Simvastatin

DB00641

small molecule approved

Deskripsi

Simvastatin, also known as the brand name product Zocor, is a lipid-lowering drug derived synthetically from a fermentation product of Aspergillus terreus. It belongs to the statin class of medications, which are used to lower the risk of cardiovascular disease and manage abnormal lipid levels by inhibiting the endogenous production of cholesterol in the liver. More specifically, statin medications competitively inhibit the enzyme hydroxymethylglutaryl-coenzyme A (HMG-CoA) Reductase,A181421 which catalyzes the conversion of HMG-CoA to mevalonic acid and is the third step in a sequence of metabolic reactions involved in the production of several compounds involved in lipid metabolism and transport including cholesterol, low-density lipoprotein (LDL) (sometimes referred to as "bad cholesterol"), and very low-density lipoprotein (VLDL). Prescribing of statin medications is considered standard practice following any cardiovascular events and for people with a moderate to high risk of development of CVD, such as those with Type 2 Diabetes. The clear evidence of the benefit of statin use coupled with very minimal side effects or long term effects has resulted in this class becoming one of the most widely prescribed medications in North America.A181087, A181406

Simvastatin and other drugs from the statin class of medications including atorvastatin, pravastatin, rosuvastatin, fluvastatin, and lovastatin are considered first-line options for the treatment of dyslipidemia.A181087, A181406 Increasing use of the statin class of drugs is largely due to the fact that cardiovascular disease (CVD), which includes heart attack, atherosclerosis, angina, peripheral artery disease, and stroke, has become a leading cause of death in high-income countries and a major cause of morbidity around the world.A181084 Elevated cholesterol levels, and in particular, elevated low-density lipoprotein (LDL) levels, are an important risk factor for the development of CVD.A181087,A181553 Use of statins to target and reduce LDL levels has been shown in a number of landmark studies to significantly reduce the risk of development of CVD and all-cause mortality.A181090,A181093,A181096,A181427,A181475,A181538 Statins are considered a cost-effective treatment option for CVD due to their evidence of reducing all-cause mortality including fatal and non-fatal CVD as well as the need for surgical revascularization or angioplasty following a heart attack.A181087, A181406 Evidence has shown that even for low-risk individuals (with <10% risk of a major vascular event occurring within 5 years) statins cause a 20%-22% relative reduction in major cardiovascular events (heart attack, stroke, coronary revascularization, and coronary death) for every 1 mmol/L reduction in LDL without any significant side effects or risks.A181397, A181403

While all statin medications are considered equally effective from a clinical standpoint, rosuvastatin is considered the most potent; doses of 10 to 40mg rosuvastatin per day were found in clinical studies to result in a 45.8% to 54.6% decrease in LDL cholesterol levels, while simvastatin has been found to have an average decrease in LDL-C of ~35%.A181409,A181535,A181538,A1793 Potency is thought to correlate to tissue permeability as the more lipophilic statins such as simvastatin are thought to enter endothelial cells by passive diffusion, as opposed to hydrophilic statins such as pravastatin and rosuvastatin which are taken up into hepatocytes through OATP1B1 (organic anion transporter protein 1B1)-mediated transport.A181424,A181460 Despite these differences in potency, several trials have demonstrated only minimal differences in terms of clinical outcomes between statins.A181427

Struktur Molekul 2D

Berat 418.5662
Wujud solid

Peta Jejaring Molekuler
Legenda: ObatTargetGenEnzim(Panah → menunjukkan arah efek / relasi)TransporterCarrier

Profil Farmakokinetik

Waktu Paruh (Half-Life) 4.85 hours[A181571]
Volume Distribusi Rat studies indicate that when radiolabeled simvastatin was administered, simvastatin-derived radioactivity crossed the blood-brain barrier.[F4655]
Klirens (Clearance) -

Absorpsi

Peak plasma concentrations of both active and total inhibitors were attained within 1.3 to 2.4 hours post-dose. While the recommended therapeutic dose range is 10 to 40 mg/day, there was no substantial deviation from linearity of AUC with an increase in dose to as high as 120 mg. Relative to the fasting state, the plasma profile of inhibitors was not affected when simvastatin was administered immediately before a test meal.F4655,F4658 In a pharmacokinetic study of 17 healthy Chinese volunteers, the major PK parameters were as follows: Tmax 1.44 hours, Cmax 9.83 ug/L, t1/2 4.85 hours, and AUC 40.32ug·h/L.A181571 Simvastatin undergoes extensive first-pass extraction in the liver, the target organ for the inhibition of HMG-CoA reductase and the primary site of action. This tissue selectivity (and consequent low systemic exposure) of orally administered simvastatin has been shown to be far greater than that observed when the drug is administered as the enzymatically active form, i.e. as the open hydroxyacid.F4658 In animal studies, after oral dosing, simvastatin achieved substantially higher concentrations in the liver than in non-target tissues. However, because simvastatin undergoes extensive first-pass metabolism, the bioavailability of the drug in the systemic system is low. In a single-dose study in nine healthy subjects, it was estimated that less than 5% of an oral dose of simvastatin reached the general circulation in the form of active inhibitors.F4658 Genetic differences in the OATP1B1 (Organic-Anion-Transporting Polypeptide 1B1) hepatic transporter encoded by the SCLCO1B1 gene (Solute Carrier Organic Anion Transporter family member 1B1) have been shown to impact simvastatin pharmacokinetics. Evidence from pharmacogenetic studies of the c.521T>C single nucleotide polymorphism (SNP) showed that simvastatin plasma concentrations were increased on average 3.2-fold for individuals homozygous for 521CC compared to homozygous 521TT individuals.A34995,A181478 The 521CC genotype is also associated with a marked increase in the risk of developing myopathy, likely secondary to increased systemic exposure.A34994 Other statin drugs impacted by this polymorphism include rosuvastatin, pitavastatin, atorvastatin, lovastatin, and pravastatin.A181460 For patients known to have the above-mentioned c.521CC OATP1B1 genotype, a maximum daily dose of 20mg of simvastatin is recommended to avoid adverse effects from the increased exposure to the drug, such as muscle pain and risk of rhabdomyolysis.F4658 Evidence has also been obtained with other statins such as rosuvastatin that concurrent use of statins and inhibitors of Breast Cancer Resistance Protein (BCRP) such as elbasvir and grazoprevir increased the plasma concentration of these statins. Further evidence is needed, however a dose adjustment of simvastatin may be necessary. Other statin drugs impacted by this polymorphism include fluvastatin and atorvastatin.A181478

Metabolisme

Simvastatin is administered as the inactive lactone derivative that is then metabolically activated to its ?-hydroxyacid form by a combination of spontaneous chemical conversion and enzyme-mediated hydrolysis by nonspecific carboxyesterases in the intestinal wall, liver, and plasma. Oxidative metabolism in the liver is primarily mediated by CYP3A4 and CYP3A5, with the remaining metabolism occurring through CYP2C8 and CYP2C9.A181580 The major active metabolites of simvastatin are ?-hydroxyacid metabolite and its 6'-hydroxy, 6'-hydroxymethyl, and 6'-exomethylene derivatives.F4655,F4658 Polymorphisms in the CYP3A5 gene have been shown to affect the disposition of simvastatin and may provide a plausible explanation for interindividual variability of simvastatin disposition and pharmacokinetics.A181577

Rute Eliminasi

Following an oral dose of 14C-labeled simvastatin in man, 13% of the dose was excreted in urine and 60% in feces.F4655,F4658

Farmakogenomik

3 Varian
KIF6 (rs20455)

Patients with this genotype have a greater reduction in risk of a major cardiovascular event with high dose simvastatin.

HMGCR (rs17244841)

Patients with this genotype have a lesser reduction in LDL cholesterol with simvastatin.

SLCO1B1 (rs4149056)

The presence of this genotype in SLCO1B1 is associated with an increased risk of myopathy when treated with simvastatin.

Interaksi Makanan

1 Data
  • 1. Avoid grapefruit products. Co-administration with grapefruit products may increase the risk for adverse effects such as myalgia.

Interaksi Obat

1002 Data
Afatinib The serum concentration of Afatinib can be increased when it is combined with Simvastatin.
Bosutinib The serum concentration of Bosutinib can be increased when it is combined with Simvastatin.
Brentuximab vedotin The serum concentration of Brentuximab vedotin can be increased when it is combined with Simvastatin.
Reserpine Reserpine may decrease the excretion rate of Simvastatin which could result in a higher serum level.
Ursodeoxycholic acid Ursodeoxycholic acid may decrease the excretion rate of Simvastatin which could result in a higher serum level.
Cholic Acid Cholic Acid may decrease the excretion rate of Simvastatin which could result in a higher serum level.
Valinomycin Valinomycin may decrease the excretion rate of Simvastatin which could result in a higher serum level.
Olmesartan Olmesartan may decrease the excretion rate of Simvastatin which could result in a higher serum level.
Edoxaban The serum concentration of Edoxaban can be increased when it is combined with Simvastatin.
Ledipasvir The serum concentration of Ledipasvir can be increased when it is combined with Simvastatin.
Naloxegol The serum concentration of Naloxegol can be increased when it is combined with Simvastatin.
Pazopanib The serum concentration of Pazopanib can be increased when it is combined with Simvastatin.
Prucalopride The serum concentration of Prucalopride can be increased when it is combined with Simvastatin.
Silodosin The excretion of Silodosin can be decreased when combined with Simvastatin.
Cyclosporine The serum concentration of Simvastatin can be increased when it is combined with Cyclosporine.
Topotecan The serum concentration of Topotecan can be increased when it is combined with Simvastatin.
Acipimox Acipimox may increase the myopathic rhabdomyolysis activities of Simvastatin.
Bezafibrate Bezafibrate may increase the myopathic rhabdomyolysis activities of Simvastatin.
Ciprofibrate The risk or severity of myopathy, rhabdomyolysis, and myoglobinuria can be increased when Ciprofibrate is combined with Simvastatin.
Daptomycin The risk or severity of myopathy can be increased when Simvastatin is combined with Daptomycin.
Gemfibrozil The risk or severity of rhabdomyolysis, myoglobinuria, and elevated creatine kinase (CPK) can be increased when Gemfibrozil is combined with Simvastatin.
Raltegravir The risk or severity of myopathy and rhabdomyolysis can be increased when Raltegravir is combined with Simvastatin.
Trabectedin The risk or severity of myopathy and rhabdomyolysis can be increased when Simvastatin is combined with Trabectedin.
Fluconazole The metabolism of Simvastatin can be decreased when combined with Fluconazole.
Everolimus The serum concentration of Everolimus can be increased when it is combined with Simvastatin.
Rifaximin The serum concentration of Rifaximin can be increased when it is combined with Simvastatin.
Erythromycin The serum concentration of Simvastatin can be increased when it is combined with Erythromycin.
Bosentan The serum concentration of Simvastatin can be decreased when it is combined with Bosentan.
Ranolazine The risk or severity of myopathy and rhabdomyolysis can be increased when Ranolazine is combined with Simvastatin.
Diltiazem The serum concentration of Simvastatin can be increased when it is combined with Diltiazem.
Colestipol Colestipol can cause a decrease in the absorption of Simvastatin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Sevelamer Sevelamer can cause a decrease in the absorption of Simvastatin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Colesevelam Colesevelam can cause a decrease in the absorption of Simvastatin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Cholestyramine Cholestyramine can cause a decrease in the absorption of Simvastatin resulting in a reduced serum concentration and potentially a decrease in efficacy.
Amlodipine The serum concentration of Simvastatin can be increased when it is combined with Amlodipine.
Cimetidine The serum concentration of Simvastatin can be increased when it is combined with Cimetidine.
Imatinib The serum concentration of Simvastatin can be increased when it is combined with Imatinib.
Efavirenz The serum concentration of Simvastatin can be decreased when it is combined with Efavirenz.
Clarithromycin The serum concentration of Simvastatin can be increased when it is combined with Clarithromycin.
Lercanidipine The serum concentration of the active metabolites of Simvastatin can be increased when Simvastatin is used in combination with Lercanidipine.
Lomitapide The serum concentration of Simvastatin can be increased when it is combined with Lomitapide.
Mifepristone The risk or severity of myopathy and rhabdomyolysis can be increased when Mifepristone is combined with Simvastatin.
Simeprevir The serum concentration of Simvastatin can be increased when it is combined with Simeprevir.
Telaprevir The serum concentration of Simvastatin can be increased when it is combined with Telaprevir.
Telithromycin The serum concentration of Simvastatin can be increased when it is combined with Telithromycin.
Ticagrelor The serum concentration of Simvastatin can be increased when it is combined with Ticagrelor.
Verapamil The risk or severity of myopathy and rhabdomyolysis can be increased when Verapamil is combined with Simvastatin.
Lamotrigine The metabolism of Simvastatin can be increased when combined with Lamotrigine.
Testosterone propionate The metabolism of Simvastatin can be increased when combined with Testosterone propionate.
Mirabegron The serum concentration of Simvastatin can be increased when it is combined with Mirabegron.
Eluxadoline The serum concentration of Eluxadoline can be increased when it is combined with Simvastatin.
Vincristine The excretion of Vincristine can be decreased when combined with Simvastatin.
Fusidic acid The risk or severity of rhabdomyolysis can be increased when Fusidic acid is combined with Simvastatin.
Phenindione The risk or severity of bleeding can be increased when Simvastatin is combined with Phenindione.
Tioclomarol The risk or severity of bleeding can be increased when Simvastatin is combined with Tioclomarol.
4-hydroxycoumarin The risk or severity of bleeding can be increased when Simvastatin is combined with 4-hydroxycoumarin.
Ethyl biscoumacetate The risk or severity of bleeding can be increased when Simvastatin is combined with Ethyl biscoumacetate.
Clorindione The risk or severity of bleeding can be increased when Simvastatin is combined with Clorindione.
Diphenadione The risk or severity of bleeding can be increased when Simvastatin is combined with Diphenadione.
Doxorubicin The serum concentration of Doxorubicin can be increased when it is combined with Simvastatin.
Cyproterone acetate The metabolism of Simvastatin can be decreased when combined with Cyproterone acetate.
St. John's Wort The serum concentration of Simvastatin can be decreased when it is combined with St. John's Wort.
Lumacaftor The serum concentration of Simvastatin can be decreased when it is combined with Lumacaftor.
Etofibrate The risk or severity of myopathy and rhabdomyolysis can be increased when Etofibrate is combined with Simvastatin.
Simfibrate The risk or severity of myopathy and rhabdomyolysis can be increased when Simfibrate is combined with Simvastatin.
Ronifibrate The risk or severity of myopathy and rhabdomyolysis can be increased when Ronifibrate is combined with Simvastatin.
Aluminium clofibrate The risk or severity of myopathy and rhabdomyolysis can be increased when Aluminium clofibrate is combined with Simvastatin.
Clofibride The risk or severity of myopathy and rhabdomyolysis can be increased when Clofibride is combined with Simvastatin.
Fenofibric acid The risk or severity of myopathy and rhabdomyolysis can be increased when Fenofibric acid is combined with Simvastatin.
Clofibrate The risk or severity of myopathy and rhabdomyolysis can be increased when Clofibrate is combined with Simvastatin.
Clobazam The serum concentration of Simvastatin can be increased when it is combined with Clobazam.
Asunaprevir The metabolism of Simvastatin can be decreased when combined with Asunaprevir.
Dosulepin The metabolism of Simvastatin can be decreased when combined with Dosulepin.
Clozapine The serum concentration of Simvastatin can be increased when it is combined with Clozapine.
Quinine The metabolism of Simvastatin can be decreased when combined with Quinine.
Terbinafine The metabolism of Simvastatin can be decreased when combined with Terbinafine.
Lumefantrine The metabolism of Simvastatin can be decreased when combined with Lumefantrine.
Fluvoxamine The metabolism of Simvastatin can be decreased when combined with Fluvoxamine.
Sulfaphenazole The metabolism of Simvastatin can be decreased when combined with Sulfaphenazole.
Tranylcypromine The metabolism of Simvastatin can be decreased when combined with Tranylcypromine.
Tegaserod The metabolism of Simvastatin can be decreased when combined with Tegaserod.
Phenylbutyric acid The metabolism of Simvastatin can be decreased when combined with Phenylbutyric acid.
Ritanserin The metabolism of Simvastatin can be decreased when combined with Ritanserin.
Rhein The metabolism of Simvastatin can be decreased when combined with Rhein.
Cholecalciferol The metabolism of Simvastatin can be decreased when combined with Cholecalciferol.
Metoprolol The metabolism of Simvastatin can be decreased when combined with Metoprolol.
Venlafaxine The metabolism of Simvastatin can be decreased when combined with Venlafaxine.
Imipramine The metabolism of Simvastatin can be decreased when combined with Imipramine.
Duloxetine The metabolism of Simvastatin can be decreased when combined with Duloxetine.
Chlorpromazine The metabolism of Simvastatin can be decreased when combined with Chlorpromazine.
Celecoxib The metabolism of Simvastatin can be decreased when combined with Celecoxib.
Darifenacin The metabolism of Simvastatin can be decreased when combined with Darifenacin.
Chloroquine The metabolism of Simvastatin can be decreased when combined with Chloroquine.
Nicardipine The metabolism of Simvastatin can be decreased when combined with Nicardipine.
Perhexiline The metabolism of Simvastatin can be decreased when combined with Perhexiline.
Primaquine The metabolism of Simvastatin can be decreased when combined with Primaquine.
Desipramine The metabolism of Simvastatin can be decreased when combined with Desipramine.
Abiraterone The metabolism of Simvastatin can be decreased when combined with Abiraterone.
Panobinostat The metabolism of Simvastatin can be decreased when combined with Panobinostat.
Vilazodone The metabolism of Simvastatin can be decreased when combined with Vilazodone.

Target Protein

3-hydroxy-3-methylglutaryl-coenzyme A reductase HMGCR
Integrin alpha-L ITGAL
Histone deacetylase 2 HDAC2

Referensi & Sumber

Synthesis reference: Shieh-Shung J. Chen, Byron H. Arison, "Process for the preparation of 3-keto, 5-hydroxy simvastatin analogs." U.S. Patent US4965200, issued April, 1981.
Artikel (PubMed)
  • PMID: 17640385
    Wolozin B, Wang SW, Li NC, Lee A, Lee TA, Kazis LE: Simvastatin is associated with a reduced incidence of dementia and Parkinson's disease. BMC Med. 2007 Jul 19;5:20.
  • PMID: 10503952
    Moghadasian MH: Clinical pharmacology of 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors. Life Sci. 1999;65(13):1329-37. doi: 10.1016/s0024-3205(99)00199-x.
  • PMID: 27712954
    Anderson TJ, Gregoire J, Pearson GJ, Barry AR, Couture P, Dawes M, Francis GA, Genest J Jr, Grover S, Gupta M, Hegele RA, Lau DC, Leiter LA, Lonn E, Mancini GB, McPherson R, Ngui D, Poirier P, Sievenpiper JL, Stone JA, Thanassoulis G, Ward R: 2016 Canadian Cardiovascular Society Guidelines for the Management of Dyslipidemia for the Prevention of Cardiovascular Disease in the Adult. Can J Cardiol. 2016 Nov;32(11):1263-1282. doi: 10.1016/j.cjca.2016.07.510. Epub 2016 Jul 25.
  • PMID: 30969322
    Grundy SM, Stone NJ: 2018 American Heart Association/American College of Cardiology Multisociety Guideline on the Management of Blood Cholesterol: Primary Prevention. JAMA Cardiol. 2019 Apr 10. pii: 2730287. doi: 10.1001/jamacardio.2019.0777.
  • PMID: 20847985
    Kreatsoulas C, Anand SS: The impact of social determinants on cardiovascular disease. Can J Cardiol. 2010 Aug-Sep;26 Suppl C:8C-13C. doi: 10.1016/s0828-282x(10)71075-8.
  • PMID: 9841303
    Authors unspecified: Prevention of cardiovascular events and death with pravastatin in patients with coronary heart disease and a broad range of initial cholesterol levels. N Engl J Med. 1998 Nov 5;339(19):1349-57. doi: 10.1056/NEJM199811053391902.
  • PMID: 15007110
    Cannon CP, Braunwald E, McCabe CH, Rader DJ, Rouleau JL, Belder R, Joyal SV, Hill KA, Pfeffer MA, Skene AM: Intensive versus moderate lipid lowering with statins after acute coronary syndromes. N Engl J Med. 2004 Apr 8;350(15):1495-504. doi: 10.1056/NEJMoa040583. Epub 2004 Mar 8.
  • PMID: 18997196
    Ridker PM, Danielson E, Fonseca FA, Genest J, Gotto AM Jr, Kastelein JJ, Koenig W, Libby P, Lorenzatti AJ, MacFadyen JG, Nordestgaard BG, Shepherd J, Willerson JT, Glynn RJ: Rosuvastatin to prevent vascular events in men and women with elevated C-reactive protein. N Engl J Med. 2008 Nov 20;359(21):2195-207. doi: 10.1056/NEJMoa0807646. Epub 2008 Nov 9.
Menampilkan 8 dari 27 artikel.

Contoh Produk & Brand

Produk: 869 • International brands: 22
Produk
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Menampilkan 8 dari 869 produk.
International Brands
  • Cholestat — Kalbe
  • Colemin — Biohorm
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  • Lipex — Merck Sharp & Dohme
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  • Nivelipol — Temis-Lostalo
  • Simovil — Merck Sharp & Dohme
  • Sinvacor — Merck Sharp & Dohme
  • Sivastin — Sigma-Tau
  • Sivatin — Rowex

Sekuens Gen/Protein (FASTA)

Sekuens dimuat saat dibutuhkan agar halaman tetap ringan.
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