Friday, 6 July 2012

Mirapexin 0.18 mg tablets





1. Name Of The Medicinal Product



MIRAPEXIN 0.18 mg tablets


2. Qualitative And Quantitative Composition



Each tablet contains 0.25 mg pramipexole dihydrochloride monohydrate equivalent to 0.18 mg pramipexole.



Please note:



Pramipexole doses as published in the literature refer to the salt form.



Therefore, doses will be expressed in terms of both pramipexole base and pramipexole salt (in brackets).



For a full list of excipients, see section 6.1.



3. Pharmaceutical Form



Tablet.



The tablets are white, flat, of oval shape, scored on both sides, and have a code embossed (one side with the code P7, and one side with the Boehringer Ingelheim company symbol).



Tablets can be divided into equal halves.



4. Clinical Particulars



4.1 Therapeutic Indications



MIRAPEXIN is indicated in adults for treatment of the signs and symptoms of idiopathic Parkinson's disease, alone (without levodopa) or in combination with levodopa, i.e. over the course of the disease, through to late stages when the effect of levodopa wears off or becomes inconsistent and fluctuations of the therapeutic effect occur (end of dose or “on off” fluctuations).



MIRAPEXIN is indicated in adults for symptomatic treatment of moderate to severe idiopathic Restless Legs Syndrome in doses up to 0.54 mg of base (0.75 mg of salt) (see section 4.2).



4.2 Posology And Method Of Administration



Posology



Parkinson's disease



The daily dose is administered in equally divided doses 3 times a day.



Initial treatment



Doses should be increased gradually from a starting dose of 0.264 mg of base (0.375 mg of salt) per day and then increased every 5-7 days. Providing patients do not experience intolerable undesirable effects, the dose should be titrated to achieve a maximal therapeutic effect.





























Ascending dose schedule of MIRAPEXIN


    


Week




Dose



(mg of base)




Total Daily Dose



(mg of base)




Dose



(mg of salt)




Total Daily Dose



(mg of salt)




1




3 x 0.088




0.264




3 x 0.125




0.375




2




3 x 0.18




0.54




3 x 0.25




0.75




3




3 x 0.35




1.1




3 x 0.5




1.50



If a further dose increase is necessary the daily dose should be increased by 0.54 mg of base (0.75 mg of salt) at weekly intervals up to a maximum dose of 3.3 mg of base (4.5 mg of salt) per day. However, it should be noted that the incidence of somnolence is increased at doses higher than 1.5 mg (of salt) per day (see section 4.8).



Maintenance treatment



The individual dose of pramipexole should be in the range of 0.264 mg of base (0.375 mg of salt) to a maximum of 3.3 mg of base (4.5 mg of salt) per day. During dose escalation in pivotal studies, efficacy was observed starting at a daily dose of 1.1 mg of base (1.5 mg of salt). Further dose adjustments should be done based on the clinical response and the occurrence of adverse reactions. In clinical trials approximately 5% of patients were treated at doses below 1.1 mg of base (1.5 mg of salt). In advanced Parkinson's disease, pramipexole doses higher than 1.1 mg of base (1.5 mg of salt) per day can be useful in patients where a reduction of the levodopa therapy is intended. It is recommended that the dose of levodopa is reduced during both the dose escalation and the maintenance treatment with MIRAPEXIN, depending on reactions in individual patients (see section 4.5).



Treatment discontinuation



Abrupt discontinuation of dopaminergic therapy can lead to the development of a neuroleptic malignant syndrome. Pramipexole should be tapered off at a rate of 0.54 mg of base (0.75 mg of salt) per day until the daily dose has been reduced to 0.54 mg of base (0.75 mg of salt). Thereafter the dose should be reduced by 0.264 mg of base (0.375 mg of salt) per day (see section 4.4).



Dosing in patients with renal impairment



The elimination of pramipexole is dependent on renal function. The following dose schedule is suggested for initiation of therapy:



Patients with a creatinine clearance above 50 ml/min require no reduction in daily dose or dosing frequency.



In patients with a creatinine clearance between 20 and 50 ml/min, the initial daily dose of MIRAPEXIN should be administered in two divided doses, starting at 0.088 mg of base (0.125 mg of salt) twice a day (0.176 mg of base/0.25 mg of salt daily). A maximum daily dose of 1.57 mg pramipexole base (2.25 mg of salt) should not be exceeded.



In patients with a creatinine clearance less than 20 ml/min, the daily dose of MIRAPEXIN should be administered in a single dose, starting at 0.088 mg of base (0.125 mg of salt) daily. A maximum daily dose of 1.1 mg pramipexole base (1.5 mg of salt) should not be exceeded.



If renal function declines during maintenance therapy the MIRAPEXIN daily dose should be reduced by the same percentage as the decline in creatinine clearance, i.e. if creatinine clearance declines by 30%, then the MIRAPEXIN daily dose should be reduced by 30%. The daily dose can be administered in two divided doses if creatinine clearance is between 20 and 50 ml/min and as a single daily dose if creatinine clearance is less than 20 ml/min.



Dosing in patients with hepatic impairment



Dose adjustment in patients with hepatic failure is probably not necessary, as approx. 90% of absorbed active substance is excreted through the kidneys. However, the potential influence of hepatic insufficiency on MIRAPEXIN pharmacokinetics has not been investigated.



Paediatric population



The safety and efficacy of MIRAPEXIN in children below 18 years has not been established. There is no relevant use of MIRAPEXIN in the paediatric population in Parkinson's Disease.



Restless Legs Syndrome



The recommended starting dose of MIRAPEXIN is 0.088 mg of base (0.125 mg of salt) taken once daily 2-3 hours before bedtime. For patients requiring additional symptomatic relief, the dose may be increased every 4-7 days to a maximum of 0.54 mg of base (0.75 mg of salt) per day (as shown in the table below).

























Dose Schedule of MIRAPEXIN


  


Titration Step




Once Daily Evening Dose



(mg of base)




Once Daily Evening Dose



(mg of salt)




1




0.088




0.125




2*




0.18




0.25




3*




0.35




0.50




4*




0.54




0.75




* if needed


  


Patient's response should be evaluated after 3 months treatment and the need for treatment continuation should be reconsidered. If treatment is interrupted for more than a few days it should be re-initiated by dose titration carried out as above.



Treatment discontinuation



Since the daily dose for the treatment of Restless Legs Syndrome will not exceed 0.54 mg of base (0.75 mg of salt) MIRAPEXIN can be discontinued without tapering off. In a 26 week placebo controlled trial, rebound of RLS symptoms (worsening of symptom severity as compared to baseline) was observed in 10% of patients (14 out of 135) after abrupt discontinuation of treatment. This effect was found to be similar across all doses.



Dosing in patients with renal impairment



The elimination of pramipexole is dependent on renal function. Patients with a creatinine clearance above 20 ml/min require no reduction in daily dose.



The use of MIRAPEXIN has not been studied in haemodialysis patients, or in patients with severe renal impairment.



Dosing in patients with hepatic impairment



Dose adjustment in patients with hepatic failure is not required, as approx. 90% of absorbed active substance is excreted through the kidneys.



Paediatric population



MIRAPEXIN is not recommended for use in children and adolescents below 18 years due to a lack of data on safety and efficacy.



Tourette Disorder



Paediatric population



MIRAPEXIN is not recommended for use in children and adolescents below 18 years since the efficacy and safety has not been established in this population. MIRAPEXIN should not be used in children or adolescents with Tourette Disorder because of a negative benefit-risk balance for this disorder (see section 5.1).



Method of administration



The tablets should be taken orally, swallowed with water, and can be taken either with or without food.



4.3 Contraindications



Hypersensitivity to the active substance or to any of the excipients.



4.4 Special Warnings And Precautions For Use



When prescribing MIRAPEXIN in a patient with Parkinson's disease with renal impairment a reduced dose is suggested in line with section 4.2.



Hallucinations



Hallucinations are known as a side effect of treatment with dopamine agonists and levodopa. Patients should be informed that (mostly visual) hallucinations can occur.



Dyskinesia



In advanced Parkinson's disease, in combination treatment with levodopa, dyskinesia can occur during the initial titration of MIRAPEXIN. If they occur, the dose of levodopa should be decreased.



Sudden onset of sleep and somnolence



Pramipexole has been associated with somnolence and episodes of sudden sleep onset, particularly in patients with Parkinson's disease. Sudden onset of sleep during daily activities, in some cases without awareness or warning signs, has been reported uncommonly. Patients must be informed of this and advised to exercise caution while driving or operating machines during treatment with MIRAPEXIN. Patients who have experienced somnolence and/or an episode of sudden sleep onset must refrain from driving or operating machines. Furthermore a reduction of the dose or termination of therapy may be considered. Because of possible additive effects, caution should be advised when patients are taking other sedating medicinal products or alcohol in combination with pramipexole (see sections 4.5, 4.7 and section 4.8).



Impulse control disorders and compulsive behaviours



Pathological gambling, increased libido and hypersexuality have been reported in patients treated with dopamine agonists for Parkinson's disease, including MIRAPEXIN. Furthermore, patients and caregivers should be aware of the fact that other behavioural symptoms of impulse control disorders and compulsions such as binge eating and compulsive shopping can occur. Dose reduction/tapered discontinuation should be considered.



Patients with psychotic disorders



Patients with psychotic disorders should only be treated with dopamine agonists if the potential benefits outweigh the risks. Co-administration of antipsychotic medicinal products with pramipexole should be avoided (see section 4.5).



Ophthalmologic monitoring



Ophthalmologic monitoring is recommended at regular intervals or if vision abnormalities occur.



Severe cardiovascular disease



In case of severe cardiovascular disease, care should be taken. It is recommended to monitor blood pressure, especially at the beginning of treatment, due to the general risk of postural hypotension associated with dopaminergic therapy.



Neuroleptic malignant syndrome



Symptoms suggestive of neuroleptic malignant syndrome have been reported with abrupt withdrawal of dopaminergic therapy (see section 4.2).



Augmentation



Reports in the literature indicate that treatment of Restless Legs Syndrome with dopaminergic medicinal products can result in augmentation. Augmentation refers to the earlier onset of symptoms in the evening (or even the afternoon), increase in symptoms, and spread of symptoms to involve other extremities. Augmentation was specifically investigated in a controlled clinical trial over 26 weeks. Augmentation was observed in 11.8% of patients in the pramipexole group (N = 152) and 9.4% of patients in the placebo group (N = 149). Kaplan-Meier analysis of time to augmentation showed no significant difference between pramipexole and placebo groups.



4.5 Interaction With Other Medicinal Products And Other Forms Of Interaction



Plasma protein binding



Pramipexole is bound to plasma proteins to a very low (< 20%) extent, and little biotransformation is seen in man. Therefore, interactions with other medicinal products affecting plasma protein binding or elimination by biotransformation are unlikely. As anticholinergics are mainly eliminated by biotransformation, the potential for an interaction is limited, although an interaction with anticholinergics has not been investigated. There is no pharmacokinetic interaction with selegiline and levodopa.



Inhibitors/competitors of active renal elimination pathway



Cimetidine reduced the renal clearance of pramipexole by approximately 34%, presumably by inhibition of the cationic secretory transport system of the renal tubules. Therefore, medicinal products that are inhibitors of this active renal elimination pathway or are eliminated by this pathway, such as cimetidine, amantadine, mexiletine, zidovudine, cisplatin, quinine, and procainamide, may interact with pramipexole resulting in reduced clearance of pramipexole. Reduction of the pramipexole dose should be considered when these medicinal products are administered concomitantly with MIRAPEXIN.



Combination with levodopa



When MIRAPEXIN is given in combination with levodopa, it is recommended that the dose of levodopa is reduced and the dose of other anti-parkinsonian medicinal products is kept constant while increasing the dose of MIRAPEXIN.



Because of possible additive effects, caution should be advised when patients are taking other sedating medicinal products or alcohol in combination with pramipexole (see section 4.4, 4.7 and 4.8).



Antipsychotic medicinal products



Co-administration of antipsychotic medicinal products with pramipexole should be avoided (see section 4.4), e.g. if antagonistic effects can be expected.



4.6 Pregnancy And Lactation



Pregnancy



The effect on pregnancy and lactation has not been investigated in humans. Pramipexole was not teratogenic in rats and rabbits, but was embryotoxic in the rat at maternotoxic doses (see section 5.3). MIRAPEXIN should not be used during pregnancy unless clearly necessary, i.e. if the potential benefit justifies the potential risk to the foetus.



Breast-feeding



As pramipexole treatment inhibits secretion of prolactin in humans, inhibition of lactation is expected. The excretion of pramipexole into breast milk has not been studied in women. In rats, the concentration of active substance-related radioactivity was higher in breast milk than in plasma.



In the absence of human data, MIRAPEXIN should not be used during breast-feeding. However, if its use is unavoidable, breast-feeding should be discontinued.



Fertility



No studies on the effect on human fertility have been conducted. In animal studies, pramipexole affected oestrous cycles and reduced female fertility as expected for a dopamine agonist. However, these studies did not indicate direct or indirect harmful effects with respect to male fertility.



4.7 Effects On Ability To Drive And Use Machines



MIRAPEXIN can have a major influence on the ability to drive and use machines.



Hallucinations or somnolence can occur.



Patients being treated with MIRAPEXIN and presenting with somnolence and/or sudden sleep episodes must be informed to refrain from driving or engaging in activities where impaired alertness may put themselves or others at risk of serious injury or death (e.g. operating machines) until such recurrent episodes and somnolence have resolved (see also sections 4.4, 4.5 and 4.8).



4.8 Undesirable Effects



Expected adverse reactions



The following adverse reactions are expected under the use of MIRAPEXIN: abnormal dreams, amnesia, behavioural symptoms of impulse control disorders and compulsions such as binge eating, compulsive shopping, hypersexuality and pathological gambling; cardiac failure, confusion, constipation, delusion, dizziness, dyskinesia, dyspnoea, fatigue, hallucinations, headache, hiccups, hyperkinesia, hyperphagia, hypotension, insomnia, libido disorders, nausea, paranoia, peripheral oedema, pneumonia, pruritus, rash and other hypersensitivity; restlessness, somnolence, sudden onset of sleep, syncope, visual impairment including diplopia, vision blurred and visual acuity reduced, vomiting, weight decrease including decreased appetite, weight increase.



Based on the analysis of pooled placebo-controlled trials, comprising a total of 1,923 patients on pramipexole and 1,354 patients on placebo, adverse drug reactions were frequently reported for both groups. 63% of patients on pramipexole and 52% of patients on placebo reported at least one adverse drug reaction.



Tables 1 and 2 display the frequency of adverse drug reactions from placebo-controlled clinical trials in Parkinson's disease and Restless Legs Syndrome. The adverse drug reactions reported in these tables are those events that occurred in 0.1% or more of patients treated with pramipexole and were reported significantly more often in patients taking pramipexole than placebo, or where the event was considered clinically relevant. The majority of adverse drug reactions were mild to moderate, they usually start early in therapy and most tended to disappear even as therapy was continued.



Within the system organ classes, adverse reactions are listed under headings of frequency (number of patients expected to experience the reaction), using the following categories: very common (



Parkinson's disease, most common adverse reactions



The most commonly (



Table 1: Parkinson's disease




























































System Organ Class




Adverse Drug Reaction




Infections and infestations


 


Uncommon




pneumonia




Psychiatric disorders


 


Common




abnormal dreams, behavioural symptoms of impulse control disorders and compulsions, confusion, hallucinations, insomnia




Uncommon




binge eating1, compulsive shopping, delusion, hyperphagia1, hypersexuality, libido disorder, paranoia, pathological gambling, restlessness




Nervous system disorders


 


Very common




dizziness, dyskinesia, somnolence




Common




headache




Uncommon




amnesia, hyperkinesia, sudden onset of sleep, syncope




Eye disorders


 


Common




visual impairment including diplopia, vision blurred and visual acuity reduced




Cardiac disorders


 


Uncommon




cardiac failure1




Vascular disorders


 


Common




hypotension




Respiratory, thoracic, and mediastinal disorders


 


Uncommon




dyspnoea, hiccups




Gastrointestinal disorders


 


Very common




nausea




Common




constipation, vomiting




Skin and subcutaneous tissue disorders


 


Uncommon




hypersensitivity, pruritus, rash




General disorders and administration site conditions


 


Common




fatigue, peripheral oedema




Investigations


 


Common




weight decrease including decreased appetite




Uncommon




weight increase



1This side effect has been observed in post-marketing experience. With 95 % certainty, the frequency category is not greater than uncommon, but might be lower. A precise frequency estimation is not possible as the side effect did not occur in a clinical trial database of 2,762 patients with Parkinson's Disease treated with pramipexole.



Restless Legs Syndrome, most common adverse reactions



The most commonly (



Table 2: Restless Legs Syndrome


























































System Organ Class




Adverse Drug Reaction




Infections and infestations


 


Uncommon




Pneumonia1




Psychiatric disorders


 


Common




abnormal dreams, insomnia




Uncommon




behavioural symptoms of impulse control disorders and compulsions such as binge eating, compulsive shopping, hypersexuality, and pathological gambling1; confusion, delusion1, hallucinations, hyperphagia1, libido disorder, paranoia1, restlessness




Nervous system disorders


 


Common




dizziness, headache, somnolence




Uncommon




amnesia1, dyskinesia, hyperkinesia1, sudden onset of sleep, syncope




Eye disorders


 


Uncommon




visual disturbance including diplopia, vision blurred and visual acuity reduced




Cardiac disorders


 


Uncommon




cardiac failure1




Vascular disorders


 


Uncommon




hypotension




Respiratory, thoracic, and mediastinal disorders


 


Uncommon




dyspnoea, hiccups




Gastrointestinal disorders


 


Very common




nausea




Common




constipation, vomiting




Skin and subcutaneous tissue disorders


 


Uncommon




hypersensitivity, pruritus, rash




General disorders and administration site conditions


 


Common




fatigue




Uncommon




peripheral oedema




Investigations


 


Uncommon




weight decrease including decreased appetite, weight increase



1This side effect has been observed in post-marketing experience. With 95 % certainty, the frequency category is not greater than uncommon, but might be lower. A precise frequency estimation is not possible as the side effect did not occur in a clinical trial database of 1,395 patients with Restless Legs Syndrome treated with pramipexole.



Somnolence



Pramipexole is commonly associated with somnolence and has been associated uncommonly with excessive daytime somnolence and sudden sleep onset episodes (see also section 4.4).



Libido disorders



Pramipexole may uncommonly be associated with libido disorders (increased or decreased).



Impulse control disorders and compulsive behaviours



Patients treated with dopamine agonists for Parkinson's disease, including MIRAPEXIN, especially at high doses, have been reported as exhibiting signs of pathological gambling, increased libido and hypersexuality, generally reversible upon reduction of the dose or treatment discontinuation (see also section 4.4).



In a cross-sectional, retrospective screening and case-control study including 3,090 Parkinson's disease patients, 13.6% of all patients receiving dopaminergic or non-dopaminergic treatment had symptoms of an impulse control disorder during the past six months. Manifestations observed include pathological gambling, compulsive shopping, binge eating, and compulsive sexual behaviour (hypersexuality). Possible independent risk factors for impulse control disorders included dopaminergic treatments and higher doses of dopaminergic treatment, younger age (



Cardiac failure



In clinical studies and post-marketing experience cardiac failure has been reported in patients with pramipexole. In a pharmacoepidemiological study pramipexole use was associated with an increased risk of cardiac failure compared with non-use of pramipexole (observed risk ratio 1.86; 95% CI, 1.21-2.85).



4.9 Overdose



There is no clinical experience with massive overdose. The expected adverse reactions would be those related to the pharmacodynamic profile of a dopamine agonist, including nausea, vomiting, hyperkinesia, hallucinations, agitation and hypotension. There is no established antidote for overdose of a dopamine agonist. If signs of central nervous system stimulation are present, a neuroleptic agent may be indicated. Management of the overdose may require general supportive measures, along with gastric lavage, intravenous fluids, administration of activated charcoal and electrocardiogram monitoring.



5. Pharmacological Properties



5.1 Pharmacodynamic Properties



Pharmacotherapeutic group: anti-Parkinson drugs, dopamine agonists, ATC code: N04BC05.



Pramipexole is a dopamine agonist that binds with high selectivity and specificity to the D2 subfamily of dopamine receptors of which it has a preferential affinity to D3 receptors, and has full intrinsic activity.



Pramipexole alleviates parkinsonian motor deficits by stimulation of dopamine receptors in the striatum. Animal studies have shown that pramipexole inhibits dopamine synthesis, release, and turnover.



The mechanism of action of pramipexole as treatment for Restless Legs Syndrome is unknown. Neuropharmacological evidence suggests primary dopaminergic system involvement.



In human volunteers, a dose-dependent decrease in prolactin was observed. In a clinical trial with healthy volunteers, where MIRAPEXIN prolonged-release tablets were titrated faster (every 3 days) than recommended up to 3.15 mg pramipexole base (4.5 mg of salt) per day, an increase in blood pressure and heart rate was observed. Such effect was not observed in patient studies.



Clinical trials in Parkinson's disease



In patients pramipexole alleviates signs and symptoms of idiopathic Parkinson's disease. Placebo-controlled clinical trials included approximately 1,800 patients of Hoehn and Yahr stages I – V treated with pramipexole. Out of these, approximately 1,000 were in more advanced stages, received concomitant levodopa therapy, and suffered from motor complications.



In early and advanced Parkinson's disease, efficacy of pramipexole in controlled clinical trials was maintained for approximately six months. In open continuation trials lasting for more than three years there were no signs of decreasing efficacy.



In a controlled double blind clinical trial of 2 year duration, initial treatment with pramipexole significantly delayed the onset of motor complications, and reduced their occurrence compared to initial treatment with levodopa. This delay in motor complications with pramipexole should be balanced against a greater improvement in motor function with levodopa (as measured by the mean change in UPDRS-score). The overall incidence of hallucinations and somnolence was generally higher in the escalation phase with the pramipexole group. However, there was no significant difference during the maintenance phase. These points should be considered when initiating pramipexole treatment in patients with Parkinson's disease.



The European Medicines Agency has waived the obligation to submit the results of studies with MIRAPEXIN in all subsets of the paediatric population in Parkinson's Disease (see section 4.2 for information on paediatric use).



Clinical trials in Restless Legs Syndrome



The efficacy of pramipexole was evaluated in four placebo-controlled clinical trials in approximately 1,000 patients with moderate to very severe idiopathic Restless Legs Syndrome.



The mean change from baseline in the Restless Legs Syndrome Rating Scale (IRLS) and the Clinical Global Impression-Improvement (CGI-I) were the primary efficacy outcome measures. For both primary endpoints statistically significant differences have been observed for the pramipexole dose groups 0.25 mg, 0.5 mg and 0.75 mg pramipexole salt in comparison to placebo. After 12 weeks of treatment the baseline IRLS score improved from 23.5 to 14.1 points for placebo and from 23.4 to 9.4 points for pramipexole (doses combined). The adjusted mean difference was -4.3 points (CI 95% -6.4; -2.1 points, p-value <0.0001). CGI-I responder rates (improved, very much improved) were 51.2% and 72.0% for placebo and pramipexole, respectively (difference 20% CI 95%: 8.1%; 31.8%, p<0.0005). Efficacy was observed with 0.088 mg of base (0.125 mg of salt) per day after the first week of treatment.



In a placebo-controlled polysomnography study over 3 weeks MIRAPEXIN significantly reduced the number of periodic limb movements during time in bed.



Longer term efficacy was evaluated in a placebo-controlled clinical trial. After 26 weeks of treatment, there was an adjusted mean reduction in IRLS total score of 13.7 and 11.1 points in the pramipexole and placebo group, respectively, with a statistically significant (p = 0.008) mean treatment difference of -2.6. CGI-I responder rates (much improved, very much improved) were 50.3% (80/159) and 68.5% (111/162) for placebo and pramipexole, respectively (p = 0.001), corresponding to a number needed to treat (NNT) of 6 patients (95%CI: 3.5, 13.4).



The European Medicines Agency has deferred the obligation to submit the results of studies with MIRAPEXIN in one or more subsets of the paediatric population in Restless Legs Syndrome (see section 4.2 for information on paediatric use).



Clinical trial in Tourette Disorder



The efficacy of pramipexole (0.0625-0.5 mg/day) with paediatric patients aged 6-17 years with Tourette Disorder was evaluated in a 6-week, double-blind, randomised, placebo-controlled flexible dose study. A total of 63 patients were randomised (43 on pramipexole, 20 on placebo). The primary endpoint was change from baseline on the Total Tic Score (TTS) of the Yale Global Tic Severity Scale (YGTSS). No difference was observed for pramipexole as compared to placebo for either the primary endpoint or for any of the secondary efficacy endpoints including YGTSS total score, Patient Global Impression of Improvement (PGI-I), Clinical Global Impression of Improvement (CGI-I), or Clinical Global Impressions of Severity of Illness (CGI-S). Adverse events occurring in at least 5% of patients in the pramipexole group and more common in the pramipexole-treated patients than in patients on placebo were: headache (27.9%, placebo 25.0%), somnolence (7.0%, placebo 5.0%), nausea (18.6%, placebo 10.0%), vomiting (11.6%, placebo 0.0%), upper abdominal pain (7.0%, placebo 5.0%), orthostatic hypotension (9.3%, placebo 5.0%), myalgia (9.3%, placebo 5.0%), sleep disorder (7.0%, placebo 0.0%), dyspnoea (7.0%, placebo 0.0%) and upper respiratory tract infection (7.0%, placebo 5.0%). Other significant adverse events leading to discontinuation of study medication for patients receiving pramipexole were confusional state, speech disorder and aggravated condition (see section 4.2).



5.2 Pharmacokinetic Properties



Pramipexole is rapidly and completely absorbed following oral administration. The absolute bioavailability is greater than 90% and the maximum plasma concentrations occur between 1 and 3 hours. Concomitant administration with food did not reduce the extent of pramipexole absorption, but the rate of absorption was reduced. Pramipexole shows linear kinetics and a small inter-patient variation of plasma levels. In humans, the protein binding of pramipexole is very low (< 20%) and the volume of distribution is large (400 l). High brain tissue concentrations were observed in the rat (approx. 8-fold compared to plasma).



Pramipexole is metabolised in man only to a small extent.



Renal excretion of unchanged pramipexole is the major route of elimination. Approximately 90% of 14C-labelled dose is excreted through the kidneys while less than 2% is found in the faeces. The total clearance of pramipexole is approximately 500 ml/min and the renal clearance is approximately 400 ml/min. The elimination half-life (t½) varies from 8 hours in the young to 12 hours in the elderly.



5.3 Preclinical Safety Data



Repeated dose toxicity studies showed that pramipexole exerted functional effects, mainly involving the CNS and female reproductive system, and probably resulting from an exaggerated pharmacodynamic effect of pramipexole.



Decreases in diastolic and systolic pressure and heart rate were noted in the minipig, and a tendency to a hypotensive effect was discerned in the monkey.



The potential effects of pramipexole on reproductive function have been investigated in rats and rabbits. Pramipexole was not teratogenic in rats and rabbits but was embryotoxic in the rat at maternally toxic doses. Due to the selection of animal species and the limited parameters investigated, the adverse effects of pramipexole on pregnancy and male fertility have not been fully elucidated.



A delay in sexual development (i.e., preputial separation and vaginal opening) was observed in rats. The relevance for humans is unknown.



Pramipexole was not genotoxic. In a carcinogenicity study, male rats developed Leydig cell hyperplasia and adenomas, explained by the prolactin-inhibiting effect of pramipexole. This finding is not clinically relevant to man. The same study also showed that, at doses of 2 mg/kg (of salt) and higher, pramipexole was associated with retinal degeneration in albino rats. The latter finding was not observed in pigmented rats, nor in a 2-year albino mouse carcinogenicity study or in any other species investigated.



6. Pharmaceutical Particulars



6.1 List Of Excipients



Mannitol



maize starch



anhydrous colloidal silica



povidone K 25



magnesium stearate



6.2 Incompatibilities



Not applicable.



6.3 Shelf Life



3 years



6.4 Special Precautions For Storage



Do not store above 30°C.



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



6.5 Nature And Contents Of Container



OPA/aluminium/PVC-aluminium blisters.



Each blister strip contains 10 tablets.



Cartons containing 3 or 10 blister strips (30 or 100 tablets).



Not all pack sizes may be marketed.



6.6 Special Precautions For Disposal And Other Handling



No special requirements.



7. Marketing Authorisation Holder



Boehringer Ingelheim International GmbH



Binger Strasse 173



D-55216 Ingelheim am Rhein



Germany



8. Marketing Authorisation Number(S)



EU/1/97/051/003-004



9. Date Of First Authorisation/Renewal Of The Authorisation



Date of first authorisation: 23 February 1998



Date of latest renewal: 23 Februar

No comments:

Post a Comment