Kolez

Overdose

In clinical studies, administration of Kolez, 50 mg/day, to 15 healthy subjects for up to 14 days, or 40 mg/day to 18 patients with primary hypercholesterolaemia for up to 56 days, was generally well tolerated.

In animals, no toxicity was observed after single oral doses of 5,000 mg/kg of Kolez in rats and mice and 3,000 mg/kg in dogs.

A few cases of overdose with Kolez have been reported: most have not been associated with adverse experiences. Reported adverse experiences have not been serious. In the event of an overdose, symptomatic and supportive measures should be employed.

Kolez price

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However, we will provide data for each active ingredient

Contraindications

When Kolez is co-administered with a statin, please refer to the SmPC for that particular medicinal product.

Therapy with Kolez co-administered with a statin is contraindicated during pregnancy and lactation.

Kolez co-administered with a statin is contraindicated in patients with active liver disease or unexplained persistent elevations in serum transaminases.

Incompatibilities

Not applicable.

Undesirable effects

Tabulated list of adverse reactions (clinical studies and post-marketing experience)

In clinical studies of up to 112 weeks duration, Kolez 10 mg daily was administered alone in 2396 patients, with a statin in 11,308 patients or with fenofibrate in 185 patients. Adverse reactions were usually mild and transient. The overall incidence of adverse reactions was similar between Kolez and placebo. Similarly, the discontinuation rate due to adverse experiences was comparable between Kolez and placebo.

Kolez administered alone or co-administered with a statin:

The following adverse reactions were observed in patients treated with Kolez (N=2396) and at a greater incidence than placebo (N=1159) or in patients treated with Kolez co-administered with a statin (N=11308) and at a greater incidence than statin administered alone (N=9361). Post-marketing adverse reactions were derived from reports containing Kolez either administered alone or with a statin.

Frequencies are defined as: very common (>1/10); common (>1/100 to <1/10); uncommon (>1/1,000 to <1/100); rare (> 1/10,000 to <1/1,000); very rare (<1/10,000) and not known (cannot be estimated from the available data)

Kolez monotherapy

System organ class

Adverse reactions

Frequency

Investigations

ALT and/or AST increased; blood CPK increased; gamma-glutamyltransferase increased; liver function test abnormal

uncommon

Respiratory, thoracic and mediastinal disorders

cough

uncommon

Gastrointestinal disorders

abdominal pain; diarrhoea; flatulence

common

dyspepsia; gastrooesophageal reflux disease; nausea

uncommon

Musculoskeletal and connective tissue disorders

arthralgia; muscle spasms; neck pain

uncommon

Metabolism and nutrition disorders

decreased appetite

uncommon

Vascular disorders

hot flush; hypertension

uncommon

General disorders and administration site condition

fatigue

common

chest pain, pain

uncommon

Additional adverse reactions with Kolez co-administered with a statin

System organ class

Adverse reactions

Frequency

Investigations

ALT and/or AST increased

common

Nervous system disorders

headache

common

paraesthesia

uncommon

Gastrointestinal disorders

dry mouth; gastritis

uncommon

Skin and subcutaneous tissue disorders

pruritus; rash; urticaria

uncommon

Musculoskeletal and connective tissue disorders

myalgia

common

back pain; muscular weakness; pain in extremity

uncommon

General disorders and administration site condition

asthenia; oedema peripheral

uncommon

Post-marketing Experience (with or without a statin)

System organ class

Adverse reactions

Frequency

Blood and lymphatic system disorders

thrombocytopaenia

Not known

Nervous system disorders

dizziness; paraesthesia

Not known

Respiratory, thoracic and mediastinal disorders

dyspnoea

Not known

Gastrointestinal disorders

pancreatitis; constipation

Not known

Skin and subcutaneous tissue disorders

erythema multiforme

Not known

Musculoskeletal and connective tissue disorder

myalgia; myopathy/rhabdomyolysis

Not known

General disorders and administration site conditions

asthenia

Not known

Immune system disorders

hypersensitivity, including rash, urticaria, anaphylaxis and angio-oedema

Not known

Hepatobiliary disorders

hepatitis; cholelithiasis; cholecystitis

Not known

Psychiatric disorders

depression

Not known

Kolez co-administered with fenofibrate:

Gastrointestinal disorders: abdominal pain (common).

In a multicentre, double-blind, placebo-controlled, clinical study in patients with mixed hyperlipidaemia, 625 patients were treated for up to 12 weeks and 576 patients for up to 1 year. In this study, 172 patients treated with Kolez and fenofibrate completed 12 weeks of therapy, and 230 patients treated with Kolez and fenofibrate (including 109 who received Kolez alone for the first 12 weeks) completed 1 year of therapy. This study was not designed to compare treatment groups for infrequent events. Incidence rates (95% CI) for clinically important elevations (>3 X ULN, consecutive) in serum transaminases were 4.5% (1.9, 8.8) and 2.7% (1.2, 5.4) for fenofibrate monotherapy and Kolez co-administered with fenofibrate, respectively, adjusted for treatment exposure. Corresponding incidence rates for cholecystectomy were 0.6% (0.0, 3.1) and 1.7% (0.6, 4.0) for fenofibrate monotherapy and Kolez co-administered with fenofibrate, respectively.

Paediatric (6 to 17 years of age) population

In a study involving paediatric (6 to 10 years of age) patients with heterozygous familial or non-familial hypercholesterolaemia (n = 138), elevations of ALT and/or AST (>3X ULN, consecutive) were observed in 1.1% (1 patient) of the Kolez patients compared to 0% in the placebo group. There were no elevations of CPK (>10X ULN). No cases of myopathy were reported.

In a separate study involving adolescent (10 to 17 years of age) patients with heterozygous familial hypercholesterolaemia (n = 248), elevations of ALT and/or AST (> 3X ULN, consecutive) were observed in 3% (4 patients) of the Kolez/simvastatin patients compared to 2% (2 patients) in the simvastatin monotherapy group; these figures were respectively 2% (2 patients) and 0% for elevation of CPK (> 10X ULN). No cases of myopathy were reported.

These trials were not suited for comparison of rare adverse reactions.

Patients with Coronary Heart Disease and ACS Event History

In the IMPROVE-IT study , involving 18,144 patients treated with either Kolez/simvastatin 10/40 mg (n=9067; of whom 6% were uptitrated to Kolez/simvastatin 10/80 mg) or simvastatin 40 mg (n=9077; of whom 27% were uptitrated to simvastatin 80 mg), the safety profiles were similar during a median follow-up period of 6.0 years. Discontinuation rates due to adverse experiences were 10.6% for patients treated with Kolez/simvastatin and 10.1% for patients treated with simvastatin. The incidence of myopathy was 0.2% for Kolez/simvastatin and 0.1% for simvastatin, where myopathy was defined as unexplained muscle weakness or pain with a serum CK >10 times ULN or two consecutive observations of CK >5 and <10 times ULN. The incidence of rhabdomyolysis was 0.1% for Kolez/simvastatin and 0.2% for simvastatin, where rhabdomyolysis was defined as unexplained muscle weakness or pain with a serum CK >10 times ULN with evidence of renal injury, >5 times ULN and <10 times ULN on two consecutive occasions with evidence of renal injury or CK >10,000 IU/L without evidence of renal injury. The incidence of consecutive elevations of transaminases (>3 X ULN) was 2.5% for Kolez/simvastatin and 2.3% for simvastatin. Gallbladder-related adverse effects were reported in 3.1% vs 3.5% of patients allocated to Kolez/simvastatin and simvastatin, respectively. The incidence of cholecystectomy hospitalisations was 1.5% in both treatment groups. Cancer (defined as any new malignancy) was diagnosed during the trial in 9.4% vs 9.5%, respectively.

Patients with chronic kidney disease

In the Study of Heart and Renal Protection (SHARP) , involving over 9000 patients treated with a fixed dose combination of Kolez 10 mg with simvastatin 20 mg daily (n=4650) or placebo (n=4620), the safety profiles were comparable during a median follow-up period of 4.9 years. In this trial, only serious adverse events and discontinuations due to any adverse events were recorded. Discontinuation rates due to adverse events were comparable (10.4% in patients treated with Kolez combined with simvastatin, 9.8% in patients treated with placebo). The incidence of myopathy/rhabdomyolysis was 0.2% in patients treated with Kolez combined with simvastatin and 0.1% in patients treated with placebo. Consecutive elevations of transaminases (>3X ULN) occurred in 0.7% of patients treated with Kolez combined with simvastatin compared with 0.6% of patients treated with placebo. In this trial, there were no statistically significant increases in the incidence of pre-specified adverse events, including cancer (9.4% for Kolez combined with simvastatin, 9.5% for placebo), hepatitis, cholecystectomy or complications of gallstones or pancreatitis.

Laboratory values

In controlled clinical monotherapy trials, the incidence of clinically important elevations in serum transaminases (ALT and/or AST > 3 X ULN, consecutive) was similar between Kolez (0.5%) and placebo (0.3%). In co-administration trials, the incidence was 1.3% for patients treated with Kolez co-administered with a statin and 0.4% for patients treated with a statin alone. These elevations were generally asymptomatic, not associated with cholestasis, and returned to baseline after discontinuation of therapy or with continued treatment.

In clinical trials, CPK >10 X ULN was reported for 4 of 1,674 (0.2%) patients administered Kolez alone vs 1 of 786 (0.1%) patients administered placebo, and for 1 of 917 (0.1%) patients co-administered Kolez and a statin vs 4 of 929 (0.4%) patients administered a statin alone. There was no excess of myopathy or rhabdomyolysis associated with Kolez compared with the relevant control arm (placebo or statin alone).

Reporting of suspected adverse reactions

Reporting suspected adverse reactions after authorisation of the medicinal product is important. It allows continued monitoring of the benefit/risk balance of the medicinal product. Healthcare professionals are asked to report any suspected adverse reactions via the Yellow Card Scheme (www.mhra.gov.uk/yellowcard).

Preclinical safety data

Animal studies on the chronic toxicity of Kolez identified no target organs for toxic effects. In dogs treated for four weeks with Kolez (> 0.03 mg/kg/day) the cholesterol concentration in the cystic bile was increased by a factor of 2.5 to 3.5. However, in a one-year study on dogs given doses of up to 300 mg/kg/day no increased incidence of cholelithiasis or other hepatobiliary effects were observed. The significance of these data for humans is not known. A lithogenic risk associated with the therapeutic use of Kolez cannot be ruled out.

In co-administration studies with Kolez and statins the toxic effects observed were essentially those typically associated with statins. Some of the toxic effects were more pronounced than observed during treatment with statins alone. This is attributed to pharmacokinetic and pharmacodynamic interactions in co-administration therapy. No such interactions occurred in the clinical studies. Myopathies occurred in rats only after exposure to doses that were several times higher than the human therapeutic dose (approximately 20 times the AUC level for statins and 500 to 2,000 times the AUC level for the active metabolites).

In a series of in vivo and in vitro assays Kolez, given alone or co-administered with statins, exhibited no genotoxic potential. Long-term carcinogenicity tests on Kolez were negative.

Kolez had no effect on the fertility of male or female rats, nor was it found to be teratogenic in rats or rabbits, nor did it affect prenatal or postnatal development. Kolez crossed the placental barrier in pregnant rats and rabbits given multiple doses of 1,000 mg/kg/day. The co-administration of Kolez and statins was not teratogenic in rats. In pregnant rabbits a small number of skeletal deformities (fused thoracic and caudal vertebrae, reduced number of caudal vertebrae) were observed. The co-administration of Kolez with lovastatin resulted in embryolethal effects.

Therapeutic indications

Primary hypercholesterolaemia

Kolez, co-administered with an HMG-CoA reductase inhibitor (statin) is indicated as adjunctive therapy to diet for use in patients with primary (heterozygous familial and non-familial) hypercholesterolaemia who are not appropriately controlled with a statin alone.

Kolez monotherapy is indicated as adjunctive therapy to diet for use in patients with primary (heterozygous familial and non-familial) hypercholesterolaemia in whom a statin is considered inappropriate or is not tolerated.

Prevention of Cardiovascular Events

Kolez is indicated to reduce the risk of cardiovascular events in patients with coronary heart disease (CHD) and a history of acute coronary syndrome (ACS) when added to ongoing statin therapy or initiated concomitantly with a statin.

Homozygous Familial Hypercholesterolaemia (HoFH)

Kolez co-administered with a statin, is indicated as adjunctive therapy to diet for use in patients with HoFH. Patients may also receive adjunctive treatments (e.g. LDL apheresis).

Pharmacotherapeutic group

Other lipid modifying agents, ATC code: C10A X09

Pharmacodynamic properties

Pharmacotherapeutic group: Other lipid modifying agents, ATC code: C10A X09

Mechanism of action

Kolez is in a new class of lipid-lowering compounds that selectively inhibit the intestinal absorption of cholesterol. Kolez is orally active, and has a mechanism of action that differs from other classes of cholesterol-reducing compounds (e.g. statins, bile acid sequestrants [resins], fibric acid derivatives). The molecular target of Kolez is the sterol transporter, Niemann- Pick C1-Like 1 (NPC1L1), which is responsible for the intestinal uptake of cholesterol.

Kolez localises at the brush border of the small intestine and inhibits the absorption of cholesterol, leading to a decrease in the delivery of intestinal cholesterol to the liver; statins reduce cholesterol synthesis in the liver and together these distinct mechanisms provide complementary cholesterol reduction. In a 2-week clinical study in 18 hypercholesterolaemic patients, Kolez inhibited intestinal cholesterol absorption by 54%, compared with placebo.

Pharmacodynamic effects

A series of preclinical studies was performed to determine the selectivity of Kolez for inhibiting cholesterol absorption. Kolez inhibited the absorption of [14C]-cholesterol with no effect on the absorption of triglycerides, fatty acids, bile acids, progesterone, ethinyl estradiol, or fat soluble vitamins A and D.

Epidemiologic studies have established that cardiovascular morbidity and mortality vary directly with the level of total-C and LDL-C and inversely with the level of HDL-C.

Administration of Kolez with a statin is effective in reducing the risk of cardiovascular events in patients with coronary heart disease and ACS event history.

Clinical efficacy and safety

In controlled clinical studies, Kolez, either as monotherapy or co-administered with a statin significantly reduced total cholesterol (total-C), low-density lipoprotein cholesterol (LDL-C), apolipoprotein B (Apo B), and triglycerides (TG) and increased high-density lipoprotein cholesterol (HDL-C) in patients with hypercholesterolaemia.

Primary hypercholesterolaemia

In a double-blind, placebo-controlled, 8-week study, 769 patients with hypercholesterolaemia already receiving statin monotherapy and not at National Cholesterol Education Program (NCEP) LDL-C goal (2.6 to 4.1 mmol/L [100 to 160 mg/dL], depending on baseline characteristics) were randomised to receive either Kolez 10 mg or placebo in addition to their on-going statin therapy.

Among statin-treated patients not at LDL-C goal at baseline (~82%), significantly more patients randomised to Kolez achieved their LDL-C goal at study endpoint compared to patients randomised to placebo, 72% and 19% respectively. The corresponding LDL-C reductions were significantly different (25% and 4% for Kolez versus placebo, respectively). In addition, Kolez, added to on-going statin therapy, significantly decreased total-C, Apo B, TG and increased HDL-C, compared with placebo. Kolez or placebo added to statin therapy reduced median C-reactive protein by 10% or 0% from baseline, respectively.

In two, double-blind, randomised placebo-controlled, 12-week studies in 1,719 patients with primary hypercholesterolaemia, Kolez 10 mg significantly lowered total-C (13%), LDL-C (19%), Apo B (14%), and TG (8%) and increased HDL-C (3%) compared to placebo. In addition, Kolez had no effect on the plasma concentrations of fat-soluble vitamins A, D, and E, no effect on prothrombin time, and, like other lipid-lowering agents, did not impair adrenocortical steroid hormone production.

In a multicenter, double-blind, controlled clinical study (ENHANCE), 720 patients with heterozygous familial hypercholesterolemia were randomized to receive Kolez 10 mg in combination with simvastatin 80 mg (n = 357) or simvastatin 80 mg (n = 363) for 2 years. The primary objective of the study was to investigate the effect of the Kolez/simvastatin combination therapy on carotid artery intima-media thickness (IMT) compared to simvastatin monotherapy. The impact of this surrogate marker on cardiovascular morbidity and mortality is still not demonstrated.

The primary endpoint, the change in the mean IMT of all six carotid segments, did not differ significantly (p=0.29) between the two treatment groups as measured by B-mode ultrasound. With Kolez 10 mg in combination with simvastatin 80 mg or simvastatin 80 mg alone, intima-medial thickening increased by 0.0111 mm and 0.0058 mm, respectively, over the study's 2 year duration (baseline mean carotid IMT 0.68 mm and 0.69 mm respectively).

Kolez 10 mg in combination with simvastatin 80 mg lowered LDL-C, total-C, Apo B, and TG significantly more than simvastatin 80 mg. The percent increase in HDL-C was similar for the two treatment groups. The adverse reactions reported for Kolez 10 mg in combination with simvastatin 80 mg were consistent with its known safety profile.

Paediatric population

In a multicentre, double-blind, controlled study, 138 patients (59 boys and 79 girls) 6 to 10 years of age (mean age 8.3 years) with heterozygous familial or non-familial hypercholesterolaemia (HeFH) with baseline LDL-C levels between 3.74 and 9.92 mmol/L were randomised to either Kolez 10 mg or placebo for 12 weeks.

At week 12, Kolez significantly reduced total-C (-21% vs. 0%), LDL-C (-28% vs. -1%), Apo-B (-22% vs. -1%), and non-HDL-C (-26% vs. 0%) compared to placebo. Results for the two treatment groups were similar for TG and HDL-C (-6% vs. +8%, and +2% vs. +1%, respectively).

In a multicentre, double-blind, controlled study, 142 boys (Tanner stage II and above) and 106 postmenarchal girls, 10 to 17 years of age (mean age 14.2 years) with heterozygous familial hypercholesterolaemia (HeFH) with baseline LDL-C levels between 4.1 and 10.4 mmol/L were randomized to either Kolez 10 mg co-administered with simvastatin (10, 20 or 40 mg) or simvastatin (10, 20 or 40 mg) alone for 6 weeks, co-administered Kolez and 40 mg simvastatin or 40 mg simvastatin alone for the next 27 weeks, and open-label co-administered Kolez and simvastatin (10 mg, 20 mg, or 40 mg) for 20 weeks thereafter.

At Week 6, Kolez co-administered with simvastatin (all doses) significantly reduced total-C (38 % vs 26 %), LDL-C (49 % vs 34 %), Apo B (39 % vs 27 %), and non-HDL-C (47 % vs 33 %) compared to simvastatin (all doses) alone. Results for the two treatment groups were similar for TG and HDL-C (-17 % vs -12 % and +7 % vs +6 %, respectively). At Week 33, results were consistent with those at Week 6 and significantly more patients receiving Kolez and 40 mg simvastatin (62 %) attained the NCEP AAP ideal goal (< 2.8 mmol/L [110 mg/dL]) for LDL-C compared to those receiving 40 mg simvastatin (25 %).

At Week 53, the end of the open label extension, the effects on lipid parameters were maintained.

The safety and efficacy of Kolez co-administered with doses of simvastatin above 40 mg daily have not been studied in paediatric patients 10 to 17 years of age. The safety and efficacy of Kolez co-administered with simvastatin have not been studied in paediatric patients <10 years of age. The long-term efficacy of therapy with Kolez in patients below 17 years of age to reduce morbidity and mortality in adulthood has not been studied.

Prevention of Cardiovascular Events

The IMProved Reduction of Outcomes: Vytorin Efficacy International Trial (IMPROVE-IT) was a multicenter, randomised, double-blind, active-control study of 18,144 patients enrolled within 10 days of hospitalisation for acute coronary syndrome (ACS; either acute myocardial infarction [MI] or unstable angina [UA]). Patients had an LDL-C ≤125 mg/dL (≤3.2 mmol/L) at the time of presentation with ACS if they had not been taking lipid-lowering therapy, or ≤100 mg/dL (≤2.6 mmol/L) if they had been receiving lipid-lowering therapy. All patients were randomised in a 1:1 ratio to receive either Kolez/simvastatin 10/40 mg (n=9067) or simvastatin 40 mg (n=9077) and followed for a median of 6.0 years.

Patients had a mean age of 63.6 years; 76% were male, 84% were Caucasian, and 27% were diabetic. The average LDL-C value at the time of study qualifying event was 80 mg/dL (2.1 mmol/L) for those on lipid-lowering therapy (n=6390) and 101 mg/dL (2.6 mmol/L) for those not on previous lipid-lowering therapy (n=11594). Prior to the hospitalisation for the qualifying ACS event, 34% of the patients were on statin therapy. At one year, the average LDL-C for patients continuing on therapy was 53.2 mg/dL (1.4 mmol/L) for the Kolez/simvastatin group and 69.9 mg/dL (1.8 mmol/L) for the simvastatin monotherapy group. Lipid values were generally obtained for patients who remained on study therapy.

The primary endpoint was a composite consisting of cardiovascular death, major coronary events (MCE; defined as non-fatal myocardial infarction, documented unstable angina that required hospitalisation, or any coronary revascularisation procedure occurring at least 30 days after randomised treatment assignment) and non-fatal stroke. The study demonstrated that treatment with Kolez when added to simvastatin provided incremental benefit in reducing the primary composite endpoint of cardiovascular death, MCE, and non-fatal stroke compared with simvastatin alone (relative risk reduction of 6.4%, p=0.016). The primary endpoint occurred in 2572 of 9067 patients (7-year Kaplan-Meier [KM] rate 32.72%) in the Kolez/simvastatin group and 2742 of 9077 patients (7-year KM rate 34.67%) in the simvastatin alone group (see Figure 1 and Table 1.) This incremental benefit is expected to be similar with co-administration of other statins shown to be effective in reducing the risk of cardiovascular events. Total mortality was unchanged in this high risk group (see Table 1).

There was an overall benefit for all strokes; however there was a small non-significant increase in haemorrhagic stroke in the Kolez-simvastatin group compared with simvastatin alone (see Table 1). The risk of haemorrhagic stroke for Kolez co-administered with higher potency statins in long-term outcome studies has not been evaluated.

The treatment effect of Kolez/simvastatin was generally consistent with the overall results across many subgroups, including sex, age, race, medical history of diabetes mellitus, baseline lipid levels, prior statin therapy, prior stroke, and hypertension.

Figure 1: Effect of Kolez/Simvastatin on the Primary Composite Endpoint of Cardiovascular Death, Major Coronary Event, or Non-fatal Stroke

Table 1

Major Cardiovascular Events by Treatment Group in All Randomised Patients in IMPROVE-IT

Outcome

Kolez/Simvastatin

10/40 mga

(N=9067)

Simvastatin

40 mgb

(N=9077)

Hazard Ratio

(95% CI)

p-value

n

K-M % c

n

K-M % c

Primary Composite Efficacy Endpoint

(CV death, Major Coronary Events and non-fatal stroke)

2572

32.72%

2742

34.67%

0.936 (0.887, 0.988)

0.016

Secondary Composite Efficacy Endpoints

CHD death, nonfatal MI, urgent coronary revascularisation after 30 days

1322

17.52%

1448

18.88%

0.912 (0.847, 0.983)

0.016

MCE, non-fatal stroke, death (all causes)

3089

38.65%

3246

40.25%

0.948 (0.903, 0.996)

0.035

CV death, non- fatal MI, unstable angina requiring hospitalisation, any revascularisation, non-fatal stroke

2716

34.49%

2869

36.20%

0.945 (0.897, 0.996)

0.035

Components of Primary Composite Endpoint and Select Efficacy Endpoints (first occurrences of specified event at any time)

Cardiovascular death

537

6.89%

538

6.84%

1.000 (0.887, 1.127)

0.997

Major Coronary Event:

Non-fatal MI

945

12.77%

1083

14.41%

0.871 (0.798, 0.950)

0.002

Unstable angina requiring hospitalisation

156

2.06%

148

1.92%

1.059 (0.846, 1.326)

0.618

Coronary revascularisation after 30 days

1690

21.84%

1793

23.36%

0.947 (0.886, 1.012)

0.107

Non-fatal stroke

245

3.49%

305

4.24%

0.802 (0.678, 0.949)

0.010

All MI (fatal and non-fatal)

977

13.13%

1118

14.82%

0.872 (0.800, 0.950)

0.002

All stroke (fatal and non-fatal)

296

4.16%

345

4.77%

0.857 (0.734, 1.001)

0.052

Non-hemorrhagic stroke d

242

3.48%

305

4.23%

0.793 (0.670, 0.939)

0.007

Hemorrhagic stroke

59

0.77%

43

0.59%

1.377 (0.930, 2.040)

0.110

Death from any cause

1215

15.36%

1231

15.28%

0.989 (0.914, 1.070)

0.782

a 6% were uptitrated to Kolez/simvastatin 10/80 mg.

b 27% were uptitrated to simvastatin 80 mg.

c Kaplan-Meier estimate at 7 years.

d includes ischemic stroke or stroke of undetermined type.

Prevention of Major Vascular Events in Chronic Kidney Disease (CKD)

The Study of Heart and Renal Protection (SHARP) was a multi-national, randomized, placebo-controlled, double-blind study conducted in 9438 patients with chronic kidney disease, a third of whom were on dialysis at baseline. A total of 4650 patients were allocated to a fixed dose combination of Kolez 10 mg with simvastatin 20 mg and 4620 to placebo, and followed for a median of 4.9 years. Patients had a mean age of 62 and 63 % were male, 72 % Caucasian, 23 % diabetic and, for those not on dialysis, the mean estimated glomerular filtration rate (eGFR) was 26.5 mL/min/1.73 m2. There were no lipid entry criteria. Mean LDL-C at baseline was 108 mg/dL. After one year, including patients no longer taking study medication, LDL-C was reduced 26 % relative to placebo by simvastatin 20 mg alone and 38 % by Kolez 10 mg combined with simvastatin 20 mg.

The SHARP protocol-specified primary comparison was an intention-to-treat analysis of "major vascular events" (MVE; defined as nonfatal MI or cardiac death, stroke, or any revascularization procedure) in only those patients initially randomized to the Kolez combined with simvastatin (n=4193) or placebo (n=4191) groups. Secondary analyses included the same composite analyzed for the full cohort randomized (at study baseline or at year 1) to Kolez combined with simvastatin (n=4650) or placebo (n=4620) as well as the components of this composite.

The primary endpoint analysis showed that Kolez combined with simvastatin significantly reduced the risk of major vascular events (749 patients with events in the placebo group vs. 639 in the Kolez combined with simvastatin group) with a relative risk reduction of 16 % (p=0.001).

Nevertheless, this study design did not allow for a separate contribution of the monocomponent Kolez to efficacy to significantly reduce the risk of major vascular events in patients with CKD.

The individual components of MVE in all randomized patients are presented in Table 2. Kolez combined with simvastatin significantly reduced the risk of stroke and any revascularization, with non-significant numerical differences favouring Kolez combined with simvastatin for nonfatal MI and cardiac death.

Table 2

Major Vascular Events by Treatment Group in all randomized patients in SHARPa

Outcome

Kolez 10 mg combined with simvastatin 20 mg

(N=4650)

Placebo

(N=4620)

Risk Ratio

(95% CI)

P-value

Major Vascular Events

701 (15.1%)

814 (17.6%)

0.85 (0.77-0.94)

0.001

Nonfatal MI

134 (2.9%)

159 (3.4%)

0.84 (0.66-1.05)

0.12

Cardiac Death

253 (5.4%)

272 (5.9%)

0.93 (0.78-1.10)

0.38

Any Stroke

171 (3.7%)

210 (4.5%)

0.81 (0.66-0.99)

0.038

Non-hemorrhagic Stroke

131 (2.8%)

174 (3.8%)

0.75 (0.60-0.94)

0.011

Hemorrhagic Stroke

45 (1.0%)

37 (0.8%)

1.21 (0.78-1.86)

0.40

Any Revascularization

284 (6.1%)

352 (7.6%)

0.79 (0.68-0.93)

0.004

Major Atherosclerotic Events (MAE)b

526 (11.3%)

619 (13.4%)

0.83 (0.74-0.94)

0.002

aIntention-to-treat analysis on all SHARP patients randomized to Kolez combined with simvastatin or placebo either at baseline or year 1

bMAE; defined as the composite of nonfatal myocardial infarction, coronary death, non-haemorrhagic stroke, or any revascularization

The absolute reduction in LDL cholesterol achieved with Kolez combined with simvastatin was lower among patients with a lower baseline LDL-C (<2.5 mmol/L) and patients on dialysis at baseline than the other patients, and the corresponding risk reductions in these two groups were attenuated.

Homozygous Familial Hypercholesterolaemia (HoFH)

A double-blind, randomised, 12-week study enrolled 50 patients with a clinical and/or genotypic diagnosis of HoFH, who were receiving atorvastatin or simvastatin (40 mg) with or without concomitant LDL apheresis. Kolez co-administered with atorvastatin (40 or 80 mg) or simvastatin (40 or 80 mg), significantly reduced LDL-C by 15% compared with increasing the dose of simvastatin or atorvastatin monotherapy from 40 to 80 mg.

Aortic Stenosis

The Simvastatin and Kolez for the Treatment of Aortic Stenosis (SEAS) study was a multi-center, double-blind, placebo-controlled study with a median duration of 4.4 years conducted in 1873 patients with asymptomatic aortic stenosis (AS), documented by Doppler-measured aortic peak flow velocity within the range of 2.5 to 4.0 m/s. Only patients who were considered not to require statin treatment for purposes of reducing atherosclerotic cardiovascular disease risk were enrolled. Patients were randomized 1:1 to receive placebo or co-administered Kolez 10 mg and simvastatin 40 mg daily.

The primary endpoint was the composite of major cardiovascular events (MCE) consisting of cardiovascular death, aortic valve replacement (AVR) surgery, congestive heart failure (CHF) as a result of progression of AS, nonfatal myocardial infarction, coronary artery bypass grafting (CABG), percutaneous coronary intervention (PCI), hospitalization for unstable angina, and nonhaemorrhagic stroke. The key secondary endpoints were composites of subsets of the primary endpoint event categories.

Compared to placebo, Kolez/simvastatin 10/40 mg did not significantly reduce the risk of MCE. The primary outcome occurred in 333 patients (35.3%) in the Kolez / simvastatin group and in 355 patients (38.2%) in the placebo group (hazard ratio in the Kolez / simvastatin group, 0.96; 95% confidence interval, 0.83 to 1.12; p = 0.59). Aortic valve replacement was performed in 267 patients (28.3%) in the Kolez / simvastatin group and in 278 patients (29.9%) in the placebo group (hazard ratio, 1.00; 95% CI, 0.84 to 1.18; p = 0.97). Fewer patients had ischemic cardiovascular events in the Kolez / simvastatin group (n=148) than in the placebo group (n=187) (hazard ratio, 0.78; 95% CI, 0.63 to 0.97; p = 0.02), mainly because of the smaller number of patients who underwent coronary artery bypass grafting.

Cancer occurred more frequently in the Kolez/simvastatin group (105 versus 70, p = 0.01). The clinical relevance of this observation is uncertain as in the bigger SHARP trial the total number of patients with any incident cancer (438 in the Kolez/simvastatin versus 439 placebo group) did not differ. In addition, in the IMPROVE-IT trial the total number of patients with any new malignancy (853 in the Kolez/simvastatin group versus 863 in the simvastatin group) did not differ significantly and therefore the finding of the SEAS trial could not be confirmed by SHARP or IMPROVE-IT.

Pharmacokinetic properties

Absorption

After oral administration, Kolez is rapidly absorbed and extensively conjugated to a pharmacologically-active phenolic glucuronide (Kolez-glucuronide). Mean maximum plasma concentrations (Cmax) occur within 1 to 2 hours for Kolez-glucuronide and 4 to 12 hours for Kolez.

The absolute bioavailability of Kolez cannot be determined as the compound is virtually insoluble in aqueous media suitable for injection.

Concomitant food administration (high fat or non-fat meals) had no effect on the oral bioavailability of Kolez when administered as Kolez 10 mg tablets. Kolez can be administered with or without food.

Distribution

Kolez and Kolez-glucuronide are bound 99.7% and 88 to 92% to human plasma proteins, respectively.

Biotransformation

Kolez is metabolised primarily in the small intestine and liver via glucuronide conjugation (a phase II reaction) with subsequent biliary excretion. Minimal oxidative metabolism (a phase I reaction) has been observed in all species evaluated. Kolez and Kolez-glucuronide are the major drug-derived compounds detected in plasma, constituting approximately 10 to 20 % and 80 to 90 % of the total drug in plasma, respectively. Both Kolez and Kolez-glucuronide are slowly eliminated from plasma with evidence of significant enterohepatic recycling. The half-life for Kolez and Kolez-glucuronide is approximately 22 hours.

Elimination

Following oral administration of 14C-Kolez (20 mg) to human subjects, total Kolez accounted for approximately 93% of the total radioactivity in plasma. Approximately 78% and 11% of the administered radioactivity were recovered in the faeces and urine, respectively, over a 10-day collection period. After 48 hours, there were no detectable levels of radioactivity in the plasma.

Special populations:

Paediatric population

The pharmacokinetics of Kolez are similar between children >6 years and adults. Pharmacokinetic data in the paediatric population <6 years of age are not available. Clinical experience in paediatric and adolescent patients includes patients with HoFH or HeFH.

Elderly

Plasma concentrations for total Kolez are about 2-fold higher in the elderly (>65 years) than in the young (18 to 45 years). LDL-C reduction and safety profile are comparable between elderly and young subjects treated with Kolez. Therefore, no dosage adjustment is necessary in the elderly.

Hepatic impairment

After a single 10 mg dose of Kolez, the mean AUC for total Kolez was increased approximately 1.7-fold in patients with mild hepatic impairment (Child Pugh score 5 or 6), compared to healthy subjects. In a 14-day, multiple-dose study (10 mg daily) in patients with moderate hepatic impairment (Child Pugh score 7 to 9), the mean AUC for total Kolez was increased approximately 4-fold on Day 1 and Day 14 compared to healthy subjects. No dosage adjustment is necessary for patients with mild hepatic impairment. Due to the unknown effects of the increased exposure to Kolez in patients with moderate or severe (Child Pugh score>9) hepatic impairment, Kolez is not recommended in these patients.

Renal impairment

After a single 10-mg dose of Kolez in patients with severe renal disease (n=8; mean CrCl ≤ 30 mL/min/1.73m2), the mean AUC for total Kolez was increased approximately 1.5-fold, compared to healthy subjects (n=9). This result is not considered clinically significant. No dosage adjustment is necessary for renal impaired patients.

An additional patient in this study (post-renal transplant and receiving multiple medicinal products, including ciclosporin) had a 12-fold greater exposure to total Kolez.

Gender

Plasma concentrations for total Kolez are slightly higher (approximately 20%) in women than in men.

LDL-C reduction and safety profile are comparable between men and women treated with Kolez. Therefore, no dosage adjustment is necessary on the basis of gender.

Name of the medicinal product

Kolez

Qualitative and quantitative composition

Ezetimibe

Special warnings and precautions for use

When Kolez is co-administered with a statin, please refer to the SmPC for that particular medicinal product.

Liver enzymes

In controlled co-administration trials in patients receiving Kolez with a statin, consecutive transaminase elevations (> 3 X the upper limit of normal [ULN]) have been observed. When Kolez is co-administered with a statin, liver function tests should be performed at initiation of therapy and according to the recommendations of the statin.

In the IMProved Reduction of Outcomes: Vytorin Efficacy International Trial (IMPROVE-IT), 18,144 patients with coronary heart disease and ACS event history were randomised to receive Kolez/simvastatin 10/40 mg daily (n=9067) or simvastatin 40 mg daily (n=9077). During a median follow-up of 6.0 years, the incidence of consecutive elevations of transaminases (>3 X ULN) was 2.5% for Kolez/simvastatin and 2.3% for simvastatin.

In a controlled clinical study in which over 9000 patients with chronic kidney disease were randomized to receive Kolez 10 mg combined with simvastatin 20 mg daily (n=4650) or placebo (n=4620), (median follow-up period of 4.9 years), the incidence of consecutive elevations of transaminases (>3 X ULN) was 0.7% for Kolez combined with simvastatin and 0.6% for placebo.

Skeletal muscle

In post-marketing experience with Kolez, cases of myopathy and rhabdomyolysis have been reported.

Most patients who developed rhabdomyolysis were taking a statin concomitantly with Kolez. However, rhabdomyolysis has been reported very rarely with Kolez monotherapy and very rarely with the addition of Kolez to other agents known to be associated with increased risk of rhabdomyolysis. If myopathy is suspected based on muscle symptoms or is confirmed by a creatine phosphokinase (CPK) level>10 times the ULN, Kolez, any statin, and any of these other agents that the patient is taking concomitantly should be immediately discontinued. All patients starting therapy with Kolez should be advised of the risk of myopathy and told to report promptly any unexplained muscle pain, tenderness or weakness.

In IMPROVE-IT, 18,144 patients with coronary heart disease and ACS event history were randomised to receive Kolez/simvastatin 10/40 mg daily (n=9067) or simvastatin 40 mg daily (n=9077). During a median follow-up of 6.0 years, the incidence of myopathy was 0.2% for Kolez/simvastatin and 0.1% for simvastatin, where myopathy was defined as unexplained muscle weakness or pain with a serum CK >10 times ULN or two consecutive observations of CK >5 and <10 times ULN. The incidence of rhabdomyolysis was 0.1% for Kolez/simvastatin and 0.2% for simvastatin, where rhabdomyolysis was defined as unexplained muscle weakness or pain with a serum CK >10 times ULN with evidence of renal injury, >5 times ULN and <10 times ULN on two consecutive occasions with evidence of renal injury or CK >10,000 IU/L without evidence of renal injury.

In a clinical trial in which over 9000 patients with chronic kidney disease were randomized to receive Kolez 10 mg combined with simvastatin 20 mg daily (n=4650) or placebo (n=4620) (median follow-up 4.9 years), the incidence of myopathy/rhabdomyolysis was 0.2% for Kolez combined with simvastatin and 0.1% for placebo.

Hepatic impairment

Due to the unknown effects of the increased exposure to Kolez in patients with moderate or severe hepatic impairment, Kolez is not recommended.

Paediatric population

Efficacy and safety of Kolez in patients 6 to 10 years of age with heterozygous familial or non-familial hypercholesterolemia have been evaluated in a 12-week placebo-controlled clinical trial. Effects of Kolez for treatment periods >12 weeks have not been studied in this age group.

Kolez has not been studied in patients younger than 6 years of age.

Efficacy and safety of Kolez co-administered with simvastatin in patients 10 to 17 years of age with heterozygous familial hypercholesterolemia have been evaluated in a controlled clinical trial in adolescent boys (Tanner stage II or above) and in girls who were at least one year post-menarche.

In this limited controlled study, there was generally no detectable effect on growth or sexual maturation in the adolescent boys or girls, or any effect on menstrual cycle length in girls. However, the effects of Kolez for a treatment period > 33 weeks on growth and sexual maturation have not been studied.

The safety and efficacy of Kolez co-administered with doses of simvastatin above 40 mg daily have not been studied in paediatric patients 10 to 17 years of age.

The safety and efficacy of Kolez co-administered with simvastatin have not been studied in paediatric patients <10 years of age.

The long-term efficacy of therapy with Kolez in patients below 17 years of age to reduce morbidity and mortality in adulthood has not been studied.

Fibrates

The safety and efficacy of Kolez administered with fibrates have not been established.

If cholelithiasis is suspected in a patient receiving Kolez and fenofibrate, gallbladder investigations are indicated and this therapy should be discontinued.

Ciclosporin

Caution should be exercised when initiating Kolez in the setting of ciclosporin. Ciclosporin concentrations should be monitored in patients receiving Kolez and ciclosporin.

Anticoagulants

If Kolez is added to warfarin, another coumarin anticoagulant, or fluindione, the International Normalised Ratio (INR) should be appropriately monitored.

Excipient

Kolez contains lactose. Patients with rare hereditary problems of galactose intolerance, the Lapp lactase deficiency or glucose-galactose malabsorption should not take this medicine.

Effects on ability to drive and use machines

No studies on the effects on the ability to drive and use machines have been performed. However, when driving vehicles or operating machines, it should be taken into account that dizziness has been reported.

Dosage (Posology) and method of administration

Posology

The patient should be on an appropriate lipid lowering diet and should continue on this diet during treatment with Kolez.

Route of administration is oral. The recommended dose is one Kolez 10 mg tablet daily. Kolez can be administered at any time of the day, with or without food.

When Kolez is added to a statin, either the indicated usual initial dose of that particular statin or the already established higher statin dose should be continued. In this setting, the dosage instructions for that particular statin should be consulted.

Use in Patients with Coronary Heart Disease and ACS Event History

For incremental cardiovascular event reduction in patients with coronary heart disease and ACS event history, Kolez 10 mg may be administered with a statin with proven cardiovascular benefit.

Co-administration with bile acid sequestrants

Dosing of Kolez should occur either > 2 hours before or > 4 hours after administration of a bile acid sequestrant.

Elderly

No dosage adjustment is required for elderly patients.

Paediatric population

Initiation of treatment must be performed under review of a specialist.

Children and adolescents >6 years: The safety and efficacy of Kolez in children aged 6 to 17 years has not been established.8, 5.1 and 5.2 but no recommendation on a posology can be made.

When Kolez is administered with a statin, the dosage instructions for the statin, in children should be consulted.

Children <6 years: The safety and efficacy of Kolez in children aged <6 years has not been established. No data are available.

Hepatic impairment

No dosage adjustment is required in patients with mild hepatic impairment (Child-Pugh score 5 to 6).

Treatment with Kolez is not recommended in patients with moderate (Child-Pugh score 7 to 9) or severe (Child-Pugh score>9) liver dysfunction.

Renal impairment

No dosage adjustment is required for renal impaired patients.

Special precautions for disposal and other handling

No special requirements.