration 2.1 ]. Drug Interaction Studies: Effects of other drugs on the exposure of asenapine are summarized in Figure 1. In addition, population pharmacokinetic analysis indicated that the concomitant administration of lithium had no effect on the pharmacokinetics of asenapine.Figure 1: Effect of Other Drugs on Asenapine Pharmacokinetics The effects of asenapine on the pharmacokinetics of other co-administered drugs are summarized in Figure 2.Coadministration of paroxetine with asenapine caused two-fold increase in the maximum plasma concentrations and systemic exposure of paroxetine. Asenapine enhances the inhibitory effects of paroxetine on its own metabolism by CYP2D6.Figure 2: Effect of Asenapine on Other Drug Pharmacokinetics Studies in Special Populations: Exposures of asenapine in special populations are summarized in Figure 3. Additionally, based on population pharmacokinetic analysis, no effects of sex, race, BMI, and smoking status on asenapine exposure were observed. Exposure in elderly patients is 30-40% higher as compared to adults. Figure 3: Effect of Intrinsic Factors on Asenapine Pharmacokinetics.

POSTMARKETING EXPERIENCE SECTION.

6.2 Postmarketing Experience The following adverse reactions have been identified during post-approval use of asenapine. Because these reactions are reported voluntarily from population of uncertain size, it is not always possible to establish causal relationship to drug exposure. In many cases, the occurrence of these adverse reactions led to discontinuation of therapy. Application site reactions, primarily in the sublingual area, have been reported. These application site reactions included oral ulcers, blisters, peeling/sloughing, and inflammation. Choking has been reported by patients, some of whom may have also experienced oropharyngeal muscular dysfunction or hypoesthesia.

PREGNANCY SECTION.

8.1 Pregnancy. Pregnancy Exposure Registry There is pregnancy exposure registry that monitors pregnancy outcomes in women exposed to asenapine during pregnancy. For more information contact the National Pregnancy Registry for Atypical Antipsychotics at 1-866-961-2388 or visit http://womensmentalhealth.org/clinical-and-research-programs/pregnancyregistry/.Risk Summary Neonates exposed to antipsychotic drugs during the third trimester of pregnancy are at risk for extrapyramidal and/or withdrawal symptoms. Studies have not been conducted with asenapine in pregnant women. There are no available human data informing the drug-associated risk. The background risk of major birth defects and miscarriage for the indicated populations are unknown. However, the background risk in the U.S. general population of major birth defects is 2-4% and of miscarriage is 15-20% of clinically recognized pregnancies. No teratogenicity was observed in animal reproduction studies with intravenous administration of asenapine to rats and rabbits during organogenesis at doses 0.7 and 0.4 times, respectively, the maximum recommended human dose (MRHD) of 10 mg sublingually twice daily. In pre-and post-natal study in rats, intravenous administration of asenapine at doses up to 0.7 times the MRHD produced increases in post-implantation loss and early pup deaths, and decreases in subsequent pup survival and weight gain [see Data]. Advise pregnant women of the potential risk to fetus. Clinical ConsiderationsFetal/Neonatal Adverse Reactions Extrapyramidal and/or withdrawal symptoms, including agitation, hypertonia, hypotonia, tremor, somnolence, respiratory distress and feeding disorder have been reported in neonates who were exposed to antipsychotic drugs during the third trimester of pregnancy. These symptoms have varied in severity. Some neonates recovered within hours or days without specific treatment; others required prolonged hospitalization. Monitor neonates for extrapyramidal and/or withdrawal symptoms and manage symptoms appropriately.DataAnimal Data In animal studies, asenapine increased post-implantation loss and decreased pup weight and survival at doses similar to or less than recommended clinical doses. In these studies there was no increase in the incidence of structural abnormalities caused by asenapine. Asenapine was not teratogenic in reproduction studies in rats and rabbits at intravenous doses up to 1.5 mg/kg in rats and 0.44 mg/kg in rabbits administered during organogenesis. These doses are 0.7 and 0.4 times, respectively, the maximum recommended human dose (MRHD) of 10 mg twice daily given sublingually on mg/m2 basis. Plasma levels of asenapine were measured in the rabbit study, and the area under the curve (AUC) at the highest dose tested was times that in humans receiving the MRHD. In study in which rats were treated from day of gestation through day 21 postpartum with intravenous doses of asenapine of 0.3, 0.9, and 1.5 mg/kg/day (0.15, 0.4, and 0.7 times the MRHD of 10 mg twice daily given sublingually on mg/m2 basis), increases in post-implantation loss and early pup deaths were seen at all doses, and decreases in subsequent pup survival and weight gain were seen at the two higher doses. cross-fostering study indicated that the decreases in pup survival were largely due to prenatal drug effects. Increases in post-implantation loss and decreases in pup weight and survival were also seen when pregnant rats were dosed orally with asenapine.

RECENT MAJOR CHANGES SECTION.

Indications and Usage (1) 01/2017Dosage and Administration (2.3) 01/2017Contraindications (4) 01/2017Warnings and Precautions 01/2017(5.1, 5.2, 5.3, 5.4, 5.5, 5.7, 5.9, 5.10, 5.11, 5.12, 5.13, 5.14, 5.15)Warnings and Precautions (5.8) 02/2017.

SPL PATIENT PACKAGE INSERT SECTION.

INSTRUCTIONS FOR USEAsenapine Sublingual Tablets Read these Instructions for Use before you start using asenapine sublingual tablets and each time you get refill. There may be new information. This leaflet does not take the place of talking to your doctor about your medical condition or your treatment.IMPORTANT:o For sublingual (under your tongue) use onlyo Do not remove tablet until ready to administer.o Use dry hands when handling tablet.Your Asenapine Sublingual TabletsDirections for Taking your Asenapine Sublingual Tablets:Step 1. Firmly press and hold thumb button, then pull out the tablet pack (see Figure A). Do not push tablet through the tablet pack. Do not cut or tear the ablet pack. Figure AStep 2. Peel back the colored tab (see Figure B).Figure BStep 3. Gently remove the tablet (see Figure C). Do not split, cut or crush the tablet. Figure CStep 4. Place the whole tablet under tongue and allow it to dissolve completely (see Figure D).Figure DDo not chew or swallow the tablet.Do not eat or drink for 10 minutes (See Figure E).Figure EStep 5. Slide the tablet pack back into case until it clicks (see Figure F).Figure FStoring Asenapine Sublingual Tablets:Store Asenapine Sublingual Tablets at room temperature between 68F to 77F (20C to 25C). These Instructions for Use have been approved by the U.S. Food and Drug Administration.Distributed by: Greenstone, LLCPeapack, NJ 07977(C) 2019 Allergan. All rights reserved.Revised: January 2017. Tablet Pack. Figure A. Figure B. Figure C. Figure D. Figure E. Figure F.

SPL UNCLASSIFIED SECTION.

2.1 Administration Instructions. Asenapine is sublingual tablet. To ensure optimal absorption, patients should be instructed to place the tablet under the tongue and allow it to dissolve completely. The tablet will dissolve in saliva within seconds. Asenapine sublingual tablets should not be split, crushed, chewed, or swallowed [s ee Clinical Pharmacology 12.3 )]. Patients should be instructed to not eat or drink for 10 minutes after administration see Clinical Pharmacology 12.3 ].

USE IN SPECIFIC POPULATIONS SECTION.

8 USE IN SPECIFIC POPULATIONS. Pregnancy: May cause extrapyramidal and/or withdrawal symptoms in neonates with third trimester exposure. (8.1) Pediatric Use: Safety and efficacy in the treatment of bipolar disorder in patients less than 10 years of age, and patients with schizophrenia ages less than 12 years have not been evaluated. (8.4). Pregnancy: May cause extrapyramidal and/or withdrawal symptoms in neonates with third trimester exposure. (8.1) Pediatric Use: Safety and efficacy in the treatment of bipolar disorder in patients less than 10 years of age, and patients with schizophrenia ages less than 12 years have not been evaluated. (8.4). 8.1 Pregnancy. Pregnancy Exposure Registry There is pregnancy exposure registry that monitors pregnancy outcomes in women exposed to asenapine during pregnancy. For more information contact the National Pregnancy Registry for Atypical Antipsychotics at 1-866-961-2388 or visit http://womensmentalhealth.org/clinical-and-research-programs/pregnancyregistry/.Risk Summary Neonates exposed to antipsychotic drugs during the third trimester of pregnancy are at risk for extrapyramidal and/or withdrawal symptoms. Studies have not been conducted with asenapine in pregnant women. There are no available human data informing the drug-associated risk. The background risk of major birth defects and miscarriage for the indicated populations are unknown. However, the background risk in the U.S. general population of major birth defects is 2-4% and of miscarriage is 15-20% of clinically recognized pregnancies. No teratogenicity was observed in animal reproduction studies with intravenous administration of asenapine to rats and rabbits during organogenesis at doses 0.7 and 0.4 times, respectively, the maximum recommended human dose (MRHD) of 10 mg sublingually twice daily. In pre-and post-natal study in rats, intravenous administration of asenapine at doses up to 0.7 times the MRHD produced increases in post-implantation loss and early pup deaths, and decreases in subsequent pup survival and weight gain [see Data]. Advise pregnant women of the potential risk to fetus. Clinical ConsiderationsFetal/Neonatal Adverse Reactions Extrapyramidal and/or withdrawal symptoms, including agitation, hypertonia, hypotonia, tremor, somnolence, respiratory distress and feeding disorder have been reported in neonates who were exposed to antipsychotic drugs during the third trimester of pregnancy. These symptoms have varied in severity. Some neonates recovered within hours or days without specific treatment; others required prolonged hospitalization. Monitor neonates for extrapyramidal and/or withdrawal symptoms and manage symptoms appropriately.DataAnimal Data In animal studies, asenapine increased post-implantation loss and decreased pup weight and survival at doses similar to or less than recommended clinical doses. In these studies there was no increase in the incidence of structural abnormalities caused by asenapine. Asenapine was not teratogenic in reproduction studies in rats and rabbits at intravenous doses up to 1.5 mg/kg in rats and 0.44 mg/kg in rabbits administered during organogenesis. These doses are 0.7 and 0.4 times, respectively, the maximum recommended human dose (MRHD) of 10 mg twice daily given sublingually on mg/m2 basis. Plasma levels of asenapine were measured in the rabbit study, and the area under the curve (AUC) at the highest dose tested was times that in humans receiving the MRHD. In study in which rats were treated from day of gestation through day 21 postpartum with intravenous doses of asenapine of 0.3, 0.9, and 1.5 mg/kg/day (0.15, 0.4, and 0.7 times the MRHD of 10 mg twice daily given sublingually on mg/m2 basis), increases in post-implantation loss and early pup deaths were seen at all doses, and decreases in subsequent pup survival and weight gain were seen at the two higher doses. cross-fostering study indicated that the decreases in pup survival were largely due to prenatal drug effects. Increases in post-implantation loss and decreases in pup weight and survival were also seen when pregnant rats were dosed orally with asenapine.. 8.2 Lactation Risk Summary Lactation studies have not been conducted to assess the presence of asenapine in human milk, the effects of asenapine on the breastfed infant, or the effects of asenapine on milk production. Asenapine is excreted in rat milk. The development and health benefits of breastfeeding should be considered along with the mothers clinical need for asenapine and any potential adverse effects on the breastfed infant from asenapine or from the underlying maternal condition.. 8.4 Pediatric Use. Safety and efficacy of asenapine in pediatric patients below the age of 10 years of age have not been evaluated.Bipolar Disorder The safety and efficacy of asenapine as monotherapy in the treatment of bipolar disorder were established in 3-week, placebo-controlled, double-blind trial of 403 pediatric patients 10 to 17 years of age, of whom 302 patients received asenapine at fixed doses ranging from 2.5 mg to 10 mg twice daily [see Dosage and Administration 2.3 ), Adverse Reactions 6.1 ), Clinical Pharmacology 12.3 ), and Clinical Studies 14.2 )]. In Phase study, pediatric patients aged 10 to 17 years appeared to be more sensitive to dystonia with initial dosing with asenapine when the recommended dose escalation schedule was not followed. Similar safety findings were reported from 50-week, open-label, uncontrolled safety trial in pediatric patients with bipolar disorder treated with asenapine monotherapy. The safety and efficacy of asenapine as adjunctive therapy in the treatment of bipolar disorder have not been established in the pediatric population. In general, the pharmacokinetics of asenapine in pediatric patients (10 to 17 years) and adults are similar [see Clinical Pharmacology 12.3 )].Schizophrenia Efficacy of asenapine was not demonstrated in an 8-week, placebo-controlled, double-blind trial, in 306 adolescent patients aged 12 to 17 years with schizophrenia at doses of 2.5 and mg twice daily. The most common adverse reactions (proportion of patients equal or greater than 5% and at least twice placebo) reported were somnolence, akathisia, dizziness, and oral hypoesthesia or paresthesia. The proportion of patients with an equal or greater than 7% increase in body weight at endpoint compared to baseline for placebo, asenapine 2.5 mg twice daily, and asenapine mg twice daily was 3%, 10%, and 10%, respectively. The clinically relevant adverse reactions identified in the pediatric schizophrenia trial were generally similar to those observed in the pediatric bipolar and adult bipolar and schizophrenia trials. No new major safety findings were reported from 26-week, open-label, uncontrolled safety trial in pediatric patients with schizophrenia treated with asenapine monotherapy.Juvenile Animal Data Subcutaneous administration of asenapine to juvenile rats for 56 days from day 14 of age to day 69 of age at 0.4, 1.2, and 3.2 mg/kg/day (0.2, 0.6 and 1.5 times the maximum recommended human dose of 10 mg twice daily given sublingually on mg/m2 basis) resulted in significant reduction in body weight gain in animals of both sexes at all dose levels from the start of dosing until weaning. Body weight gain remained reduced in males to the end of treatment, however, recovery was observed once treatment ended. Neurobehavioral assessment indicated increased motor activity in animals at all dose levels following the completion of treatment, with the evidence of recovery in males. There was no recovery after the end of treatment in female activity pattern as late as day 30 following the completion of treatment (last retesting). Therefore, No Observed Adverse Effect Level (NOAEL) for the juvenile animal toxicity of asenapine could not be determined. There were no treatment-related effects on the startle response, learning/memory, organ weights, microscopic evaluations of the brain and, reproductive performance (except for minimally reduced conception rate and fertility index in males and females administered 1.2 and 3.2 mg/kg/day).. 8.5 Geriatric Use. Clinical studies of asenapine in the treatment of schizophrenia and bipolar mania did not include sufficient numbers of patients aged 65 and over to determine whether or not they respond differently than younger patients. Of the approximately 2,250 patients in pre-marketing clinical studies of asenapine, 1.1% (25) were 65 years of age or over. Multiple factors that might increase the pharmacodynamic response to asenapine, causing poorer tolerance or orthostasis, could be present in elderly patients, and these patients should be monitored carefully. Based on pharmacokinetic study in elderly patients, dosage adjustments are not recommended based on age alone [see Clinical Pharmacology 12.3 )]. Elderly patients with dementia-related psychosis treated with asenapine are at an increased risk of death compared to placebo. Asenapine is not approved for the treatment of patients with dementia-related psychosis see Boxed Warning ].. 8.6 Renal Impairment. No dosage adjustment for asenapine is required on the basis of patients renal function (mild to severe renal impairment, glomerular filtration rate between 15 and 90 mL/minute). The exposure of asenapine was similar among subjects with varying degrees of renal impairment and subjects with normal renal function see Clinical Pharmacology 12.3 )]. The effect of renal function on the excretion of other metabolites and the effect of dialysis on the pharmacokinetics of asenapine has not been studied.. 8.7 Hepatic Impairment. Asenapine is contraindicated in patients with severe hepatic impairment (Child-Pugh C) because asenapine exposure is 7-fold higher in subjects with severe hepatic impairment than the exposure observed in subjects with normal hepatic function. No dosage adjustment for asenapine is required in patients with mild to moderate hepatic impairment (Child-Pugh and B) because asenapine exposure is similar to that in subjects with normal hepatic function see Contraindications 4 and Clinical Pharmacology 12.3 )]. 8.8 Other Specific Populations No dosage adjustment for asenapine is required on the basis of patients sex, race (Caucasian and Japanese), or smoking status [see Clinical Pharmacology 12.3 )].

WARNINGS AND PRECAUTIONS SECTION.

5 WARNINGS AND PRECAUTIONS. Cerebrovascular Adverse Reactions in Elderly Patients with Dementia-Related Psychosis: Increased incidence of cerebrovascular adverse reactions (e.g., stroke, transient ischemic attack). (5.2) Neuroleptic Malignant Syndrome: Manage with immediate discontinuation and close monitoring. (5.3)Tardive Dyskinesia: Discontinue if clinically appropriate. (5.4) Metabolic Changes: Monitor for hyperglycemia/diabetes mellitus, dyslipidemia, and weight gain. (5.5) Orthostatic Hypotension: Monitor heart rate and blood pressure and warn patients with known cardiovascular or cerebrovascular disease, and risk of dehydration or syncope. (5.7) Leukopenia, Neutropenia, and Agranulocytosis: Perform complete blood counts (CBC) in patients with pre-existing low white blood cell count (WBC) or history of leukopenia or neutropenia. Consider discontinuing asenapine if clinically significant decline in WBC occurs in absence of other causative factors. (5.9) QT Prolongation: Increases in QT interval; avoid use with drugs that also increase the QT interval and in patients with risk factors for prolonged QT interval. (5.10) Seizures: Use cautiously in patients with history of seizures or with conditions that lower the seizure threshold. (5.12) Potential for Cognitive and Motor Impairment: Use caution when operating machinery. (5.13). Cerebrovascular Adverse Reactions in Elderly Patients with Dementia-Related Psychosis: Increased incidence of cerebrovascular adverse reactions (e.g., stroke, transient ischemic attack). (5.2) Neuroleptic Malignant Syndrome: Manage with immediate discontinuation and close monitoring. (5.3). Tardive Dyskinesia: Discontinue if clinically appropriate. (5.4) Metabolic Changes: Monitor for hyperglycemia/diabetes mellitus, dyslipidemia, and weight gain. (5.5) Orthostatic Hypotension: Monitor heart rate and blood pressure and warn patients with known cardiovascular or cerebrovascular disease, and risk of dehydration or syncope. (5.7) Leukopenia, Neutropenia, and Agranulocytosis: Perform complete blood counts (CBC) in patients with pre-existing low white blood cell count (WBC) or history of leukopenia or neutropenia. Consider discontinuing asenapine if clinically significant decline in WBC occurs in absence of other causative factors. (5.9) QT Prolongation: Increases in QT interval; avoid use with drugs that also increase the QT interval and in patients with risk factors for prolonged QT interval. (5.10) Seizures: Use cautiously in patients with history of seizures or with conditions that lower the seizure threshold. (5.12) Potential for Cognitive and Motor Impairment: Use caution when operating machinery. (5.13). 5.1 Increased Mortality in Elderly Patients with Dementia-Related Psychosis. Elderly patients with dementia-related psychosis treated with antipsychotic drugs are at an increased risk of death. Analyses of 17 placebo-controlled trials (modal duration of 10 weeks), largely in patients taking atypical antipsychotic drugs, revealed risk of death in drug-treated patients of between 1.6 to 1.7 times the risk of death in placebo-treated patients. Over the course of typical 10-week controlled trial, the rate of death in drug-treated patients was about 4.5%, compared to rate of about 2.6% in the placebo group.Although the causes of death were varied, most of the deaths appeared to be either cardiovascular (e.g., heart failure, sudden death) or infectious (e.g., pneumonia) in nature. Asenapine is not approved for the treatment of patients with dementia-related psychosis [see Boxed Warning and Warnings and Precautions 5.2 ]. 5.2 Cerebrovascular Adverse Events, Including Stroke, In Elderly Patients with Dementia-Related Psychosis. In placebo-controlled trials in elderly subjects with dementia, patients randomized to risperidone, aripiprazole, and olanzapine had higher incidence of stroke and transient ischemic attack, including fatal stroke. Asenapine is not approved for the treatment of patients with dementia-related psychosis [see Boxed Warning Warnings and Precautions 5.1 )]. 5.3 Neuroleptic Malignant Syndrome. potentially fatal symptom complex sometimes referred to as Neuroleptic Malignant Syndrome (NMS) has been reported in association with administration of antipsychotic drugs. Clinical manifestations of NMS are hyperpyrexia, muscle rigidity, delirium, and autonomic instability. Additional signs may include elevated creatine phosphokinase, myoglobinuria (rhabdomyolysis), and acute renal failure. If NMS is suspected, immediately discontinue asenapine and provide intensive symptomatic treatment and monitoring.. 5.4 Tardive Dyskinesia. Tardive dyskinesia, syndrome consisting of potentially irreversible, involuntary, dyskinetic movements, may develop in patients treated with antipsychotic drugs, including asenapine. The risk appears to be highest among the elderly, especially elderly women, but it is not possible to predict which patients are likely to develop the syndrome. Whether antipsychotic drug products differ in their potential to cause tardive dyskinesia is unknown. The risk of tardive dyskinesia and the likelihood that it will become irreversible increase with the duration of treatment and the cumulative dose. The syndrome can develop after relatively brief treatment period, even at low doses. It may also occur after discontinuation of treatment. There is no known treatment for tardive dyskinesia, although the syndrome may remit, partially or completely, if antipsychotic treatment is discontinued. Antipsychotic treatment itself, however, may suppress (or partially suppress) the signs and symptoms of the syndrome, possibly masking the underlying process. The effect that symptomatic suppression has upon the long-term course of tardive dyskinesia is unknown. Given these considerations, asenapine should be prescribed in manner most likely to reduce the risk of tardive dyskinesia. Chronic antipsychotic treatment should generally be reserved for patients: 1) who suffer from chronic illness that is known to respond to antipsychotic drugs; and 2) for whom alternative, effective, but potentially less harmful treatments are not available or appropriate. In patients who do require chronic treatment, use the lowest dose and the shortest duration of treatment producing satisfactory clinical response should be sought. Periodically reassess the need for continued treatment.If signs and symptoms of TD appear in patient on asenapine, drug discontinuation should be considered. However, some patients may require treatment with asenapine despite the presence of the syndrome.. 5.5 Metabolic Changes Atypical antipsychotic drugs, including asenapine, have caused metabolic changes, including hyperglycemia, diabetes mellitus, dyslipidemia, and body weight gain. Although all of the drugs in the class to date have been shown to produce some metabolic changes, each drug has its own specific risk profile.Hyperglycemia and Diabetes MellitusHyperglycemia, in some cases extreme and associated with ketoacidosis or hyperosmolar coma or death, has been reported in patients treated with atypical antipsychotics. There have been reports of hyperglycemia in patients treated with asenapine. Assess fasting plasma glucose before or soon after initiation of antipsychotic medication, and monitor periodically during long-term treatment.Adult Patients: Pooled data from the short-term placebo-controlled schizophrenia and bipolar mania trials are presented in Table 1. TABLE 1: Changes in Fasting Glucose in Adult Patients Schizophrenia (6-weeks)Bipolar Disorder (3-weeks)Placebo asenapinePlacebo asenapine5 mg twice daily 10 mg twice daily or 10 mgtwice daily mg twice daily 10 mg twice daily or 10 mgtwice daily+ Mean Change from Baseline in Fasting Glucose at Endpoint Change from Baseline (mg/dL) (N)-0.2(232)3.8(158)1.1 (153)3.2 (377) (174)4.1(84)3.5(81) 1.7 (321) Proportion of Patients with Shifts from Baseline to EndpointNormal to High<100 to >=126 mg/dL4.1%4.5%4.5%5.0% 2.4%0%1.7%1.8%(n/N)(7/170)(5/111)(5/111)(13/262) (3/126)(0/53)(1/60)(4/224)Borderline to High>=100 and <126to >=126 mg/dL5.9%6.8%6.3%10.5%0%12.5%15.8%12.8%(n/N)(3/51)(3/44)(2/32)(10/95)(0/39)(3/24)(3/19)(10/78)N Number of patients who had assessments at both Baseline and Endpoint. = Number of patients at risk at Baseline with assessments at both Baseline and Endpoint. Includes patients treated with flexible dose of asenapine or 10 mg twice daily (N=90). Includes patients treated with flexible dose of asenapine or 10 mg twice daily (N=379).In 52-week, double-blind, comparator-controlled trial that included primarily patients with schizophrenia, the mean increase from baseline of fasting glucose was 2.4 mg/dL.Pediatric Patients: Data from the short-term, placebo-controlled trial in pediatric patients with bipolar disorder are shown in Table 2. TABLE 2: Changes in Fasting Glucose in Pediatric Subjects Bipolar Disorder (3-weeks)Placebo asenapine 2.5 mgtwice dailyasenapine mg twice dailyasenapine 10 mg twice dailyMean Change from Baseline in Fasting Glucose at Endpoint Change from Baseline (mg/dL) (N)-2.24(56)1.43(51)-0.45(57)0.34(52)Proportion of Subjects with Shifts from Baseline to EndpointNormal to High>45 < 100 to >=126 mg/dL0%0%1.8%0%(n/N)(0/56)(0/51)(1/57)(0/52) = Number of subjects who had assessments at both Baseline and Endpoint. Dyslipidemia Atypical antipsychotics cause adverse alterations in lipids. Before or soon after initiation of antipsychotic medication, obtain fasting lipid profile at baseline and monitor periodically during treatment. Adult Patients: Pooled data from the short-term, placebo-controlled schizophrenia and bipolar mania trials are presented in Table . TABLE : Changes in Lipids in Adult Patients Schizophrenia (6-weeks)Bipolar Disorder (3-weeks)Placebo asenapinePlacebo asenapine mg twice daily 10 mg twice daily or 10 mg twice daily mg twice daily10 mg twice daily5 or 10 mg twice daily+ Mean Change from Baseline (mg/dL)Total cholesterol (N)-2.2(351)-2.4(258)3.3(199) 0.4 (539)-1.6(278)-1.6(108)-4.7(95)-0.5(525)LDL (N)0.1(285)-0.2(195)2.6(195) 1.3 (465) 1.4(271)-2.5(101)-4.1(94) -0.3(499)HDL (N)0.5(290)0.4(199)1.0(199)0.5 (480)0.2(278)0.1(108)0.7(95)0.7(525)Fasting triglycerides (N)-7.6(233)-1.9(159)0.1(154)3.8 (380) -16.9(222)3.9(89)-8.5(85) -3.0(411)Proportion of Patients with Shifts from Baseline to EndpointTotal cholesterolNormal to High<200 to >=240 (mg/dL) (n/N)1.3%(3/225)0.6%(1/161)2.2%(3/134)1.7%(6/343) 1.2%(2/174)3.0%(2/66)0(0/63) 2.1% (7/333)LDL Normal to High<100 to >=160(mg/dL) (n/N)1.7%(2/117)0.0%(0/80)1.2%(1/86)1.0%(2/196)1.9%(2/108)2.4%(1/41) 0(0/41)0.5% (1/223)HDL Normal to Low>=40 to <40 (mg/dL) (n/N)10.7%(21/196)13.3%(18/135)14.7%(20/136)14.0%(45/322)7.4%(16/215)4.1%(4/97)5.1%(4/78) 7.0%(29/417)Fasting triglycerides Normal to High<150 to >=200 (mg/dL) (n/N)2.4%(4/167)7.0%(8/115)8.3%(9/108)7.7%(20/260)4.6% (7/153)8.2%(5/61)1.6%(1/64) 6.2% (17/273)N Number of subjects who had assessments at both Baseline and Endpoint. Includes subjects treated with flexible dose of asenapine or 10 mg twice daily (N=90). Includes patients treated with flexible dose of asenapine or 10 mg twice daily (N=379)In short-term schizophrenia trials, the proportion of patients with total cholesterol elevations >=240 mg/dL (at Endpoint) was 8.3% for asenapine-treated patients versus 7% for placebo-treated patients. The proportion of patients with elevations in triglycerides >=200 mg/dL (at Endpoint) was 13.2% for asenapine-treated patients versus 10.5% for placebo-treated patients. In short-term, placebo-controlled bipolar mania trials, the proportion of patients with total cholesterol elevations >=240 mg/dL (at Endpoint) was 7.8% for asenapine-treated patients versus 7.9% for placebo-treated patients. The proportion of patients with elevations in triglycerides >=200 mg/dL (at Endpoint) was 13.1% for asenapine-treated patients versus 8.6% for placebo-treated patients. Pediatric Patients: Data from the short-term, placebo-controlled bipolar mania trial are presented in Table 4. TABLE : Changes in Fasting Lipids in Pediatric Subjects Bipolar Disorder (3-weeks)Placebo asenapine2.5 mgtwice dailyasenapine5 mgtwice dailyasenapine10 mgtwice dailyMean Change from Baseline (mg/dL)Total fasting cholesterol (N)-2.3(57)3.7(50)7.2(57)9.3(52)Fasting LDL (N)-2.5(57)-0.2(50)3.0(57)4.9(51)Fasting HDL (N)1.6(57)2.3(50)1.5(57)1.7(52)Fasting triglycerides (N)-6.6(57)8.7(50)13.4(57)14.7(52)Proportion of Subjects with Shifts from Baseline to EndpointTotal fasting cholesterolNormal to High<170 to >=200 (mg/dL) (n/N)1.8%(1/57)0%(0/50)1.8%(1/57)0%(0/52)Fasting LDL Normal to High<110 to >=130(n/N)1.8%(1/57)2.0%(1/50)1.8%(1/57)0%(0/51)Fasting HDL Normal to Low>=40 to <40 (mg/dL) (n/N)3.5%(2/57)6.0%(3/50)3.5%(2/57)9.6%(5/52)Fasting triglycerides Normal to High<150 to >=200 (mg/dL) (n/N)0%(0/57)4.0%(2/50)3.5%(2/57)1.9%(1/52) = Number of patients who had assessments at both Baseline and EndpointWeight Gain Weight gain has been observed in patients treated with atypical antipsychotics, including asenapine. Monitor weight at baseline and frequently thereafter. Adult Patients: Pooled data on mean changes in body weight and the proportion of subjects meeting weight gain criterion of >=7% of body weight from the short-term, placebo-controlled schizophrenia and bipolar mania trials are presented in Table . Table 5: Change in Body Weight in Adult Patients from BaselineSchizophrenia (6-weeks)Bipolar Disorder (3-weeks)Placebo asenapinePlacebo asenapine5 mg twice daily 10 mg twice daily or 10 mgtwice daily mg twice daily 10 mg twice daily or 10 mg twice daily+ Change from Baseline (kg) (N)0.0(348)1.0(251)0.9(200)1.1(532)0.2(288)1.4(110)1.3(98)1.3(544)Proportion of Patients with >=7% Increase in Body Weight% with >=7% increase in body weight1.6%4.4%4.8%4.9%0.4%6.4%1.0%5.5%N Number of subjects who had assessments at both Baseline and Endpoint. Includes subjects treated with flexible dose of asenapine or 10 mg twice daily (N=90). Includes patients treated with flexible dose of asenapine or 10 mg twice daily (N=379). Adult Patients: In 52-week, double-blind, comparator-controlled adult trial that included primarily patients with schizophrenia, the mean weight gain from baseline was 0.9 kg. The proportion of patients with >=7% increase in body weight (at Endpoint) was 14.7%. Table provides the mean weight change from baseline and the proportion of patients with weight gain of >=7% categorized by Body Mass Index (BMI) at baseline. Table 6: Weight Change Results Categorized by BMI at Baseline: Comparator-Controlled 52-Week Study in Adults with SchizophreniaBMI <23asenapineN=295BMI 23 <=27asenapine N=290BMI >27asenapineN=302Mean change from Baseline (kg)1.710% with >=7% increase in body weight22%13%9% Pediatric Patients: Data on mean changes in body weight and the proportion of pediatric patients meeting weight gain criterion of >=7% of body weight from the short-term, placebo-controlled bipolar mania trial are presented in Table 7. To adjust for normal growth, z-scores were derived (measured in standard deviations [SD]), which normalize for the natural growth of pediatric patients by comparisons to age- and sex-matched population standards. The distance of z-score from represents the distance of percentile from the median, measured in standard deviations (SD). After adjusting for age and sex, the mean change from baseline to endpoint in weight z-score for asenapine 2.5 mg, mg, and 10 mg twice daily, was 0.11, 0.08 and 0.09 SD versus 0.02 SD for placebo, respectively. When treating pediatric patients, weight gain should be monitored and assessed against that expected for normal growth.Table 7: Change in Body Weight in Pediatric Subjects from Baseline Bipolar Disorder (3-weeks)Placebo asenapine 2.5 mgtwice dailyasenapine mg twice dailyasenapine 10 mg twice dailyChange from Baseline (kg) (N) 0.5(89)1.7 (92)1.6(90)1.4(87)Proportion of Subjects with >=7% Increase in Body Weight% with >=7% increase in body weight1.1%12.0%8.9%8.0% = Number of subjects who had assessments at both Baseline and Endpoint.. 5.6 Hypersensitivity Reactions. Hypersensitivity reactions have been observed in patients treated with asenapine. In several cases, these reactions occurred after the first dose. These hypersensitivity reactions included: anaphylaxis, angioedema, hypotension, tachycardia, swollen tongue, dyspnea, wheezing and rash.. 5.7 Orthostatic Hypotension, Syncope, and Other Hemodynamic Effects. Atypical antipsychotics cause orthostatic hypotension and syncope. Generally, the risk is greatest during initial dose titration and when increasing the dose. In short-term schizophrenia adult trials, syncope was reported in 0.2% (1/572) of patients treated with therapeutic doses (5 mg or 10 mg twice daily) of asenapine, compared to 0.3% (1/378) of patients treated with placebo. In short-term bipolar mania adult trials, syncope was reported in 0.2% (1/620) of patients treated with therapeutic doses (5 mg or 10 mg twice daily) of asenapine, compared to 0% (0/329) of patients treated with placebo. During adult pre-marketing clinical trials with asenapine, including long-term trials without comparison to placebo, syncope was reported in 0.6% (11/1953) of patients treated with asenapine. In 3-week, bipolar mania pediatric trial, syncope was reported in 1% (1/104) of patients treated with asenapine 2.5 mg twice daily, 1% (1/99) of patients treated with asenapine mg twice daily, and 0% (0/99) for patients treated with asenapine 10 mg twice daily compared to 0% (0/101) for patients treated with placebo. Orthostatic vital signs should be monitored in patients who are vulnerable to hypotension (elderly patients, patients with dehydration, hypovolemia, concomitant treatment with antihypertensive medications, patients with known cardiovascular disease (history of myocardial infarction or ischemic heart disease, heart failure, or conduction abnormalities), and patients with cerebrovascular disease. Asenapine should be used cautiously when treating patients who receive treatment with other drugs that can induce hypotension, bradycardia, respiratory or central nervous system depression [see Drug Interactions 7.1 )]. Monitoring of orthostatic vital signs should be considered in all such patients, and dose reduction should be considered if hypotension occurs. 5.8 Falls. Asenapine may cause somnolence, postural hypotension, motor and sensory instability, which may lead to falls and, consequently, fractures or other injuries. For patients with diseases, conditions, or medications that could exacerbate these effects, complete fall risk assessments when initiating antipsychotic treatment and recurrently for patients on long-term antipsychotic therapy. 5.9 Leukopenia, Neutropenia, and Agranulocytosis. In clinical trial and postmarketing experience, leukopenia and neutropenia have been reported temporally related to antipsychotic agents, including asenapine. Agranulocytosis (including fatal cases) has been reported with other agents in the class. Possible risk factors for leukopenia/neutropenia include pre-existing low white blood cell count (WBC) or absolute neutrophil count (ANC) and history of drug induced leukopenia/neutropenia. In patients with pre-existing low WBC or ANC or history of drug-induced leukopenia or neutropenia, perform complete blood count (CBC) during the first few months of therapy. In such patients, consider discontinuation of asenapine at the first sign of clinically significant decline in WBC in the absence of other causative factors. Monitor patients with clinically significant neutropenia for fever or other symptoms or signs of infection and treat promptly if such symptoms or signs occur. Discontinue asenapine in patients with severe neutropenia (absolute neutrophil count <1000/mm3) and follow their WBC until recovery.. 5.10 QT Prolongation. The effects of asenapine on the QT/QTc interval were evaluated in dedicated adult QT study. This trial involved asenapine doses of mg, 10 mg, 15 mg, and 20 mg twice daily, and placebo, and was conducted in 151 clinically stable patients with schizophrenia, with electrocardiographic assessments throughout the dosing interval at baseline and steady state. At these doses, asenapine was associated with increases in QTc interval ranging from to msec compared to placebo. No patients treated with asenapine experienced QTc increases >=60 msec from baseline measurements, nor did any patient experience QTc of >=500 msec. Electrocardiogram (ECG) measurements were taken at various time points during the asenapine clinical trial program (5 mg or 10 mg twice daily doses). Post-baseline QT prolongations exceeding 500 msec were reported at comparable rates for asenapine and placebo in these short-term trials. There were no reports of Torsade de Pointes or any other adverse reactions associated with delayed ventricular repolarization. The use of asenapine should be avoided in combination with other drugs known to prolong QTc including Class 1A antiarrhythmics (e.g., quinidine, procainamide) or Class antiarrhythmics (e.g., amiodarone, sotalol), antipsychotic medications (e.g., ziprasidone, chlorpromazine, thioridazine), and antibiotics (e.g., gatifloxacin, moxifloxacin). Asenapine should also be avoided in patients with history of cardiac arrhythmias and in other circumstances that may increase the risk of the occurrence of torsade de pointes and/or sudden death in association with the use of drugs that prolong the QTc interval, including bradycardia; hypokalemia or hypomagnesemia; and presence of congenital prolongation of the QT interval.. 5.11 Hyperprolactinemia. Like other drugs that antagonize dopamine D2 receptors, asenapine can elevate prolactin levels, and the elevation can persist during chronic administration. Hyperprolactinemia may suppress hypothalamic GnRH, resulting in reduced pituitary gonadotropin secretion. This, in turn, may inhibit reproductive function by impairing gonadal steroidogenesis in both female and male patients. Galactorrhea, amenorrhea, gynecomastia, and impotence have been reported in patients receiving prolactin-elevating compounds. Long-standing hyperprolactinemia when associated with hypogonadism may lead to decreased bone density in both female and male subjects. In asenapine adult pre-marketing clinical trials, the incidences of adverse events related to abnormal prolactin levels were 0.4% versus 0% for placebo. In 3-week, bipolar mania pediatric trial, the incidence of adverse events related to abnormal prolactin levels were 0% in the asenapine 2.5 mg twice daily treatment group, 2% in the asenapine mg twice daily treatment group, and 1% in the asenapine 10 mg twice daily treatment group versus to 1% for patients treated with placebo [see Adverse Reactions 6.1 )]. Tissue culture experiments indicate that approximately one-third of human breast cancers are prolactin-dependent in vitro, factor of potential importance if the prescription of these drugs is considered in patient with previously-detected breast cancer. Neither clinical studies nor epidemiologic studies conducted to date have shown an association between chronic administration of this class of drugs and tumorigenesis in humans, but the available evidence is too limited to be conclusive.. 5.12 Seizures. Seizures were reported in 0% and 0.3% (0/572, 1/379) of adult patients treated with doses of mg and 10 mg twice daily of asenapine, respectively, compared to 0% (0/503, 0/203) of patients treated with placebo in pre-marketing short-term schizophrenia and bipolar mania trials, respectively. During adult pre-marketing clinical trials with asenapine, including long-term trials without comparison to placebo, seizures were reported in 0.3% (5/1953) of patients treated with asenapine. There were no reports of seizures in pediatric patients treated with asenapine in 3-week-term, bipolar mania trial. As with other antipsychotic drugs, asenapine should be used with caution in patients with history of seizures or with conditions that potentially lower the seizure threshold. Conditions that lower the seizure threshold may be more prevalent in patients 65 years or older.. 5.13 Potential for Cognitive and Motor Impairment. Somnolence was reported in patients treated with asenapine. It was usually transient with the highest incidence reported during the first week of treatment. In short-term, fixed-dose, placebo-controlled schizophrenia adult trials, somnolence was reported in 15% (41/274) of patients on asenapine mg twice daily and in 13% (26/208) of patients on asenapine 10 mg twice daily compared to 7% (26/378) of placebo patients. In short-term, placebo-controlled bipolar mania adult trials of therapeutic doses (5-10 mg twice daily), somnolence was reported in 23% (145/620) of patients on asenapine compared to 5% (18/329) of placebo patients. In the 3-week fixed-dose study, somnolence occurred at lower rate in the 5mg twice daily dose 20% (24/122) versus the 10mg twice daily dose 26% (31/119) compared to 4% (5/126) in placebo patients. During adult pre-marketing clinical trials with asenapine, including long-term trials without comparison to placebo, somnolence was reported in 18% (358/1953) of patients treated with asenapine. Somnolence led to discontinuation in 0.6% (12/1953) of patients in short-term, placebo-controlled trials. In 3-week, placebo-controlled, bipolar pediatric trial, the incidence of somnolence (including sedation and hypersomnia) for placebo, asenapine 2.5 mg twice daily, mg twice daily, and 10 mg twice daily, was 12% (12/101), 46% (48/104), 53% (52/99), and 49% (49/99), respectively. Somnolence led to discontinuation in 0%, 3%, 1%, and 2% of patients treated with placebo, and asenapine 2.5 mg twice daily, mg twice daily, and 10 mg twice daily, respectively. Patients should be cautioned about operating hazardous machinery, including motor vehicles, until they are reasonably certain that asenapine therapy does not affect them adversely. 5.14 Body Temperature Regulation. Atypical antipsychotics may disrupt the bodys ability to reduce core body temperature. In the pre-marketing short-term placebo-controlled trials for both schizophrenia and acute bipolar disorder, the incidence of adverse reactions suggestive of body temperature increases was low (<=1%) and comparable to placebo (0%). During pre-marketing clinical trials with asenapine, including long-term trials without comparison to placebo, the incidence of adverse reactions suggestive of body temperature increases (pyrexia and feeling hot) was <=1%. Strenuous exercise, exposure to extreme heat, dehydration, and anticholinergic medications may contribute to an elevation in core body temperature; use asenapine with caution in patient who may experience these conditions. 5.15 Dysphagia. Esophageal dysmotility and aspiration have been associated with antipsychotic drug use. Dysphagia has been reported with asenapine. Asenapine and other antipsychotic drugs should be used cautiously in patients at risk for aspiration.

HEPATIC IMPAIRMENT SUBSECTION.

8.7 Hepatic Impairment. Asenapine is contraindicated in patients with severe hepatic impairment (Child-Pugh C) because asenapine exposure is 7-fold higher in subjects with severe hepatic impairment than the exposure observed in subjects with normal hepatic function. No dosage adjustment for asenapine is required in patients with mild to moderate hepatic impairment (Child-Pugh and B) because asenapine exposure is similar to that in subjects with normal hepatic function see Contraindications 4 and Clinical Pharmacology 12.3 )].

RENAL IMPAIRMENT SUBSECTION.

8.6 Renal Impairment. No dosage adjustment for asenapine is required on the basis of patients renal function (mild to severe renal impairment, glomerular filtration rate between 15 and 90 mL/minute). The exposure of asenapine was similar among subjects with varying degrees of renal impairment and subjects with normal renal function see Clinical Pharmacology 12.3 )]. The effect of renal function on the excretion of other metabolites and the effect of dialysis on the pharmacokinetics of asenapine has not been studied.