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Levetiracetam Krka

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1. NAME OF THE MEDICINAL PRODUCT


Levetiracetam Krka 750 mg film-coated tablets.


2. QUALITATIVE AND QUANTITATIVE COMPOSITION


Each film-coated tablet contains 750 mg levetiracetam.


For the full list of excipients, see section 6.1.


3. PHARMACEUTICAL FORM


Film-coated tablet.

Pale red, oblong, 19.2 x 8.9 x 7.3 mm.


4. CLINICAL PARTICULARS


4.1 Therapeutic indications


Levetiracetam Krka is indicated as monotherapy in the treatment of partial onset seizures with or without secondary generalisation in adults and adolescents from 16 years of age with newly diagnosed epilepsy.


Levetiracetam Krka is indicated as adjunctive therapy

in the treatment of partial onset seizures with or without secondary generalisation in adults, adolescents, children and infants from 1 month of age with epilepsy.

in the treatment of myoclonic seizures in adults and adolescents from 12 years of age with Juvenile Myoclonic Epilepsy.

in the treatment of primary generalised tonic-clonic seizures in adults and adolescents from 12 years of age with Idiopathic Generalised Epilepsy.


4.2 Posology and method of administration


Posology


The physician should prescribe the most appropriate pharmaceutical form, presentation and strength according to weight and dose. An oral solution should be used for doses under 250 mg and for patients unable to swallow tablets.


Monotherapy for adults and adolescents from 16 years of age


The recommended starting dose is 250 mg twice daily which should be increased to an initial therapeutic dose of 500 mg twice daily after two weeks. The dose can be further increased by 250 mg twice daily every two weeks depending upon the clinical response. The maximum dose is 1500 mg twice daily.


Add-on therapy for adults (≥18 years) and adolescents (12 to 17 years) weighing 50 kg or more


The initial therapeutic dose is 500 mg twice daily. This dose can be started on the first day of treatment.

Depending upon the clinical response and tolerability, the daily dose can be increased up to 1,500 mg twice daily. Dose changes can be made in 500 mg twice daily increases or decreases every two to four weeks.


Special populations


Elderly (65 years and older)


Adjustment of the dose is recommended in elderly patients with compromised renal function (see “Renal impairment” below).


Renal impairment


The daily dose must be individualised according to renal function.


For adult patients, refer to the following table and adjust the dose as indicated. To use this dosing table, an estimate of the patient's creatinine clearance (CLcr) in ml/min is needed. The CLcr in ml/min may be estimated from serum creatinine (mg/dl) determination, for adults and adolescents weighting 50 kg or more, the following formula:

[140-age (years)] x weight (kg)

CLcr (ml/min) = ----------------------------------------- (x 0.85 for women)

72 x serum creatinine (mg/dl)


Then CLcr is adjusted for body surface area (BSA) as follows:

CLcr (ml/min)

CLcr (ml/min/1.73 m2) = ---------------------------- x 1.73

BSA subject (m2)


Dosing adjustment for adult and adolescent patients weighing more than 50 kg with impaired renal function


Group

Creatinine clearance

(ml/min/1.73m2)

Dose and frequency


Normal

Mild

Moderate

Severe

End-stage renal disease patients undergoing dialysis (1)

> 80

50-79

30-49

< 30

-


500 to 1,500 mg twice daily

500 to 1,000 mg twice daily

250 to 750 mg twice daily

250 to 500 mg twice daily

500 to 1,000 mg once daily (2)


(1)A 750 mg loading dose is recommended on the first day of treatment with levetiracetam.

(2)Following dialysis, a 250 to 500 mg supplemental dose is recommended.


For children with renal impairment, levetiracetam dose needs to be adjusted based on the renal function as levetiracetam clearance is related to renal function. This recommendation is based on a study in adult renally impaired patients.


The CLcr in ml/min/1.73 m2may be estimated from serum creatinine (mg/dl) determination, for young adolescents, children and infants, using the following formula (Schwartz formula):


Height (cm) x ks

CLcr (ml/min/1.73 m2) = -------------------------------------------

Serum Creatinine (mg/dl)

ks= 0.45 in Term infants to 1 year old; ks= 0.55 in Children to less than 13 years and in adolescent female; ks= 0.7 in adolescent male


Dosing adjustment for infants , children and adolescent patients weighing less than 50 kg with impaired renal function


Group


Creatinine clearance

(ml/min/1.73m2)


Dose and frequency(1)


Infants 1 to less than 6 months

Infants 6 to 23 months, children and adolescents weighing less than 50 kg

Normal

> 80

7 to 21 mg/kg twice daily

10 to 30 mg/kg twice daily

Mild

50-79

7 to 14 mg/kg twice daily

10 to 20 mg/kg twice daily

Moderate

30-49

3.5 to 10.5 mg/kg twice daily

5 to 15 mg/kg twice daily

Severe

<30

3.5 to 7 mg/kg twice daily

5 to 10 mg/kg twice daily

End-stage renal disease patients undergoing dialysis

--

7 to 14 mg/kg once daily (2) (4)

10 to 20 mg/kg once daily (3) (5)

(1)An oral solution should be used for doses under 250 mg and for patients unable to swallow tablets

(2)A 10.5 mg/kg loading dose is recommended on the first day of treatment with levetiracetam.

(3)A 15 mg/kg loading dose is recommended on the first day of treatment with levetiracetam.

(4)Following dialysis, a 3.5 to 7 mg/kg supplemental dose is recommended.

(5)Following dialysis, a 5 to 10 mg/kg supplemental dose is recommended.


Hepatic impairment


No dose adjustment is needed in patients with mild to moderate hepatic impairment. In patients with severe hepatic impairment, the creatinine clearance may underestimate the renal insufficiency.

Therefore a 50 % reduction of the daily maintenance dose is recommended when the creatinine

clearance is < 60 ml/min/1.73m2.


Paediatric population


The physician should prescribe the most appropriate pharmaceutical form, presentation and strength

according to age, weight and dose.


The tablet formulation is not adapted for use in infants and children under the age of 6 years. The oral solution is the preferred formulation for use in this population. In addition, the available dose strengths of the tablets are not appropriate for initial treatment in children weighing less than 25 kg, for patients unable to swallow tablets or for the administration of doses below 250 mg. In all of the above cases an oral solution should be used.


Monotherapy


The safety and efficacy of Levetiracetam Krka in children and adolescents below 16 years as monotherapy

treatment have not been established.

There are no data available.


Add-on therapy for infants aged from 6 to 23 months, children (2 to 11 years) and adolescents (12 to

17 years) weighing less than 50 kg


The oral solution is the preferred formulation for use in infants and children under the age of 6 years.

The initial therapeutic dose is 10 mg/kg twice daily.

Depending upon the clinical response and tolerability, the dose can be increased up to 30 mg/kg twice

daily. Dose changes should not exceed increases or decreases of 10 mg/kg twice daily every two

weeks. The lowest effective dose should be used.

Dose in children 50 kg or greater is the same as in adults.


Dose recommendations for infants from 6 months of age, children and adolescents


Weight

Starting dose:

10 mg/kg twice daily

Maximum dose:

30 mg/kg twice daily

6 kg(1)

60 mg twice daily

180 mg twice daily

10 kg(1)

100 mg twice daily

300 mg twice daily

15 kg(1)

150 mg twice daily

450 mg twice daily

20 kg(1)

200 mg twice daily

600 mg twice daily

25 kg

250 mg twice daily

750 mg twice daily

From 50 kg(2)

500 mg twice daily

1,500 mg twice daily

Children 25 kg or less should preferably start the treatment with an oral solution.

Dose in children and adolescents 50 kg or more is the same as in adults.


Add-on therapy for infants aged from 1 month to less than 6 months


An oral solution is the formulation to use in infants.


Method of administration

The film-coated tablets must be taken orally, swallowed with a sufficient quantity of liquid and may

be taken with or without food. The daily dose is administered in two equally divided doses.


4.3 Contraindications


Hypersensitivity to the active substance or other pyrrolidone derivatives or to any of the excipients listed in section 6.1.


4.4 Special warnings and precautions for use


Discontinuation

In accordance with current clinical practice, if Levetiracetam Krka has to be discontinued it is recommended to withdraw it gradually (e.g. in adults and adolescents weighing more than 50 kg: 500 mg decreases twice daily every two to four weeks; in infants older than 6 months, children and adolescents weighting less than 50 kg: dose decrease should not exceed 10 mg/kg twice daily every two weeks; in infants (less than 6 months): dose decrease should not exceed 7 mg/kg twice daily every two weeks).


Renal insufficiency

The administration of levetiracetam to patients with renal impairment may require dose adjustment. In patients with severely impaired hepatic function, assessment of renal function is recommended before dose selection (see section 4.2).


Suicide

Suicide, suicide attempt, suicidal ideation and behaviour have been reported in patients treated with anti-epileptic agents (including levetiracetam). A meta-analysis of randomized placebo-controlled trials of anti-epileptic medicinal products has shown a small increased risk of suicidal thoughts and behaviour. The mechanism of this risk is not known.


Therefore, patients should be monitored for signs of depression and/or suicidal ideation and behaviours and appropriate treatment should be considered. Patients (and caregivers of patients) should be advised to seek medical advice should signs of depression and/or suicidal ideation or behaviour emerge.


Paediatric population

The tablet formulation is not adapted for use in infants and children under the age of 6 years.


Available data in children did not suggest impact on growth and puberty. However, long term effects on learning, intelligence, growth, endocrine function, puberty and childbearing potential in children remain unknown.


The safety and efficacy of levetiracetam has not been thoroughly assessed in infants with epilepsy aged less than 1 year. Only 35 infants aged less than 1 year with partial onset seizures have been exposed in clinical studies of which only 13 were aged < 6 months.


4.5 Interaction with other medicinal products and other forms of interaction


Antiepileptic medicinal products

Pre-marketing data from clinical studies conducted in adults indicate that levetiracetam did not influence the serum concentrations of existing antiepileptic medicinal products (phenytoin, carbamazepine, valproic acid, phenobarbital, lamotrigine, gabapentin and primidone) and that these antiepileptic medicinal products did not influence the pharmacokinetics of levetiracetam.


As in adults, there is no evidence of clinically significant medicinal product interactions in paediatric patients receiving up to 60 mg/kg/day levetiracetam.

A retrospective assessment of pharmacokinetic interactions in children and adolescents with epilepsy (4 to 17 years) confirmed that adjunctive therapy with orally administered levetiracetam did not influence the steady-state serum concentrations of concomitantly administered carbamazepine and valproate. However, data suggested a 20% higher levetiracetam clearance in children taking enzymeinducing antiepileptic medicinal products. Dose adjustment is not required.


Probenecid

Probenecid (500 mg four times daily), a renal tubular secretion blocking agent, has been shown to

inhibit the renal clearance of the primary metabolite but not of levetiracetam. Nevertheless, the

concentration of this metabolite remains low. It is expected that other medicinal products excreted by active tubular secretion could also reduce the renal clearance of the metabolite. The effect of

levetiracetam on probenecid was not studied and the effect of levetiracetam on other actively secreted medicinal products, e.g. NSAIDs, sulfonamides and methotrexate, is unknown.


Oral contraceptives and other pharmacokinetics interactions

Levetiracetam 1,000 mg daily did not influence the pharmacokinetics of oral contraceptives (ethinylestradiol and levonorgestrel); endocrine parameters (luteinizing hormone and progesterone) were not modified. Levetiracetam 2,000 mg daily did not influence the pharmacokinetics of digoxin and warfarin; prothrombin times were not modified. Co-administration with digoxin, oral contraceptives and warfarin did not influence the pharmacokinetics of levetiracetam.


Antacids

No data on the influence of antacids on the absorption of levetiracetam are available.


Laxatives

There have been isolated reports of decreased levetiracetam efficacy when the osmotic laxative macrogol has been concomitantly administered with oral levetiracetam. Therefore, macrogol should not be taken orally for one hour before and for one hour after taking levetiracetam.


Food and alcohol

The extent of absorption of levetiracetam was not altered by food, but the rate of absorption was

slightly reduced.

No data on the interaction of levetiracetam with alcohol are available.


4.6 Fertility, pregnancy and lactation


Pregnancy

Postmarketing data from several prospective pregnancy registries have documented outcomes in over 1000 women exposed to levetiracetam monotherapy during the first trimester of pregnancy. Overall, these data do not suggest a substantial increase in the risk for major congenital malformations, although a teratogenic risk cannot be completely excluded. Therapy with multiple antiepileptic medicinal products is associated with a higher risk of congenital malformations than monotherapy and therefore monotherapy should be considered. Studies in animals have shown reproductive toxicity (see section 5.3).

Levetiracetam Krka is not recommended during pregnancy and in women of childbearing potential not using contraception unless clinically necessary.

As with other antiepileptic medicinal products, physiological changes during pregnancy may affect levetiracetam concentration. Decrease in levetiracetam plasma concentrations has been observed during pregnancy.

This decrease is more pronounced during the third trimester (up to 60% of baseline concentration

before pregnancy). Appropriate clinical management of pregnant women treated with levetiracetam should be ensured. Discontinuation of antiepileptic treatments may result in exacerbation of the disease which could be harmful to the mother and the foetus.


Breastfeeding

Levetiracetam is excreted in human breast milk. Therefore, breast-feeding is not recommended.

However, if levetiracetam treatment is needed during breastfeeding, the benefit/risk of the treatment should be weighed considering the importance of breastfeeding.


Fertility

No impact on fertility was detected in animal studies (see section 5.3). No clinical data are available,

potential risk for human is unknown.


4.7 Effects on ability to drive and use machines


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

Due to possible different individual sensitivity, some patients might experience somnolence or other central nervous system related symptoms, especially at the beginning of treatment or following a dose increase. Therefore, caution is recommended in those patients when performing skilled tasks, e.g. driving vehicles or operating machinery. Patients are advised not to drive or use machines until it is established that their ability to perform such activities is not affected.


4.8 Undesirable effects


Summary of the safety profile

The adverse event profile presented below is based on the analysis of pooled placebo-controlled clinical trials with all indications studied, with a total of 3,416 patients treated with levetiracetam. These data are supplemented with the use of levetiracetam in corresponding open-label extension studies, as well as post-marketing experience. The most frequently reported adverse reactions were nasopharyngitis, somnolence, headache, fatigue and dizziness. The safety profile of levetiracetam is generally similar across age groups (adult and paediatric patients) and across the approved epilepsy indications.


Tabulated list of adverse reactions


Adverse reactions reported in clinical studies (adults, adolescents, children and infants > 1 month) and from post-marketing experience are listed in the following table per System Organ Class and per frequency. The frequency is defined as follows: 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) and very rare (<1/10,000)


MedDRA SOC

Frequency category

Very common

Common

Uncommon

Rare

Infections and infestations

Nasopharyngitis



Infection

Blood and lymphatic system disorders



Thrombocytopenia, leukopenia

Pancytopenia, neutropenia,

agranulocytosis

Immune system disorders




Drug reaction with eosinophilia and systemic symptoms (DRESS)

Metabolism and nutrition disorders


Anorexia

Weight decreased, weight increase

Hyponatraemia

Psychiatric disorders


Depression, hostility, aggression, anxiety, insomnia, nervousness/ irritability

Suicide attempt, suicidal ideation, psychotic disorder, abnormal behaviour, hallucination, anger, confusional state, panic attack, affect lability/mood swings, agitation

Completed suicide, personality disorder, thinking abnormal

Nervous system disorders

Somnolence, headache

Convulsion, balance disorder, dizziness, lethargy, tremor

Amnesia, memory impairment, coordination abnormal/ataxia, paraesthesia, disturbance in attention

Choreoathetosis, dyskinesia, hyperkinesia

Eye disorders



Diplopia, vision blurred


Ear and labyrinth disorders


Vertigo



Respiratory, thoracic and mediastinal disorders


Cough



Gastrointestinal disorders


Abdominal pain, diarrhoea, dyspepsia, vomiting, nausea


Pancreatitis

Hepatobiliary disorders



Liver function test abnormal

Hepatic failure, hepatitis

Skin and subcutaneous tissue disorders


Rash

Alopecia, eczema, pruritus

Toxic epidermal necrolysis, Stevens-Johnson syndrome, erythema multiforme

Musculoskeletal and connective tissue disorders



Muscular weakness, myalgia


General disorders and administration site conditions


Asthenia, fatigue



Injury, poisoning and procedural complications



Injury



Description of selected adverse reactions


The risk of anorexia is higher when topiramate is coadministered with levetiracetam.

In several cases of alopecia, recovery was observed when levetiracetam was discontinued.

Bone marrow suppression was identified in some of the cases of pancytopenia.


Paediatric population


In patients aged 1 month to less than 4 years, a total of 190 patients have been treated with levetiracetam in placebo-controlled and open label extension studies. Sixty (60) of these patients were treated with levetiracetam in placebo-controlled studies. In patients aged 4-16 years, a total of 645 patients have been treated with levetiracetam in placebo-controlled and open label extension studies. 233 of these patients were treated with levetiracetam in placebo-controlled studies. In both these paediatric age ranges, these data are supplemented with the post-marketing experience of the use of levetiracetam.


The adverse event profile of levetiracetam is generally similar across age groups and across the approved epilepsy indications. Safety results in paediatric patients in placebo-controlled clinical studies were consistent with the safety profile of levetiracetam in adults except for behavioural and psychiatric adverse reactions which were more common in children than in adults. In children and adolescents aged 4 to 16 years, vomiting (very common, 11.2%), agitation (common, 3.4%), mood swings (common, 2.1%), affect lability (common, 1.7%), aggression (common, 8.2%), abnormal behaviour (common, 5.6%), and lethargy (common, 3.9%) were reported more frequently than in other age ranges or in the overall safety profile. In infants and children aged 1 month to less than 4 years, irritability (very common, 11.7%) and coordination abnormal (common, 3.3%) were reported more frequently than in other age groups or in the overall safety profile.


A double-blind, placebo-controlled paediatric safety study with a non-inferiority design has assessed the cognitive and neuropsychological effects of levetiracetam in children 4 to 16 years of age with partial onset seizures. It was concluded that levetiracetam was not different (non inferior) from placebo with regard to the change from baseline of the Leiter-R Attention and Memory, Memory Screen Composite score in the per-protocol population. Results related to behavioral and emotional functioning indicated a worsening in levetiracetam treated patients on aggressive behavior as measured in a standardised and systematic way using a validated instrument (CBCL – Achenbach Child Behavior Checklist). However subjects, who took levetiracetam in the long-term open label follow-up study, did not experience a worsening, on average, in their behavioral and emotional functioning; in particular measures of aggressive behavior were not worse than baseline.


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 national reporting system listed in Appendix V*.


4.9 Overdose


Symptoms

Somnolence, agitation, aggression, depressed level of consciousness, respiratory depression and coma were observed with levetiracetam overdoses.


Management of overdose

After an acute overdose, the stomach may be emptied by gastric lavage or by induction of emesis.

There is no specific antidote for levetiracetam. Treatment of an overdose will be symptomatic and may include haemodialysis. The dialyser extraction efficiency is 60 % for levetiracetam and 74 % for the primary metabolite.


5. PHARMACOLOGICAL PROPERTIES


5.1 Pharmacodynamic properties


Pharmacotherapeutic group: antiepileptics, other antiepileptics, ATC code: N03AX14.


The active substance, levetiracetam, is a pyrrolidone derivative (S-enantiomer of α-ethyl-2-oxo-1-

pyrrolidine acetamide), chemically unrelated to existing antiepileptic active substances.


Mechanism of action


The mechanism of action of levetiracetam still remains to be fully elucidated but appears to be

different from the mechanisms of current antiepileptic medicinal products. In vitro and in vivo

experiments suggest that levetiracetam does not alter basic cell characteristics and normal

neurotransmission.

In vitro studies show that levetiracetam affects intraneuronal Ca2+ levels by partial inhibition of N-type Ca2+ currents and by reducing the release of Ca2+ from intraneuronal stores. In addition it

partially reverses the reductions in GABA- and glycine-gated currents induced by zinc and β-

carbolines. Furthermore, levetiracetam has been shown in in vitro studies to bind to a specific site in rodent brain tissue. This binding site is the synaptic vesicle protein 2A, believed to be involved in

vesicle fusion and neurotransmitter exocytosis. Levetiracetam and related analogs show a rank order of affinity for binding to the synaptic vesicle protein 2A which correlates with the potency of their anti-seizure protection in the mouse audiogenic model of epilepsy. This finding suggests that the interaction between levetiracetam and the synaptic vesicle protein 2A seems to contribute to the antiepileptic mechanism of action of the medicinal product.


Pharmacodynamic effects


Levetiracetam induces seizure protection in a broad range of animal models of partial and primary

generalised seizures without having a pro-convulsant effect. The primary metabolite is inactive.

In man, an activity in both partial and generalised epilepsy conditions (epileptiform discharge/photoparoxysmal response) has confirmed the broad spectrum pharmacological profile of levetiracetam.


Clinical efficacy and safety


Adjunctive therapy in the treatment of partial onset seizures with or without secondary generalisation

in adults, adolescents, children and infants from 1 month of age with epilepsy.


In adults, levetiracetam efficacy has been demonstrated in 3 double-blind, placebo-controlled studies at 1000 mg, 2000 mg, or 3000 mg/day, given in 2 divided doses, with a treatment duration of up to 18 weeks. In a pooled analysis, the percentage of patients who achieved 50% or greater reduction from baseline in the partial onset seizure frequency per week at stable dose (12/14 weeks) was of 27.7%, 31.6% and 41.3% for patients on 1000, 2000 or 3000 mg levetiracetam respectively and of 12.6% for patients on placebo.


Paediatric population


In paediatric patients (4 to 16 years of age), levetiracetam efficacy was established in a double-blind, placebo-controlled study, which included 198 patients and had a treatment duration of 14 weeks. In this study, the patients received levetiracetam as a fixed dose of 60 mg/kg/day (with twice a day dosing).

44.6% of the levetiracetam treated patients and 19.6% of the patients on placebo had a 50% or greater reduction from baseline in the partial onset seizure frequency per week. With continued long-term treatment, 11.4% of the patients were seizure-free for at least 6 months and 7.2% were seizure-free for at least 1 year.


In paediatric patients (1 month to less than 4 years of age), levetiracetam efficacy was established in a double-blind, placebo-controlled study, which included 116 patients and had a treatment duration of 5 days. In this study, patients were prescribed 20 mg/kg, 25 mg/kg, 40 mg/kg or 50 mg/kg daily dose of oral solution based on their age titration schedule. A dose of 20 mg/kg/day titrating to 40 mg/kg/day for infants one month to less than six months and a dose of 25 mg/kg/day titrating to 50 mg/kg/day for infants and children 6 months to less than 4 years old, was use in this study. The total daily dose was administered b.i.d.

The primary measure of effectiveness was the responder rate (percent of patients with ≥ 50% reduction from baseline in average daily partial onset seizure frequency) assessed by a blinded central reader using a 48-hour video EEG. The efficacy analysis consisted of 109 patients who had at least 24 hours of video EEG in both baseline and evaluation periods. 43.6% of the levetiracetam treated patients and 19.6% of the patients on placebo were considered as responders. The results are consistent across age group. With continued long-term treatment, 8.6% of the patients were seizure-free for at least 6 months and 7.8% were seizure-free for at least 1 year.


Monotherapy in the treatment of partial onset seizures with or without secondary generalisation in

patients from 16 years of age with newly diagnosed epilepsy.


Efficacy of levetiracetam as monotherapy was established in a double-blind, parallel group, non-inferiority comparison to carbamazepine controlled release (CR) in 576 patients 16 years of age or older with newly or recently diagnosed epilepsy. The patients had to present with unprovoked partial seizures or with generalized tonic-clonic seizures only. The patients were randomized to carbamazepine CR 400 – 1200 mg/day or levetiracetam 1000 - 3000 mg/day, the duration of the treatment was up to 121 weeks depending on the response.

Six-month seizure freedom was achieved in 73.0% of levetiracetam-treated patients and 72.8% of

carbamazepine-CR treated patients; the adjusted absolute difference between treatments was 0.2%

(95% CI: -7.8 8.2). More than half of the subjects remained seizure free for 12 months (56.6% and

58.5% of subjects on levetiracetam and on carbamazepine CR respectively).


In a study reflecting clinical practice, the concomitant antiepileptic medication could be withdrawn in a limited number of patients who responded to levetiracetam adjunctive therapy (36 adult patients out of 69).


Adjunctive therapy in the treatment of myoclonic seizures in adults and adolescents from 12 years of

age with Juvenile Myoclonic Epilepsy.


Levetiracetam efficacy was established in a double-blind, placebo-controlled study of 16 weeks

duration, in patients 12 years of age and older suffering from idiopathic generalized epilepsy with

myoclonic seizures in different syndromes. The majority of patients presented with juvenile myoclonic epilepsy.

In this study, levetiracetam, dose was 3000 mg/day given in 2 divided doses.

58.3% of the levetiracetam treated patients and 23.3% of the patients on placebo had at least a 50% reduction in myoclonic seizure days per week. With continued long-term treatment, 28.6% of the patients were free of myoclonic seizures for at least 6 months and 21.0% were free of myoclonic seizures for at least 1 year.


Adjunctive therapy in the treatment of primary generalised tonic-clonic seizures in adults and

adolescents from 12 years of age with idiopathic generalised epilepsy.


Levetiracetam efficacy was established in a 24-week double-blind, placebo-controlled study which

included adults, adolescents and a limited number of children suffering from idiopathic generalized

epilepsy with primary generalized tonic-clonic (PGTC) seizures in different syndromes (juvenile

myoclonic epilepsy, juvenile absence epilepsy, childhood absence epilepsy, or epilepsy with Grand

Mal seizures on awakening). In this study, levetiracetam dose was 3000 mg/day for adults and

adolescents or 60 mg/kg/day for children, given in 2 divided doses.

72.2% of the levetiracetam treated patients and 45.2% of the patients on placebo had a 50% or greater decrease in the frequency of PGTC seizures per week. With continued long-term treatment, 47.4% of the patients were free of tonic-clonic seizures for at least 6 months and 31.5% were free of tonic-clonic seizures for at least 1 year.


5.2 Pharmacokinetic properties


Levetiracetam is a highly soluble and permeable compound. The pharmacokinetic profile is linear with low intra- and inter-subject variability. There is no modification of the clearance after repeated administration. There is no evidence for any relevant gender, race or circadian variability. The pharmacokinetic profile is comparable in healthy volunteers and in patients with epilepsy.


Due to its complete and linear absorption, plasma levels can be predicted from the oral dose of

levetiracetam expressed as mg/kg bodyweight. Therefore there is no need for plasma level monitoring of levetiracetam.


A significant correlation between saliva and plasma concentrations has been shown in adults and

children (ratio of saliva/plasma concentrations ranged from 1 to 1.7 for oral tablet formulation and

after 4 hours post-dose for oral solution formulation).


Adults and adolescents


Absorption


Levetiracetam is rapidly absorbed after oral administration. Oral absolute bioavailability is close to

100 %.

Peak plasma concentrations (Cmax) are achieved at 1.3 hours after dosing. Steady-state is achieved after two days of a twice daily administration schedule.

Peak concentrations (Cmax) are typically 31 and 43 μg/ml following a single 1,000 mg dose and

repeated 1,000 mg twice daily dose, respectively.

The extent of absorption is dose-independent and is not altered by food.


Distribution


No tissue distribution data are available in humans.

Neither levetiracetam nor its primary metabolite are significantly bound to plasma proteins (< 10 %).

The volume of distribution of levetiracetam is approximately 0.5 to 0.7 l/kg, a value close to the total body water volume.


Biotransformation


Levetiracetam is not extensively metabolised in humans. The major metabolic pathway (24 % of the dose) is an enzymatic hydrolysis of the acetamide group. Production of the primary metabolite,

ucb L057, is not supported by liver cytochrome P450 isoforms. Hydrolysis of the acetamide group was measurable in a large number of tissues including blood cells. The metabolite ucb L057 is

pharmacologically inactive.


Two minor metabolites were also identified. One was obtained by hydroxylation of the pyrrolidone

ring (1.6 % of the dose) and the other one by opening of the pyrrolidone ring (0.9 % of the dose).

Other unidentified components accounted only for 0.6 % of the dose.


No enantiomeric interconversion was evidenced in vivo for either levetiracetam or its primary

metabolite.


In vitro, levetiracetam and its primary metabolite have been shown not to inhibit the major human

liver cytochrome P450 isoforms (CYP3A4, 2A6, 2C9, 2C19, 2D6, 2E1 and 1A2), glucuronyl

transferase (UGT1A1 AND UGT1A6]) and epoxide hydroxylase activities. In addition, levetiracetam

does not affect the in vitro glucuronidation of valproic acid.

In human hepatocytes in culture, levetiracetam had little or no effect on CYP1A2, SULT1E1 or

UGT1A1. Levetiracetam caused mild induction of CYP2B6 and CYP3A4. The in vitro data and in

vivo interaction data on oral contraceptives, digoxin and warfarin indicate that no significant enzyme induction is expected in vivo. Therefore, the interaction of levetiracetam with other substances, or vice versa, is unlikely.


Elimination


The plasma half-life in adults was 7±1 hours and did not vary either with dose, route of administration or repeated administration. The mean total body clearance was 0.96 ml/min/kg.


The major route of excretion was via urine, accounting for a mean 95 % of the dose (approximately 93 % of the dose was excreted within 48 hours). Excretion via faeces accounted for only 0.3 % of the dose.

The cumulative urinary excretion of levetiracetam and its primary metabolite accounted for 66 % and 24 % of the dose, respectively during the first 48 hours.

The renal clearance of levetiracetam and ucb L057 is 0.6 and 4.2 ml/min/kg respectively indicating

that levetiracetam is excreted by glomerular filtration with subsequent tubular reabsorption and that the primary metabolite is also excreted by active tubular secretion in addition to glomerular filtration. Levetiracetam elimination is correlated to creatinine clearance.


Elderly


In the elderly, the half-life is increased by about 40 % (10 to 11 hours). This is related to the decrease in renal function in this population (see section 4.2).


Renal impairment


The apparent body clearance of both levetiracetam and of its primary metabolite is correlated to the creatinine clearance. It is therefore recommended to adjust the maintenance daily dose of Levetiracetam Krka, based on creatinine clearance in patients with moderate and severe renal impairment (see section 4.2).


In anuric end-stage renal disease adult subjects the half-life was approximately 25 and 3.1 hours

during interdialytic and intradialytic periods, respectively.

The fractional removal of levetiracetam was 51 % during a typical 4-hour dialysis session.


Hepatic impairment


In subjects with mild and moderate hepatic impairment, there was no relevant modification of the

clearance of levetiracetam. In most subjects with severe hepatic impairment, the clearance of

levetiracetam was reduced by more than 50 % due to a concomitant renal impairment (see section 4.2).


Paediatric population


Children (4 to 12 years)


Following single oral dose administration (20 mg/kg) to epileptic children (6 to 12 years), the half-life of levetiracetam was 6.0 hours. The apparent body weight adjusted clearance was approximately 30 % higher than in epileptic adults.


Following repeated oral dose administration (20 to 60 mg/kg/day) to epileptic children (4 to 12 years), levetiracetam was rapidly absorbed. Peak plasma concentration was observed 0.5 to 1.0 hour after dosing. Linear and dose proportional increases were observed for peak plasma concentrations and area under the curve. The elimination half-life was approximately 5 hours. The apparent body clearance was 1.1 ml/min/kg.


Infants and children (1 month to 4 years)


Following single dose administration (20 mg/kg) of a 100 mg/ml oral solution to epileptic children

(1 month to 4 years), levetiracetam was rapidly absorbed and peak plasma concentrations were

observed approximately 1 hour after dosing. The pharmacokinetic results indicated that half-life was shorter (5.3 h) than for adults (7.2 h) and apparent clearance was faster (1.5 ml/min/kg) than for adults (0.96 ml/min/kg).


In the population pharmacokinetic analysis conducted in patients from 1 month to 16 years of age,

body weight was significantly correlated to apparent clearance (clearance increased with an increase in body weight) and apparent volume of distribution. Age also had an influence on both parameters. This effect was pronounced for the younger infants, and subsided as age increased, to become negligible around 4 years of age.


In both population pharmacokinetic analyses, there was about a 20% increase of apparent clearance of levetiracetam when it was co-administered with an enzyme-inducing AED.


5.3 Preclinical safety data


Non-clinical data reveal no special hazard for humans based on conventional studies of safety

pharmacology, genotoxicity and carcinogenicity.

Adverse effects not observed in clinical studies but seen in the rat and to a lesser extent in the mouse at exposure levels similar to human exposure levels and with possible relevance for clinical use were liver changes, indicating an adaptive response such as increased weight and centrilobular hypertrophy, fatty infiltration and increased liver enzymes in plasma.


No adverse effects on male or female fertility or reproduction performance were observed in rats at doses up to 1800 mg/kg/day (x 6 the MRHD on a mg/m2or exposure basis) in parents and F1 generation.


Two embryo-fetal development (EFD) studies were performed in rats at 400, 1200 and 3600 mg/kg/day. At 3600 mg/kg/day, in only one of the 2 EFD studies, there was a slight decrease in

fetal weight associated with a marginal increase in skeletal variations/minor anomalies. There was no effect on embryomortality and no increased incidence of malformations. The NOAEL (No Observed Adverse Effect Level) was 3600 mg/kg/day for pregnant female rats (x 12 the MRHD on a mg/m2 basis) and 1200 mg/kg/day for fetuses.


Four embryo-fetal development studies were performed in rabbits covering doses of 200, 600, 800,

1200 and 1800 mg/kg/day. The dose level of 1800 mg/kg/day induced a marked maternal toxicity and a decrease in fetal weight associated with increased incidence of fetuses with cardiovascular/skeletal anomalies. The NOAEL was <200 mg/kg/day for the dams and 200 mg/kg/day for the fetuses (equal to the MRHD on a mg/m2basis).

A peri- and post-natal development study was performed in rats with levetiracetam doses of 70, 350 and 1800 mg/kg/day. The NOAEL was ≥ 1800 mg/kg/day for the F0 females, and for the survival, growth and development of the F1 offspring up to weaning (x 6 the MRHD on a mg/m2basis).


Neonatal and juvenile animal studies in rats and dogs demonstrated that there were no adverse effects seen in any of the standard developmental or maturation endpoints at doses up to 1800 mg/kg/day (x 6 – 17 the MRHD on a mg/m2basis).


Environmental Risk Assessment (ERA)

The use of Levetiracetam Krka in accordance with the product information is not likely to result in an unacceptable environmental impact (see section 6.6).


6. PHARMACEUTICAL PARTICULARS


6.1 List of excipients


Core:

Maize starch

Colloidal anhydrous silica

Copovidone

Crospovidone

Magnesium stearate


Coating:

Hypromellose

Talc

Titanium dioxide (E 171)

Macrogol

Red iron oxide (E 172)


6.2 Incompatibilities


Not applicable.


6.3 Shelf life


5 years.


6.4 Special precautions for storage


Store below 25C.


6.5 Nature and contents of container


Levetiracetam Krka 750 mg film-coated tablets are packaged in PVC/PVDC-aluminium blisters placed into cardboard boxes containing 10, 30, 50, 60, 100, 200 film-coated tablets.


Not all pack sizes may be marketed.


6.6 Special precautions for disposal and other handling


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


7. MARKETING AUTHORISATION HOLDER


<to be completed nationally>


8. MARKETING AUTHORISATION NUMBER(S)


9. DATE OF FIRST AUTHORISATION/RENEWAL OF THE AUTHORISATION


9 June 2011


10. DATE OF REVISION OF THE TEXT


17 October 2014


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