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Bupropion Hydrobromide

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Tên thương mại: Aplenzin

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Tablet
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ORAL
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Bausch Health US LLC

About This Medication

11 DESCRIPTION APLENZIN ® (bupropion hydrobromide), an antidepressant of the aminoketone class, is chemically unrelated to tricyclic, tetracyclic, selective serotonin reuptake inhibitor, or other known antidepressant agents. Its structure closely resembles that of diethylpropion; it is related to phenylethylamines. It is designated as (±)-2-(tert-butylamino)-3’-chloropropiophenone hydrobromide. The molecular weight is 320.6. The molecular formula is C 13 H 18 ClNO•HBr. Bupropion hydrobromide powder is white or almost white, crystalline, and soluble in water. It has a bitter taste and produces the sensation of local anesthesia on the oral mucosa. The structural formula is: APLENZIN tablets are supplied for oral administration as 174 mg, 348 mg, and 522 mg white to off-white extended-release tablets. Each tablet contains the labeled amount of bupropion hydrobromide and the inactive ingredients: ethylcellulose, glyceryl dibehenate, polyvinyl alcohol, polyethylene glycol, povidone, and dibutyl sebacate. Carnauba wax is included in the 174 mg and 348 mg strengths. The tablets are printed with edible black ink. The insoluble shell of the extended-release tablet may remain intact during gastrointestinal transit and is eliminated in the feces. chemical structure

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Bupropion Hydrobromide -

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1 INDICATIONS AND USAGE APLENZIN is an aminoketone antidepressant, indicated for the treatment of major depressive disorder (MDD) and seasonal affective disorder (SAD). Periodically reevaluate long-term usefulness for the individual patient. ( 1 ) 1.1 Major Depressive Disorder APLENZIN ® (bupropion hydrobromide) extended-release tablets are indicated for the treatment of major depressive disorder (MDD), as defined by the Diagnostic and Statistical Manual (DSM). The efficacy of the immediate-release formulation of bupropion was established in two 4-week controlled inpatient trials and one 6-week controlled outpatient trial of adult patients with MDD. The efficacy of the sustained-release formulation of bupropion in the maintenance treatment of MDD was established in a long-term (up to 44 weeks), placebo-controlled trial in patients who had responded to bupropion in an 8-week study of acute treatment [see Clinical Studies (14.1) ]. 1.2 Seasonal Affective Disorder APLENZIN is indicated for the prevention of seasonal major depressive episodes in patients with a diagnosis of seasonal affective disorder (SAD). The efficacy of bupropion hydrochloride extended-release tablets in the prevention of seasonal major depressive episodes was established in 3 placebo-controlled trials in adult outpatients with a history of MDD with an autumn-winter seasonal pattern as defined in the DSM [see Clinical Studies (14.2) ].

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12.1 Mechanism of Action The mechanism of action of bupropion is unknown, as is the case with other antidepressants. However, it is presumed that this action is mediated by noradrenergic and/or dopaminergic mechanisms. Bupropion is a relatively weak inhibitor of the neuronal uptake of norepinephrine and dopamine and does not inhibit monoamine oxidase or the reuptake of serotonin.

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2 DOSAGE AND ADMINISTRATION General • Increase dose gradually to reduce seizure risk. ( 2.1 , 5.3 ) Major Depressive Disorder • Starting dose: 174 mg once daily (equivalent to 150 mg bupropion HCl). Usual target dose: 348 mg once daily (equivalent to 300 mg bupropion HCl). ( 2.3 ) • After 4 days, may increase the dose to 348 mg once daily. ( 2.3 ) Seasonal Affective Disorder • Initiate treatment in the autumn prior to onset of seasonal depressive symptoms. ( 2.4 ) • Starting dose: 174 mg once daily (equivalent to 150 mg bupropion HCl). Usual target dose: 348 mg once daily (equivalent to 300 mg bupropion HCl). ( 2.4 ) • After one week, may increase the dose to 348 mg once daily. ( 2.4 ) • Continue treatment through the winter season. ( 2.4 ) Hepatic Impairment • Moderate to severe hepatic impairment: Maximum dose 174 mg every other day ( 2.6 ) • Mild hepatic impairment: Consider reducing the dose and/or frequency of dosing. ( 2.2 , 2.6 , 8.7 ) Renal Impairment • Consider reducing the dose and/or frequency of dosing. ( 2.2 , 2.7 , 8.6 ) 2.1 General Instructions for Use To minimize the risk of seizure, increase the dose gradually [see Warnings and Precautions (5.3) ]. APLENZIN should be swallowed whole and not crushed, divided, or chewed. APLENZIN should be administered in the morning and may be taken with or without regard to meals. 2.2 Equivalent Daily Doses of APLENZIN (Bupropion hydrobromide) and Bupropion hydrochloride See Table 1 for equivalent daily doses of APLENZIN (bupropion hydrobromide) and bupropion hydrochloride. Table 1: Equivalent Daily Doses of APLENZIN (Bupropion hydrobromide) and Bupropion hydrochloride APLENZIN (Bupropion hydrobromide) Bupropion hydrochloride 522 mg 450 mg 348 mg 300 mg 174 mg 150 mg 2.3 Dosage for Major Depressive Disorder (MDD) The recommended starting dose for MDD is 174 mg once daily in the morning. After 4 days of dosing, the dose may be increased to the target dose of 348 mg once daily in the morning. It is generally agreed that acute episodes of depression require several months or longer of antidepressant treatment beyond the response in the acute episode. It is unknown whether the APLENZIN dose needed for maintenance treatment is identical to the dose that provided an initial response. Periodically reassess the need for maintenance treatment and the appropriate dose for such treatment. 2.4 Dosage for Seasonal Affective Disorder (SAD) The recommended starting dose for SAD is 174 mg once daily. After 7 days of dosing, the dose may be increased to the target dose of 348 mg once daily in the morning. Doses above 300 mg of bupropion HCl extended-release (equivalent to APLENZIN 348 mg) were not assessed in the SAD trials. For the prevention of seasonal MDD episodes associated with SAD, initiate APLENZIN in the autumn, prior to the onset of depressive symptoms. Continue treatment through the winter season. Taper and discontinue APLENZIN in early spring. For patients treated with 348 mg per day, decrease the dose to 174 mg once daily before discontinuing APLENZIN. Individualize the timing of initiation, and duration of treatment should be individualized, based on the patient’s historical pattern of seasonal MDD episodes. 2.5 To Discontinue APLENZIN, Taper the Dose When discontinuing treatment in patients treated with APLENZIN 348 mg once daily, decrease the dose to 174 mg once daily prior to discontinuation. 2.6 Dosage Adjustment in Patients with Hepatic Impairment In patients with moderate to severe hepatic impairment (Child-Pugh score: 7 to 15), the maximum dose is 174 mg every other day. In patients with mild hepatic impairment (Child-Pugh score: 5 to 6), consider reducing the dose and/or frequency of dosing [see Use in Specific Populations (8.7) and Clinical Pharmacology (12.3) ]. 2.7 Dosage Adjustment in Patients with Renal Impairment Consider reducing the dose and/or frequency of APLENZIN in patients with renal impairment (glomerular filtration rate less than 90 mL/min) [see Use in Specific Populations (8.6) and Clinical Pharmacology (12.3) ] . 2.8 Switching a Patient to or from a Monoamine Oxidase Inhibitor (MAOI) Antidepressant At least 14 days should elapse between discontinuation of an MAOI intended to treat depression and initiation of therapy with APLENZIN. Conversely, at least 14 days should be allowed after stopping APLENZIN before starting an MAOI antidepressant [see Contraindications (4) and Drug Interactions (7.6) ] . 2.9 Use of APLENZIN with Reversible MAOIs such as Linezolid or Methylene Blue Do not start APLENZIN in a patient who is being treated with a reversible MAOI such as linezolid or intravenous methylene blue. Drug interactions can increase risk of hypertensive reactions. In a patient who requires more urgent treatment of a psychiatric condition, non-pharmacological interventions, including hospitalization, should be considered [see Contraindications (4) ] . In some cases, a patient already receiving APLENZIN therapy may require urgent treatment with linezolid or intravenous methylene blue. If acceptable alternatives to linezolid or intravenous methylene blue treatment are not available and the potential benefits of linezolid or intravenous methylene blue treatment are judged to outweigh the risks of hypertensive reactions in a particular patient, APLENZIN should be stopped promptly, and linezolid or intravenous methylene blue can be administered. The patient should be monitored for 2 weeks or until 24 hours after the last dose of linezolid or intravenous methylene blue, whichever comes first. Therapy with APLENZIN may be resumed 24 hours after the last dose of linezolid or intravenous methylene blue. The risk of administering methylene blue by non-intravenous routes (such as oral tablets or by local injection) or in intravenous doses much lower than 1 mg per kg with APLENZIN is unclear. The clinician should, nevertheless, be aware of the possibility of a drug interaction with such use [see Contraindications (4) and Drug Interactions (7.6)] .

Side Effects Overview

6 ADVERSE REACTIONS The following adverse reactions are discussed in greater detail in other sections of the labeling: • Suicidal thoughts and behaviors in children, adolescents, and young adults [see Warnings and Precautions (5.1) ] • Neuropsychiatric adverse events and suicide risk in smoking cessation treatment [see Warnings and Precautions (5.2) ] • Seizure [see Warnings and Precautions (5.3) ] • Hypertension [see Warnings and Precautions (5.4) ] • Activation of mania or hypomania [see Warnings and Precautions (5.5 )] • Psychosis and other neuropsychiatric events [see Warnings and Precautions (5.6) ] • Angle-closure glaucoma [see Warnings and Precautions (5.7) ] • Hypersensitivity reactions [see Warnings and Precautions (5.8) ] Most common adverse reactions are (incidence ≥5%; ≥2× placebo rate): dry mouth, nausea, insomnia, dizziness, pharyngitis, abdominal pain, agitation, anxiety, tremor, palpitation, sweating, tinnitus, myalgia, anorexia, urinary frequency, rash. ( 6.1 ) To report SUSPECTED ADVERSE REACTIONS, contact Bausch Health US, LLC at 1-800-321-4576 or FDA at 1-800-FDA-1088 or www.fda.gov/medwatch. 6.1 Clinical Trials Experience Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of a drug cannot be directly compared to rates in the clinical trials of another drug and may not reflect the rates observed in practice. Commonly Observed Adverse Reactions in Controlled Clinical Trials of Sustained-Release Bupropion Hydrochloride Adverse reactions that occurred in at least 5% of patients treated with bupropion HCl sustained-release (300 mg and 400 mg per day) and at a rate at least twice the placebo rate are listed below. 300 mg/day of bupropion HCl sustained-release (equivalent to APLENZIN 348 mg/day): anorexia, dry mouth, rash, sweating, tinnitus, and tremor. 400 mg/day of bupropion HCl sustained-release (equivalent to APLENZIN 464 mg/day): abdominal pain, agitation, anxiety, dizziness, dry mouth, insomnia, myalgia, nausea, palpitation, pharyngitis, sweating, tinnitus, and urinary frequency. APLENZIN is bioequivalent to bupropion HCl extended-release, which has been demonstrated to have similar bioavailability both to the immediate-release formulation of bupropion and to the sustained-release formulation of bupropion. The information included under this subsection and under subsection 6.2 is based primarily on data from controlled clinical trials with the sustained-release and extended-release formulations of bupropion hydrochloride. Major Depressive Disorder Adverse Reactions Leading to Discontinuation of Treatment with Bupropion HCl Immediate-Release, Bupropion HCl Sustained-Release, and Bupropion HCl Extended-Release in Major Depressive Disorder Trials In placebo-controlled clinical trials with bupropion HCl sustained-release, 4%, 9%, and 11% of the placebo, 300 mg/day and 400 mg/day groups, respectively, discontinued treatment because of adverse reactions. The specific adverse reactions leading to discontinuation in at least 1% of the 300 mg/day or 400 mg/day groups and at a rate at least twice the placebo rate are listed in Table 3 . Table 3: Treatment Discontinuation Due to Adverse Reactions in Placebo-Controlled Trials in MDD Adverse Reaction Term Placebo (n=385) Bupropion HCl Sustained-Release 300 mg/day Equivalent to 348 mg/day bupropion HBr (n=376) Bupropion HCl Sustained-Release 400 mg/day Equivalent to 464 mg/day bupropion HBr (n=114) Rash 0.0% 2.4% 0.9% Nausea 0.3% 0.8% 1.8% Agitation 0.3% 0.3% 1.8% Migraine 0.3% 0.0% 1.8% In clinical trials with bupropion HCl immediate-release, 10% of patients and volunteers discontinued due to an adverse reaction. Reactions resulting in discontinuation (in addition to those listed above for the sustained-release formulation) included vomiting, seizures, and sleep disturbances. Adverse Reactions Occurring at an Incidence of >1% in Patients Treated with Bupropion HCl Immediate-Release or Bupropion HCl Sustained-Release in MDD Table 4 summarizes the adverse reactions that occurred in placebo-controlled trials in patients treated with bupropion HCl sustained-release 300 mg/day and 400 mg/day. These include reactions that occurred in either the 300 mg or 400 mg group at an incidence of 1% or more and were more frequent than in the placebo group. Table 4: Adverse Reactions in Placebo-Controlled Trials in Patients with MDD Body System/Adverse Reaction Placebo (n=385) Bupropion HCl Sustained-Release 300 mg/day Equivalent to 348 mg/day bupropion HBr (n=376) Bupropion HCl Sustained-Release 400 mg/day Equivalent to 464 mg/day bupropion HBr (n=114) Body (General) Headache 23% 26% 25% Infection 6% 8% 9% Abdominal pain 2% 3% 9% Asthenia 2% 2% 4% Chest pain 1% 3% 4% Pain 2% 2% 3% Fever — Hyphen denotes adverse reactions occurring in greater than 0 but less than 0.5% of patients 1% 2% Cardiovascular Palpitation 2% 2% 6% Flushing — 1% 4% Migraine 1% 1% 4% Hot flashes 1% 1% 3% Digestive Dry mouth 7% 17% 24% Nausea 8% 13% 18% Constipation 7% 10% 5% Diarrhea 6% 5% 7% Anorexia 2% 5% 3% Vomiting 2% 4% 2% Dysphagia 0% 0% 2% Musculoskeletal Myalgia 3% 2% 6% Arthralgia 1% 1% 4% Arthritis 0% 0% 2% Twitch — 1% 2% Nervous System Insomnia 6% 11% 16% Dizziness 5% 7% 11% Agitation 2% 3% 9% Anxiety 3% 5% 6% Tremor 1% 6% 3% Nervousness 3% 5% 3% Somnolence 2% 2% 3% Irritability 2% 3% 2% Memory decreased 1% — 3% Paresthesia 1% 1% 2% Central nervous system stimulation 1% 2% 1% Respiratory Pharyngitis 2% 3% 11% Sinusitis 2% 3% 1% Increased cough 1% 1% 2% Skin Sweating 2% 6% 5% Rash 1% 5% 4% Pruritus 2% 2% 4% Urticaria 0% 2% 1% Special Senses Tinnitus 2% 6% 6% Taste perversion — 2% 4% Blurred vision or diplopia 2% 3% 2% Urogenital Urinary frequency 2% 2% 5% Urinary urgency 0% — 2% Vaginal hemorrhage Incidence based on the number of female patients. — 0% 2% Urinary tract infection — 1% 0% The following additional adverse reactions occurred in controlled trials of bupropion HCl immediate-release (300 to 600 mg per day) at an incidence of at least 1% more frequently than in the placebo group were: cardiac arrhythmia (5% vs. 4%), hypertension (4% vs. 2%), hypotension (3% vs. 2%), tachycardia (11% vs. 9%), appetite increased (4% vs. 2%), dyspepsia (3% vs. 2%), menstrual complaints (5% vs. 1%), akathisia (2% vs. 1%), impaired sleep quality (4% vs. 2%), sensory disturbance (4% vs. 3%), confusion (8% vs. 5%), decreased libido (3% vs. 2%), hostility (6% vs. 4%), auditory disturbance (5% vs. 3%), and gustatory disturbance (3% vs. 1%). Seasonal Affective Disorder In placebo-controlled clinical trials in SAD, 9% of patients treated with bupropion HCl extended-release and 5% of patients treated with placebo discontinued treatment because of adverse reactions. The adverse reactions leading to discontinuation in at least 1% of patients treated with bupropion and at a rate numerically greater than the placebo rate were insomnia (2% vs. <1%) and headache (1% vs. <1%). Table 5 summarizes the adverse reactions that occurred in patients treated with bupropion HCl extended-release for up to approximately 6 months in 3 placebo-controlled trials. These include reactions that occurred at an incidence of 2% or more and were more frequent than in the placebo group. Table 5: Adverse Reactions in Placebo-Controlled Trials in Patients with SAD System Organ Class/ Preferred Term Placebo (n=511) Bupropion HCl Extended-Release (n=537) Gastrointestinal Disorder Dry mouth 15% 26% Nausea 8% 13% Constipation 2% 9% Flatulence 3% 6% Abdominal pain <1% 2% Nervous System Disorders Headache 26% 34% Dizziness 5% 6% Tremor <1% 3% Infections and Infestations Nasopharyngitis 12% 13% Upper respiratory tract infection 8% 9% Sinusitis 4% 5% Psychiatric Disorders Insomnia 13% 20% Anxiety 5% 7% Abnormal dreams 2% 3% Agitation <1% 2% Musculoskeletal and Connective Tissue Disorders Myalgia 2% 3% Pain in extremity 2% 3% Respiratory, Thoracic, and Mediastinal Disorders Cough 3% 4% General Disorders and Administration Site Conditions Feeling jittery 2% 3% Skin and Subcutaneous Tissue Disorders Rash 2% 3% Metabolism and Nutrition Disorders Decreased appetite 1% 4% Reproductive System and Breast Disorders Dysmenorrhea <1% 2% Ear and Labyrinth Disorders Tinnitus <1% 3% Vascular Disorders Hypertension 0% 2% Changes in Body Weight Table 6 presents the incidence of body weight changes (≥5 lbs) in the short-term MDD trials using bupropion HCl sustained-release. There was a dose-related decrease in body weight. Table 6: Incidence of Weight Gain or Weight Loss (≥5 lbs) in MDD Trials Using Bupropion HCl Sustained-Release Weight Change Bupropion HCl Sustained-Release 300 mg/day Equivalent to 348 mg/day bupropion HBr (n=339) Bupropion HCl Sustained-Release 400 mg/day Equivalent to 464 mg/day bupropion HBr (n=112) Placebo (n=347) Gained >5 lbs 3% 2% 4% Lost >5 lbs 14% 19% 6% Table 7 presents the incidence of body weight changes (≥5 lbs) in the 3 SAD trials using bupropion HCl extended-release. A higher proportion of subjects in the bupropion group (23%) had a weight loss ≥5 lbs, compared to the placebo group (11%). These were relatively long-term trials (up to 6 months). Table 7: Incidence of Weight Gain or Weight Loss (≥5 lbs) in SAD Trials Using Bupropion HCl Extended-Release Weight Change Bupropion HCl Extended-Release 150 to 300 mg/day (n=537) Placebo (n=511) Gained >5 lbs 11% 21% Lost >5 lbs 23% 11% 6.2 Postmarketing Experience The following adverse reactions have been identified during post-approval use of APLENZIN. Because these reactions are reported voluntarily from a population of uncertain size, it is not always possible to reliably estimate their frequency or establish a causal relationship to drug exposure. Body (General) Chills, facial edema, edema, peripheral edema, musculoskeletal chest pain, photosensitivity, and malaise. Cardiovascular Postural hypotension, stroke, vasodilation, syncope, complete atrioventricular block, extrasystoles, myocardial infarction, phlebitis, pulmonary embolism, and Brugada pattern/syndrome. Digestive Abnormal liver function, bruxism, gastric reflux, gingivitis, glossitis, increased salivation, jaundice, mouth ulcers, stomatitis, thirst, edema of tongue, colitis, esophagitis, gastrointestinal hemorrhage, gum hemorrhage, hepatitis, intestinal perforation, liver damage, pancreatitis, and stomach ulcer. Endocrine Hyperglycemia, hypoglycemia, and syndrome of inappropriate antidiuretic hormone secretion. Hemic and Lymphatic Ecchymosis, anemia, leukocytosis, leukopenia, lymphadenopathy, pancytopenia, and thrombocytopenia. Altered PT and/or INR, associated with hemorrhagic or thrombotic complications, were observed when bupropion was coadministered with warfarin. Metabolic and Nutritional Glycosuria. Musculoskeletal Leg cramps, fever/rhabdomyolysis, and muscle weakness. Nervous System Abnormal coordination, depersonalization, emotional lability, hyperkinesia, hypertonia, hypesthesia, vertigo, amnesia, ataxia, derealization, abnormal electroencephalogram (EEG), aggression, akinesia, aphasia, coma, dysarthria, dyskinesia, dystonia, euphoria, extrapyramidal syndrome, hypokinesia, increased libido, neuralgia, neuropathy, paranoid ideation, restlessness, suicide attempt, unmasking tardive dyskinesia and aseptic meningitis. Respiratory Bronchospasm and pneumonia. Skin and Subcutaneous Tissue Disorders Maculopapular rash, alopecia, angioedema, exfoliative dermatitis, hirsutism, acute generalized exanthematous pustulosis and drug reaction with eosinophilia and systemic symptoms (DRESS). Special Senses Accommodation abnormality, dry eye, deafness, increased intraocular pressure, angle-closure glaucoma, and mydriasis. Urogenital Impotence, polyuria, prostate disorder, abnormal ejaculation, cystitis, dyspareunia, dysuria, gynecomastia, menopause, painful erection, salpingitis, urinary incontinence, urinary retention, and vaginitis.

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12.3 Pharmacokinetics Bupropion is a racemic mixture. The pharmacologic activity and pharmacokinetics of the individual enantiomers have not been studied. Following chronic dosing of APLENZIN 348 mg once-daily tablets, the mean peak steady-state plasma concentration and area under the curve of bupropion were 134.3 (±38.2) ng/mL and 1409 (±346) ng•hr/mL, respectively. Steady-state plasma concentrations of bupropion were reached within 8 days. The elimination half-life (±SD) of bupropion after a single dose is 21.3 (±6.7) hours. In a study comparing 10-day dosing with APLENZIN 348 mg once-daily and bupropion HCl extended-release 300 mg once-daily, (following a 3-day titration with bupropion HCl extended-release 150 mg once-daily), APLENZIN peak plasma concentration and area under the curve for bupropion and the 3 metabolites (hydroxybupropion, threohydrobupropion, and erythrohydrobupropion) were equivalent to bupropion HCl extended-release 300 mg, with the average being 8 to 14% lower. In a single-dose study, two APLENZIN tablets 174 mg once-daily and one APLENZIN tablet 348 mg once-daily were evaluated. Equivalence was demonstrated for peak plasma concentration and area under the curve for bupropion and the 3 metabolites. A multidose study compared 14-day dosing with APLENZIN tablets 522 mg once-daily to dosing with three APLENZIN tablets 174 mg once-daily, following a 3-day titration with one APLENZIN tablet 174 mg once-daily, and a succeeding 5-day titration with two APLENZIN tablets 174 mg once-daily. Equivalence was demonstrated for peak plasma concentration and area under the curve for bupropion and the 3 metabolites. These findings demonstrate that APLENZIN tablets 174 mg, 348 mg, and 522 mg are dose proportional. Absorption Following single oral administration of APLENZIN tablets to healthy volunteers, the median time to peak plasma concentrations for bupropion was approximately 5 hours. The presence of food did not affect the peak concentration and time to peak plasma concentration of bupropion; the area under the curve was increased by 19%. Distribution In vitro tests demonstrated that bupropion is 84% bound to human plasma proteins at concentrations up to 200 mcg/mL. The extent of protein binding of the hydroxybupropion metabolite is similar to that for bupropion, whereas the extent of protein binding of the threohydrobupropion metabolite is about half that of bupropion. Metabolism Bupropion is extensively metabolized in humans. Three metabolites are active: hydroxybupropion, which is formed via hydroxylation of the tert -butyl group of bupropion, and the amino-alcohol isomers threohydrobupropion and erythrohydrobupropion, which are formed via reduction of the carbonyl group. In vitro findings suggest that CYP2B6 is the principal isoenzyme involved in the formation of hydroxybupropion, while cytochrome P450 enzymes are not involved in the formation of threohydrobupropion. Oxidation of the bupropion side chain results in the formation of a glycine conjugate of meta-chlorobenzoic acid, which is then excreted as the major urinary metabolite. The potency and toxicity of the metabolites relative to bupropion have not been fully characterized. However, it has been demonstrated in an antidepressant screening test in mice that hydroxybupropion is one half as potent as bupropion, while threohydrobupropion and erythrohydrobupropion are 5-fold less potent than bupropion. This may be of clinical importance, because the plasma concentrations of the metabolites are as high or higher than those of bupropion. At steady state, peak plasma concentration of hydroxybupropion occurred approximately 6 hours after administration of APLENZIN, and it was approximately 9 times the peak level of the parent drug. The elimination half-life of hydroxybupropion is approximately 24.3 (±4.9) hours, and its AUC at steady state is about 15.6 times that of bupropion. The times to peak concentrations for the erythrohydrobupropion and threohydrobupropion metabolites are similar to that of hydroxybupropion. However, the elimination half-lives of erythrohydrobupropion and threohydrobupropion are longer, approximately 31.1(±7.8) and 50.8 (±8.5) hours, respectively, and steady-state AUCs were 1.5 and 6.8 times that of bupropion, respectively. Bupropion and its metabolites exhibit linear kinetics following chronic administration of 300 mg to 450 mg/day of bupropion hydrochloride (equivalent to 348 mg and 522 mg of APLENZIN, respectively). Elimination Following oral administration of 200 mg of 14 C-bupropion in humans, 87% and 10% of the radioactive dose were recovered in the urine and feces, respectively. Only 0.5% of the oral dose was excreted as unchanged bupropion. Specific Populations Factors or conditions altering metabolic capacity (e.g., liver disease, congestive heart failure [CHF], age, concomitant medications, etc.) or elimination may be expected to influence the degree and extent of accumulation of the active metabolites of bupropion. The elimination of the major metabolites of bupropion may be affected by reduced renal or hepatic function, because they are moderately polar compounds and are likely to undergo further metabolism or conjugation in the liver prior to urinary excretion. Patients with Renal Impairment There is limited information on the pharmacokinetics of bupropion in patients with renal impairment. An inter-trial comparison between normal subjects and subjects with end-stage renal failure demonstrated that the parent drug C max and AUC values were comparable in the 2 groups, whereas the hydroxybupropion and threohydrobupropion metabolites had a 2.3- and 2.8-fold increase, respectively, in AUC for subjects with end-stage renal failure. A second study, comparing normal subjects and subjects with moderate-to-severe renal impairment (GFR 30.9 ± 10.8 mL/min) showed that after a single 150 mg dose of sustained-release bupropion, exposure to bupropion was approximately 2-fold higher in subjects with impaired renal function, while levels of the hydroxybupropion and threo/erythrohydrobupropion (combined) metabolites were similar in the 2 groups. Bupropion is extensively metabolized in the liver to active metabolites, which are further metabolized and subsequently excreted by the kidneys. The elimination of the major metabolites of bupropion may be reduced by impaired renal function. APLENZIN should be used with caution in patients with renal impairment, and a reduced frequency and/or dose should be considered [see Dosage and Administration (2.7) and Use in Specific Populations (8.6) ] . Patients with Hepatic Impairment The effect of hepatic impairment on the pharmacokinetics of bupropion was characterized in 2 single-dose trials, one in subjects with alcoholic liver disease and one in subjects with mild to severe cirrhosis. The first trial demonstrated that the half-life of hydroxybupropion was significantly longer in 8 subjects with alcoholic liver disease than in 8 healthy volunteers (32±14 hours versus 21±5 hours, respectively). Although not statistically significant, the AUCs for bupropion and hydroxybupropion were more variable and tended to be greater (by 53% to 57%) in patients with alcoholic liver disease. The differences in half-life for bupropion and the other metabolites in the 2 groups were minimal. The second trial demonstrated no statistically significant differences in the pharmacokinetics of bupropion and its active metabolites in 9 subjects with mild to moderate hepatic cirrhosis compared to 8 healthy volunteers. However, more variability was observed in some of the pharmacokinetic parameters for bupropion (AUC, C max , and T max ) and its active metabolites (t ½ ) in subjects with mild to moderate hepatic cirrhosis. In addition, in patients with severe hepatic cirrhosis, the bupropion Cmax and AUC were substantially increased (mean difference: by approximately 70% and 3-fold, respectively) and more variable when compared to values in healthy volunteers; the mean bupropion half-life was also longer (29 hours in subjects with severe hepatic cirrhosis vs. 19 hours in healthy subjects). For the metabolite hydroxybupropion, the mean Cmax was approximately 69% lower. For the combined amino-alcohol isomers threohydrobupropion and erythrohydrobupropion, the mean Cmax was approximately 31% lower. The mean AUC increased by about 1½-fold for hydroxybupropion and about 2½-fold for threo/erythrohydrobupropion. The median T max was observed 19 hours later for hydroxybupropion and 31 hours later for threo/erythrohydrobupropion. The mean half-lives for hydroxybupropion and threo/erythrohydrobupropion were increased 5- and 2-fold, respectively, in patients with severe hepatic cirrhosis compared to healthy volunteers [see Dosage and Administration (2.6) and Use in Specific Populations (8.7) ] . Left Ventricular Dysfunction During a chronic dosing study with bupropion in 14 depressed patients with left ventricular dysfunction (history of CHF or an enlarged heart on x-ray), there was no apparent effect on the pharmacokinetics of bupropion or its metabolites, compared to healthy volunteers. Age The effects of age on the pharmacokinetics of bupropion and its metabolites have not been fully characterized, but an exploration of steady-state bupropion concentrations from several depression efficacy studies involving patients dosed in a range of 300 to 750 mg/day, on a 3 times daily schedule, revealed no relationship between age (18 to 83 years) and plasma concentration of bupropion. A single-dose pharmacokinetic study demonstrated that the disposition of bupropion and its metabolites in elderly subjects was similar to that in younger subjects. These data suggest that there is no prominent effect of age on bupropion concentration; however, another single- and multiple-dose pharmacokinetic study suggested that the elderly are at increased risk for accumulation of bupropion and its metabolites [see Use in Specific Populations (8.5) ]. Gender A single-dose study involving 12 healthy male and 12 healthy female volunteers revealed no sex-related differences in the pharmacokinetic parameters of bupropion. In addition, pooled analysis of bupropion pharmacokinetic data from 90 healthy male and 90 healthy female volunteers revealed no sex-related differences in the peak plasma concentrations of bupropion. The mean systemic exposure (AUC) was approximately 13% higher in male volunteers compared to female volunteers. Smokers The effects of cigarette smoking on the pharmacokinetics of bupropion hydrochloride were studied in 34 healthy male and female volunteers; 17 were chronic cigarette smokers and 17 were nonsmokers. Following oral administration of a single 150 mg dose of bupropion, there was no statistically significant difference in C max , half-life, T max , AUC, or clearance of bupropion or its active metabolites between smokers and nonsmokers. Drug Interactions Potential for Other Drugs to Affect APLENZIN In vitro studies indicate that bupropion is primarily metabolized to hydroxybupropion by CYP2B6. Therefore, the potential exists for drug interactions between APLENZIN and drugs that are inhibitors or inducers of CYP2B6. In addition, in vitro studies suggest that paroxetine, sertraline, norfluoxetine, fluvoxamine, and nelfinavir inhibit the hydroxylation of bupropion. Inhibitors of CYP2B6 Ticlopidine, Clopidogrel: In a study in healthy male volunteers, clopidogrel 75 mg once daily or ticlopidine 250 mg twice daily increased exposures (C max and AUC) of bupropion by 40% and 60% for clopidogrel, by 38% and 85% for ticlopidine, respectively. The exposures of hydroxybupropion were decreased. Prasugrel: In healthy subjects, prasugrel increased bupropion C max and AUC values by 14% and 18%, respectively, and decreased C max and AUC values of hydroxybupropion by 32% and 24%, respectively. Cimetidine: Following oral administration of bupropion 300 mg with and without cimetidine 800 mg in 24 healthy young male volunteers, the pharmacokinetics of bupropion and hydroxybupropion were unaffected. However, there were 16% and 32% increases in the AUC and C max , respectively, of the combined moieties of threohydrobupropion and erythrohydrobupropion. Citalopram: Citalopram did not affect the pharmacokinetics of bupropion and its three metabolites. Inducers of CYP2B6 Ritonavir and Lopinavir: In a healthy volunteer study, ritonavir 100 mg twice daily reduced the AUC and C max of bupropion by 22% and 21%, respectively. The exposure of the hydroxybupropion metabolite was decreased by 23%, the threohydrobupropion decreased by 38%, and the erythrohydrobupropion decreased by 48%. In a second healthy volunteer study, ritonavir 600 mg twice daily decreased the AUC and C max of bupropion by 66% and 62%, respectively. The exposure of the hydroxybupropion metabolite was decreased by 78%, the threohydrobupropion decreased by 50%, and the erythrohydrobupropion decreased by 68%. In another healthy volunteer study, lopinavir 400 mg/ritonavir 100 mg twice daily decreased bupropion AUC and C max by 57%. The AUC and C max of hydroxybupropion metabolite were decreased by 50% and 31%, respectively. Efavirenz: In a study of healthy volunteers, efavirenz 600 mg once daily for 2 weeks reduced the AUC and C max of bupropion by approximately 55% and 34%, respectively. The AUC of hydroxybupropion was unchanged, whereas C max of hydroxybupropion was increased by 50%. Carbamazepine, Phenobarbital, Phenytoin: While not systematically studied, these drugs may induce the metabolism of bupropion. Potential for APLENZIN to Affect Other Drugs Animal data indicated that bupropion may be an inducer of drug-metabolizing enzymes in humans. In a study of 8 healthy male volunteers, following a 14-day administration of bupropion 100 mg three times per day, there was no evidence of induction of its own metabolism. Nevertheless, there may be the potential for clinically important alterations of blood levels of coadministered drugs. Drugs Metabolized by CYP2D6 In vitro, bupropion and hydroxybupropion are CYP2D6 inhibitors. In a clinical study of 15 male subjects (ages 19 to 35 years) who were extensive metabolizers of CYP2D6, bupropion given as 150 mg twice daily followed by a single dose of 50 mg desipramine increased the C max , AUC, and T ½ of desipramine by an average of approximately 2-, 5-, and 2-fold, respectively. The effect was present for at least 7 days after the last dose of bupropion. Concomitant use of bupropion with other drugs metabolized by CYP2D6 has not been formally studied. Citalopram: Although citalopram is not primarily metabolized by CYP2D6, in one study bupropion increased the C max and AUC of citalopram by 30% and 40%, respectively. Lamotrigine: Multiple oral doses of bupropion had no statistically significant effects on the single-dose pharmacokinetics of lamotrigine in 12 healthy volunteers.

Frequently Asked Questions

1 INDICATIONS AND USAGE APLENZIN is an aminoketone antidepressant, indicated for the treatment of major depressive disorder (MDD) and seasonal affective disorder (SAD). Periodically reevaluate long-term usefulness for the individual patient. ( 1 ) 1.1 Major Depressive Disorder APLENZIN ® (bupropion hydrobromide) extended-release tablets are indicated for the treatment of major depressive disorder (MDD), as defined by the Diagnostic and Statistical Manual (DSM). The efficacy of the immediate-release formulation of bupropion was established in two 4-week controlled inpatient trials and …

2 DOSAGE AND ADMINISTRATION General • Increase dose gradually to reduce seizure risk. ( 2.1 , 5.3 ) Major Depressive Disorder • Starting dose: 174 mg once daily (equivalent to 150 mg bupropion HCl). Usual target dose: 348 mg once daily (equivalent to 300 mg bupropion HCl). ( 2.3 ) • After 4 days, may increase the dose to 348 mg once daily. ( 2.3 ) Seasonal Affective Disorder • Initiate treatment in the autumn prior to onset of seasonal …

5 WARNINGS AND PRECAUTIONS • Neuropsychiatric Adverse Events During Smoking Cessation: Postmarketing reports of serious or clinically significant neuropsychiatric adverse events have included changes in mood (including depression and mania), psychosis, hallucinations, paranoia, delusions, homicidal ideation, aggression, hostility, agitation, anxiety, and panic, as well as suicidal ideation, suicide attempt, and completed suicide. Observe patients attempting to quit smoking with APLENZIN for the occurrence of such symptoms and instruct them to discontinue APLENZIN and contact a healthcare provider if they experience …

4 CONTRAINDICATIONS • APLENZIN is contraindicated in patients with a seizure disorder. • APLENZIN is contraindicated in patients with a current or prior diagnosis of bulimia or anorexia nervosa as a higher incidence of seizures was observed in such patients treated with APLENZIN [see Warnings and Precautions (5.3) ]. • APLENZIN is contraindicated in patients undergoing abrupt discontinuation of alcohol, benzodiazepines, barbiturates, and antiepileptic drugs [see Warnings and Precautions (5.3) and Drug Interactions (7.3) ]. • The use of MAOIs …

Bupropion Hydrobromide is a prescription medication. You will need a valid prescription from a licensed healthcare provider.

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References & Data Sources

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Data sources: ChEMBL, PubChem, DailyMed.