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نشرة الممارس الصحي نشرة معلومات المريض بالعربية نشرة معلومات المريض بالانجليزية صور الدواء بيانات الدواء
 لم يتم إدخال بيانات نشرة معلومات المريض لهذا الدواء حتى الآن
 لم يتم إدخال بيانات نشرة معلومات المريض لهذا الدواء حتى الآن
 Read this leaflet carefully before you start using this product as it contains important information for you

PREMABAN 37.5 mg/5 ml concentrate for solution for infusion

Each vial of 5 ml concentrate contains 37.5 mg atosiban (as acetate). Each ml of concentrate contains 7.5 mg atosiban. After dilution, the concentration of atosiban is 0.75 mg/ml. For the full list of excipients, see section 6.1.

Concentrate for solution for infusion (sterile concentrate). Clear, colourless solution without particles. pH: 4.0 to 5.0

PREMABAN is indicated to delay imminent pre-term birth in pregnant adult women with:

− regular uterine contractions of at least 30 seconds duration at a rate of ≥ 4 per 30 minutes

− a cervical dilation of 1 to 3 cm (0-3 for nulliparas) and effacement of ≥ 50%

− a gestational age from 24 until 33 completed weeks

− a normal foetal heart rate


Posology

Treatment with PREMABAN should be initiated and maintained by a physician experienced in the treatment of pre-term labour.

 

PREMABAN is administered intravenously in three successive stages: an initial bolus dose (6.75 mg), performed with PREMABAN 6.75 mg/0.9 ml solution for injection, immediately followed by a continuous high dose infusion (loading infusion 300 micrograms/min) of PREMABAN 37.5 mg/5 ml concentrate for solution for infusion during three hours, followed by a lower dose of PREMABAN 37.5 mg/5 ml concentrate for solution for infusion (subsequent infusion 100 micrograms/min) up to 45 hours. The duration of the treatment should not exceed 48 hours. The total dose given during a full course of PREMABAN therapy should preferably not exceed 330.75 mg of atosiban.

 

Intravenous therapy using the initial bolus injection of PREMABAN 6.75 mg/0.9 ml solution for injection (see Summary of Product Characteristics of this product) should be started as soon as possible after diagnosis of pre-term labour. Once the bolus has been injected, proceed with the infusion. In the case of persistence of uterine contractions during treatment with PREMABAN, alternative therapy should be considered.

 

The following table shows the full posology of the bolus injection followed by the infusion:

Step

Regimen

Infusion rate

Atosiban dose

1

0.9 ml intravenous bolus injection given over 1 minute

Not applicable

6.75 mg

2

3 hours intravenous loading infusion

24 ml/hour (300 µg/min)

54 mg

3

Up to 45 hours subsequent intravenous infusion

8 ml/hour (100 µg/min)

Up to 270 mg

 

 

Re-treatment:

In case a re-treatment with atosiban is needed, it should also commence with a bolus injection of PREMABAN 6.75 mg/0.9 ml solution for injection followed by infusion with PREMABAN 37.5 mg/5 ml concentrate for solution for infusion.

 

Patients with renal or hepatic impairment

There is no experience with atosiban treatment in patients with impaired function of the liver or kidneys. Renal impairment is not likely to warrant a dose adjustment, since only a small extent of atosiban is excreted in the urine. In patients with impaired hepatic function, atosiban should be used with caution.

 

Paediatric population

The safety and efficacy of PREMABAN in pregnant women aged less than 18 years have not been established.

No data are available.

 

Method of administration

For instructions on preparation of the medicinal product before administration, see section 6.6.


PREMABAN must not be used in the following conditions: − Gestational age below 24 or over 33 completed weeks − Premature rupture of the membranes >30 weeks of gestation − Abnormal foetal heart rate − Antepartum uterine haemorrhage requiring immediate delivery − Eclampsia and severe pre-eclampsia requiring delivery − Intrauterine foetal death − Suspected intrauterine infection − Placenta praevia − Abruptio placenta − Any other conditions of the mother or foetus, in which continuation of pregnancy is hazardous − Hypersensitivity to the active substance(s) or to any of the excipients listed in section 6.1.

When atosiban is used in patients in whom premature rupture of membranes cannot be excluded, the benefits of delaying delivery should be balanced against the potential risk of chorioamnionitis.

 

There is no experience with atosiban treatment in patients with impaired function of the liver or kidneys. Renal impairment is not likely to warrant a dose adjustment, since only a small extent of atosiban is excreted in the urine. In patients with impaired hepatic function, atosiban should be used with caution (see sections 4.2 and 5.2).

 

There is only limited clinical experience in the use of atosiban in multiple pregnancies or the gestational age group between 24 and 27 weeks, because of the small number of patients treated. The benefit of atosiban in these subgroups is therefore uncertain.

 

Re-treatment with PREMABAN is possible, but there is only limited clinical experience available with multiple re-treatments, up to 3 re-treatments (see section 4.2).

In case of intrauterine growth retardation, the decision to continue or reinitiate the administration of PREMABAN depends on the assessment of foetal maturity.

 

Monitoring of uterine contractions and foetal heart rate during administration of atosiban and in case of persistent uterine contractions should be considered.

 

As an antagonist of oxytocin, atosiban may theoretically facilitate uterine relaxation and postpartum bleeding therefore blood loss after delivery should be monitored. However, inadequate uterus contraction postpartum was not observed during the clinical trials.

 

Multiple pregnancy and medicinal products with tocolytic activity like calcium channel blockers and beta-mimetics are known to be associated with increased risk of pulmonary oedema. Therefore, atosiban should be used with caution in case of multiple pregnancy and/or concomitant administration of other medicinal products with tocolytic activity (see section 4.8).

 


It is unlikely that atosiban is involved in cytochrome P450 mediated drug-drug interactions as in vitro investigations have shown that atosiban is not a substrate for the cytochrome P450 system, and does not inhibit the drug metabolising cytochrome P450 enzymes.

 

Interaction studies have been performed with labetalol and betamethasone in healthy, female volunteers. No clinically relevant interaction was found between atosiban and bethamethasone or labetalol.


Atosiban should only be used when pre-term labour has been diagnosed between 24 and 33 completed weeks of gestation. If during pregnancy the woman is already breast-feeding an earlier child, then breast-feeding should be discontinued during treatment with PREMABAN, since the release of oxytocin during breast-feeding may augment uterine contractility, and may counteract the effect of tocolytic therapy.

 

In atosiban clinical trials no effects were observed on breast-feeding. Small amounts of atosiban have been shown to pass from plasma into the breast milk of breast-feeding women.

 

Embryo-foetal toxicity studies have not shown toxic effects of atosiban. No studies were performed that covered fertility and early embryonic development (see section 5.3).


Not relevant


Possible adverse reactions of atosiban were described for the mother during the use of atosiban in clinical trials. In total 48% of the patients treated with atosiban experienced adverse reactions during the clinical trials. The observed adverse reactions were generally of a mild severity. The most commonly reported adverse reaction in the mother is nausea (14 %).

 

For the new born, the clinical trials did not reveal any specific adverse reactions of atosiban. The infant adverse reactions were in the range of normal variation and were comparable with both placebo and beta-mimetic group incidences.

 

The frequency of adverse reactions listed below is defined using the following convention: 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). Within each frequency grouping, adverse reactions are presented in order of decreasing seriousness.

MedDRA System Organ Class (SOC)

Very common

Common

Uncommon

Rare

Immune system disorders

   

Allergic reaction

Metabolism and nutrition disorders

 

Hyperglycaemia

  

Psychiatric disorder

  

Insomnia

 

Nervous system disorders

 

Headache, Dizziness

  

Cardiac disorders

 

Tachycardia

  

Vascular disorders

 

Hypotension,

Hot flush

  

Gastrointestinal disorders

Nausea

Vomiting

  

Skin and subcutaneous tissue disorders

  

Pruritis, Rash

 

Reproductive system and breast disorder

   

Uterine haemorrhage, uterine atony

General disorders and administration site conditions

 

Injection site reaction

Pyrexia

 

 

Post-marketing experience

Respiratory events like dyspnoea and pulmonary oedema, particularly in association with concomitant administration of other medicinal products with tocolytic activity, like calcium antagonists and beta-mimetics, and/or in women with multiple pregnancy, have been reported post-marketing.

 

To report any side effect(s):

 

Saudi Arabia

The National Pharmacovigilance and Drug Safety Centre (NPC)

-          Fax: +966-11-205-7662

-          Call NPC at +966-11-2038222, Exts: 2317-2356-2353-2354-2334-2340.

-          Toll free phone: 8002490000

-          E-Mail: npc.drug@sfda.gov.sa

-          Website: www.sfda.gov.sa/npc

 

Other GCC States

Please contact the relevant competent authority.


Few cases of atosiban overdosing were reported, they occurred without any specific signs or symptoms. There is no known specific treatment in case of an overdose.


Pharmacotherapeutic group: Other gynecologicals, ATC code: G02CX01

 

PREMABAN contains atosiban (INN), a synthetic peptide ([Mpa1,D-Tyr(Et)2,Thr4,Orn8]-oxytocin) which is a competitive antagonist of human oxytocin at receptor level. In rats and guinea pigs, atosiban was shown to bind to oxytocin receptors, to decrease the frequency of contractions and the tone of the uterine musculature, resulting in a suppression of uterine contractions. Atosiban was also shown to bind to the vasopressin receptor, thus inhibiting the effect of vasopressin. In animals atosiban did not exhibit cardiovascular effects.

 

In human pre-term labour, atosiban at the recommended dosage antagonises uterine contractions and induces uterine quiescence. The onset of uterus relaxation following atosiban is rapid, uterine contractions being significantly reduced within 10 minutes to achieve stable uterine quiescence (≤ 4 contractions/hour) for 12 hours.

 

Phase III clinical trials (CAP-001 studies) include data from 742 women who were diagnosed with pre-term labour at 23–33 weeks of gestation and were randomised to receive either atosiban (according to this labelling) or β-agonist (dose-titrated).

 

Primary endpoint: the primary efficacy outcome was the proportion of women remaining undelivered and not requiring alternative tocolysis within 7 days of treatment initiation. The data show that 59.6% (n=201) and 47.7% (n=163) of atosiban- and β-agonist-treated women (p=0.0004), respectively, were undelivered and did not require alternative tocolysis within 7 days of starting treatment. Most of the treatment failures in CAP-001 were caused by poor tolerability. Treatment failures caused by insufficient efficacy were significantly (p=0.0003) more frequent in atosiban (n=48, 14.2%) than in the β-agonist-treated women (n=20, 5.8%).

In the CAP-001 studies the probability of remaining undelivered and not requiring alternative tocolytics within 7 days of treatment initiation was similar for atosiban and beta-mimetics treated women at gestational age of 24-28 weeks. However, this finding is based on a very small sample (n=129 patients).

 

Secondary endpoints: secondary efficacy parameters included the proportion of women remaining undelivered within 48 h of treatment initiation. There was no difference between the atosiban and beta-mimetic groups with regard to this parameter.

 

Mean (SD) gestational age at delivery was the same in the two groups: 35.6 (3.9) and 35.3 (4.2) weeks for the atosiban and β-agonist groups, respectively (p=0.37). Admission to a neonatal intensive care unit (NICU) was similar for both treatment groups (approximately 30%), as was length of stay and ventilation therapy. Mean (SD) birth weight was 2491 (813) grams in the atosiban group and 2461 (831) grams in the β-agonist group (p=0.58).

 

Foetal and maternal outcome did apparently not differ between the atosiban and the β-agonist group, but the clinical studies were not powered enough to rule out a possible difference.

 

Of the 361 women who received atosiban treatment in the phase III studies, 73 received at least one re-treatment, 8 received at least 2 re-treatments and 2 received 3 re-treatments (see section 4.4).

 

As the safety and efficacy of atosiban in women with a gestational age of less than 24 completed weeks has not been established in controlled randomised studies, the treatment of this patient group with atosiban is not recommended (see section 4.3).

 

In a placebo-controlled study, foetal/infant deaths were 5/295 (1.7%) in the placebo group and 15/288 (5.2%) in the atosiban group, of which two occurred at five and eight months of age. Eleven out of the 15 deaths in the atosiban group occurred in pregnancies with a gestational age of 20 to 24 weeks, although in this subgroup patient distribution was unequal (19 women on atosiban, 4 on placebo). For women with a gestational age greater than 24 weeks there was no difference in mortality rate (1.7% in the placebo group and 1.5% in the atosiban group).

 


In healthy non-pregnant subjects receiving atosiban infusions (10 to 300 micrograms/min over 12 hours), the steady state plasma concentrations increased proportionally to the dose.

 

The clearance, volume of distribution and half-life were found to be independent of the dose.

 

In women in pre-term labour receiving atosiban by infusion (300 micrograms/min for 6 to 12 hours), steady state plasma concentrations were reached within one hour following the start of the infusion (mean 442 ± 73 ng/ml, range 298 to 533 ng/ml).

 

Following completion of the infusion, plasma concentration rapidly declined with an initial (tα) and terminal (tβ) half-life of 0.21 ± 0.01 and 1.7 ± 0.3 hours, respectively. Mean value for clearance was 41.8 ± 8.2 litres/h. Mean value of volume of distribution was 18.3 ± 6.8 litres.

 

Plasma protein binding of atosiban is 46 to 48% in pregnant women. It is not known whether the free fraction in the maternal and foetal compartments differs substantially. Atosiban does not partition into red blood cells.

 

Atosiban passes the placenta. Following an infusion of 300 micrograms/min in healthy pregnant women at term, the foetal/maternal atosiban concentration ratio was 0.12.

Two metabolites were identified in the plasma and urine from human subjects. The ratios of the main metabolite M1 (des-(Orn8, Gly-NH29)-[Mpa1, D-Tyr(Et)2, Thr4]-oxytocin) to atosiban concentrations in plasma were 1.4 and 2.8 at the second hour and at the end of the infusion respectively. It is not known whether M1 accumulates in tissues. Atosiban is found in only small quantities in urine, its urinary concentration is about 50 times lower than that of M1. The proportion of atosiban eliminated in faeces is not known. The main metabolite M1 is approximately 10 times less potent than atosiban in inhibiting oxytocin-induced uterine contractions in vitro. Metabolite M1 is excreted in milk (see section 4.6).

 

There is no experience with atosiban treatment in patients with impaired function of the liver or kidneys. Renal impairment is not likely to warrant a dose adjustment, since only a small extent of atosiban is excreted in the urine. In patients with impaired hepatic function, atosiban should be used with caution (see sections 4.2 and 4.4).

 

It is unlikely that atosiban inhibits hepatic cytochrome P450 isoforms in humans (see section 4.5).


No systemic toxic effects were observed during the two-week intravenous toxicity studies (in rats and dogs) at doses which are approximately 10 times higher than the human therapeutic dose, and during the three-months toxicity studies in rats and dogs (up to 20 mg/kg/day s.c.). The highest atosiban subcutaneous dose not producing any adverse effects was approximately two times the therapeutic human dose.

 

No studies were performed that covered fertility and early embryonic development. Reproduction toxicity studies, with dosing from implantation up to late stage pregnancy, showed no effects on mothers and foetuses. The exposure of the rat foetus was approximately four times that received by the human foetus during intravenous infusions in women. Animal studies have shown inhibition of lactation as expected from the inhibition of action of oxytocin.

 

Atosiban was neither oncogenic nor mutagenic in in vitro and in vivo tests.


No systemic toxic effects were observed during the two-week intravenous toxicity studies (in rats and dogs) at doses which are approximately 10 times higher than the human therapeutic dose, and during the three-months toxicity studies in rats and dogs (up to 20 mg/kg/day s.c.). The highest atosiban subcutaneous dose not producing any adverse effects was approximately two times the therapeutic human dose.

 

No studies were performed that covered fertility and early embryonic development. Reproduction toxicity studies, with dosing from implantation up to late stage pregnancy, showed no effects on mothers and foetuses. The exposure of the rat foetus was approximately four times that received by the human foetus during intravenous infusions in women. Animal studies have shown inhibition of lactation as expected from the inhibition of action of oxytocin.

 

Atosiban was neither oncogenic nor mutagenic in in vitro and in vivo tests.


In the absence of compatibility studies, this medicinal product must not be mixed with other medicinal products except those mentioned in section 6.6.


2 years Once the vial has been opened, the dilution must be performed immediately. Diluted solution for intravenous administration should be used within 24 hours after preparation. From a microbiological point of view, the product should be used immediately. If not used immediately, in-use storage times and conditions prior to use are the responsibility of the user and would normally not be longer than 24 hours at 2 to 8 °C, unless dilution has taken place in controlled and validated aseptic conditions.

Store in a refrigerator (2°C - 8°C).

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

For storage conditions after first opening and dilution of the medicinal product, see section 6.3.


One vial of concentrate for solution for infusion contains 5 ml solution, corresponding to 37.5 mg atosiban.

 

Colourless glass vials (5 ml, type I) sealed with a grey uncoated bromobutyl rubber stopper, type I, and flip-off cap of polypropylene and aluminium.

 

One pack contains 1 vial of 5 ml.


The vials should be inspected visually for particulate matter and discoloration prior to administration.

 

Preparation of the intravenous infusion solution:

For intravenous infusion, following the bolus dose, PREMABAN 37.5 mg/5 ml concentrate for solution for infusion should be diluted in one of the following solutions:

− sodium chloride 9 mg/ml (0.9%) solution for injection

− Ringer's lactate solution

− 5% w/v glucose solution.

 

Withdraw 10 ml solution from a 100 ml infusion bag and discard. Replace it by 10 ml PREMABAN 37.5 mg/5 ml concentrate for solution for infusion from two 5 ml vials of 37.5 mg/5 ml to obtain a concentration of 75 mg atosiban in 100 ml.

 

The reconstituted product is a clear, colourless solution without particles.

 

The loading infusion is given by infusing 24 ml/hour (i.e. 18 mg/h) of the above prepared solution over the 3 hour period under adequate medical supervision in an obstetric unit. After three hours the infusion rate is reduced to 8 ml/hour.

 

Prepare new 100 ml bags in the same way as described to allow the infusion to be continued.

 

If an infusion bag with a different volume is used, a proportional calculation should be made for the preparation.

 

To achieve accurate dosing, a controlled infusion device is recommended to adjust the rate of flow in drops/min. An intravenous microdrip chamber can provide a convenient range of infusion rates within the recommended dose levels for PREMABAN.

 

If other medicinal products need to be given intravenously at the same time, the intravenous cannula can be shared or another site of intravenous administration can be used. This permits the continued independent control of the rate of infusion.

 

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


EVER Valinject GmbH Oberburgau 3 4866 Unterach am Attersee Austria

31.07.2022
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