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FDA Drug information

SIMVASTATIN

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Marketing start date: 23 Nov 2024

Summary of product characteristics


Adverse Reactions

ADVERSE REACTIONS SECTION 6.1 Clinical Trials Experience Because clinical studies are conducted under widely varying conditions, adverse reaction rates observed in the clinical studies of a drug cannot be directly compared to rates in the clinical studies of another drug and may not reflect the rates observed in practice. In the pre-marketing controlled clinical studies and their open extensions (2,423 patients with median duration of follow-up of approximately 18 months), 1.4% of patients were discontinued due to adverse reactions. The most common adverse reactions that led to treatment discontinuation were: gastrointestinal disorders (0.5%), myalgia (0.1%), and arthralgia (0.1%). The most commonly reported adverse reactions (incidence ≥5%) in simvastatin controlled clinical trials were: upper respiratory infections (9.0%), headache (7.4%), abdominal pain (7.3%), constipation (6.6%), and nausea (5.4%). Scandinavian Simvastatin Survival Study In 4S involving 4,444 (age range 35 to 71 years, 19% women, 100% Caucasians) treated with 20 to 40 mg/day of simvastatin (n=2,221) or placebo (n=2,223) over a median of 5.4 years, adverse reactions reported in ≥2% of patients and at a rate greater than placebo are shown in Table 2. Table 2: Adverse Reactions Reported Regardless of Causality by ≥2% of Patients Treated with Simvastatin Tablets and Greater than Placebo in 4S Simvastatin Tablets (N = 2,221) % Placebo (N = 2,223) % Body as a Whole Edema/swelling Abdominal pain 2.7 5.9 2.3 5.8 Cardiovascular System Disorders Atrial fibrillation 5.7 5.1 Digestive System Disorders Constipation Gastritis 2.2 4.9 1.6 3.9 Endocrine Disorders Diabetes mellitus 4.2 3.6 Musculoskeletal Disorders Myalgia 3.7 3.2 Nervous System / Psychiatric Disorders Headache Insomnia Vertigo 2.5 4.0 4.5 2.1 3.8 4.2 Respiratory System Disorders Bronchitis Sinusitis 6.6 2.3 6.3 1.8 Skin / Skin Appendage Disorders Eczema 4.5 3.0 Urogenital System Disorders Infection, urinary tract 3.2 3.1 Heart Protection Study In the Heart Protection Study (HPS), involving 20,536 patients (age range 40 to 80 years, 25% women, 97% Caucasians, 3% other races) treated with simvastatin tablets 40 mg/day (n=10,269) or placebo (n=10,267) over a mean of 5 years, only serious adverse reactions and discontinuations due to any adverse reactions were recorded. Discontinuation rates due to adverse reactions were 4.8% in patients treated with simvastatin tablets compared with 5.1% in patients treated with placebo. The incidence of myopathy/rhabdomyolysis was <0.1% in patients treated with simvastatin tablets. Other Clinical Studies In a clinical trial in which 12,064 patients with a history of myocardial infarction were treated with simvastatin (mean follow-up 6.7 years), the incidence of myopathy (defined as unexplained muscle weakness or pain with a serum creatine kinase [CK] >10 times upper limit of normal [ULN]) in patients on 80 mg/day was approximately 0.9% compared with 0.02% for patients on 20 mg/day. The incidence of rhabdomyolysis (defined as myopathy with a CK >40 times ULN) in patients on 80 mg/day was approximately 0.4% compared with 0% for patients on 20 mg/day. The incidence of myopathy, including rhabdomyolysis, was highest during the first year and then notably decreased during the subsequent years of treatment. In this trial, patients were carefully monitored and some interacting medicinal products were excluded. Other adverse reactions reported in clinical trials were: diarrhea, rash, dyspepsia, flatulence, and asthenia. Laboratory Tests Marked persistent increases of hepatic transaminases have been noted [see Warnings and Precautions (5.2) ]. Elevated alkaline phosphatase and γ-glutamyl transpeptidase have also been reported. About 5% of patients had elevations of CK levels of 3 or more times the normal value on one or more occasions. This was attributable to the noncardiac fraction of CK. [See Warnings and Precautions (5.1) .] Adolescent Patients (ages 10 to 17 years) In a 48-week, controlled study in adolescent boys and girls who were at least 1 year post-menarche, 10 to 17 years of age (43.4% female, 97.7% Caucasians, 1.7% Hispanics, 0.6% Multiracial) with heterozygous familial hypercholesterolemia (n=175), treated with placebo or simvastatin tablets (10 to 40 mg daily), the most common adverse reactions observed in both groups were upper respiratory infection, headache, abdominal pain, and nausea [see Use in Specific Populations (8.4) and Clinical Studies (14.2) ] . 6.2 Postmarketing Experience Because the below reactions are reported voluntarily from a population of uncertain size, it is generally not possible to reliably estimate their frequency or establish a causal relationship to drug exposure. The following additional adverse reactions have been identified during postapproval use of simvastatin: pruritus, alopecia, a variety of skin changes (e.g., nodules, discoloration, dryness of skin/mucous membranes, changes to hair/nails), dizziness, muscle cramps, myalgia, pancreatitis, paresthesia, peripheral neuropathy, vomiting, anemia, erectile dysfunction, interstitial lung disease, rhabdomyolysis, hepatitis/jaundice, fatal and non-fatal hepatic failure, and depression. There have been rare reports of immune-mediated necrotizing myopathy associated with statin use [See Warnings and Precautions (5.1) ] An apparent hypersensitivity syndrome has been reported rarely which has included some of the following features: anaphylaxis, angioedema, lupus erythematous-like syndrome, polymyalgia rheumatica, dermatomyositis, vasculitis, purpura, thrombocytopenia, leukopenia, hemolytic anemia, positive ANA, ESR increase, eosinophilia, arthritis, arthralgia, urticaria, asthenia, photosensitivity, fever, chills, flushing, malaise, dyspnea, toxic epidermal necrolysis, erythema multiforme, including Stevens-Johnson syndrome. There have been rare postmarketing reports of cognitive impairment (e.g., memory loss, forgetfulness, amnesia, memory impairment, confusion) associated with statin use. These cognitive issues have been reported for all statins. The reports are generally nonserious, and reversible upon statin discontinuation, with variable times to symptom onset (1 day to years) and symptom resolution (median of 3 weeks).

Contraindications

CONTRAINDICATIONS SECTION Simvastatin tablets are contraindicated in the following conditions: Concomitant administration of strong CYP3A4 inhibitors (e.g., itraconazole, ketoconazole, posaconazole, voriconazole, HIV protease inhibitors, boceprevir, telaprevir, erythromycin, clarithromycin, telithromycin, nefazodone, and cobicistat-containing products) [see Warnings and Precautions (5.1) ] . Concomitant administration of gemfibrozil, cyclosporine, or danazol [see Warnings and Precautions (5.1) ] . Hypersensitivity to any component of this medication [see Adverse Reactions (6.2) ] . Active liver disease, which may include unexplained persistent elevations in hepatic transaminase levels [see Warnings and Precautions (5.2) ] . Women who are pregnant or may become pregnant. Serum cholesterol and triglycerides increase during normal pregnancy, and cholesterol or cholesterol derivatives are essential for fetal development. Because HMG-CoA reductase inhibitors (statins) decrease cholesterol synthesis and possibly the synthesis of other biologically active substances derived from cholesterol, simvastatin tablets may cause fetal harm when administered to a pregnant woman. Atherosclerosis is a chronic process and the discontinuation of lipid-lowering drugs during pregnancy should have little impact on the outcome of long-term therapy of primary hypercholesterolemia. There are no adequate and well-controlled studies of use with simvastatin tablets during pregnancy; however, in rare reports congenital anomalies were observed following intrauterine exposure to statins. In rat and rabbit animal reproduction studies, simvastatin revealed no evidence of teratogenicity. Simvastatin tablets should be administered to women of childbearing age only when such patients are highly unlikely to conceive. If the patient becomes pregnant while taking this drug, simvastatin tablets should be discontinued immediately and the patient should be apprised of the potential hazard to the fetus [see Use in Specific Populations (8.1) ] . Nursing mothers. It is not known whether simvastatin is excreted into human milk; however, a small amount of another drug in this class does pass into breast milk. Because statins have the potential for serious adverse reactions in nursing infants, women who require treatment with simvastatin tablets should not breastfeed their infants [see Use in Specific Populations (8.3) ] .

Description

DESCRIPTION SECTION Simvastatin is a lipid-lowering agent that is derived synthetically from a fermentation product of Aspergillus terreus. After oral ingestion, simvastatin, which is an inactive lactone, is hydrolyzed to the corresponding β-hydroxyacid form. This is an inhibitor of 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase. This enzyme catalyzes the conversion of HMG-CoA to mevalonate, which is an early and rate-limiting step in the biosynthesis of cholesterol. Simvastatin is butanoic acid, 2,2-dimethyl-,1,2,3,7,8,8a-hexahydro-3,7-dimethyl-8-[2-(tetrahydro-4-hydroxy-6-oxo-2H-pyran-2-yl)-ethyl]-1-naphthalenyl ester, [1S-[1α,3α,7β,8β(2S*,4S*),-8aβ]]. The empirical formula of simvastatin is C25H38O5 and its molecular weight is 418.57. Its structural formula is: Simvastatin is a white to off-white, nonhygroscopic, crystalline powder that is practically insoluble in water, and freely soluble in chloroform, methanol and ethanol. Simvastatin tablets USP for oral administration contain either 5 mg, 10 mg, 20 mg, 40 mg or 80 mg of simvastatin and the following inactive ingredients: microcrystalline cellulose, hydroxypropyl cellulose, hypromellose E5, croscarmellose sodium, ferric oxide red, lactose monohydrate, magnesium stearate, maize starch, talc, titanium dioxide, butylated hydroxyanisole , ascorbic acid, citric acid monohydrate, and triethyl citrate. image description

Dosage And Administration

DOSAGE & ADMINISTRATION SECTION 2.1 Recommended Dosing The usual dosage range is 5 to 40 mg/day. In patients with CHD or at high risk of CHD, simvastatin tablets can be started simultaneously with diet. The recommended usual starting dose is 10 or 20 mg once a day in the evening. For patients at high risk for a CHD event due to existing CHD, diabetes, peripheral vessel disease, history of stroke or other cerebrovascular disease, the recommended starting dose is 40 mg/day. Lipid determinations should be performed after 4 weeks of therapy and periodically thereafter. 2.2 Restricted Dosing for 80 mg Due to the increased risk of myopathy, including rhabdomyolysis, particularly during the first year of treatment, use of the 80-mg dose of simvastatin tablets should be restricted to patients who have been taking simvastatin 80 mg chronically (e.g., for 12 months or more) without evidence of muscle toxicity. [see Warnings and Precautions (5.1) ] Patients who are currently tolerating the 80-mg dose of simvastatin tablets who need to be initiated on an interacting drug that is contraindicated or is associated with a dose cap for simvastatin should be switched to an alternative statin with less potential for the drug-drug interaction. Due to the increased risk of myopathy, including rhabdomyolysis, associated with the 80-mg dose of simvastatin tablets, patients unable to achieve their LDL-C goal utilizing the 40-mg dose of simvastatin tablets should not be titrated to the 80-mg dose, but should be placed on alternative LDL-C-lowering treatment(s) that provides greater LDL-C lowering. 2.3 Coadministration with Other Drugs Patients taking Verapamil, Diltiazem, or Dronedarone The dose of simvastatin tablets should not exceed 10 mg/day [see Warnings and Precautions (5.1) , Drug Interactions (7.3) , and Clinical Pharmacology (12.3) ]. . Patients taking Amiodarone, Amlodipine or Ranolazine The dose of simvastatin tablets should not exceed 20 mg/day [see Warnings and Precautions (5.1) , Drug Interactions (7.3) , and Clinical Pharmacology (12.3) ]. 2.4 Patients with Homozygous Familial Hypercholesterolemia The recommended dosage is 40 mg/day in the evening [see Dosage and Administration, Restricted Dosing for 80 mg (2.2) ] . Simvastatin tablets should be used as an adjunct to other lipid-lowering treatments (e.g., LDL apheresis) in these patients or if such treatments are unavailable. Simvastatin exposure is approximately doubled with concomitant use of lomitapide; therefore, the dose of simvastatin tablets should be reduced by 50% if initiating lomitapide. Simvastatin tablets dosage should not exceed 20 mg/day (or 40 mg/day for patients who have previously taken simvastatin tablets 80 mg/day chronically, e.g., for 12 months or more, without evidence of muscle toxicity) while taking lomitapide. 2.5 Adolescents (10 to 17 years of age) with Heterozygous Familial Hypercholesterolemia The recommended usual starting dose is 10 mg once a day in the evening. The recommended dosing range is 10 to 40 mg/day; the maximum recommended dose is 40 mg/day. Doses should be individualized according to the recommended goal of therapy [see NCEP Pediatric Panel Guidelines 1 and Clinical Studies (14.2) ]. Adjustments should be made at intervals of 4 weeks or more. 1 National Cholesterol Education Program (NCEP): Highlights of the Report of the Expert Panel on Blood Cholesterol Levels in Children and Adolescents. Pediatrics 89(3):495-501. 1992. 2.6 Patients with Renal Impairment Because simvastatin tablets do not undergo significant renal excretion, modification of dosage should not be necessary in patients with mild to moderate renal impairment. However, caution should be exercised when simvastatin tablets are administered to patients with severe renal impairment; such patients should be started at 5 mg/day and be closely monitored [see Warnings and Precautions (5.1) and Clinical Pharmacology (12.3) ]. 2.7 Chinese Patients Taking Lipid-Modifying Doses (greater than or equal to 1 g/day Niacin) of Niacin-Containing Products Because of an increased risk for myopathy, in Chinese patients taking simvastatin 40 mg coadministered with lipid-modifying doses (greater than or equal to 1 g/day niacin) of niacin-containing products, caution should be used when treating Chinese patients with simvastatin doses exceeding 20 mg/day coadministered with lipid-modifying doses of niacin-containing products. Because the risk for myopathy is dose-related, Chinese patients should not receive simvastatin 80 mg coadministered with lipid-modifying doses of niacin-containing products. The cause of the increased risk of myopathy is not known. It is also unknown if the risk for myopathy with coadministration of simvastatin with lipid-modifying doses of niacin-containing products observed in Chinese patients applies to other Asian patients. [see Warnings and Precautions (5.1) ]

Indications And Usage

INDICATIONS & USAGE SECTION 1. INDICATIONS AND USAGE Therapy with lipid-altering agents should be only one component of multiple risk factor intervention in individuals at significantly increased risk for atherosclerotic vascular disease due to hypercholesterolemia. Drug therapy is indicated as an adjunct to diet when the response to a diet restricted in saturated fat and cholesterol and other nonpharmacologic measures alone has been inadequate. In patients with coronary heart disease (CHD) or at high risk of CHD, simvastatin tablets can be started simultaneously with diet. 1.1 Reductions in Risk of CHD Mortality and Cardiovascular Events In patients at high risk of coronary events because of existing coronary heart disease, diabetes, peripheral vessel disease, history of stroke or other cerebrovascular disease, simvastatin tablets are indicated to: Reduce the risk of total mortality by reducing CHD deaths. Reduce the risk of non-fatal myocardial infarction and stroke. Reduce the need for coronary and non-coronary revascularization procedures. 1.2 Hyperlipidemia Simvastatin tablets are indicated to: Reduce elevated total cholesterol (total-C), low-density lipoprotein cholesterol (LDL-C), apolipoprotein B (Apo B), and triglycerides (TG), and to increase high-density lipoprotein cholesterol (HDL-C) in patients with primary hyperlipidemia (Fredrickson type IIa, heterozygous familial and nonfamilial) or mixed dyslipidemia (Fredrickson type IIb). Reduce elevated TG in patients with hypertriglyceridemia (Fredrickson type lV hyperlipidemia). Reduce elevated TG and VLDL-C in patients with primary dysbetalipoproteinemia (Fredrickson type III hyperlipidemia). Reduce total-C and LDL-C in patients with homozygous familial hypercholesterolemia (HoFH) as an adjunct to other lipid-lowering treatments (e.g., LDL apheresis) or if such treatments are unavailable. 1.3 Adolescent Patients with Heterozygous Familial Hypercholesterolemia (HeFH) Simvastatin tablets are indicated as an adjunct to diet to reduce total-C, LDL-C, and Apo B levels in adolescent boys and girls who are at least one year post-menarche, 10 to 17 years of age, with HeFH, if after an adequate trial of diet therapy the following findings are present: LDL cholesterol remains ≥190 mg/dL; or LDL cholesterol remains ≥160 mg/dL and There is a positive family history of premature cardiovascular disease (CVD) or Two or more other CVD risk factors are present in the adolescent patient. The minimum goal of treatment in pediatric and adolescent patients is to achieve a mean LDL-C <130 mg/dL. The optimal age at which to initiate lipid-lowering therapy to decrease the risk of symptomatic adulthood CAD has not been determined. 1.4 Limitations of Use Simvastatin tablets have not been studied in conditions where the major abnormality is elevation of chylomicrons (i.e., hyperlipidemia Fredrickson types I and V).

Adverse Reactions Table

Table 2: Adverse Reactions Reported Regardless of Causality by ≥2% of Patients Treated with Simvastatin Tablets and Greater than Placebo in 4S
Simvastatin Tablets (N = 2,221) % Placebo (N = 2,223) %
Body as a Whole Edema/swelling Abdominal pain 2.7 5.9 2.3 5.8
Cardiovascular System Disorders Atrial fibrillation 5.7 5.1
Digestive System Disorders Constipation Gastritis 2.2 4.9 1.6 3.9
Endocrine Disorders Diabetes mellitus 4.2 3.6
Musculoskeletal Disorders Myalgia 3.7 3.2
Nervous System / Psychiatric Disorders Headache Insomnia Vertigo 2.5 4.0 4.5 2.1 3.8 4.2
Respiratory System Disorders Bronchitis Sinusitis 6.6 2.3 6.3 1.8
Skin / Skin Appendage Disorders Eczema 4.5 3.0
Urogenital System Disorders Infection, urinary tract 3.2 3.1

Drug Interactions

DRUG INTERACTIONS SECTION 7.1 Strong CYP3A4 Inhibitors, Cyclosporine, or Danazol Strong CYP3A4 inhibitors: Simvastatin, like several other inhibitors of HMG-CoA reductase, is a substrate of CYP3A4. Simvastatin is metabolized by CYP3A4 but has no CYP3A4 inhibitory activity; therefore it is not expected to affect the plasma concentrations of other drugs metabolized by CYP3A4. Elevated plasma levels of HMG-CoA reductase inhibitory activity increases the risk of myopathy and rhabdomyolysis, particularly with higher doses of simvastatin. [See Warnings and Precautions (5.1) and Clinical Pharmacology (12.3) .] Concomitant use of drugs labeled as having a strong inhibitory effect on CYP3A4 is contraindicated [see Contraindications (4) ]. If treatment with itraconazole, ketoconazole, posaconazole, voriconazole, erythromycin, clarithromycin or telithromycin is unavoidable, therapy with simvastatin must be suspended during the course of treatment. Cyclosporine or Danazol: The risk of myopathy, including rhabdomyolysis is increased by concomitant administration of cyclosporine or danazol. Therefore, concomitant use of these drugs is contraindicated. [see Contraindications (4) , Warnings and Precautions (5.1) and Clinical Pharmacology (12.3) ]. 7.2 Lipid-Lowering Drugs That Can Cause Myopathy When Given Alone Gemfibrozil: Contraindicated with simvastatin [see Contraindications (4) and Warnings and Precautions (5.1) ] . Other fibrates: Caution should be used when prescribing with simvastatin [see Warnings and Precautions (5.1) ]. 7.3 Amiodarone, Dronedarone, Ranolazine, or Calcium Channel Blockers The risk of myopathy, including rhabdomyolysis, is increased by concomitant administration of amiodarone, dronedarone, ranolazine, or calcium channel blockers such as verapamil, diltiazem, or amlodipine [see Dosage and Administration (2.3) and Warnings and Precautions (5.1) and Table 3 in Clinical Pharmacology (12.3) ]. 7.4 Niacin Cases of myopathy/rhabdomyolysis have been observed with simvastatin coadministered with lipid-modifying doses (≥ 1 g/day niacin) of niacin-containing products. In particular, caution should be used when treating Chinese patients with simvastatin doses exceeding 20 mg/day coadministered with lipid-modifying doses of niacin-containing products. Because the risk for myopathy is dose-related, Chinese patients should not receive simvastatin 80 mg coadministered with lipid-modifying doses of niacin-containing products. [see Warnings and Precautions (5.1) and Clinical Pharmacology (12.3) ] . 7.5 Digoxin In one study, concomitant administration of digoxin with simvastatin resulted in a slight elevation in digoxin concentrations in plasma. Patients taking digoxin should be monitored appropriately when simvastatin is initiated [see Clinical Pharmacology (12.3) ] . 7.6 Coumarin Anticoagulants In two clinical studies, one in normal volunteers and the other in hypercholesterolemic patients, simvastatin 20 to 40 mg/day modestly potentiated the effect of coumarin anticoagulants: the prothrombin time, reported as International Normalized Ratio (INR), increased from a baseline of 1.7 to 1.8 and from 2.6 to 3.4 in the volunteer and patient studies, respectively. With other statins, clinically evident bleeding and/or increased prothrombin time has been reported in a few patients taking coumarin anticoagulants concomitantly. In such patients, prothrombin time should be determined before starting simvastatin and frequently enough during early therapy to ensure that no significant alteration of prothrombin time occurs. Once a stable prothrombin time has been documented, prothrombin times can be monitored at the intervals usually recommended for patients on coumarin anticoagulants. If the dose of simvastatin is changed or discontinued, the same procedure should be repeated. Simvastatin therapy has not been associated with bleeding or with changes in prothrombin time in patients not taking anticoagulants. 7.7 Colchicine Cases of myopathy, including rhabdomyolysis, have been reported with simvastatin coadministered with colchicine, and caution should be exercised when prescribing simvastatin with colchicine.

Clinical Pharmacology

CLINICAL PHARMACOLOGY SECTION 12.1 Mechanism of Action Simvastatin is a prodrug and is hydrolyzed to its active β-hydroxyacid form, simvastatin acid, after administration. Simvastatin acid and its metabolites are inhibitors of HMG-CoA reductase, the rate-limiting enzyme that converts HMG-CoA to mevalonate, a precursor of cholesterol. 12.2 Pharmacodynamics Inhibition of HMG-CoA reductase by simvastatin tablet acid accelerates the expression of LDL-receptors, followed by the uptake of LDL-C from blood to the liver, leading to a decrease in plasma LDL-C and total cholesterol. Sustained inhibition of cholesterol synthesis in the liver also decreases levels of very-low-density lipoproteins. The maximum LDL-C reduction of simvastatin tablet is usually achieved by 4 weeks and is maintained after that. 12.3 Pharmacokinetics Simvastatin is a lactone that is readily hydrolyzed in vivo to the corresponding β-hydroxyacid. Pharmacokinetics (PK) of simvastatin and its metabolites was originally characterized using inhibition of HMG-CoA reductase activity following base hydrolysis of plasma samples, as specific bioanalytical methods were not available. Inhibition of the enzyme activity (equivalent to the level of total inhibitors) represented the combination of activities in plasma following administration of simvastatin from both active (simvastatin acid and its metabolites) and latent forms (simvastatin and its metabolites) after conversion to the active forms in the presence of base. Absorption Following an oral dose of 14C-labeled simvastatin, plasma concentrations of total radioactivity (simvastatin plus 14C-metabolites) peaked at 4 hours and declined rapidly to about 10% of peak by 12 hours postdose. Since simvastatin undergoes extensive first-pass extraction in the liver, the availability of simvastatin to the general circulation is low (<5%). PK, assessed as area under the concentrations of total inhibitors – time curve, was apparently linear with doses up to 120 mg. Effect of Food The plasma profile of total inhibitors concentration was not affected when simvastatin was administered with low fat meal. Distribution Both simvastatin and its β-hydroxyacid metabolite are highly bound (approximately 95%) to human plasma proteins. Elimination Metabolism Simvastatin is metabolized by CYP3A4. The major active metabolites of simvastatin present in human plasma are simvastatin acid and its 6′-hydroxy, 6′-hydroxymethyl, and 6′-exomethylene derivatives. Peak plasma concentrations of both active and total inhibitors were attained within 1.3 to 2.4 hours postdose. Excretion Following an oral dose of 14C-labeled simvastatin, 13% of the dose was excreted in urine and 60% in feces. Specific Populations Geriatric Patients In a study including 16 geriatric patients between 70 and 78 years of age who received simvastatin tablet 40 mg/day, the mean plasma level of total inhibitors was increased approximately 45% compared with 18 patients between 18 to 30 years of age [ see Use in Specific Populations ( 8.5) ]. Drug Interaction Studies Simvastatin acid is a substrate of the transport protein OATP1B1. Concomitant administration of inhibitors of the transport protein OATP1B1 and/or CYP3A4 may lead to increased exposure of simvastatin acid. Cyclosporine has been shown to increase the AUC of statins; although the mechanism is not fully understood, the increase in AUC for simvastatin acid is presumably due, in part, to inhibition of CYP3A4 and/or OATP1B1 [ see Drug Interactions ( 7) ]. Table 4 displays the effect of coadministered drugs or grapefruit juice on simvastatin systemic exposure [ see Drug Interactions ( 7) ]. Table 4: Effect of Coadministered Drugs or Grapefruit Juice on Simvastatin Systemic Exposure Coadministered Drug or Grapefruit Juice Dosing of Coadministered Drug or Grapefruit Juice Dosing of Simvastatin Geometric Mean Ratio (Ratio* with / without coadministered drug) No Effect = 1.00 AUC C max Telithromycin † 200 mg QD for 4 days 80 mg simvastatin acid ‡ simvastatin 12 8.9 15 5.3 Nelfinavir † 1250 mg BID for 14 days 20 mg QD for 28 days simvastatin acid ‡ simvastatin 6 6.2 Itraconazole † 200 mg QD for 4 days 80 mg simvastatin acid ‡ simvastatin 13.1 13.1 Posaconazole 100 mg (oral suspension) QD for 13 days 200 mg (oral suspension) QD for 13 days 40 mg 40 mg simvastatin acid simvastatin simvastatin acid simvastatin 7.3 10.3 8.5 10.6 9.2 9.4 9.5 11.4 Gemfibrozil 600 mg BID for 3 days 40 mg simvastatin acid simvastatin 2.85 1.35 2.18 0.91 Grapefruit Juice § (high dose) 200 mL of double-strength TID ¶ 60 mg single dose simvastatin acid simvastatin 7 16 Grapefruit Juice § (low dose) 8 oz (about 237 mL) of single-strength # 20 mg single dose simvastatin acid simvastatin 1.3 1.9 Verapamil SR 240 mg QD Days 1 to 7 then 240 mg BID on Days 8 to 10 80 mg on Day 10 simvastatin acid simvastatin 2.3 2.5 2.4 2.1 Diltiazem 120 mg BID for 10 days 80 mg on Day 10 simvastatin acid simvastatin 2.69 3.10 2.69 2.88 Diltiazem 120 mg BID for 14 days 20 mg on Day 14 simvastatin 4.6 3.6 Dronedarone 400 mg BID for 14 days 40 mg QD for 14 days simvastatin acid simvastatin 1.96 3.90 2.14 3.75 Amiodarone 400 mg QD for 3 days 40 mg on Day 3 simvastatin acid simvastatin 1.75 1.76 1.72 1.79 Amlodipine 10 mg QD x 10 days 80 mg on Day 10 simvastatin acid simvastatin 1.58 1.77 1.56 1.47 Ranolazine SR 1000 mg BID for 7 days 80 mg on Day 1 and Days 6 to 9 simvastatin acid simvastatin 2.26 1.86 2.28 1.75 Lomitapide 60 mg QD for 7 days 40 mg single dose simvastatin acid simvastatin 1.7 2 1.6 2 Lomitapide 10 mg QD for 7 days 20 mg single dose simvastatin acid simvastatin 1.4 1.6 1.4 1.7 Fenofibrate 160 mg QD X 14 days 80 mg QD on Days 8 to 14 simvastatin acid simvastatin 0.64 0.89 0.89 0.83 Niacin extended-release 2 g single dose 20 mg single dose simvastatin acid simvastatin 1.6 1.4 1.84 1.08 Propranolol 80 mg single dose 80 mg single dose total inhibitor active inhibitor 0.79 0.79 ↓ from 33.6 to 21.1 ng·eq/mL ↓ from 7.0 to 4.7 ng·eq/mL * Results based on a chemical assay except results with propranolol as indicated. † Results could be representative of the following CYP3A4 inhibitors: ketoconazole, erythromycin, clarithromycin, HIV protease inhibitors, and nefazodone. ‡ Simvastatin acid refers to the β-hydroxyacid of simvastatin. § The effect of amounts of grapefruit juice between those used in these two studies on simvastatin pharmacokinetics has not been studied. ¶ Double-strength: one can of frozen concentrate diluted with one can of water. Grapefruit juice was administered TID for 2 days, and 200 mL together with single dose simvastatin and 30 and 90 minutes following single dose simvastatin on Day 3. # Single-strength: one can of frozen concentrate diluted with 3 cans of water. Grapefruit juice was administered with breakfast for 3 days, and simvastatin was administered in the evening on Day 3. Simvastatin tablet’s Effect on the Pharmacokinetics of Other Drugs In a study of 12 healthy volunteers, simvastatin at the 80-mg dose had no effect on the metabolism of the probe cytochrome P450 isoform 3A4 (CYP3A4) substrates midazolam and erythromycin. Simvastatin is not an inhibitor of CYP3A4 and is not expected to affect the plasma levels of other drugs metabolized by CYP3A4. Coadministration of simvastatin (40 mg QD for 10 days) resulted in an increase in the maximum mean levels of cardioactive digoxin (given as a single 0.4 mg dose on day 10) by approximately 0.3 ng/mL [ see Drug Interactions ( 7.2) ].

Effective Time

20230112

Version

13

Dosage Forms And Strengths

DOSAGE FORMS & STRENGTHS SECTION 3. DOSAGE FORMS AND STRENGTHS Simvastatin tablets 5 mg are brick red colored, round shaped, biconvex, film coated tablet debossed “SI” on one side and plain on other side. Simvastatin tablets 10 mg are brick red colored,oval shaped, biconvex,film-coated tablets, debossed “S 4” on one side and plain on the other side Simvastatin tablets 20 mg are brick red colored,oval shaped, biconvex,film-coated tablets, debossed “S 5” on one side and plain on the other side. Simvastatin tablets 40 mg are brick red colored,oval shaped, biconvex,film-coated tablets,debossed “S 6” on one side and plain on the other side Simvastatin tablets 80 mg are brick red colored, capsule-shaped, biconvex, film-coated tablets, debossed with “SMV” on one side and “80” on the other side

Spl Product Data Elements

SIMVASTATIN SIMVASTATIN CELLULOSE, MICROCRYSTALLINE FERRIC OXIDE RED LACTOSE MONOHYDRATE TALC STARCH, CORN TITANIUM DIOXIDE ASCORBIC ACID TRIETHYL CITRATE HYDROXYPROPYL CELLULOSE (110000 WAMW) BUTYLATED HYDROXYANISOLE SIMVASTATIN SIMVASTATIN HYPROMELLOSE 2910 (5 MPA.S) CROSCARMELLOSE SODIUM MAGNESIUM STEARATE CITRIC ACID MONOHYDRATE S4 SIMVASTATIN SIMVASTATIN CELLULOSE, MICROCRYSTALLINE HYDROXYPROPYL CELLULOSE (1600000 WAMW) HYPROMELLOSE 2910 (5 MPA.S) CROSCARMELLOSE SODIUM FERRIC OXIDE RED LACTOSE MONOHYDRATE MAGNESIUM STEARATE TALC STARCH, CORN BUTYLATED HYDROXYANISOLE TITANIUM DIOXIDE ASCORBIC ACID CITRIC ACID MONOHYDRATE TRIETHYL CITRATE SIMVASTATIN SIMVASTATIN S6 SIMVASTATIN SIMVASTATIN LACTOSE MONOHYDRATE MAGNESIUM STEARATE TALC SIMVASTATIN SIMVASTATIN ASCORBIC ACID HYPROMELLOSES CELLULOSE, MICROCRYSTALLINE CITRIC ACID MONOHYDRATE FERROSOFERRIC OXIDE HYDROXYPROPYL CELLULOSE (1600000 WAMW) STARCH, CORN BUTYLATED HYDROXYANISOLE TITANIUM DIOXIDE LL;C05

Nonclinical Toxicology

NONCLINICAL TOXICOLOGY SECTION 13.1 Carcinogenesis, Mutagenesis, Impairment of Fertility In a 72-week carcinogenicity study, mice were administered daily doses of simvastatin of 25, 100, and 400 mg/kg body weight, which resulted in mean plasma drug levels approximately 1, 4, and 8 times higher than the mean human plasma drug level, respectively (as total inhibitory activity based on AUC) after an 80-mg oral dose. Liver carcinomas were significantly increased in high-dose females and mid- and high-dose males with a maximum incidence of 90% in males. The incidence of adenomas of the liver was significantly increased in mid- and high-dose females. Drug treatment also significantly increased the incidence of lung adenomas in mid- and high-dose males and females. Adenomas of the Harderian gland (a gland of the eye of rodents) were significantly higher in high-dose mice than in controls. No evidence of a tumorigenic effect was observed at 25 mg/kg/day. In a separate 92-week carcinogenicity study in mice at doses up to 25 mg/kg/day, no evidence of a tumorigenic effect was observed (mean plasma drug levels were 1 times higher than humans given 80 mg simvastatin as measured by AUC). In a two-year study in rats at 25 mg/kg/day, there was a statistically significant increase in the incidence of thyroid follicular adenomas in female rats exposed to approximately 11 times higher levels of simvastatin than in humans given 80 mg simvastatin (as measured by AUC). A second two-year rat carcinogenicity study with doses of 50 and 100 mg/kg/day produced hepatocellular adenomas and carcinomas (in female rats at both doses and in males at 100 mg/kg/day). Thyroid follicular cell adenomas were increased in males and females at both doses; thyroid follicular cell carcinomas were increased in females at 100 mg/kg/day. The increased incidence of thyroid neoplasms appears to be consistent with findings from other statins. These treatment levels represented plasma drug levels (AUC) of approximately 7 and 15 times (males) and 22 and 25 times (females) the mean human plasma drug exposure after an 80 milligram daily dose. No evidence of mutagenicity was observed in a microbial mutagenicity (Ames) test with or without rat or mouse liver metabolic activation. In addition, no evidence of damage to genetic material was noted in an in vitro alkaline elution assay using rat hepatocytes, a V-79 mammalian cell forward mutation study, an in vitro chromosome aberration study in CHO cells, or an in vivo chromosomal aberration assay in mouse bone marrow. There was decreased fertility in male rats treated with simvastatin for 34 weeks at 25 mg/kg body weight (4 times the maximum human exposure level, based on AUC, in patients receiving 80 mg/day); however, this effect was not observed during a subsequent fertility study in which simvastatin was administered at this same dose level to male rats for 11 weeks (the entire cycle of spermatogenesis including epididymal maturation). No microscopic changes were observed in the testes of rats from either study. At 180 mg/kg/day, (which produces exposure levels 22 times higher than those in humans taking 80 mg/day based on surface area, mg/m2), seminiferous tubule degeneration (necrosis and loss of spermatogenic epithelium) was observed. In dogs, there was drug-related testicular atrophy, decreased spermatogenesis, spermatocytic degeneration and giant cell formation at 10 mg/kg/day, (approximately 2 times the human exposure, based on AUC, at 80 mg/day). The clinical significance of these findings is unclear.

Application Number

ANDA078155

Brand Name

SIMVASTATIN

Generic Name

SIMVASTATIN

Product Ndc

61919-431

Product Type

HUMAN PRESCRIPTION DRUG

Route

ORAL

Package Label Principal Display Panel

PACKAGE LABEL.PRINCIPAL DISPLAY PANEL image description

Patient Medication Information

PATIENT MEDICATION INFORMATION SECTION Patients should be advised to adhere to their National Cholesterol Education Program (NCEP)-recommended diet, a regular exercise program, and periodic testing of a fasting lipid panel. Patients should be advised about substances they should not take concomitantly with simvastatin [see Contraindications (4) and Warnings and Precautions (5.1) ]. Patients should also be advised to inform other healthcare professionals prescribing a new medication or increasing the dose of an existing medication that they are taking simvastatin tablets. 17.1 Muscle Pain All patients starting therapy with simvastatin tablets should be advised of the risk of myopathy , including rhabdomyolysis, and told to report promptly any unexplained muscle pain, tenderness or weakness particularly if accompanied by malaise or fever or if these muscle signs or symptoms persist after discontinuing simvastatin tablets. Patients using the 80-mg dose should be informed that the risk of myopathy, including rhabdomyolysis, is increased with use of the 80-mg dose. The risk of myopathy, including rhabdomyolysis, occurring with use of simvastatin tablets are increased when taking certain types of medication or consuming grapefruit juice. Patients should discuss all medication, both prescription and over the counter, with their healthcare professional. 17.2 Liver Enzymes It is recommended that liver function tests be performed before the initiation of simvastatin tablets, and thereafter when clinically indicated. All patients treated with simvastatin tablets should be advised to report promptly any symptoms that may indicate liver injury, including fatigue, anorexia, right upper abdominal discomfort, dark urine or jaundice. 17.3 Pregnancy Women of childbearing age should be advised to use an effective method of birth control to prevent pregnancy while using simvastatin tablets. Discuss future pregnancy plans with your patients, and discuss when to stop taking simvastatin tablets if they are trying to conceive. Patients should be advised that if they become pregnant they should stop taking simvastatin tablets and call their healthcare professional. 17.4 Breastfeeding Women who are breastfeeding should not use simvastatin tablets. Patients who have a lipid disorder and are breastfeeding should be advised to discuss the options with their healthcare professional. Manufactured For: Accord Healthcare, Inc., 1009, Slater Road, Suite 210-B, Durham, NC 27703, USA Manufactured By: Intas Pharmaceuticals Limited, Ahmedabad -380 009, India. 10 9351 0 653415 Issued April 2014 PRINCIPAL DISPLAY PANEL 5 mg : 30 Tablets

Clinical Studies

CLINICAL STUDIES SECTION Adults at High Risk of Coronary Heart Disease Events In a randomized, double-blind, placebo-controlled, multi-centered study [the Scandinavian Simvastatin tablets Survival Study (Study 4S)], the effect of therapy with simvastatin tablets on total mortality was assessed in 4,444 adult patients with CHD (history of angina and/or a previous myocardial infarction) and baseline total cholesterol (total-C) between 212 and 309 mg/dL who were on a lipid-lowering diet. In Study 4S, patients were treated with standard care, including lipid-lowering diet, and randomized to either simvastatin tablets 20 to 40 mg/day (n=2,221) or placebo (n=2,223) for a median duration of 5.4 years. Simvastatin tablets significantly reduced the risk of mortality by 30% (p=0.0003, 182 deaths in the simvastatin tablets group vs 256 deaths in the placebo group). The risk of CHD mortality was significantly reduced by 42% (p=0.00001, 111 deaths in the simvastatin tablets group vs 189 deaths in the placebo group). There was no statistically significant difference between groups in non-cardiovascular mortality. Simvastatin tablets significantly reduced the risk for the secondary composite endpoint (time to first occurrence of CHD death, definite or probable hospital verified non-fatal MI, silent MI verified by ECG, or resuscitated cardiac arrest) by 34% (p<0.00001, 431 vs 622 patients with one or more events). Simvastatin tablets reduced the risk of major coronary events to a similar extent across the range of baseline total and LDL cholesterol levels. The risk of having a hospital-verified non-fatal MI was reduced by 37%. Simvastatin tablets significantly reduced the risk for undergoing myocardial revascularization procedures (coronary artery bypass grafting or percutaneous transluminal coronary angioplasty) by 37% (p<0.00001, 252 vs 383 patients). Simvastatin tablets significantly reduced the risk of fatal plus non-fatal cerebrovascular events (combined stroke and transient ischemic attacks) by 28% (p=0.033, 75 vs 102 patients). Over the course of the study, treatment with simvastatin tablets led to mean reductions in total-C, LDL-C and triglycerides (TG) of 25%, 35%, and 10%, respectively, and a mean increase in high-density lipoprotein cholesterol (HDL-C) of 8%. In contrast, treatment with placebo led to increases in total-C, LDL-C and TG of 1%, 1%, and 7%, respectively. Because there were only 53 female deaths (approximately 18% of the study population was female), the effect of simvastatin tablets on mortality in women could not be adequately assessed. However, simvastatin tablets significantly reduced the risk of having major coronary events in women by 34% (60 vs 91 women with one or more event). Simvastatin tablets resulted in similar decreases in relative risk for total mortality, CHD mortality, and major coronary events in geriatric patients (≥65 years) compared with younger adults. The Heart Protection Study (Study HPS) was a randomized, placebo-controlled, double-blind, multi-centered study with a mean duration of 5 years conducted in 10,269 patients on simvastatin tablets 40 mg and 10,267 on placebo. Patients had a mean age of 64 years (range 40 to 80 years old), 97% were white, and were at high risk of developing a major coronary event because of existing CHD (65%), diabetes (Type 2, 26%; Type 1, 3%), history of stroke or other cerebrovascular disease (16%), peripheral vascular disease (33%), or they were males ≥65 years with hypertension in (6%). At baseline: 3,421 patients (17%) had LDL-C levels below 100 mg/dL, including 953 (5%) below 80 mg/dL; and 10,047 patients (49%) had levels greater than 130 mg/dL. Patients were randomized to simvastatin tablets or placebo using a covariate adaptive method which considered the distribution of 10 important baseline characteristics of patients already enrolled. The Study HPS results showed that simvastatin tablets 40 mg/day significantly reduced: total and CHD mortality; and non-fatal MI, stroke, and revascularization procedures (coronary and non-coronary) (see Table 5). Table 5: CHD Mortality and Cardiovascular Events in Adult Patients with High Risk of Developing a Major Coronary Event in Study HPS Endpoint Simvastatin Tablets (N=10,269) n (%)* Placebo (N=10,267) n (%)* Risk Reduction (%) (95% CI) p-Value Primary Mortality CHD mortality 1,328 (12.9%) 587 (5.7%) 1,507 (14.7%) 707 (6.9%) 13% (6 to 19%) 18% (8 to 26%) p=0.0003 p=0.0005 Secondary Non-fatal MI Stroke 357 (3.5%) 444 (4.3%) 574 (5.6%) 585 (5.7%) 38% (30 to 46%) 25% (15 to 34%) p<0.0001 p<0.0001 Tertiary Coronary revascularization Peripheral and other non-coronary revascularization 513 (5%) 450 (4.4%) 725 (7.1%) 532 (5.2%) 30% (22 to 38%) 16% (5 to 26%) p<0.0001 p=0.006 * n = number of patients with indicated event Two composite endpoints were defined to have enough events to assess relative risk reductions across a range of baseline characteristics: Major coronary events (MCE) was comprised of CHD mortality and non-fatal MI. Analyzed by time-to-first event; 898 patients (8.7%) treated with simvastatin tablets had events and 1,212 patients (11.8%) treated with placebo had events. Major vascular events (MVE) was comprised of MCE, stroke, and revascularization procedures including coronary, peripheral and other non-coronary procedures. Analyzed by time-to-first event; 2,033 patients (19.8%) treated with simvastatin tablets had events and 2,585 patients (25.2%) on placebo had events. Simvastatin tablets use led to significant relative risk reductions for both composite endpoints (27% for MCE and 24% for MVE, p<0.0001) and for all components of the composite endpoints. The risk reductions produced by simvastatin tablets in both MCE and MVE were evident and consistent regardless of cardiovascular disease related medical history at study entry (i.e., CHD alone; or peripheral vascular disease, cerebrovascular disease, diabetes or treated hypertension, with or without CHD), gender, age, baseline levels of LDL-C, baseline concomitant cardiovascular medications (i.e., aspirin, beta blockers, or calcium channel blockers), smoking status, or obesity. Patients with diabetes showed risk reductions for MCE and MVE due to simvastatin tablets treatment regardless of baseline HbA1c levels or obesity. Primary Hyperlipidemia in Adults The effects of simvastatin tablets on total-C and LDL-C were assessed in controlled clinical studies in adult patients with heterozygous familial and non-familial forms of hyperlipidemia and in mixed hyperlipidemia. Simvastatin tablets significantly decreased total-C, LDL-C, and TG, and increased HDL-C (see Table 6). Maximal to near maximal response was generally achieved within 4 to 6 weeks and maintained during chronic therapy. Table 6: Mean Changes in Lipid Levels in Adult Patients with Primary Hyperlipidemia and Combined (mixed) Hyperlipidemia (Mean Percent Change from Baseline After 6 to 24 Weeks) TREATMENT N TOTAL-C LDL-C HDL-C TG* Lower Dosage Comparative Study † (Mean % Change at Week 6) Simvastatin tablets 5 mg once at night Simvastatin tablets 10 mg once at night 109 110 -19% -23% -26% -30% +10% +12% -12% -15% Scandinavian Simvastatin Survival Study ‡ (Mean % Change at Week 6) Placebo Simvastatin tablets 20 mg once at night 2223 2221 -1% -28% -1% -38% 0% +8% -2% -19% Upper Dosage Comparative Study § (Mean % Change Averaged at Weeks 18 and 24) Simvastatin tablets 40 mg once at night Simvastatin tablets 80 mg once at night ¶ 433 664 -31% -36% -41% -47% +9% +8% -18% -24% Combined Hyperlipidemia Study # (Mean % Change at Week 6) Placebo Simvastatin tablets 40 mg once at night Simvastatin tablets 80 mg once at night 125 123 124 1% -25% -31% 2% -29% -36% +3% +13% +16% -4% -28% -33% * median percent change † mean baseline LDL-C = 244 mg/dL and median baseline TG = 168 mg/dL ‡ mean baseline LDL-C = 188 mg/dL and median baseline TG = 128 mg/dL § mean baseline LDL-C = 226 mg/dL and median baseline TG = 156 mg/dL ¶ 21% and 36% median reduction in TG in patients with TG ≤200 mg/dL and TG >200 mg/dL, respectively. Patients with TG >350 mg/dL were excluded # mean baseline LDL-C = 156 mg/dL and median baseline TG = 391 mg/dL. Hypertriglyceridemia in Adults The results of a subgroup analysis in 74 adult patients with hypertriglyceridemia from a 130-patient, double-blind, placebo-controlled, 3-period crossover study are similar to those presented in Table 6 for the Combined Hyperlipidemia Study. Simvastatin tablets decreased TC, LDL-C, and TG in these patients. Dysbetalipoproteinemia in Adults The results of a subgroup analysis in 7 adult patients with dysbetalipoproteinemia (apo E2/2) (very-low-density lipoprotein cholesterol [VLDL-C]/TG>0.25) from a 130-patient, double-blind, placebo-controlled, 3-period crossover study are presented in Table 7. Simvastatin tablets decreased total-C, LDL-C + intermediate-density lipoprotein (IDL), VLDL-C + IDL, and TG compared to placebo. Table 7: Lipid Effects in Adult Patients with Dysbetalipoproteinemia Over Six Weeks [Median Percent Change (min, max) from Baseline]* TREATMENT N Total-C LDL-C + IDL HDL-C TG VLDL-C + IDL Non-HDL-C Placebo 7 -8% (-24, +34) -8% (-27, +23) -2% (-21, +16) +4% (-22, +90) -4% (-28, +78) -8% (-26, -39) Simvastatin tablets 40 mg/day 7 -50% (-66, -39) -50% (-60, -31) +7% (-8, +23) -41% (-74, -16) -58% (-90, -37) -57% (-72, -44) Simvastatin tablets 80 mg/day 7 -52% (-55, -41) -51% (-57, -28) +7% (-5, +29) -38% (-58, +2) -60% (-72, -39) -59% (-61, -46) * The median baseline values (mg/dL) were: total-C = 324, LDL-C = 121, HDL-C = 31, TG = 411, VLDL-C = 170, and non-HDL-C = 291. Homozygous Familial Hypercholesterolemia In a controlled clinical study, 12 patients 15 to 39 years of age with homozygous familial hypercholesterolemia (HoFH) received simvastatin tablets 40 mg/day in a single dose, or 80 mg/day in 3 divided doses. In 12 patients the mean LDL-C changes at 9 weeks for the 40- and 80-mg doses were -13.7% (range -22.5% to -4.9%) and -24.6% (range -37.3% to -11.9%), respectively. Pediatric Patients 10 Years of Age and Older with HeFH In a double-blind, placebo-controlled study, 175 pediatric patients (99 boys and 76 post-menarchal girls) 10 years of age and older (mean age 14 years old) with heterozygous familial hypercholesterolemia (HeFH) were randomized to simvastatin tablets (n=106) or placebo (n=67) for 24 weeks (base study). To be included in the study, patients were required to have a baseline LDL-C level between 160 and 400 mg/dL and at least one parent with an LDL-C level >189 mg/dL. The dosage of simvastatin tablets (once daily in the evening) was 10 mg for the first 8 weeks, 20 mg for the second 8 weeks, and 40 mg thereafter. In a 24-week extension, 144 patients elected to continue therapy with simvastatin tablets 40 mg or placebo. Simvastatin tablets significantly decreased plasma levels of total-C, LDL-C, and apolipoprotein B (ApoB) (see Table 8) in the HeFH study. Results from the extension at 48 weeks were comparable to the results at Week 24. The safety and effectiveness of dosages above 40 mg daily have not been studied in pediatric patients with HeFH. The long-term efficacy of simvastatin tablets therapy in pediatric patients to reduce morbidity and mortality in adulthood has not been established. Table 8: Lipid Effects in Pediatric Patients 10 Years of Age and Older with Heterozygous Familial Hypercholesterolemia (Mean Percent Change from Baseline) Dosage Duration N Total-C LDL-C HDL-C TG* ApoB Placebo 24 Weeks 67 % Change from Baseline (95% CI) +1.6% (-2.2, 5.3) +1.1% (-3.4, 5.5) +3.6% (-0.7, 8.0) -3.2% (-11.8, 5.4) -0.5% (-4.7, 3.6) Mean baseline, mg/dL (SD) 279 (52) 212 (49) 47 (12) 90 (51) 186 (38) Simvastatin tablets 24 Weeks 106 % Change from Baseline (95% CI) -26.5% (-29.6, -23.3) -36.8% (-40.5, -33.0) +8.3% (4.6, 11.9) -7.9% (-15.8, 0.0) -32.4% (-35.9, -29.0) Mean baseline, mg/dL (SD) 270 (44) 204 (42) 48 (9) 78 (46) 180 (34) * median percent change

Use In Specific Populations

USE IN SPECIFIC POPULATIONS SECTION Pregnancy Category X [See Contraindications (4) .] Simvastatin tablets are contraindicated in women who are or may become pregnant. Lipid lowering drugs offer no benefit during pregnancy, because cholesterol and cholesterol derivatives are needed for normal fetal development. Atherosclerosis is a chronic process, and discontinuation of lipid-lowering drugs during pregnancy should have little impact on long-term outcomes of primary hypercholesterolemia therapy. There are no adequate and well-controlled studies of use with simvastatin tablets during pregnancy; however, there are rare reports of congenital anomalies in infants exposed to statins in utero. Animal reproduction studies of simvastatin in rats and rabbits showed no evidence of teratogenicity. Serum cholesterol and triglycerides increase during normal pregnancy, and cholesterol or cholesterol derivatives are essential for fetal development. Because statins decrease cholesterol synthesis and possibly the synthesis of other biologically active substances derived from cholesterol, simvastatin tablets may cause fetal harm when administered to a pregnant woman. If simvastatin tablets are used during pregnancy or if the patient becomes pregnant while taking this drug, the patient should be apprised of the potential hazard to the fetus. There are rare reports of congenital anomalies following intrauterine exposure to statins. In a review 2 of approximately 100 prospectively followed pregnancies in women exposed to simvastatin or another structurally related statin, the incidences of congenital anomalies, spontaneous abortions, and fetal deaths/stillbirths did not exceed those expected in the general population. However, the study was only able to exclude a 3- to 4-fold increased risk of congenital anomalies over the background rate. In 89% of these cases, drug treatment was initiated prior to pregnancy and was discontinued during the first trimester when pregnancy was identified. Simvastatin was not teratogenic in rats or rabbits at doses (25, 10 mg/kg/day, respectively) that resulted in 3 times the human exposure based on mg/m2 surface area. However, in studies with another structurally-related statin, skeletal malformations were observed in rats and mice. Women of childbearing potential, who require treatment with simvastatin tablets for a lipid disorder, should be advised to use effective contraception. For women trying to conceive, discontinuation of simvastatin tablets should be considered. If pregnancy occurs, simvastatin tablets should be immediately discontinued. 2 Manson, J.M., Freyssinges, C., Ducrocq, M.B., Stephenson, W.P., Postmarketing Surveillance of Lovastatin and Simvastatin Exposure During Pregnancy, Reproductive Toxicology,, 10(6):439-446, 1996. 8.3 Nursing Mothers It is not known whether simvastatin is excreted in human milk. Because a small amount of another drug in this class is excreted in human milk and because of the potential for serious adverse reactions in nursing infants, women taking simvastatin should not nurse their infants. A decision should be made whether to discontinue nursing or discontinue drug, taking into account the importance of the drug to the mother [see Contraindications (4) ] . 8.4 Pediatric Use Safety and effectiveness of simvastatin in patients 10 to 17 years of age with heterozygous familial hypercholesterolemia have been evaluated in a controlled clinical trial in adolescent boys and in girls who were at least 1 year post-menarche. Patients treated with simvastatin had an adverse reaction profile similar to that of patients treated with placebo. Doses greater than 40 mg have not been studied in this population. In this limited controlled study, there was no significant effect on growth or sexual maturation in the adolescent boys or girls, or on menstrual cycle length in girls. [See Dosage and Administration (2.5) , Adverse Reactions (6.1) , Clinical Studies (14.2) .] Adolescent females should be counseled on appropriate contraceptive methods while on simvastatin therapy [see Contraindications (4) and Use in Specific Populations (8.1) ]. Simvastatin has not been studied in patients younger than 10 years of age, nor in pre-menarchal girls. 8.5 Geriatric Use Of the 2,423 patients who received simvastatin tablets in Phase III clinical studies and the 10,269 patients in the Heart Protection Study who received simvastatin tablets, 363 (15%) and 5,366 (52%), respectively were ≥65 years old. In HPS, 615 (6%) were ≥75 years old. No overall differences in safety or effectiveness were observed between these subjects and younger subjects, and other reported clinical experience has not identified differences in responses between the elderly and younger patients, but greater sensitivity of some older individuals cannot be ruled out. Since advanced age (≥65 years) is a predisposing factor for myopathy, simvastatin tablets should be prescribed with caution in the elderly. [See Clinical Pharmacology (12.3) .] A pharmacokinetic study with simvastatin showed the mean plasma level of statin activity to be approximately 45% higher in elderly patients between 70 to 78 years of age compared with patients between 18 to 30 years of age. In 4S, 1,021 (23%) of 4,444 patients were 65 or older. Lipid-lowering efficacy was at least as great in elderly patients compared with younger patients, and simvastatin tablets significantly reduced total mortality and CHD mortality in elderly patients with a history of CHD. In HPS, 52% of patients were elderly (4,891 patients 65 to 69 years and 5,806 patients 70 years or older). The relative risk reductions of CHD death, non-fatal MI, coronary and non-coronary revascularization procedures, and stroke were similar in older and younger patients [see Clinical Studies (14.1) ]. In HPS, among 32,145 patients entering the active run-in period, there were 2 cases of myopathy/rhabdomyolysis; these patients were aged 67 and 73. Of the 7 cases of myopathy/rhabdomyolysis among 10,269 patients allocated to simvastatin, 4 were aged 65 or more (at baseline), of whom one was over 75. There were no overall differences in safety between older and younger patients in either 4S or HPS. Because advanced age (≥65 years) is a predisposing factor for myopathy, including rhabdomyolysis, simvastatin tablets should be prescribed with caution in the elderly. In a clinical trial of patients treated with simvastatin 80 mg/day, patients ≥65 years of age had an increased risk of myopathy, including rhabdomyolysis, compared to patients <65 years of age. [see Warnings and Precautions (5.1) and Clinical Pharmacology (12.3) ] . 8.6 Renal Impairment Caution should be exercised when simvastatin tablets are administered to patients with severe renal impairment. [See Dosage and Administration (2.6) .] 8.7 Hepatic Impairment Simvastatin tablets are contraindicated in patients with active liver disease which may include unexplained persistent elevations in hepatic transaminase levels [see Contraindications (4) and Warnings and Precautions (5.2) ] . 10. OVERDOSAGE Significant lethality was observed in mice after a single oral dose of 9 g/m2. No evidence of lethality was observed in rats or dogs treated with doses of 30 and 100 g/m2, respectively. No specific diagnostic signs were observed in rodents. At these doses the only signs seen in dogs were emesis and mucoid stools. A few cases of overdosage with simvastatin tablets have been reported; the maximum dose taken was 3.6 g. All patients recovered without sequelae. Supportive measures should be taken in the event of an overdose. The dialyzability of simvastatin and its metabolites in man is not known at present.

How Supplied

HOW SUPPLIED SECTION Simvastatin tablets USP 5 mg are brick red coloured, round shaped, biconvex, film coated tablet debossed “SI” on one side and plain on other side. Simvastatin tablets USP 10 mg are brick red coloured, oval shaped, biconvex, film-coated tablets, debossed "S 4" on one side and plain on other side. Simvastatin tablets USP 20 mg are brick red coloured oval shaped, biconvex, film-coated tablets, debossed "S 5" on one side and plain on other side. Simvastatin tablets USP 40 mg are brick red coloured, oval shaped, biconvex, film-coated tablets, debossed "S 6" on one side and plain on other side. Simvastatin tablets USP 80 mg are brick red coloured,capsule-shaped, biconvex, film-coated tablets, debossed with "SMV" on one side and "80" on the other side. Storage Store at 20°C to 25°C (68°F to 77°F). [See USP Controlled Room Temperature]. "Dispense in tight containers as defined in the USP"

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