Dantrium Intravenous 20g
Out of date information, search anotherSUMMARY OF PRODUCT CHARACTERISTICS
1 NAME OF THE MEDICINAL PRODUCT
Dantrium Intravenous 20g
2 QUALITATIVE AND QUANTITATIVE COMPOSITION
Each vial contains 20mg dantrolene sodium. For excipients, see 6.1
3 PHARMACEUTICAL FORM
Powder for solution for injection.
4 CLINICAL PARTICULARS
4.1 Therapeutic indications
For the treatment of malignant hyperthermia.
4.2 Posology and method of administration
Dosage and Administration
As soon as the malignant hyperthermia syndrome is recognised all anaesthetic agents should be discontinued. An initial dantrium intra-venous dose of 1 mg/kg should be given rapidly into the vein. If the physiological and metabolic abnormalities persist or reappear, this dose may be repeated up to a cumulative dose of 10 mg/kg. Clinical experience to date has shown that the average dose of dantrium intravenous required to reverse the manifestations of malignant hyperthermia has been 2.5 mg/kg. If a relapse or recurrence occurs, dantrium intravenous should be readministered at the last effect dose.
4.3 Contraindications
None stated.
4.4 Special warnings and precautions for use
In some subjects as much as 10 mg/kg of Dantrium intravenous has been needed to reverse the crisis. In a 70 kg man this dose would require approximately 36 vials. Such a volume has been administered in approximately one and a half hours.
When mannitol is used for prevention or treatment of renal complication of malignant hyperthermia, the 3 grams of mannitol present as an excipient in each 20 mg vial of intravenous dantrolene sodium should be taken into consideration when calculating total mannitol dose to be administered.
Because of the high pH of the intravenous formulation of Dantrium and potential for tissue necrosis, care must be taken to prevent extravasation of the intravenous solution into the surrounding tissues.
The use of Dantrium intravenous in the management of malignant hyperthermia is not a substitute for previously known supportive measures. It will be necessary to discontinue the suspect triggering agents, attend to increased oxygen requirements and manage the metabolic acidosis. When necessary institute cooling, attend to urinary output and monitor for electrolyte imbalance.
Hepatic dysfunction, including hepatitis and fatal hepatic failure, has been reported with dantrolene sodium therapy. Whilst the licensed indications of intravenous dantrolene do not generally necessitate prolonged therapy, the risk of hepatic dysfunction may increase with dose and duration of treatment, based on experience with oral therapy. However in some patients it is of an idiosyncratic or hypersensitivity type, and could occur after a single dose.
4.5 Interaction with other medicinal products and other forms of interaction
The combination of therapeutic doses of intravenous dantrolene sodium and verapamil in halothane/alpha-chloralose anaesthetised swine has resulted in ventricular fibrillation and cardiovascular collapse in association with marked hyperkalaemia. Hyperkalaemia and myocardial depression have also been reported rarely in malignant hyperthermia-susceptible patients receiving itravenous dantolene and concomitant calcium channel blockers. It is recommended that the combination of intravenous dantrolene sodium and calcium channel blockers, such as verapamil, is not used during the reversal of a malignant hyperthermia crisis until the relevance of these findings to humans is established.
Administration of dantrolene may potentiate vecuronium-induced neuromuscular block.
4.6 Pregnancy and lactation
The safety of Dantrium intravenous in pregnant women has not been established. Dantrolene crosses the placenta, and should be given only when the potential benefits have been weighed against the possible risk to mother and child.
Dantrolene has been detected in human milk at low concentrations (less than 2 micrograms per milliliter) during repeat intravenous administration over 3 days. Dantrium Intravenous should be used by nursing mothers only if the potential benefit justifies the potential risk to the infant.
4.7 Effects on ability to drive and use machines
A decrease in grip strength and weakness of leg muscles, especially walking down stairs, can be expected post-operatively. In addition, symptoms such as “lightheadedness” may be noted. Since some of these symptoms may persist for up to 48 hours, patients must not operate an automobile or engage in other hazardous activity during this time.
4.8 Undesirable effects
There have been occasional reports of death following malignant hyperthermia crisis even when treated with intravenous dantrolene sodium; incidence figures are not available (the pre-dantrolene mortality of malignant hyperthermia crisis was approximately 50%). Most of these deaths can be accounted for by late recognition, delayed treatment, inadequate dosage, lack of supportive therapy, intercurrent disease and/or the development of delayed complications such as renal failure or disseminated intravascular coagulopathy. In some cases there are insufficient data to completely rule out therapeutic failure of dantrolene sodium .
The administration of intravenous dantrolene sodium to human volunteers is associated with loss of grip strength and weakness in the legs, as well as subjective central nervous system complaints.
There are rare reports of pulmonary oedema developing during the treatment of malignant hyperthermia crisis in which the diluent volume and mannitol needed to deliver i.v. dantrolene sodium possibly contributed.
Injection site reactions including erythema, rash, swelling, localised pain and thrombophlebitis may occur following administration of intravenous dantrolene sodium. Extravasation may lead to tissue necrosis (see section 4.4).
Hepatic dysfunction may occur, including fatal hepatic failure (see section 4.4).
4.9 Overdose
None stated.
5 PHARMACOLOGICAL PROPERTIES
5.1 Pharmacodynamic properties
Molecular Pharmacology
The receptor molecule for dantrolene has not been identified. Radiolabelled dantrolene sodium binds to specific components of the striated muscle cell, namely the t-tubules and the sarcoplasmic reticulum, however, the kinetics of binding vary between these two organelles. The binding of ryanodine is thought to compete with the binding of calcium in these organelles; further evidence for the specificity of binding is that dantrolene inhibits the binding of ryanodine to heavy sarcoplasmic reticulum vesicles from rabbit skeletal muscle. Under some conditions, dantrolene will lower intra-sarcoplasmic calcium concentrations in the resting state. This may be more important in diseased muscle (e.g. In malignant hyperthermia in humans and swine stress syndrome) than in muscle with normal function.
Dantrolene does not bind to the same sites as calcium channel blocking drugs such as nitrendipine or calmodulin. There is no electrophysiological evidence that dantrolene interferes with the influx of calcium from outside the cell. This may be one reason why paralysis by dantrolene has never been reported in animals or man; the muscle cell has alternative sources of calcium which are not influenced by dantrolene.
Biochemical Pharmacology
Whatever the molecular mechanism, the cardinal property of dantrolene sodium is that it lowers intracellular calcium concentration in skeletal muscle. Calcium concentrations may be lower in both the quiescent state, and as a result of a reduction in the release of calcium, from the sarcoplasmic reticulum in response to a standard stimulus. This effect has been observed in striated muscle fibres from several species, and is not seen in the myocardium. Fast fibres may be more sensitive than slow fibres to the action of dantrolene sodium.
Diverse other properties of dantrolene sodium have been observed in vitro, and in animal studies. Dantrolene sodium may inhibit the release of calcium from the smooth endoplasmic reticulum of smooth muscle, but the significance of this observation s questionable; for example, dantrolene sodium has no effect on isolated human urinary bladder smooth muscle. Calcium dependent, presynaptic neurotransmitter release may also be inhibited by dantrolene sodium. Again, the clinical significance of this has not been demonstrated.
Studies on Isolated, Functional Muscle
Elevation of intracellular, free calcium ion concentration is an obligatory step in excitation-contraction coupling of skeletal muscle. Dantrolene sodium, therefore, acts as a muscle relaxant by a peripheral mechanism, which is quite different, and easily distinguishable from neuromuscular junction blocking drugs. In contrast with compounds that relax the skeletal muscle by acting principally on the central nervous system, dantrolene sodium acts directly on skeletal muscle cells. In rabbit atria, dantrolene sodium has no effect alone, but it may antagonise inotropic agents which act by increasing intramyocardial cell calcium e.g. anthopleurin-a.
5.2 Pharmacokinetic properties
Distribution
Dantrolene sodium is a highly lipophobic drug. In addition, it lacks hydrophilicity. Dantrolene sodium binds to human serum albumin (HSA) with a molar ratio of 0.95 to 1.68 in-vitro. The association constant in-vitro is 2.3 to 5.4 x 10 (-5) per mol. In-vitro dantrolene sodium can be displaced from HSA by warfarin, clofibrate and tolbutamide but these interactions have not been confirmed in humans (Re. Manufacturer's database). Single intravenous dose studies suggest that the primary volume of distribution is about 15 litres.
Metabolism and Excretion
The biological half life in plasma in most human subjects is between 5 and 9 hours, although half-lives as long as 12.1 ±1.9 hours have been reported after a single intravenous dose. Inactivation is by hepatic metabolism in the first instance. There are two alternative pathways. Most of the drug is hydroxylated to 5-hydroxyantrolene.
The minor pathway involves nitro-reduction to amino-dantrolene, which is then acetylated (compound F-490). The 5-hydroxy metabolite is a muscle relaxant with nearly the same potency as the parent molecule, and may have a longer half life than the parent compound. Compound F-490 is much less potent and is probably inactive at the concentrations achieved in clinical samples. Metabolites are subsequently excreted in the urine in the ratio of 79 5 hydroxy-dantrolene: 17 compound F-490: 4 unaltered dantrolene (salt or free acid). The proportion of drug excreted in the faeces depends upon dose size.
5.3 Preclinical safety data
Whilst there is no clinical evidence of carcinogenicity in humans, this possibility cannot be absolutely excluded. Dantrolene sodium has shown some evidence of tumourgenicity at high dose levels in Sprague-Dawley female rats, but these effects have not been seen in other studies in Fisher 344 rats or HaM/ICR mice.
6 PHARMACEUTICAL PARTICULARS
6.1 List of excipients
6.3
6.4
6.5.
7
Mannitol and sodium hydroxide
Special precautions for storage
Unopened product: Do not store above 25°C. Reconstituted solution: store between 15 and 25°C. Do not refrigerate or freeze. Protect from direct light.
Nature and contents of container
Type I glass vial with chlorobutyl rubber stopper and aluminium seal. Supplied in packs of 12 or 36 vials.
Special precautions for disposal
Each vial of Dantrium IV should be reconstituted by adding 60m1 of water for injection Ph.Eur, and shaken until the solution is clear. Any unused portion of the reconstituted solution should be discarded. There are no special requirements relating to the disposal of the container or contents.
MARKETING AUTHORISATION HOLDER
SpePharm Holding B.V.
Kingsfordweg 151 1043 GR Amsterdam The Netherlands
DATE OF FIRST AUTHORISATION/RENEWAL OF THE AUTHORISATION
14 February 1980 / 20 August 1997
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DATE OF REVISION OF THE TEXT
09/01/2012