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Zanidip Novum 16 Mg Film-Coated Tablets

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SUMMARY OF PRODUCT CHARACTERISTICS

1 NAME OF THE MEDICINAL PRODUCT

Zanidip Novum 16 mg film-coated tablets

2 QUALITATIVE AND QUANTITATIVE COMPOSITION

Each film-coated tablet contains as active ingredient lercanidipine 15.10 mg (present as lercanidipine hydrochloride 16 mg).

Excipients: one film-coated tablet contains 80 mg lactose monohydrate.

For a full list of excipients, see section 6.1.

3    PHARMACEUTICAL FORM

Film-coated tablet.

Pink, circular, biconvex tablet.

4 CLINICAL PARTICULARS

4.1 Therapeutic indications

Zanidip Novum is indicated for the treatment of mild to moderate essential hypertension.

4.2 Posology and method of administration

Zanidip Novum 16 mg film-coated tablets is bioequivalent to Zanidip 20 mg film-coated tablets.

The recommended dosage of Zanidip Novum is 8 mg orally once a day at least 15 minutes before meals; the dose may be increased to 16 mg depending on the individual patient’s response.

Dose titration should be gradual, because it may take about 2 weeks before the maximal antihypertensive effect is apparent.

Some individuals, not adequately controlled on a single antihypertensive agent, may benefit from the addition of Zanidip Novum to therapy with a beta-adrenoceptor blocking drug (atenolol), a diuretic (hydrochlorothiazide) or an angiotensin converting enzyme inhibitor (captopril or enalapril).

Since the dose-response curve of lercanidipine hydrochloride is steep with a plateau close to the higher recommended dose, it is unlikely that efficacy will be improved by doses of Zanidip Novum higher than 16 mg whereas side effects may increase.

Use in the elderly: although the pharmacokinetic data and clinical experience suggest that no adjustment of the daily dosage is required, special care should be exercised when initiating treatment in the elderly.

Use in children and adolescents: Zanidip Novum is not recommended for use in children and adolescent below age 18 due to a lack of data on safety and efficacy (see section 5.1 and 5.2). There is no experience in children (see section 4.4 and 5.2).

Use in renal or hepatic dysfunction: special care should be exercised when treatment is commenced in patients with mild to moderate renal or hepatic dysfunction. Although the usually recommended dose schedule may be tolerated by these subgroups, an increase in dose to 16 mg daily of Zanidip Novum must be approached with caution. The antihypertensive effect may be enhanced in patients with hepatic impairment and consequently an adjustment of the dosage should be considered.

Zanidip Novum is not recommended for use in patients with severe hepatic impairment or in patients with severe renal impairment (creatinine clearance < 30 ml/min).

4.3 Contraindications

•    Hypersensitivity to the active substance “lercanidipine“, to any dihydropyridine or to any of the excipients of the medicinal product.

•    Pregnancy and lactation (see section 4.6).

•    Women of child-bearing potential unless effective contraception is used.

•    Left ventricular outflow tract obstruction.

•    Untreated congestive cardiac failure.

•    Unstable angina pectoris.

•    Severe renal or hepatic impairment.

•    Within 1 month of a myocardial infarction.

•    Co-administration with:

o    strong inhibitors of CYP3A4 (see section 4.5),

o    cyclosporin (see section 4.5),

o    grapefruit juice (see section 4.5).

4.4 Special warnings and precautions for use

Special care should be exercised when Zanidip Novum is used in patients with sick sinus syndrome (if a pacemaker is not in situ). Although hemodynamic controlled studies revealed no impairment of ventricular function, care is also required in patients with LV dysfunction. It has been suggested that some short-acting dihydropyridines may be associated with increased cardiovascular risk in patients with ischaemic heart disease. Although Zanidip Novum is long-acting caution is required in such patients.

Some dihydropyridines may rarely lead to precordial pain or angina pectoris. Very rarely patients with pre-existing angina pectoris may experience increased frequency, duration or severity of these attacks. Isolated cases of myocardial infarction may be observed (see section 4.8).

Use in renal or hepatic dysfunction: special care should be exercised when treatment is commenced in patients with mild to moderate renal or hepatic dysfunction. Although the usually recommended dose schedule may be tolerated by these subgroups, an increase in dose to 16 mg daily of Zanidip Novum must be approached with caution. The antihypertensive effect may be enhanced in patients with hepatic impairment and consequently an adjustment of the dosage should be considered.

Zanidip Novum is not recommended for use in patients with severe hepatic impairment or in patients with severe renal impairment (creatinine clearance < 30 ml/min) (see section 4.2).

Alcohol should be avoided since it may potentiate the effect of vasodilating antihypertensive drugs (see section 4.5).

Inducers of CYP3A4 like anticonvulsants (e.g. phenytoin, carbamazepine) and rifampicin may reduce lercanidipine’s plasma levels and therefore the efficacy of lercanidipine may be less than expected (see section 4.5).

Patients with rare hereditary problems of galactose intolerance, the Lapp lactase deficiency or glucose-galactose malabsorption should not take Zanidip Novum.

4.5 Interaction with other medicinal products and other forms of interaction

Lercanidipine is known to be metabolised by the CYP3A4 enzyme and, therefore, inhibitors and inducers of CYP3A4 administered concurrently may interact with the metabolism and elimination of lercanidipine.

Co-prescription of Zanidip Novum with inhibitors of CYP3A4 (e.g. ketoconazole, itraconazole, ritonavir, erythromycin, troleandomycin) should be avoided (see section 4.3).

An interaction study with a strong CYP3A4 inhibitor, ketoconazole, has shown a considerable increase in plasma levels of lercanidipine (a 15-fold increase of the AUC and an 8-fold increase of the Cmax for the eutomer S-lercanidipine).

Cyclosporin and lercanidipine should not be administered together (see section 4.3).

Increased plasma levels of both lercanidipine and cyclosporin have been observed following concomitant administration. A study in young healthy volunteers has shown that when cyclosporin was administered 3 hours after lercanidipine intake, the plasma levels of lercanidipine did not change, while the AUC of cyclosporin increased by 27%. However, the co-administration of lercanidipine HCl with cyclosporin has caused a 3-fold increase of the plasma levels of lercanidipine and a 21% increase of the cyclosporin AUC. Lercanidipine should not be taken with grapefruit juice (see section 4.3).

As for other dihydropyridines, lercanidipine is sensitive to inhibition of metabolism by grapefruit juice, with a consequent rise in its systemic availability and increased hypotensive effect.

When lercanidipine HCl was concomitantly administered with midazolam p.o. to elderly volunteers, lercanidipine’s absorption was increased (by approximately 40%) and the rate of absorption was decreased (tmax was delayed from 1.75 to 3 hours). Midazolam concentrations were not modified.

Caution should be exercised when Zanidip Novum is co-prescribed with other substrates of CYP3A4, like terfenadine, astemizole, class III antiarrhythmic drugs such as amiodarone, quinidine.

Co-administration of Zanidip Novum with CYP3A4 inducers like anticonvulsants (e.g. phenytoin, carbamazepine) and rifampicin should be approached with caution since the antihypertensive effect may be reduced and blood pressure should be monitored more frequently than usual.

When lercanidipine HCl was co-administered with metoprolol, a P-blocker eliminated mainly by the liver, the bioavailability of metoprolol was not changed while that of lercanidipine was reduced by 50%. This effect may be due to the reduction in the hepatic blood flow caused by P-blockers and may therefore occur with other drugs of this class. Consequently, Zanidip Novum may be safely administered with beta-adrenoceptor blocking drugs, but dose adjustment may be required.

An interaction study with fluoxetine (an inhibitor of CYP2D6 and CYP3A4), conducted in volunteers of an age of 65 ± 7 years (mean ± s.d.), has shown no clinically relevant modification of the pharmacokinetics of lercanidipine.

Concomitant administration of cimetidine 800 mg daily does not cause significant modifications in plasma levels of lercanidipine, but at higher doses caution is required since the bioavailability and the hypotensive effect of lercanidipine may be increased.

Co-administration of lercanidipine HCl in patients chronically treated with P-methyldigoxin showed no evidence of pharmacokinetic interaction. Healthy volunteers treated with digoxin following dosing with lercanidipine HCl given fasted showed a mean increase of 33% in digoxin Cmax, while AUC and renal clearance were not significantly modified. Patients on concomitant digoxin treatment should be closely monitored clinically for signs of digoxin toxicity.

When lercanidipine HCl was repeatedly co-administered with 40 mg of simvastatin, the AUC of lercanidipine was not significantly modified, while simvastatin’s AUC increased by 56% and that of its active metabolite P-hydroxyacid by 28%. It is unlikely that such changes are of clinical relevance. No interaction is expected when Zanidip Novum is administered in the morning and simvastatin in the evening, as indicated for such drug.

The co-administration of lercanidipine HCl to healthy volunteers given fasted did not alter the pharmacokinetics of warfarin.

Lercanidipine HCl has been safely administered with diuretics and ACE inhibitors.

Alcohol should be avoided since it may potentiate the effect of vasodilating antihypertensive drugs (see section 4.4).

4.6 Pregnancy and lactation

Data for lercanidipine provide no evidence of a teratogenic effect in the rat and the rabbit and reproductive performance in the rat was unimpaired. Nevertheless, since there is no clinical experience with lercanidipine in

pregnancy and lactation, and other dihydropyridine compounds have been found teratogenic in animals, Zanidip Novum should not be administered during pregnancy or to women with child-bearing potential unless effective contraception is used. Because of high lipophilicity of lercanidipine, distribution in milk may be expected. Therefore, it should not be administered to nursing mothers.

4.7 Effects on ability to drive and use machines

Zanidip Novum has minor or moderate influence on the ability to drive and use machines because dizziness, asthenia, fatigue and rarely somnolence may occur.

No studies on the effects on the ability to drive and use machines have been performed.

4.8 Undesirable effects

About 1.8% of patients treated with lercani dipine HCl experienced adverse reactions.

The table below shows the incidence of adverse drug reactions, at least possibly causally related, grouped by MedDRA System Organ Class classification, and ranked by frequency (uncommon, rare).

As shown in the table, the most commonly occurring adverse drug reactions reported in controlled clinical trials are headache, dizziness, peripheral oedema, tachycardia, palpitations, flushing, each occurring in less than 1% of patients.

MedDRA System Organ Class

Frequency

Preferred Terms

Immune System Disorders

Very rare (<1/10,000)

hypersensitivity

Psychiatric Disorders

Rare (>1/10,000 to <1/1000)

somnolence

Nervous System Disorders

Uncommon (>1/1000 to <1/100)

headache; dizziness

Rare (>1/10,000 to <1/1000)

angina pectoris

Cardiac Disorders

Uncommon (>1/1000 to <1/100)

tachycardia;

palpitations

Vascular Disorders

Uncommon (>1/1000 to <1/100)

flushing

Very rare (<1/10,000)

syncope

Gastrointestinal Disorders

Rare (>1/10,000 to <1/1000)

nausea; dyspepsia; diarrhoea; abdominal pain; vomiting

Skin and Subcutaneous Tissue Disorders

Rare (>1/10,000 to <1/1000)

rash

Musculoskeletal and Connective Tissue Disorders

Rare (>1/10,000 to <1/1000)

myalgia

Renal and Urinary Disorders

Rare (>1/10,000 to <1/1000)

Polyuria

General Disorders and Administration Site Conditions

Uncommon (>1/1000 to <1/100)

Rare (>1/10,000 to <1/1000)

oedema peripheral asthenia; fatigue

In post-marketing experience, from spontaneous reports, the following undesirable effects were reported very rarely (<1/10,000): gingival hypertrophy, reversible increases in serum levels of hepatic transaminases, hypotension, urinary frequency and chest pain.

Some dihydropyridines may rarely lead to precordial pain or angina pectoris. Very rarely patients with pre-existing angina pectoris may experience increased frequency, duration or severity of these attacks. Isolated cases of myocardial infarction may be observed.

Lercanidipine does not appear to influence adversely blood sugar or serum lipid levels.

4.9 Overdose

In the post-marketing experience, three cases of overdose were reported (150 mg 280 mg and 800 mg of lercanidipine, respectively, ingested in an attempt to commit suicide).

Dose level

Signs/Symptoms

Management

Outcome

150 mg

+ undefined amount

of alcohol

Sleepiness

Gastric lavage Active charcoal

Recovered

280 mg

+

5.6 mg moxonidine

Cardiogenic shock

Severe myocardial ischaemia

Mild renal failure

High-dose

catecholamines

Furosemide

Digitalis

Parenteral plasma expanders

Recovered

800 mg

Emesis

Hypotention

Active charcoal Cathartics Dopamine i.v.

Recovered

As with other dihydropyridines, overdosage might be expected to cause excessive peripheral vasodilatation with marked hypotension and reflex tachycardia. In case of severe hypotension, bradycardia and unconsciousness, cardiovascular support could be helpful, with intravenous atropine for bradycardia.

In view of the prolonged pharmacological effect of lercanidipine, it is essential that the cardiovascular status of patients who take an overdose is monitored for 24 hours at least. There is no information on the value of dialysis. Since the drug is highly lipophilic, it is most probable that plasma levels are no guide to the duration of the period of risk and dialysis may not be effective.

5 PHARMACOLOGICAL PROPERTIES

5.1 Pharmacodynamic properties

Pharmacotherapeutic group: Selective calcium channel blockers with mainly vascular effects.

ATC code: C08CA13

Lercanidipine is a calcium antagonist of the dihydropyridine group and inhibits the transmembrane influx of calcium into cardiac and smooth muscle.

The mechanism of its antihypertensive action is due to a direct relaxant effect on vascular smooth muscle thus lowering total peripheral resistance. Despite its short pharmacokinetic plasma half-life, lercanidipine is endowed with a prolonged antihypertensive activity because of its high membrane partition coefficient, and is devoid of negative inotropic effects due to its high vascular selectivity.

Since the vasodilatation induced by lercanidipine is gradual in onset, acute hypotension with reflex tachycardia has rarely been observed in hypertensive patients.

As for other asymmetric 1,4-dihydropyridines, the antihypertensive activity of lercanidipine is mainly due to its (S)-enantiomer.

In addition to the clinical studies conducted to support the therapeutic indications, a further small uncontrolled but randomised study of patients with severe hypertension (mean ± SD diastolic blood pressure of 114.5 ± 3.7 mmHg) showed that blood pressure was normalised in 40% of the 25 patients on 20 mg once daily dose and in 56% of 25 patients on 10 mg twice daily doses of lercanidipine HCl. In a double-blind, randomized, controlled study versus placebo in patients with isolated systolic hypertension lercanidipine HCl was efficacious in lowering systolic blood pressure from mean initial values of 172.6 ± 5.6 mmHg to 140.2 ± 8.7 mmHg.

5.2 Pharmacokinetic properties

Absorption:

Zanidip Novum 8 mg and 16 mg tablets are bioequivalent to Zanidip 10 and 20 mg tablets respectively. Similar lercanidipine Cmax and AUC are obtained . No significant differences in Tmax which occurs at about 1.0-1.5 hours (as median) after dosing are observed.

The two enantiomers of lercanidipine show a similar plasma level profile: the time to peak plasma concentration is the same, the peak plasma concentration and AUC are, on average, 1.2-fold higher for the (S) enantiomer and the elimination half-lives of the two enantiomers are essentially the same. No "in vivo" interconversion of enantiomers is observed.

Due to the high first pass metabolism, the absolute bioavailability of lercanidipine HCl orally administered to healthy volunteers under fasting conditions is about 3.3%.

When Zanidip Novum is administered immediately after a high fat meal compared to being administered during fasting conditions, Cmax and AUC are increased 1.8- nad 1.9-fold respectively.

Distribution:

Distribution of lercanidipine from plasma to tissues and organs is rapid and extensive.

The degree of serum protein binding of lercanidipine exceeds 98%. Since plasma protein levels are reduced in patients with severe renal or hepatic dysfunction, the free fraction of the drug may be increased.

Biotransformation:

Lercanidipine is extensively metabolised by CYP3A4; no parent drug is found in the urine or the faeces. It is predominantly converted to inactive metabolites and about 50% of the dose is excreted in the urine.

“In vitro” experiments with human liver microsomes have demonstrated that lercanidipine shows some degree of inhibition of CYP3A4 and CYP2D6, at concentrations 160- and 40-fold, respectively, higher than those reached at peak in the plasma after the dose of 20 mg.

Moreover, interaction studies in humans have shown that lercanidipine did not modify the plasma levels of midazolam, a typical substrate of CYP3A4, or of metoprolol, a typical substrate of CYP2D6. Therefore, inhibition of biotransformation of drugs metabolised by CYP3A4 and CYP2D6 by Zanidip Novum is not expected at therapeutic doses.

Elimination:

Elimination occurs essentially by biotransformation.

A mean terminal elimination half life of 8-10 hours was calculated and the therapeutical activity lasts for 24 hours because of its high binding to lipid membrane. No accumulation was seen upon repeated administration.

Linearity/non linearity:

Oral administration of lercanidipine HCl leads to plasma levels not directly proportional to dosage (non-linear kinetics). After administration of lercanidipine HCl 10, 20 or 40 mg, peak plasma concentrations observed were in the ratio 1:3:8 and areas under plasma concentration-time curves in the ratio 1:4:18, suggesting a progressive saturation of first pass metabolism. Accordingly, availability increases with dosage elevation.

Characteristics in patients:

In elderly patients and in patients with mild to moderate renal dysfunction or mild to moderate hepatic impairment the pharmacokinetic behaviour of lercanidipine was shown to be similar to that observed in the general patient population; patients with severe renal dysfunction or dialysis-dependent patients showed higher levels (about 70%) of the drug. In patients with moderate to severe hepatic impairment, the systemic bioavailability of lercanidipine is likely to be increased since the drug is normally metabolised extensively in the liver.

5.3 Preclinical safety data

Safety pharmacological studies in animals have shown no effects on the autonomic nervous system, the central nervous system or on gastrointestinal function at antihypertensive doses.

The relevant effects which have been observed in long-term studies in rats and dogs were related, directly or indirectly, to the known effects of high doses of Ca-antagonists, predominantly reflecting exaggerated pharmacodynamic activity.

Lercanidipine was not genotoxic and showed no evidence of carcinogenic hazard.

Fertility and general reproductive performance in rats were unaffected by treatment with lercanidipine.

There was no evidence of any teratogenic effect in rats and rabbits; however, in rats, lercanidipine at high dose levels induced pre- and post- implantation losses and delay in foetal development.

Lercanidipine HCl, when administered at high dose (12 mg/kg/day) during labour, induced dystocia.

The distribution of lercanidipine and/or its metabolites in pregnant animals and their excretion in breast milk have not been investigated.

Metabolites have not been evaluated separately in toxicity studies.

6 PHARMACEUTICAL PARTICULARS

6.1    List of excipients

Tablet core:

Lactose monohydrate Microcrystalline cellulose Povidone K30 Sodium starch glycolate Silica colloidal anhydrous Poloxamer 407 Magnesium stearate

Film coating:

Hypromellose

Talc

Titanium dioxide (E171) Macrogol 6000

Iron oxide (E172)

6.2 Incompatibilities

Not applicable.

6.3 Shelf life

2 years.

6.4 Special precautions for storage

Store in the original package in order to protect from light and moisture.

6.5 Nature and contents of container

Opaque PVC/PE/PVDC - Aluminium blisters. Packs of 7, 14, 28, 35, 50, 56, 98 and 100 tablets. Not all pack sizes may be marketed.

6.6 Special precautions for disposal

No special requirements.

Any unused product or waste material should be disposed of in accordance with the local requirements.

7    MARKETING AUTHORISATION HOLDER

RECORDATI Industria Chimica e Farmaceutica S.p.A.

Via Matteo Civitali, 1 20148 Milan (Italy)

8    MARKETING AUTHORISATION NUMBER(S)

PL 04595/0023

9    DATE OF FIRST AUTHORISATION/RENEWAL OF THE AUTHORISATION

22/02/2010

10    DATE OF REVISION OF THE TEXT

22/02/2010