Consumer medicine information

DBL Atracurium Besylate Injection

Atracurium besilate

BRAND INFORMATION

Brand name

DBL Atracurium Besylate Injection

Active ingredient

Atracurium besilate

Schedule

S4

 

Consumer medicine information (CMI) leaflet

Please read this leaflet carefully before you start using DBL Atracurium Besylate Injection.

What is in this leaflet

Please read this leaflet carefully before you are given DBL Atracurium Besylate Injection (Atracurium), even if you have had this medicine before.

This leaflet answers some common questions about DBL™ Atracurium Besylate Injection. It does not contain all the available information.

It does not take the place of talking to your doctor or pharmacist.

All medicines have risks and benefits. Your doctor has weighed the risks of you taking DBLAtracurium Besylate Injection against the benefits they expect it will have for you.

If you have any questions about DBL Atracurium Besylate Injection, ask your doctor or pharmacist.

Keep this leaflet in a safe place.

You may need to read it again.

What is DBL Atracurium Besylate Injection used for

Atracurium (at-tra-CURE-ee-um) is a muscle relaxant medicine. It is usually used together with a general anaesthetic to assist the use of a mechanical ventilator.

It is used prior to surgery to provide muscle relaxation during surgery or to provide muscle relaxation for medically assisted breathing. It will be given to you or your child when you/they are asleep during surgery.

It works by blocking acetylcholine, one of the body’s chemical messengers. Acetylcholine is involved in muscle contraction.

However, your doctor may have prescribed Atracurium Besylate Injection for another purpose.

Ask your doctor if you have any questions about why it has been prescribed for you.

This medicine is not addictive.

Before you are given DBL Atracurium Besylate Injection

When you must not be given it

You should not be given DBL™ Atracurium Besylate Injection if you are allergic to

  • medicines containing atracurium besilate
  • medicines containing benzenesulfonic acid
  • other muscle relaxant medicines.

If you have an allergic reaction you may have breathing difficulties, a skin rash, and swelling of the lips or tongue.

If you are not sure whether you should start taking this medicine, talk to your doctor.

Before you are given it

Tell your doctor if you have allergies to any other medicines, foods, preservatives or dyes.

You must tell your doctor if you have or have had any of the following medical conditions:

you have had any prior difficulties with anaesthetics

you have any health problems, especially:

  • allergies
  • breathing problems (eg asthma)
  • heart, kidney or liver problems
  • myasthenia gravis or other nerve diseases.

Tell your doctor or pharmacist if you are pregnant or plan to become pregnant or are breast-feeding. Your doctor can discuss with you the possible risks and benefits involved with being given DBL Atracurium Besylate Injection.

Taking other medicines

Tell your doctor or pharmacist if you are taking any other medicines, including any that you get without a prescription from your pharmacy, supermarket or health food shop.

Some medicines and Atracurium may interfere with each other. These include:

  • antibiotics
  • heart medicines (eg beta blockers such as propranolol or calcium channel blockers such as verapamil)
  • Medicines used to treat arrhythmia (eg lignocaine or procainamide)
  • fluid (water) medicines (eg frusemide, thiazides)
  • blood pressure medicines
  • magnesium sulfate
  • medicines used to treat depression or psychosis (eg lithium or chlorpromazine)
  • medicines used to treat malaria (eg quinine or chloroquine)
  • corticosteroids (eg prednisolone)
  • medicines used to treat epilepsy (eg carbamazepine or phenytoin
  • donepezil, a medicine used to treat Alzheimer’s disease.

These medicines may be affected by atracurium or may affect how well it works. You may need different amounts of your medicines, or you may need to take different medicines.

Your doctor and pharmacist have more information on medicines to be careful with or avoid while taking this medicine.

If you have not told your doctor about any of these things, tell him/her before you are given DBL Atracurium Besylate Injection.

How DBL Atracurium Besylate Injection is given

DBL Atracurium Besylate Injection should only be used under the supervision of your doctor.

It is usually given as an intravenous injection or an infusion (ie a slow injection through a 'drip' into the vein).

If you receive too much (overdose)

As DBL Atracurium Besylate Injection is most likely to be given to you in hospital under the supervision of your doctor, it is very unlikely that you will receive an overdose.

However, if you were to receive an overdose of atracurium, immediate action would be taken to support your breathing and blood pressure. Other medicines can also be given to reverse the effects of atracurium.

In case of overdose, immediately contact the Poisons Information Centre on 13 11 26 for advice.

While you are being given DBL Atracurium Besylate Injection

Things to be careful of

Allergic reactions
Some people may have an allergic reaction after receiving DBL Atracurium Besylate Injection.

If you notice any shortness of breath, change in heart rate or dizziness, tell your doctor immediately.

Be careful driving or operating machinery until you know how Atracurium affects you.

If you feel light-headed, dizzy or weak when getting out of bed or standing up, get up slowly. Standing up slowly, especially when you get up from bed or chairs, will help your body get used to the change in position and blood pressure. If this problem continues or gets worse, talk to your doctor.

Things you must not do

Do not take any other medicines, whether they are prescription or over-the-counter medicines, unless they have been approved or recommended by a doctor or pharmacist that knows you have been given DBL Atracurium Besylate Injection.

Side effects

Tell your doctor or pharmacist as soon as possible if you do not feel well after receiving DBL Atracurium Besylate Injection, even if you think the problem is not related to the medicine.

All medicines can have side effects. Sometimes they are serious, most of the time they are not. You may need medical attention if you get some of the side effects.

Do not be alarmed by the following lists of side effects. You may not experience any of them.

Ask your doctor or pharmacist to answer any questions you may have.

Tell your doctor or pharmacist if you notice any of the following and they worry you:

  • skin rash
  • flushing of the skin
  • wheezing
  • irritation at injection site
  • hives

The above list includes the more common side effects of your medicine. They are usually mild and short-lived.

If any of the following happen, tell your doctor immediately or go to Accident and Emergency at your nearest hospital:

  • severe allergic reactions
  • swelling of the face, lips or tongue
  • muscle weakness
  • changes in blood pressure
  • changes in heart rate
  • shortness of breath.

The above list includes very serious side effects. You may need urgent medical attention or hospitalisation.

Tell your doctor or pharmacist if you notice anything that is making you feel unwell. Other side effects not listed above may also occur in some people.

After you are given DBL Atracurium Besylate Injection

Storage

DBL Atracurium Besylate Injection will be stored in the pharmacy or on the ward. The injection is kept in the refrigerator where the temperature stays between 2 and 8C. It should be protected from light.

Product description

What it looks like

DBL Atracurium Besylate Injection is a clear, colourless or faint yellow solution and comes in a glass ampoule.

Ingredients

Active ingredients:

DBL Atracurium Besylate Injection contains atracurium besilate as the active ingredient.

Other ingredients:

  • Benzenesulfonic acid
  • Water for Injections

This medicine does not contain lactose, sucrose, gluten, tartrazine or any other azo dyes

Sponsor

DBL Atracurium Besylate Injection is supplied by:

Pfizer Australia Pty Ltd
Sydney NSW
Toll Free Number: 1800 675 229
www.pfizer.com.au

DBL Atracurium Besylate Injection is available in two strengths:

  • 25 mg/2.5 mL AUST R 57992
  • 50 mg/5 mL AUST R 57993

This leaflet was updated in October 2021.

™ Trademark

© Pfizer Australia Pty Ltd 2021

Published by MIMS December 2021

BRAND INFORMATION

Brand name

DBL Atracurium Besylate Injection

Active ingredient

Atracurium besilate

Schedule

S4

 

1 Name of Medicine

Atracurium besilate.

2 Qualitative and Quantitative Composition

DBL Atracurium Besylate Injection is a clear, colourless or faint yellow, sterile solution containing atracurium besilate 10 mg, in each mL of Water for Injections. The solution also contains benzenesulfonic acid to adjust the pH to 3.2 to 3.7.
For the full list of excipients, see Section 6.1 List of Excipients.

3 Pharmaceutical Form

DBL Atracurium Besylate Injection is sterile solution for injection.

4 Clinical Particulars

4.1 Therapeutic Indications

DBL Atracurium Besylate Injection is indicated as an adjunct to general anaesthesia, to facilitate endotracheal intubation and to provide skeletal muscle relaxation during surgery or mechanical ventilation.

4.2 Dose and Method of Administration

Dosage.

To avoid distress to the patient, DBL Atracurium Besylate Injection should not be administered before unconsciousness has been induced. DBL Atracurium Besylate Injection should not be mixed in the same syringe, or administered simultaneously through the same needle, with alkaline solutions (e.g. barbiturate solutions).

Initial bolus doses for intubation.

An atracurium besilate dose of 0.4 to 0.5 mg/kg (1.7 to 2.2 times the ED95), given as an intravenous bolus injection, is the recommended initial dose for most patients. Following this dose, suitable conditions for non-emergency intubation can be expected within 2 to 2.5 minutes in most patients which is comparable to other drugs of this class. Maximum neuromuscular blockade is generally achieved approximately 3 to 5 minutes after administration. Under balanced anaesthesia, this initial dose usually results in complete neuromuscular blockade for about 20 to 35 minutes. Spontaneous recovery to 25% of control is generally achieved approximately 35 to 45 minutes after administration and complete recovery is usually achieved within 60 to 70 minutes after administration.
Although atracurium is potentiated by isoflurane or enflurane anaesthesia, the same initial atracurium besilate dose (0.4 to 0.5 mg/kg) may be used for intubation if given prior to the administration of these inhalation agents. However, if the initial atracurium dose is administered after steady-state anaesthesia with isoflurane or enflurane has been achieved, the dose should be reduced by approximately one-third, i.e. to 0.25 to 0.35 mg/kg. Smaller dosage reductions may be considered with concomitant halothane anaesthesia since it has only a marginal (approximately 20%) potentiating effect on atracurium.

Maintenance doses - intermittent IV injection.

During prolonged surgical procedures, neuromuscular blockade may be maintained with atracurium besilate maintenance doses of 0.08 to 0.10 mg/kg. The first maintenance dose will generally be required 20 to 45 minutes after the initial atracurium dose, but the need for maintenance doses should be determined by the individual patient's requirements and response. Since atracurium lacks cumulative effects, maintenance doses may be administered at relatively regular intervals, ranging from approximately 15 to 25 minutes for patients under balanced anaesthesia. Slightly longer intervals may be required for maintenance doses when isoflurane or enflurane are used for anaesthesia, or when higher atracurium besilate maintenance doses (up to 0.2 mg/kg) are used.

Method of administration.

DBL Atracurium Besylate Injection should only be administered intravenously. Do not give DBL Atracurium Besylate Injection intramuscularly since this may result in tissue irritation and there are no clinical data to support this route of administration.
To accurately monitor the degree of muscle relaxation and to minimise the possibility of overdose, the use of a peripheral nerve stimulator is recommended to monitor muscle twitch suppression and recovery in patients using DBL Atracurium Besylate Injection during anaesthesia.

Dosage adjustments.

The initial atracurium besilate dose should be reduced to 0.3 to 0.4 mg/kg and given slowly or in divided doses over one minute in patients with significant cardiovascular disease, since the incidence of hypotensive episodes may increase in these patients. Similar dosage adjustments are recommended for patients with any history suggesting a greater risk of histamine release (e.g. history of severe anaphylactoid reactions or asthma).
Dosage reductions should also be considered in patients with neuromuscular disease, severe electrolyte disorders, or carcinomatosis in which potentiation of neuromuscular blockade or difficulties with reversal have been demonstrated. There has been no clinical experience with atracurium in these patients, and therefore no specific dosage adjustments can be recommended.
For paediatric patients 2 years or older, no atracurium dosage adjustments are required. A dose of 0.3 to 0.4 mg/kg is recommended as the initial dose for infants (1 month to 2 years of age) under halothane anaesthesia. Maintenance doses may be required with slightly greater frequency in paediatric patients.
Atracurium may be used at standard dosage at all levels of renal or hepatic function, including endstage failure.
Atracurium may be used at standard dosage in elderly patients. It is recommended however, that the initial dose be at the lower end of the range and that it be administered slowly.
Following the use of suxamethonium for endotracheal intubation under balanced anaesthesia, the initial atracurium besilate dose should be reduced to 0.3 to 0.4 mg/kg. Further reductions may be necessary when potent inhalation anaesthetics are used concomitantly. These doses should not be administered until the patient has recovered from the neuromuscular blocking effects of suxamethonium.

Use as an infusion.

After the initial atracurium bolus dose, neuromuscular blockade may be maintained in adults and children aged 2 or more years during prolonged surgical procedures, by administering atracurium besilate as a continuous intravenous infusion at a rate of 0.3 to 0.6 mg/kg/hour.
The infusion should be individualised for each patient. The rate of administration should be adjusted according to the patient's response as determined by peripheral nerve stimulation. Accurate dosing is best achieved using a precision infusion pump.
The infusion should not be commenced until early spontaneous recovery from the initial atracurium bolus dose is evident. An initial infusion rate of 9 to 10 microgram/kg/min may be required to rapidly counteract the spontaneous recovery of neuromuscular function. Thereafter, a rate of 5 to 9 microgram/kg/min should be adequate to maintain continuous neuromuscular block in the range of 89 to 99% in most paediatric and adult patients under balanced anesthesia. Occasional patients may require infusion rates as low as 2 microgram/kg/min or as high as 15 microgram/kg/min.
Atracurium besilate infusion solutions may be prepared by admixing DBL Atracurium Besylate Injection with an appropriate diluent (see Section 4.2 Dose and Method of Administration, Compatibility) to give an atracurium besilate concentration of 0.5 mg/mL to 5 mg/mL. The administration of the diluted product should commence as soon as practicable after the dilution.
The neuromuscular blocking effect of atracurium administered by infusion is potentiated by enflurane or isoflurane and, to a lesser extent, by halothane. Reduction in the infusion rate of atracurium should, therefore, be considered for patients receiving inhalation anesthesia. The rate of atracurium besilate infusion should be reduced by approximately one-third in the presence of steady-state enflurane or isoflurane anesthesia; smaller reductions should be considered in the presence of halothane.
DBL Atracurium Besylate Injection can be administered by infusion during cardiopulmonary bypass surgery at the recommended infusion rates. Induced hypothermia to a body temperature of 25 to 28°C reduces the rate of inactivation of atracurium, and therefore full neuromuscular block may be maintained with approximately half the original infusion rate at these temperatures.
Spontaneous recovery from neuromuscular block following discontinuation of atracurium besilate infusion may be expected to proceed at a rate comparable to that following administration of a single bolus dose.
The amount of infusion solution required per minute will depend upon the concentration of atracurium in the infusion solution, the desired dose of atracurium and the patient's weight. Tables 1 and 2 provide guidelines for delivery in mL/hr (equivalent to microdrops/min when 60 microdrops = 1 mL), of atracurium solutions in concentrations of 0.2 mg/mL (20 mg in 100 mL) or 0.5 mg/mL (50 mg in 100 mL) with an infusion pump or a gravity flow device.

Reversal of neuromuscular blockade.

The neuromuscular blockade induced by atracurium can be reversed with an anticholinesterase agent such as neostigmine or pyridostigmine, usually in conjunction with an anticholinergic agent such as atropine to prevent the adverse muscarinic effects of the anticholinesterase. Under balanced anaesthesia, reversal can usually be attempted approximately 20 to 35 minutes after the initial atracurium dose, or approximately 10 to 30 minutes after the last atracurium maintenance dose, when recovery of muscle twitch has started. Complete reversal of neuromuscular blockade is usually achieved within 8 to 10 minutes after administration of the reversing agents.
Rare instances of breathing difficulties, possibly related to incomplete reversal, have been reported following attempted pharmacological antagonism of atracurium induced neuromuscular blockade. As with other agents in this class, the tendency for residual neuromuscular block is increased if reversal is attempted at deep levels of blockade or if inadequate doses of reversal agents are employed.

Compatibility.

DBL Atracurium Besylate Injection diluted to 0.5 mg/mL with the following infusion solutions, and stored at 30°C, was shown to be stable for the times stated in Table 3.
DBL Atracurium Besylate Injection diluted to 5 mg/mL with the following infusion solutions, and stored at 30°C in 50 mL plastic syringes, was shown to be stable for the times stated in Table 4.

4.3 Contraindications

DBL Atracurium Besylate Injection is contraindicated in patients known or suspected to have a hypersensitivity to atracurium, cisatracurium or benzenesulfonic acid. DBL Atracurium Besylate Injection should not be used on a long-term basis (e.g. continuous use over a period of days) for maintenance intubation and muscle paralysis in tetanus, chest trauma, etc. Serum laudanosine levels may accumulate in these situations and therefore may increase the potential for causing CNS excitation.

4.4 Special Warnings and Precautions for Use

Atracurium paralyses the respiratory muscles as well as other skeletal muscles but has no known effect on consciousness, pain threshold, or cerebration. It should be used only with adequate anaesthesia.
DBL Atracurium Besylate Injection should be used only by those skilled in the management of artificial respiration and only when facilities are immediately available for endotracheal intubation and for providing adequate ventilation support, including the administration of oxygen under positive pressure and the elimination of carbon dioxide. The clinician must be prepared to assist or control ventilation, and anticholinesterase agents should be immediately available for reversal of neuromuscular blockade.
Like certain other agents used during anaesthesia, atracurium has the potential to cause histamine release and therefore, there is a possibility of life threatening anaphylactic reactions. For this reason it is essential that appropriate resuscitative equipment be immediately available.
Although atracurium is a less potent histamine releaser than tubocurarine, the possibility of histamine release in sensitive individuals must be considered. Special caution should be taken if administering DBL Atracurium Besylate Injection to patients in whom substantial histamine release would be especially hazardous (e.g. patients with clinically significant cardiovascular or respiratory disease) and in patients with any history suggesting a greater risk of histamine release (e.g. history of severe anaphylactoid reactions or asthma). The initial atracurium besilate dose recommended in these patients is lower (0.3 to 0.4 mg/kg) than for other patients, and should be administered slowly or in divided doses over one minute. However, even at these doses, limited clinical experience indicates that mean arterial pressure decreases in a substantial percentage of patients with a history of cardiovascular disease.
Do not give DBL Atracurium Besylate Injection by intramuscular administration.
DBL Atracurium Besylate must not be administered into the infusion line of a blood transfusion.
DBL Atracurium Besylate Injection has an acid pH and therefore should not be mixed with alkaline solutions (e.g. barbiturate solutions) in the same syringe or administered simultaneously during intravenous infusion through the same needle. Depending on the resultant pH of such mixtures, DBL Atracurium Besylate Injection may be inactivated and a free acid may be precipitated.
Caution should also be exercised when administering atracurium to patients who have shown hypersensitivity to other neuromuscular blocking agents since cross-sensitivity between neuromuscular blocking agents has been reported (see Section 4.3 Contraindications).
When a small vein is selected as the injection site, DBL Atracurium Besylate Injection should be flushed through the vein with physiological saline after injection. When other anaesthetic drugs are administered through the same indwelling needle or cannula as DBL Atracurium Besylate Injection, it is important that each drug is flushed through with an adequate volume of physiological saline.
Atracurium may have profound effects in patients with myasthenia gravis, Eaton-Lambert syndrome, or other neuromuscular diseases in which potentiation of nondepolarising agents has been noted. A reduced dosage of atracurium and the use of a peripheral nerve stimulator for assessing neuromuscular blockade is especially important in these patients. Similar precautions should be taken in patients with severe electrolyte disorders or carcinomatosis.
The safety of atracurium has not been established in patients with bronchial asthma.
Atracurium does not have significant vagal or ganglion blocking properties in the recommended dosage range. Consequently, atracurium will not counteract the bradycardia produced by many anaesthetic agents or by vagal stimulation during surgery. Therefore, bradycardia during anaesthesia may be more common with atracurium than with other muscle relaxants.
Atracurium should be administered over a period of 60 seconds to patients who may be unusually sensitive to falls in arterial blood pressure, e.g. those who are hypovolaemic.
As with other nondepolarising neuromuscular blocking agents, resistance to atracurium may develop in patients suffering from burns. Such patients may require increased doses of atracurium depending on the time elapsed since the burn injury and the extent of the burn.

Long-term use in intensive care units (ICU).

When there is a need for long-term mechanical ventilation, the benefits to risk ratio of neuromuscular blockade must be considered. There is only limited information available on the efficacy and safety of long-term (days to weeks) administration of atracurium intravenous infusions to facilitate mechanical ventilation in ICU. These data suggest that there is wide interpatient variability in dosage requirements and that these requirements may decrease or increase with time.
Little information is available on the plasma levels or clinical consequences of atracurium metabolites that may accumulate during days to weeks of atracurium administration in ICU patients. Laudanosine, a major biologically active metabolite of atracurium without neuromuscular blocking activity, produces transient hypotension and, in higher doses, cerebral excitatory effects (generalised muscle twitching and seizures) when administered to several species of animals. There have been rare reports of seizures in ICU patients who have received atracurium or other agents. These patients usually had predisposing causes (such as head trauma, cerebral oedema, hypoxic encephalopathy, viral encephalitis, uraemia). There are insufficient data to determine whether or not laudanosine contributes to seizures in ICU patients.
The rate of spontaneous recovery from neuromuscular block in ICU patients is independent of the duration of atracurium administration. Clinical trials have demonstrated that following the discontinuation of atracurium infusion in ICU patients, spontaneous recovery of four twitches in a train of four occurred between 15 and 75 minutes, with an average of approximately 30 minutes and spontaneous recovery to a train of four ratio > 75% (the ratio of the height of the fourth to the first twitch in a train-of-four) occurred between 32 and 108 minutes, with an average of approximately 60 minutes.
Whenever the use of atracurium or any neuromuscular blocking agent is contemplated in ICU, it is recommended that neuromuscular transmission be monitored continuously during administration with the help of a nerve stimulator. Additional doses of atracurium or any other neuromuscular blocking agent should not be given before there is a definitive twitch response. If no response is elicited, infusion administration should be discontinued until a response returns.
Multiple factors in anaesthesia practice are suspected of triggering malignant hyperthermia, a potentially fatal hypermetabolic state of skeletal muscle. Halogenated anaesthetic agents and succinylcholine are recognised as the principal pharmacologic triggering agents in malignant hyperthermia susceptible patients; however, since malignant hyperthermia can develop in the absence of established triggering agents, the clinician should be prepared to recognise and treat malignant hyperthermia in any patient scheduled for general anaesthesia. Reports of malignant hyperthermia have been rare in cases in which atracurium has been used. In a clinical study of malignant hyperthermia susceptible patients, atracurium did not trigger this syndrome.
In common with all neuromuscular blocking agents, monitoring of neuromuscular function is recommended during the use of atracurium in order to individualise dosing requirements, which may be variable over time.

Use in the elderly.

No data available.

Paediatric use.

Safety and effectiveness in children below the age of 1 month have not been established. No dosage adjustments are required for paediatric patients two years of age or older. See Section 4.2 Dose and Method of Administration for recommendations for dosing in patients between the ages of 1 month and 2 years.

Effects on laboratory tests.

No data available.

4.5 Interactions with Other Medicines and Other Forms of Interactions

As with other nondepolarising neuromuscular blocking agents, the magnitude and/or duration of atracurium's effects may be increased as a result of an interaction with the following agents.

Inhalation anaesthetics.

Atracurium is potentiated by isoflurane and enflurane anaesthesia, and only marginally potentiated by halothane anaesthesia (see Section 4.2 Dose and Method of Administration).

Antibiotics.

Including the aminoglycosides, polymyxins, spectinomycin, tetracyclines, lincomycin, clindamycin and vancomycin.

Antiarrhythmic drugs.

Lignocaine, procainamide, quinidine.

Beta-blockers.

Propranolol.

Calcium channel blockers.

Verapamil.

Diuretics.

Frusemide, thiazides, acetazolamide and possibly mannitol.

Ganglion blocking agents.

Trimetaphan, hexamethonium.

Others.

Magnesium sulfate, ketamine, lithium salts, and quinine.
It is not known whether the prior use of other nondepolarising neuromuscular blocking agents has any effect on the activity of atracurium. The prior use of suxamethonium reduces the onset (to maximum blockade) by approximately 2 to 3 minutes, and may increase the depth of neuromuscular blockade induced by atracurium. Therefore, atracurium should not be administered until the patient has recovered from suxamethonium induced neuromuscular blockade. If suxamethonium is used to prolong the neuromuscular blocking effects of atracurium, this may result in a prolonged and complex block which can be difficult to reverse with anticholinesterase drugs. If other muscle relaxants are used during the same procedure, the possibility of a synergistic or antagonistic effect should be considered.
Rarely, certain drugs may aggravate or unmask latent myasthenia gravis or actually induce a myasthenic syndrome. Such drugs include various antibiotics, beta-blockers (propranolol, oxprenolol), antiarrhythmic drugs (procainamide, quinidine), antirheumatic drugs (chloroquine, d-penicillamine), trimetaphan, chlorpromazine, steroids, phenytoin and lithium. In these situations a consequent increased sensitivity to atracurium would be expected.
The onset of neuromuscular blockade is likely to be lengthened and the duration of blockade shortened in patients receiving chronic anticonvulsant therapy (e.g. carbamazepine, phenytoin).
Treatment with anticholinesterases, commonly used in the treatment of Alzheimer's disease e.g. donepezil, may shorten the duration and diminish the magnitude of neuromuscular blockade with atracurium.

4.6 Fertility, Pregnancy and Lactation

Effects on fertility.

Fertility studies have not been performed.
(Category C)
Category C: Drugs which, owing to their pharmacological effects, have caused or may be suspected of causing, harmful effects on the human fetus or neonate without causing malformations. These effects may be reversible.
Atracurium crosses the placenta, but there have been no demonstrated adverse effects in the foetus or newborn infant. Atracurium has been shown to be potentially teratogenic at up to half the human dose when given to nonventilated rabbits by the subcutaneous route at sub-paralyzing doses. Therefore, atracurium should not be used during pregnancy unless, in the opinion of the physician, the potential benefits outweigh the unknown hazards.

Use in obstetrics.

It is not known whether muscle relaxants administered during vaginal delivery have immediate or delayed adverse effects on the foetus or increase the likelihood that resuscitation of the newborn infant will be necessary. The possibility that a forceps delivery will be necessary may increase.
In an open study, atracurium besilate (0.3 mg/kg) was administered to 26 pregnant women during delivery by caesarean section. No harmful effects were attributable to atracurium in any of the newborn infants, although small amounts of atracurium were shown to cross the placental barrier. The possibility of respiratory depression in the newborn infant should always be considered following caesarean section during which a neuromuscular blocking agent has been administered. In patients receiving magnesium sulfate, the reversal of neuromuscular blockade may be unsatisfactory and the atracurium dose should be lowered as indicated.
It is not known whether this drug is excreted in human milk. Because many drugs are excreted in human milk, caution should be exercised when DBL Atracurium Besylate Injection is administered to a nursing woman.

4.7 Effects on Ability to Drive and Use Machines

The effects of this medicine on a person's ability to drive and use machines were not assessed as part of its registration.

4.8 Adverse Effects (Undesirable Effects)

During extensive clinical trials, atracurium was well tolerated and produced few adverse reactions. As with most neuromuscular blocking agents, the potential exists for adverse effects suggestive of histamine release in susceptible patients.
Table 5 includes all adverse reactions reported attributable to atracurium during clinical trials.
Most adverse effects were of little clinical significance unless they were associated with significant hemodynamic changes. Table 6 summarises the incidences of substantial vital sign changes noted during atracurium clinical trials, in patients without cardiovascular disease, in whom these parameters were assessed.
Other adverse effects which have been reported during clinical trials include bronchospasm, tachycardia and anaphylactoid reactions.

Post-marketing experience.

In large scale atracurium surveillance studies, adverse reactions considered possibly or probably related to atracurium were observed in approximately 10% of patients. These include:

Cardiovascular system.

Generalised flushing and hypotension each occurred in approximately 2 to 3% of patients. Hypertension, tachycardia and bradycardia were observed in approximately 1% of patients.

Skin and appendages.

Localised skin reactions occurred in approximately 2 to 3% of patients.

Respiratory system.

Bronchospasm was reported in approximately 0.4% of patients.
The following adverse reactions have been reported during clinical practice for atracurium. Although these are the most frequently reported spontaneous adverse events, their frequency is classified as uncommon (approximately 0.01 to 0.02%). There are insufficient data to support an estimate of their incidence.

Body as a whole.

Allergic reactions (i.e. anaphylactic or anaphylactoid responses), reaction at injection site.

Nervous system.

Inadequate block, prolonged block.
There have been rare reports of seizures in ICU patients following long-term infusion of atracurium to support mechanical ventilation. There are insufficient data to define the contribution, if any, of atracurium and/or its metabolite laudanosine (see Section 4.4 Special Warnings and Precautions for Use).
The following adverse reactions have also been reported in ICU patients:

Cardiovascular system.

There have been rare instances of severe allergic reactions e.g. cardiac arrest.

Respiratory system.

Dyspnoea, laryngospasm, hypoxaemia.

Skin and appendages.

Rash, angioneurotic oedema.

Musculoskeletal system.

Muscle weakness and/or myopathy following prolonged use of muscle relaxants in severely ill patients in the ICU.

Reporting suspected adverse effects.

Reporting suspected adverse reactions after registration 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 at www.tga.gov.au/reporting-problems.

4.9 Overdose

There is limited experience with atracurium overdosage following parenteral administration. The possibility of iatrogenic overdosage can be minimised by carefully monitoring muscle twitch response to peripheral nerve stimulation. Excessive doses of atracurium are likely to produce symptoms consistent with extensions of the usual pharmacological effects. Overdosage may increase the risk of histamine release and adverse cardiovascular effects, especially hypotension. If cardiovascular support is necessary, this should include proper positioning, fluid administration, and the use of vasopressor agents if necessary. The patient's airway should be maintained, with manual or mechanical ventilation maintained as necessary. The duration of neuromuscular blockade may be prolonged and a peripheral nerve stimulator should be used to monitor recovery. Full sedation will be required since consciousness is not impaired. Recovery may be facilitated by the administration of an anticholinesterase agent such as neostigmine or pyridostigmine, in conjunction with an anticholinergic agent such as atropine.
For information on the management of overdose, contact the Poisons Information Centre on 13 11 26 (Australia).

5 Pharmacological Properties

5.1 Pharmacodynamic Properties

Mechanism of action.

Atracurium besilate is a nondepolarising neuromuscular blocking agent with an intermediate duration of action, administered intravenously to produce skeletal muscle relaxation.
Nondepolarising neuromuscular blocking agents antagonise the action of the neurotransmitter acetylcholine by competitively binding with cholinergic receptor sites on the motor endplate of the myoneural junction. These effects may be inhibited or reversed by the administration of anticholinesterases such as neostigmine or pyridostigmine.
The duration of neuromuscular blockade produced by equipotent doses of atracurium is approximately one-third to one-half that induced by tubocurarine and pancuronium, but similar or slightly longer than that induced by vecuronium. As with other nondepolarising neuromuscular blocking agents, the time to onset of paralysis is reduced, and the duration of maximum effect prolonged, with increasing atracurium doses.
The ED95 (dose required to produce 95% suppression of the muscle twitch response) averages 0.23 mg/kg. An initial atracurium besilate dose of 0.4 to 0.5 mg/kg generally produces maximum neuromuscular blockade within 3 to 5 minutes of administration, with suitable intubation conditions achieved within 2 to 2.5 minutes. Recovery from neuromuscular blockade (under balanced anaesthesia) can be expected to begin approximately 20 to 35 minutes after administration of atracurium. Recovery to 25% of control is achieved approximately 35 to 45 minutes after administration, and recovery is usually 95% complete within 60 to 70 minutes after administration.
The neuromuscular blocking effects of atracurium are enhanced in the presence of potent inhalation anaesthetics. For example, isoflurane and enflurane increase the potency of atracurium and prolong neuromuscular blockade by approximately 35%. However, halothane has only a marginal potentiating effect (approximately 20%) on the action of atracurium (see Section 4.2 Dose and Method of Administration).
Repeated administration of atracurium maintenance doses has no cumulative effect on the duration of neuromuscular blockade. Therefore, doses can be administered at relatively regular intervals with predictable results. After an initial atracurium besilate dose of 0.4 to 0.5 mg/kg under balanced anaesthesia, the first maintenance dose (0.08 to 0.10 mg/kg) is generally required within 20 to 45 minutes, and subsequent maintenance doses are usually required at approximately 15 to 25 minute intervals.
Once recovery from atracurium's neuromuscular blocking effects begins, it proceeds more rapidly than recovery from tubocurarine, alcuronium, and pancuronium. Regardless of the atracurium dose, the time from start of recovery (from complete block) to complete recovery (as measured by restoration of the tetanic response to 95% of normal) is approximately 30 minutes under balanced anaesthesia, and approximately 40 minutes under halothane, enflurane or isoflurane anaesthesia. Repeated doses have no cumulative effect on recovery rate.
Reversal of the neuromuscular blocking effects produced by atracurium can be achieved with an anticholinesterase agent such as neostigmine or pyridostigmine, in conjunction with an anticholinergic agent such as atropine. Under balanced anaesthesia, reversal can usually be attempted approximately 20 to 35 minutes after an initial atracurium besilate dose of 0.4 to 0.5 mg/kg, or approximately 10 to 30 minutes after a maintenance dose of 0.08 to 0.10 mg/kg, when recovery of muscle twitch has started. Complete reversal is usually accomplished within 8 to 10 minutes after administration of the reversing agents.
Rare cases of breathing difficulties, possibly related to incomplete reversal, have been reported following attempted pharmacological antagonism of atracurium induced neuromuscular blockade. As with other agents in this class, the tendency for residual neuromuscular block is increased if reversal is attempted at deep levels of blockade or if inadequate doses of reversal agents are employed.

Clinical trials.

No data available.

5.2 Pharmacokinetic Properties

The pharmacokinetics of atracurium besilate in humans are essentially linear within the dose range of 0.3 to 0.6 mg/kg. The elimination half-life is approximately 20 minutes. The duration of neuromuscular blockade produced by atracurium does not correlate with plasma pseudocholinesterase levels and is not altered by the absence of renal function. This is consistent with the results of in vitro studies which have shown that atracurium is inactivated in plasma via two nonoxidative pathways: ester hydrolysis, catalysed by nonspecific esterases; and Hofmann elimination, a nonenzymatic chemical process which occurs at physiological pH and body temperature. The rate of Hofmann elimination, which is the principal route of elimination for atracurium, is increased at a higher pH or at higher temperatures, and reduced at a lower pH or lower temperatures. Some placental transfer occurs in humans.
Radiolabel studies demonstrated that atracurium undergoes extensive degradation in cats, and that neither the renal nor hepatic routes play a major role in its elimination. Biliary and urinary excretion were the major routes of excretion of radioactivity (totalling > 90% of the labelled dose within 7 hours of dosing), of which atracurium represented only a minor fraction. The metabolites in bile and urine were similar, including products of Hofmann elimination and ester hydrolysis. A major metabolite is laudanosine which accumulates during long-term use (i.e. over a period of days) and has CNS activating properties. In normal use, the levels of laudanosine obtained do not produce any significant pharmacological effects.
The effects of haemodialysis, haemoperfusion and haemofiltration on plasma levels of atracurium and its metabolites are unknown.
With initial atracurium besilate doses up to 0.5 mg/kg, plasma histamine levels were shown to increase by 15% in a dose dependent way, but haemodynamic changes were minor within this dose range. Following the administration of 0.6 mg/kg of atracurium besilate, histamine levels were shown to increase by 92%, and were shown to correlate with a transient (5 minutes) decrease in blood pressure and a brief (2 to 3 minutes) episode of skin flushing. While these effects are of little clinical significance in most patients, the possibility of substantial histamine release at recommended doses must be considered in sensitive individuals, or in patients in whom substantial histamine release would be especially hazardous (e.g. patients with significant respiratory or cardiovascular disease).
It is not known whether the prior use of other nondepolarising neuromuscular blocking agents has any effect on the activity of atracurium. The prior use of suxamethonium reduces the onset (to maximum blockade) by approximately 2 to 3 minutes, and may increase the depth of neuromuscular blockade induced by atracurium (see Section 4.5 Interactions with Other Medicines and Other Forms of Interactions).

5.3 Preclinical Safety Data

Genotoxicity.

Mutagenicity tests showed that atracurium was non-mutagenic in both the Ames Salmonella assay (at concentrations up to 1,000 microgram/plate) and in a rat bone marrow cytogenicity assay (at up to paralysing doses). A positive response was observed in the mouse lymphoma assay under conditions (80 and 100 microgram/mL, in the absence of metabolic activation) which killed over 80% of the treated cells. There was no mutagenicity at 60 microgram/mL and lower, concentrations which killed up to half of the treated cells. A far weaker response was observed in the presence of metabolic activation at concentrations (1,200 microgram/mL and higher) which also killed over 80% of the treated cells.
Mutagenicity testing is intended to simulate chronic (years to lifetime) exposure in an effort to determine potential carcinogenicity. Thus, a single positive mutagenicity response for a drug used infrequently and/or briefly is of questionable clinical relevance.

Carcinogenicity.

Carcinogenesis studies have not been performed.

6 Pharmaceutical Particulars

6.1 List of Excipients

Benzenesulfonic acid, water for injections.

6.2 Incompatibilities

Incompatibilities were either not assessed or not identified as part of the registration of this medicine.

6.3 Shelf Life

In Australia, information on the shelf life can be found on the public summary of the Australian Register of Therapeutic Goods (ARTG). The expiry date can be found on the packaging.
To reduce microbiological hazard, use as soon as practicable after dilution. If storage is necessary, hold at 2 to 8°C for not more than 24 hours.

6.4 Special Precautions for Storage

DBL Atracurium Besylate Injection should be stored at 2 to 8°C. Do not freeze. Protect from light.

6.5 Nature and Contents of Container

DBL Atracurium Besylate Injection 25 mg/2.5 mL.

Clear Type 1 glass ampoule, 5 ampoules (AUST R 57992).

DBL Atracurium Besylate Injection 50 mg/5 mL.

Clear Type 1 glass ampoule, 5 ampoules (AUST R 57993).

6.6 Special Precautions for Disposal

Any unused atracurium besilate from opened ampoules should be discarded.
In Australia, any unused medicine or waste material should be disposed of in accordance with local requirements.

6.7 Physicochemical Properties

Chemical structure.


Chemical name: 2,2'-(3,11-dioxo-4,10-dioxatridecamethylene)bis(1,2,3,4-tetrahydro-6,7-dimethoxy-2-methyl-1-veratrylisoquinolinium) di(benzenesulfonate). MW: 1,243.5. Empirical Formula: C53H72N2O12,2C6H5O3S.

CAS number.

64228-81-5.

7 Medicine Schedule (Poisons Standard)

Schedule 4.

Summary Table of Changes