Rofast

Rofast

rosuvastatin

Manufacturer:

Aurobindo Pharma

Distributor:

Apotheca Marketing
Full Prescribing Info
Contents
Rosuvastatin.
Description
10 mg: Each film-coated Tablet Contains: Rosuvastatin calcium equivalent to Rosuvastatin 10 mg.
20 mg: Each film-coated Tablet Contains: Rosuvastatin calcium equivalent to Rosuvastatin 20 mg.
Excipients/Inactive Ingredients: Tablet Core: Lactose monohydrate, Anhydrous Calcium Hydrogen Phosphate, Microcrystalline cellulose, Crospovidone, Magnesium stearate.
Film-coating: Hypromellose, Lactose monohydrate, Titanium dioxide, Allura red AC aluminium lake (E129), Sunset Yellow FCF (E110), Indigo carmine aluminium lake (E132), Triacetin.
Action
Pharmacotherapeutic Group: HMG-CoA reductase inhibitors. ATC code: C10AA07.
Pharmacology: Pharmacodynamics: Mechanism of action: Rosuvastatin is a selective, potent and competitive inhibitor of HMG-CoA reductase, the rate-limiting enzyme that converts 3-hydroxy-3-methylglutaryl coenzyme A to mevalonate, a precursor of cholesterol. Triglycerides (TG) and cholesterol in the liver are incorporated, with apolipoprotein B (ApoB), into very low density lipoprotein (VLDL) and released into the plasma for delivery to peripheral tissues. VLDL particles are TG-rich. Cholesterol-rich low density lipoprotein (LDL) is formed from VLDL and is cleared primarily through the high affinity LDL receptor in the liver.
Rosuvastatin produces its lipid-modifying effects in two ways; it increases the number of hepatic LDL receptors on the cell-surface, enhancing uptake and catabolism of LDL and it inhibits the hepatic synthesis of VLDL, thereby reducing the total number of VLDL and LDL particles.
High density lipoprotein (HDL), which contains ApoA-I is involved, amongst other things, in transport of cholesterol from tissues back to the liver (reverse cholesterol transport).
The involvement of LDL-C in atherogenesis has been well documented. Epidemiological studies have established that high LDL-C, TG, low HDL-C and ApoA-I have been linked to a higher risk of cardiovascular disease. Intervention studies have shown the benefits on mortality and CV event rates of lowering LDL-C and TG or raising HDL-C. More recent data has linked the beneficial effects of HMG-CoA reductase inhibitors to lowering of non-HDL (i.e. all circulating cholesterol not in HDL) and ApoB or reducing the ApoB/ApoA-I ratio.
Clinical efficacy: Rosuvastatin Tablets reduces elevated LDL-cholesterol, total cholesterol and triglycerides and increases HDL-cholesterol. It also lowers ApoB, nonHDL-C, VLDL-C, VLDL-TG and increases ApoA-I (see Table 1).
Rosuvastatin Tablets also lowers the LDL-C/HDL-C, total C/HDL-C, nonHDL-C/HDL-C and ApoB/ApoA-I ratio's.
A therapeutic response to Rosuvastatin Tablets is obtained within 1 week of commencing therapy and 90% of maximum response is usually achieved in 2 weeks. The maximum response is usually achieved by 4 weeks and is maintained after that. (See Table 1.)

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The data in Table 1 are confirmed by the broader clinical programme of over 3,500 patients given Rosuvastatin Tablets.
In a force-titration open label study, 42 patients with homozygous familial hypercholesterolaemia were evaluated for their response to Rosuvastatin Tablets 20-40 mg titrated at a 6 week interval. In the overall population, the mean LDL-C reduction was 22%. In the 27 patients with at least a 15% reduction by week 12 (considered to be the responder population), the mean LDL-C reduction was 26% at the 20 mg dose and 30% at the 40 mg dose. Of the 13 patients with an LDL-C of less than 15%, 3 had no response or an increase in LDL-C.
In the METEOR study, the effect of Rosuvastatin Tablets 40 mg on the progression of atherosclerosis was assessed by B-mode ultrasound of the carotid arteries. In this multi-center, double blind, placebo-controlled clinical trial, 984 subjects at low risk for coronary heart disease (defined as Framingham risk <10% over ten years) and with a mean LDL-C of 154.5 mg/dL but with subclinical atherosclerosis as detected by CIMT (Carotid Intima Media Thickness) were randomized in a 5:2 ratio to treatment with either Rosuvastatin Tablets 40 mg or placebo for 2 years. Rosuvastatin Tablets significantly slowed the progression of carotid atherosclerosis compared to placebo. The difference in the rate of change in the maximum CIMT of all 12 carotid artery sites between Rosuvastatin Tablets-treated patients and placebo-treated patients was -0.0145 mm/year (95% CI -0.0196, -0.0093; p<0.0001). The change from baseline for the Rosuvastatin Tablets group was -0.0014 mm/year (95% CI -0.0041, 0.0014), but was not significantly different from zero (p=0.3224). The beneficial effects of Rosuvastatin Tablets were consistent across all 4 secondary CIMT endpoints. There was significant progression in the placebo group (+0.0131 mm/year; 95% CI 0.0087, 0.0174; p<0.0001). In the Rosuvastatin Tablets group, 52.1% of patients demonstrated an absence of disease progression (i.e. regressed) compared to 37.7% of patients in the placebo group (p=0.0002). Rosuvastatin Tablets 40 mg was well-tolerated and the data were consistent to the established safety profile for Rosuvastatin Tablets.
In a randomized, multicenter, double-blind crossover study, 32 patients (27 with e2/ e2 genotype and 4 with apo E mutation [Arg145Cys]) with dysbetalipoproteinaemia (Fredrickson type III) received Rosuvastatin Tablets 10 or 20 mg daily for 6 weeks. Rosuvastatin Tablets reduced non-HDL-C (primary end point) and circulating remnant lipoprotein levels. Results are shown in the table as follows. (See Table 2.)

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Rosuvastatin Tablets is effective in adults with hypercholesterolaemia, with and without hypertriglyceridaemia, regardless of race, sex or age and in special populations such as diabetics or patients with familial hypercholesterolaemia.
In the Justification for the Use of Statins in Primary Prevention: An Intervention Trial Evaluating Rosuvastatin (JUPITER) study, the effect of Rosuvastatin Tablets (Rosuvastatin calcium) on the occurrence of major cardiovascular (CV) disease events was assessed in 17,802 men (≥50 years) and women (≥60 years) who had no clinically evident cardiovascular disease, LDL-C levels <130 mg/dL (3.3 mmol/l) and hs-CRP levels ≥2 mg/L. The study population had an estimated baseline coronary heart disease risk of 11.6% over 10 years based on the Framingham risk criteria and included a high percentage of patients with additional risk factors such as hypertension (58%), low HDL-C levels (23%), cigarette smoking (16%) or a family history of premature CHD (12%). Study participants had a median baseline LDL-C of 108 mg/dL and hsCRP of 4.3 mg/L. Study participants were randomly assigned to placebo (n=8901) or Rosuvastatin Tablets 20 mg once daily (n=8901) and were followed for a mean duration of 2 years. The JUPITER study was stopped early by the Data Safety Monitoring Board due to meeting predefined stopping rules for efficacy in Rosuvastatin Tablets-treated subjects.
The primary endpoint was a composite end point consisting of the time-to-first occurrence of any of the following major CV events: CV death, nonfatal myocardial infarction, nonfatal stroke, hospitalization for unstable angina or an arterial revascularization procedure.
Rosuvastatin significantly reduced the risk of major CV events (252 events in the placebo group vs. 142 events in the Rosuvastatin Tablets group) with a statistically significant (p<0.001) relative risk reduction of 44% and absolute risk reduction of 1.2% (see Figure 1). The risk reduction for the primary end point was consistent across the following predefined subgroups: age, sex, race, smoking status, family history of premature CHD, body mass index, LDL-C, HDL-C or hsCRP levels. (See Figure 1.)

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The individual components of the primary end point are presented in Figure 2. Rosuvastatin Tablets significantly reduced the risk of nonfatal myocardial infarction, nonfatal stroke, and arterial revascularization procedures. There were no significant treatment differences between the Rosuvastatin Tablets and placebo groups for death due to cardiovascular causes or hospitalizations for unstable angina.
Rosuvastatin Tablets significantly reduced the risk of myocardial infarction (6 fatal events and 62 nonfatal events in placebo-treated subjects vs. 9 fatal events and 22 nonfatal events in Rosuvastatin Tablets-treated subjects) and the risk of stroke (6 fatal events and 58 nonfatal events in placebo-treated subjects vs. 3 fatal events and 30 nonfatal events in Rosuvastatin Tablets-treated subjects).
In JUPITER, there was a statistically significant increase in the frequency of diabetes mellitus reported by investigators; 2.8% of patients in the Rosuvastatin Tablets group and 2.3% of patients in the placebo group (HR: 1.27, 95% CI: 1.05-1.53, p=0.015). The difference between treatment groups (Rosuvastatin Tablets versus placebo) in mean HbA1c change from baseline was approximately 0.1%. The cardiovascular and mortality benefits of Rosuvastatin Tablets therapy exceeded the diabetes hazard in the trial population as a whole (see Precautions and Adverse Reactions).
In a post-hoc subgroup analysis of JUPITER subjects (n=1405; Rosuvastatin=725, placebo=680) with a hsCRP ≥2 mg/L and no other traditional risk factors (smoking, BP ≥140/90 or taking antihypertensives, low HDL-C) other than age, after adjustment for high HDL-C, there was no significant treatment benefit with Rosuvastatin treatment. (See Figure 2.)

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At one year, Rosuvastatin increased HDL-C and reduced LDL-C, hsCRP, total cholesterol and serum triglyceride levels (p<0.001 for all versus placebo).
Pharmacokinetics: Rosuvastatin is administered orally in the active form with peak plasma levels occurring 5 hours after dosing. Exposure increases linearly over the dose range. The half life is 19 hours and does not increase with increasing dose. Absolute bioavailability is 20%. There is minimal accumulation on repeated once daily dosing.
Rosuvastatin undergoes first pass extraction in the liver which is the primary site of cholesterol synthesis and LDL-C clearance.
Rosuvastatin is approximately 90% bound to plasma proteins, mostly albumin. The parent compound, accounts for greater than 90% of the circulating active HMG CoA reductase inhibitor activity.
Rosuvastatin undergoes limited metabolism (approximately 10%), mainly to the N-desmethyl form, and 90% is eliminated as unchanged drug in the faeces with the remainder being excreted in the urine.
Special populations: Age and sex: There was no clinically relevant effect of age or sex on the pharmacokinetics of rosuvastatin in adults.
Renal insufficiency: In a study in subjects with varying degrees of renal impairment, mild to moderate renal disease had little influence on plasma concentrations of rosuvastatin. However, subjects with severe impairment (CrCl <30 ml/min) had a 3-fold increase in plasma concentration compared to healthy volunteers. Steady-state plasma concentrations of rosuvastatin in subjects undergoing haemodialysis were approximately 50% greater compared to healthy volunteers.
Hepatic insufficiency: In a study in 12 subjects with mild to moderate hepatic impairment there was evidence of increased exposure to rosuvastatin in the 2 subjects with the higher Child-Pugh scores (8 and 9). In these subjects, systemic exposure was increased by at least 2-fold compared to subjects with lower Child-Pugh scores. There is no experience in subjects with Child-Pugh scores above 9.
Race: Pharmacokinetic studies show an approximate 2-fold elevation in median AUC in Asian subjects including subjects of Japanese, Chinese, Malay and Indian ancestry compared with Caucasians. A population pharmacokinetic analysis revealed no clinically relevant differences in pharmacokinetics among Caucasian, Hispanic and Black or Afro-Caribbean groups.
Genetic polymorphisms: Disposition of HMG-CoA reductase inhibitors, including rosuvastatin, involves OATP1B1 and BCRP transporter proteins. In patients with SLCO1B1 (OATP1B1) and/or ABCG2 (BCRP) genetic polymorphisms there is a risk of increased rosuvastatin exposure. Individual polymorphisms of SLCO1B1 c.521CC and ABCG2 c.421AA are associated with an approximate 1.6-fold higher rosuvastatin exposure (AUC) or 2.4-fold higher exposure, respectively, compared to the SLCO1B1 c.521TT or ABCG2 c.421CC genotypes.
Indications/Uses
Rosuvastatin Tablets is indicated for patients with primary hypercholesterolaemia and mixed dyslipidaemia as an adjunct to diet when response to diet and exercise is inadequate.
Rosuvastatin Tablets is indicated to treat patients with primary dysbetalipoproteinaemia (Fredrickson Type III hyperlipoproteinaemia) as an adjunct to diet when response to diet and exercise is inadequate.
Rosuvastatin Tablets reduces elevated LDL-cholesterol, total cholesterol and triglycerides and increases HDL-cholesterol, thereby enabling most patients to achieve relevant treatment guidelines.
Rosuvastatin Tablets also lowers ApoB, nonHDL-C, VLDL-C, VLDL-TG, the LDL-C/HDL-C, total C/HDL-C, nonHDL-C/HDL-C, ApoB/ApoA-I ratios and increases ApoA-I.
Rosuvastatin Tablets is also indicated in patients with homozygous familial hypercholesterolaemia, either alone or as an adjunct to diet and other lipid lowering treatments (e.g. LDL apheresis).
Primary prevention of cardiovascular disease: Rosuvastatin Tablets is indicated in individuals without clinically evident coronary heart disease but with an increased risk of cardiovascular disease based on age ≥ 50 years old in men and ≥ 60 years old in women, hsCRP ≥ 2 mg/L, and the presence of at least one additional cardiovascular disease risk factor such as hypertension, low HDL-C, smoking, or a family history of premature coronary heart disease, Rosuvastatin Tablets is indicated to: reduce the risk of stroke; reduce the risk of myocardial infarction; reduce the risk of arterial revascularization procedures.
Dosage/Direction for Use
The dosage of Rosuvastatin Tablets should be individualised according to the goal of therapy and patient response. The recommended start dose is 5 or 10 mg once daily in both statin naive patients or patients switched from another HMG CoA reductase inhibitor. The choice of starting dose should take into account the individual patient's cholesterol level and future cardiovascular risk as well as the potential risk for adverse reactions. A dose adjustment to the next dose level can be made after 4-6 weeks, if necessary (see Pharmacology: Pharmacodynamics under Actions). Increasing the dose to 40 mg should be reserved for patients with severe hypercholesterolaemia at high cardiovascular risk (in particular those with familial hypercholesterolaemia), who do not achieve their treatment goal on 20 mg and should only be initiated under close specialist supervision (see Precautions for the use of 40 mg dose). The physician who elects to use Rosuvastatin Tablets at doses higher than 20 mg should periodically re-evaluate the long-term risk/benefit of Rosuvastatin Tablets for the individual patient. Rosuvastatin Tablets should be prescribed with caution in patients with pre-disposing factors for myopathy/rhabdomyolysis (see Skeletal muscle under Precautions).
Rosuvastatin Tablets may be given at any time of day, with or without food.
Use in Asian population: Increased plasma concentration of Rosuvastatin Tablets has been observed in Asian subjects including subjects of Japanese, Chinese, Malay and Indian ancestry (see Precautions and Pharmacology: Pharmacokinetics under Actions). Increased systemic exposure, which is considered a pre-disposing factor for myopathy, should be taken into consideration when making dose decisions for Asian patients. Initiation of Rosuvastatin Tablets therapy with 5 mg once daily should be considered for Asian patients. This should take into account the individual patient's cholesterol level and future cardiovascular risk as well as the potential risk for adverse reactions. Doses exceeding 20 mg are not generally recommended and should only be considered for patients with high cardiovascular risk whose hypercholesterolaemia is not controlled with doses up to 20 mg. In rare cases where Rosuvastatin Tablets at doses higher than 20 mg is indicated, initiation of therapy should be under close specialist supervision. The physician who elects to use Rosuvastatin Tablets at doses higher than 20 mg should periodically re-evaluate the long-term risk/benefit of Rosuvastatin Tablets for the individual patient.
Use in elderly: No dose adjustment is necessary.
Dosage in patients with renal insufficiency: No dose adjustment is necessary in patients with mild to moderate renal impairment. For patients with severe renal impairment the use of Rosuvastatin Tablets is contraindicated (see Pharmacology: Pharmacokinetics under Actions).
Dosage in patients with hepatic insufficiency: The usual dose range applies in patients with mild hepatic impairment [Child-Pugh scores of ≤7].
Increased systemic exposure to Rosuvastatin Tablets has been observed in patients with moderate hepatic impairment [Child-Pugh scores of 8 or 9]. There is no experience in patients with severe hepatic impairment. Rosuvastatin Tablets is contraindicated in patients with active liver disease. (See Pharmacology: Pharmacokinetics under Actions).
Genetic polymorphisms: Genotypes of SLCO1B1 (OATP1B1) c.521CC and ABCG2 (BCRP) c.421AA have been shown to be associated with an increase in Rosuvastatin Tablets exposure (AUC) compared to SLCO1B1 c.521TT and ABCG2 c.421CC. For patients known to have the c.521CC or c.421AA genotype, a maximum once daily dose of 20 mg of Rosuvastatin Tablets is recommended (see Precautions, Interactions and Pharmacology: Pharmacokinetics under Actions).
Concomitant therapy: Rosuvastatin Tablets is a substrate of various transporter proteins (e.g. OATP1B1 and BCRP). The risk of myopathy (including rhabdomyolysis) is increased when Rosuvastatin Tablets is administered concomitantly with certain medicinal products that may increase the plasma concentration of Rosuvastatin Tablets due to interactions with these transporter proteins (e.g. cyclosporin and certain protease inhibitors including combinations of ritonavir with atazanavir, lopinavir, and/or tipranavir; see Precautions and Interactions). It is recommended that prescribers consult the relevant product information when considering administration of such products together with Rosuvastatin Tablets. Whenever possible, alternative medications should be considered, and if necessary, consider temporarily discontinuing Rosuvastatin Tablets therapy. In situations where co-administration of these medicinal products with Rosuvastatin Tablets is unavoidable, the benefit and the risk of concurrent treatment and Rosuvastatin Tablets dosing adjustments should be carefully considered (see Interactions).
Overdosage
There is no specific treatment in the event of overdose. In the event of overdose, the patient should be treated symptomatically and supportive measures instituted as required. Haemodialysis is unlikely to be of benefit.
Contraindications
Rosuvastatin Tablets is contraindicated in patients with hypersensitivity to any component of this product. Rosuvastatin Tablets is contraindicated in patients with active liver disease or unexplained, persistent elevations of serum transaminases.
Rosuvastatin Tablets is contraindicated during pregnancy, while breast-feeding and in women of child-bearing potential not using appropriate contraceptive measures.
Rosuvastatin Tablets is contraindicated in patients receiving concomitant cyclosporin.
Rosuvastatin Tablets is contraindicated in patients with severe renal impairment (creatinine clearance <30 ml/min).
Special Precautions
In rare cases where Rosuvastatin Tablets at doses higher than 20 mg is indicated, initiation of therapy should be under close specialist supervision. The physician who elects to use Rosuvastatin Tablets at doses higher than 20 mg should periodically re-evaluate the long-term risk/benefit of Rosuvastatin Tablets for the individual patient.
Race: Pharmacokinetic studies show an increase in exposure in Asian subjects including subjects of Japanese, Chinese, Malay and Indian ancestry compared with Caucasians (see Dosage & Administration and Pharmacology: Pharmacokinetics under Actions.) A population pharmacokinetic analysis revealed no clinically relevant differences in pharmacokinetics between Caucasian, Hispanic, Black and Afro-Caribbean groups.
Renal Effects: Proteinuria, detected by dipstick testing and mostly tubular in origin, has been observed in patients treated with higher doses of Rosuvastatin Tablets, in particular 40 mg. The effects were generally transient and not associated with worsening of renal function. Although the clinical significance of this finding is unknown, a dose reduction should be considered in patients with unexplained persistent proteinuria during routine urinalysis testing. An assessment of renal function is recommended during routine follow-up of patients treated with a dose of 40 mg.
Skeletal muscle: Effects on skeletal muscle e.g. myalgia and myopathy and, rarely, rhabdomyolysis, have been reported in patients treated with Rosuvastatin Tablets, as with other HMG-CoA reductase inhibitors. As with other HMG-CoA reductase inhibitors, the reporting rate for rhabdomyolysis in post-marketing use is higher at the highest marketed dose. Rare cases of rhabdomyolysis, which were occasionally associated with impairment of renal function, have been reported with Rosuvastatin Tablets and with other marketed statins.
There have been very rare reports of an immune-mediated necrotising myopathy clinically characterized by persistent proximal muscle weakness and elevated serum creatine kinase during treatment or following discontinuation of statins, including Rosuvastatin Tablets. Additional neuromuscular and serologic testing may be necessary. Treatment with immunosuppressive agents may be required.
Creatine Kinase Measurement: Creatine kinase (CK) should not be measured following strenuous exercise or in the presence of a plausible alternative cause of CK increase, which may confound interpretation of the result.
Before treatment: If CK levels are significantly elevated at baseline (>10xULN), treatment should not be started.
Rosuvastatin Tablets as with other HMG-CoA reductase inhibitors, should be prescribed with caution in patients with pre-disposing factors for myopathy/rhabdomyolysis. Such factors include: renal impairment; hypothyroidism; personal or family history of hereditary muscular disorders; previous history of muscular toxicity with another HMG-CoA reductase inhibitor, fibrate or niacin; alcohol abuse; age ≥65 years; situations where an increase in plasma levels may occur; concomitant use of fibrates or niacin.
In such patients the risk of treatment should be considered in relation to possible benefit and clinical monitoring is recommended.
In patients with secondary hypercholesterolaemia caused by hypothyroidism or nephrotic syndrome, the underlying disease should be treated prior to initiating therapy with Rosuvastatin Tablets.
Whilst on treatment: Patients should be asked to report inexplicable muscle pain, weakness or cramps immediately, particularly if associated with malaise or fever. CK levels should be measured in these patients. Therapy should be discontinued if CK levels are markedly elevated (>10xULN) or if muscular symptoms are severe and cause daily discomfort (even if CK levels ≤10xULN). If symptoms resolve and CK levels return to normal, then consideration should be given to re-introducing Rosuvastatin Tablets or an alternative HMG-CoA reductase inhibitor at lowest dose with close monitoring.
Routine monitoring of CK levels in asymptomatic patients is not warranted.
The risk of myopathy during treatment with Rosuvastatin Tablets may be increased in circumstances which increase Rosuvastatin Tablets drug levels (see Pharmacology: Pharmacokinetics: Special populations under Actions).
In clinical trials there was no evidence of increased skeletal muscle effects in the small number of patients dosed with Rosuvastatin Tablets and concomitant therapy. However, an increase in the incidence of myositis and myopathy has been seen in patients receiving other HMG-CoA reductase inhibitors together with fibric acid derivatives including gemfibrozil, cyclosporin, nicotinic acid, azole antifungals, protease inhibitors and macrolide antibiotics. Gemfibrozil increases the risk of myopathy when given concomitantly with some HMG-CoA reductase inhibitors. The benefit of further alterations in lipid levels by the combined use of Rosuvastatin Tablets with fibrates or niacin should be carefully weighed against the potential risks of such combinations. When used in combination with fibrates or lipid lowering doses of niacin (≥1 g/day), the dose of Rosuvastatin Tablets should not exceed 10 mg/day.
Rosuvastatin Tablets should be temporarily withheld in any patient with an acute serious condition suggestive of myopathy or predisposing to the development of renal failure secondary to rhabdomyolysis (e.g. sepsis, hypotension, major surgery, trauma, severe metabolic, endocrine and electrolyte disorders; or uncontrolled seizures).
Diabetes Mellitus: As with other HMG-CoA reductase inhibitors, increases in HbA1c and serum glucose levels have been observed in patients treated with Rosuvastatin Tablets, and in some instances these increases may exceed the threshold for the diagnosis of diabetes mellitus (see Adverse Reactions and Pharmacology: Pharmacodynamics under Actions).
Liver: As with other HMG-CoA reductase inhibitors, Rosuvastatin Tablets should be used with caution in patients who consume excessive quantities of alcohol and/or have a history of liver disease.
It is recommended that liver function tests are performed before and at 3 months following both the initiation of treatment and any increase of dose, and periodically (semi-annually) thereafter. Patients with increased transaminases levels should be monitored until abnormalities resolve. Rosuvastatin Tablets should be discontinued or the dose reduced if the level of serum transaminases is >3 ULN.
Protease inhibitors: Increased systemic exposure to Rosuvastatin Tablets has been observed in subjects receiving Rosuvastatin Tablets concomitantly with various protease inhibitors in combination with ritonavir. Consideration should be given both to the benefit of lipid lowering by use of Rosuvastatin Tablets in HIV patients receiving protease inhibitors and the potential for increased Rosuvastatin Tablets plasma concentrations when initiating and up titrating Rosuvastatin Tablets doses in patients treated with protease inhibitors. The concomitant use with certain protease inhibitors is not recommended unless the dose of Rosuvastatin Tablets is adjusted. (See Table 4, Dosage & Administration and Interactions).
Endocrine Effects: Increases in HbA1c and fasting serum glucose levels have been reported with HMG-CoA reductase inhibitors, including Rosuvastatin Tablets (see Adverse Reactions).
Effects on ability to drive and use machines: Studies to determine the effect of Rosuvastatin Tablets on the ability to drive and use machines have not been conducted. However, based on its pharmacodynamic properties, Rosuvastatin Tablets is unlikely to affect this ability. When driving vehicles or operating machines, it should be taken into account that dizziness may occur during treatment.
Use In Pregnancy & Lactation
The safety of Rosuvastatin Tablets during pregnancy and whilst breast feeding has not been established. Women of child-bearing potential should use appropriate contraceptive measures (see Contraindications).
Adverse Reactions
The adverse events seen with Rosuvastatin Tablets are generally mild and transient. In controlled clinical trials less than 4% of Rosuvastatin Tablets treated patients were withdrawn due to adverse events. (See Table 3.)

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As with other HMG-CoA reductase inhibitors, the incidence of adverse drug reactions tends to be dose dependent.
The adverse events seen with Rosuvastatin Tablets are generally mild and transient.
Post Marketing Experience: In addition to the previously mentioned, the following adverse events have been reported during post marketing experience for rosuvastatin.
The frequencies of adverse events are ranked according to the following: Common (>1/100, <1/10); Uncommon (>1/1,000, <1/100); Rare (>1/10,000, <1/1000); Very rare (<1/10,000); Not known (cannot be estimated from the available data).
Immune system disorders: Rare: hypersensitivity reactions including angioedema.
Endocrine disorders: Common: diabetes mellitus.
Nervous system disorders: Very rare: polyneuropathy, memory loss.
Frequency unknown: peripheral neuropathy.
Gastrointestinal disorders: Common: constipation, nausea, abdominal pain.
Rare: pancreatitis.
Skin and subcutaneous tissue disorders: Uncommon: pruritus, rash and urticaria.
Musculoskeletal, connective tissue and bone disorders: Common: myalgia.
Rare: myopathy (including myositis) and rhabdomyolysis.
General disorders: Common: asthenia.
Haematological disorders: Frequency unknown: thrombocytopenia.
Respiratory, thoracic and mediastinal disorders: Not known: cough, dyspnoea.
Gastrointestinal disorders: Not known: diarrhoea.
Hepatobiliary disorders: Very rare: jaundice, hepatitis; rare: increased transaminases.
Skin and subcutaneous tissue disorders: Not known: Stevens-Johnson syndrome.
Musculoskeletal disorders: Not known: immune-mediated necrotising myopathy.
Very rare: arthralgia.
Renal disorders: Very rare: haematuria.
Reproductive system and breast disorders: Not known: gynaecomastia.
General disorders and administration site conditions: Not known: oedema.
The following adverse events have been reported with some statins: Depression; Sleep disturbances, including insomnia and nightmares; Sexual dysfunction; Exceptional cases of interstitial lung disease, especially with long term therapy.
There have been rare post-marketing 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 non-serious, and reversible upon statin discontinuation, with variable times to symptom onset (1 day to years) and symptom resolution (median of 3 weeks).
Laboratory Effects: Renal Effects: Proteinuria detected by dipstick testing and mostly tubular in origin, has been observed in patients treated with Rosuvastatin Tablets. Shifts in urine protein from none or trace to ++ or more were seen in < 1% of patients at some time during treatment with 10 and 20 mg, and in approximately 3% of patients treated with 40 mg. A minor increase in shift from none or trace to + was observed with the 20 mg dose. In most cases, proteinuria decreases or disappears spontaneously on continued therapy, and has not been shown to be predictive of acute or progressive renal disease.
Skeletal muscle effects: Effects on skeletal muscle e.g. myalgia, myopathy (including myositis) and rhabdomyolysis have been reported in Rosuvastatin Tablets-treated patients with all doses. A dose-related increase in CK levels has been observed in patients taking Rosuvastatin Tablets; the majority of cases were mild, asymptomatic and transient. If CK levels are elevated (>10xULN), treatment should be discontinued. (see Precautions).
Liver effects: As with other HMG-CoA reductase inhibitors, a dose-related increase in transaminases has been observed in a small number of patients taking Rosuvastatin Tablets (see Precautions and Pharmacology: Pharmacodynamics under Actions); the majority of cases were mild, asymptomatic and transient.
Other effects: In a long-term controlled clinical trial Rosuvastatin Tablets was shown to have no harmful effects on the ocular lens.
Drug Interactions
Effect of co-administered medicinal products on Rosuvastatin Tablets: Transporter protein inhibitors: Rosuvastatin Tablets is a substrate for certain transporter proteins including the hepatic uptake transporter OATP1B1 and efflux transporter BCRP. Concomitant administration of Rosuvastatin Tablets with medicinal products that are inhibitors of these transporter proteins may result in increased Rosuvastatin Tablets plasma concentrations and an increased risk of myopathy (see Table 4, Dosage & Administration and Precautions).
Cyclosporin: Co-administration of Rosuvastatin Tablets with cyclosporin resulted in no significant changes in cyclosporin plasma concentration. However, Rosuvastatin Tablets steady state AUC (0-t) increased up to 7-fold over that seen in healthy volunteers administered the same dose. Concomitant use of Rosuvastatin Tablets and cyclosporin is contraindicated (see Table 4 and Contraindications).
Protease inhibitors: Although the exact mechanism of interaction is unknown, concomitant protease inhibitor use may strongly increase Rosuvastatin Tablets exposure (see Table 4). For instance, in a pharmacokinetic study, co-administration of 10 mg Rosuvastatin Tablets and a combination product of two protease inhibitors (300 mg atazanavir / 100 mg ritonavir) in healthy volunteers was associated with an approximately 3-fold increase in Rosuvastatin Tablets AUC. The concomitant use of Rosuvastatin Tablets and some protease inhibitor combinations may be considered after careful consideration of Rosuvastatin Tablets dose adjustments based on the expected increase in Rosuvastatin Tablets exposure (Table 4, Dosage & Administration and Precautions).
Gemfibrozil and other lipid-lowering products: Concomitant use of Rosuvastatin Tablets and gemfibrozil resulted in a 2-fold increase in Rosuvastatin Tablets Cmax and AUC (0-t). Based on data from specific interaction studies, no pharmacokinetic relevant interaction with fenofibrate is expected, however pharmacodynamic interaction may occur.
Gemfibrozil, fenofibrate, other fibrates and lipid lowering doses (≥1g/day) of niacin (nicotinic acid) increase the risks of myopathy when given concomitantly with HMG-CoA reductase inhibitors, probably because they can produce myopathy when given alone. Therefore, the dose of Rosuvastatin Tablets should not exceed 10 mg/day when given in combination with fibrates or niacin. (See Dosage & Administration and Precautions).
Antacid: The simultaneous dosing of Rosuvastatin Tablets with an antacid suspension containing aluminium and magnesium hydroxide resulted in a decrease in Rosuvastatin Tablets plasma concentration of approximately 50%. This effect was mitigated when the antacid was dosed 2 hours after Rosuvastatin Tablets. The clinical relevance of this interaction has not been studied.
Erythromycin: Concomitant use of Rosuvastatin Tablets and erythromycin resulted in a 20% decrease in AUC (0-t) and a 30% decrease in Cmax of Rosuvastatin Tablets. This interaction may be caused by the increase in gut motility caused by erythromycin.
Cytochrome P450 enzymes: Results from in vitro and in vivo studies show that Rosuvastatin Tablets is neither an inhibitor nor an inducer of cytochrome P450 isoenzymes. In addition, Rosuvastatin Tablets is a poor substrate for these isoenzymes. Therefore, drug interactions resulting from cytochrome P450-mediated metabolism are not expected. No clinically relevant interactions have been observed between Rosuvastatin Tablets and either fluconazole (an inhibitor of CYP2C9 and CYP3A4) or ketoconazole (an inhibitor of CYP2A6 and CYP3A4).
Interactions requiring Rosuvastatin Tablets dose adjustments (see also Table 4): When it is necessary to co-administer Rosuvastatin Tablets with other medicinal products known to increase exposure to Rosuvastatin Tablets, doses of Rosuvastatin Tablets should be adjusted. It is recommended that prescribers consult the relevant product information when considering administration of such products together with Rosuvastatin Tablets. Start with a 5 mg once daily dose of Rosuvastatin Tablets if the expected increase in exposure (AUC) is approximately 2-fold or higher.
The maximum daily dose of Rosuvastatin Tablets should be adjusted so that the expected Rosuvastatin Tablets exposure would not likely exceed that of the recommended maximum daily dose of Rosuvastatin Tablets taken without interacting medicinal products.
For example, where the recommended dose of Rosuvastatin Tablets is 20 mg; the dose of Rosuvastatin Tablets taken with a ritonavir/atazanavir combination (3.1-fold increase) should not exceed 5 mg, and the dose of Rosuvastatin Tablets taken with gemfibrozil (1.9-fold increase) should not exceed 10 mg. (See Table 4.)

Click on icon to see table/diagram/image

Effect of Rosuvastatin Tablets on co-administered medicinal products: Warfarin: As with other HMG-CoA reductase inhibitors, co-administration of Rosuvastatin Tablets and warfarin may result in a rise in INR compared to warfarin alone. In patients taking vitamin K antagonists monitoring of INR is recommended both at initiation or cessation of therapy with Rosuvastatin Tablets or following dose adjustment.
Oral contraceptive/hormone replacement therapy (HRT): Concomitant use of Rosuvastatin Tablets and an oral contraceptive resulted in an increase in ethinyl oestradiol and norgestrel AUC of 26% and 34%, respectively. These increased plasma levels should be considered when selecting oral contraceptive doses. There are no pharmacokinetic data available in subjects taking concomitant Rosuvastatin Tablets and HRT and therefore a similar effect cannot be excluded. However, the combination has been extensively used in women in clinical trials and was well tolerated.
Other medicinal products: Based on data from specific interaction studies, no clinically relevant interaction with digoxin is expected.
Endocrine function: Although clinical studies have shown that Rosuvastatin Tablets alone does not reduce basal plasma cortisol levels or impairs adrenal reserve, caution should be exercised if any HMG-CoA reductase inhibitor or other lipid-lowering agent is administered concomitantly with drugs that may decrease levels or activity of endogenous steroid hormones (ketoconazole, spironolactone, cimetidine).
Fusidic Acid: Interaction studies with Rosuvastatin Tablets and fusidic acid have not been conducted. As with other statins, muscle related events, including rhabdomyolysis, have been reported in post-marketing experience with Rosuvastatin Tablets and fusidic acid given concurrently. Therefore, the combination Rosuvastatin Tablets and fusidic acid is not recommended. If possible, temporary suspension of Rosuvastatin Tablets treatment is recommended. If unavoidable, patients should be closely monitored.
Caution For Usage
Incompatibilities: None known.
Storage
Store below 30°C. Store in the original package.
ATC Classification
C10AA07 - rosuvastatin ; Belongs to the class of HMG CoA reductase inhibitors. Used in the treatment of hyperlipidemia.
Presentation/Packing
FC tab 10 mg (pink colored, round shaped, biconvex, debossed with "J" on one side and "54" on the other side) x 3 x 10's. 20 mg (pink colored, round shaped, biconvex, debossed with "J" on one side and "55" on the other side) x 3 x 10's.
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