Data Sheet

ATROVENT^®

Ipratropium bromide

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ATROVENT contains ipratropium bromide which is a quaternary ammonium compound with anticholinergic (parasympatholytic) properties. In preclinical studies, it appears to inhibit vagally mediated reflexes by antagonising the action of acetylcholine, the transmitter agent released from the vagus nerve. Anticholinergics prevent the increase in intracellular concentration of cyclic guanosine monophosphate (cyclic GMP) caused by interaction of acetylcholine with the muscarinic receptor on bronchial smooth muscle.

The bronchodilation following inhalation of ATROVENT is induced by local drug concentrations sufficient for anticholinergic efficacy at the bronchial smooth muscle and not by systemic drug concentrations.

In controlled 90 day studies in patients with bronchospasm associated with chronic obstructive pulmonary disease (chronic bronchitis and emphysema) significant improvements in pulmonary function (FEV₁ and FEF_25-75% increases of 15% or more) occurred within 15 minutes, reached a peak in 1-2 hours, and persisted in the majority of patients for up to 6 hours.

In controlled 90 day studies in patients with bronchospasm associated with asthma, significant improvements in pulmonary function (FEV₁ increases of 15% or more) occurred in 40% of the patients.

Preclinical and clinical evidence suggest no deleterious effect of ATROVENT on airway mucous secretion, mucociliary clearance or gas exchange.

The bronchodilator effect of ATROVENT in the treatment of acute bronchospasm associated with asthma has been shown in studies in children over 6 years of age. In most of these studies ATROVENT was administered in combination with an inhaled beta-agonist.

Although the data are limited, ATROVENT has been shown to have a therapeutic effect in the treatment of bronchospasm associated with viral bronchiolitis and bronchopulmonary dysplasia in infants and very small children.

Pharmacokinetics

The therapeutic effect of ATROVENT is produced by a local action in the airways. Therefore time courses of bronchodilation and systemic pharmacokinetics do not run in parallel.

Following inhalation dose portions from 10 to 30%, depending on the formulation and inhalation technique, are generally deposited in the lungs. The major part of the dose is swallowed and passes the gastro-intestinal tract.

Due to the negligible gastro-intestinal absorption of ipratropium bromide the bioavailability of the swallowed dose portion accounts for only ~2% of the dose. This fraction of the dose does not make a relevant contribution to the plasma concentrations of the active ingredient. The portion of the dose deposited in the lungs reaches the circulation rapidly (within minutes) and has a nearly complete systemic availability. From data of renal excretion (0-24 hrs) the total systemic bioavailability (pulmonary and gastro-intestinal portions) of inhaled doses of ipratropium bromide was estimated to be in the range 7 to 28%. It is assumed that this is also a valid range for the inhalation from the solution for inhalation preparation.

Kinetic parameters describing the disposition of ipratropium bromide were calculated

from plasma concentrations after i.v. administration.

A rapid biphasic decline in plasma concentrations is observed. The volume of distribution (Vz) is 338 l (≈ 4.6 l/kg). The drug is minimally (less then 20%) bound to plasma proteins [47,48]. The ipratropium ion does not cross the blood-brain barrier, consistent with the ammonium structure of the molecule. The half-life of the terminal elimination phase is about 1.6 hours.

The mean total clearance of the drug is determined to be 2.3 L/min. The major portion of approximately 60% of the systemic available dose is eliminated by metabolic degradation, probably in the liver. The main urinary metabolites bind poorly to the muscarinic receptor and have to be regarded as ineffective.

A portion of approximately 40% of the systemic available dose is cleared via urinary excretion corresponding to an experimental renal clearance of 0.9 L/min. (After oral dosing less than 1% of the dose is renally excreted indicating an insignificant absorption of ipratropium bromide from the gastro-intestinal tract.)

In excretion balance studies after intravenous administration of a radioactive dose less than 10% of the drug-related radioactivity (including parent compound and all metabolites) are excreted via the biliary-faecal route. The dominant excretion of drug-related radioactivity occurs via the kidneys.

Indications

ATROVENT is indicated as a bronchodilator for maintenance treatment of bronchospasm associated with chronic obstructive pulmonary disease, including chronic bronchitis and emphysema and when used concomitantly with inhaled beta-agonists, for asthma.

Dosage and Administration

The following dosages should be regarded as a guide and adjusted to suit the requirements of the individual patient to provide optimal routine maintenance.

If therapy does not produce a significant improvement or if the patient's condition gets worse, medical advice must be sought in order to determine a new plan of treatment. In the case of acute or rapidly worsening dyspnoea (difficulty in breathing) a doctor should be consulted immediately.

In order to ensure that the inhaler is used correctly, administration should be supervised by an adult.

Respules: Adults (including elderly) and adolescents over 12 years of age:

Paediatric Respules:

ATROVENT respules are commonly used in combination with β2-agonist to maximise bronchodilation.

ATROVENT RESPULES can be administered using a range of commercially available nebulising devices. Where wall oxygen is available it is best administered at a flow rate of 6 - 8 litres per minute.

ATROVENT Respules and disodium cromoglycate inhalation solutions that contain the preservative benzalkonium chloride should not be administered simultaneously in the same nebuliser as precipitation may occur.

Contraindications

ATROVENT metered dose aerosol is contraindicated in patients with a history of hypersensitivity to soya lecithin or related food products such as soybean and peanut. For such patients other ATROVENT formulations (solutions for inhalation, Inhalets) without soya lecithin can be used.

ATROVENT should also not be taken by patients with known hypersensitivity to atropine or its derivatives or to any other component of the product.

Warnings and Precautions

ATROVENT should be used with caution in patients predisposed to narrow-angle glaucoma, or with prostatic hyperplasia or bladder-neck obstruction.

Patients with cystic fibrosis may be more prone to gastro-intestinal motility disturbances.

Immediate hypersensitivity reactions may occur after administration of ATROVENT, as demonstrated by rare cases of urticaria, angio-oedema, rash, bronchospasm, oropharyngeal oedema and anaphylaxis.

Ocular complications

There have been isolated reports of ocular complications (i.e. mydriasis, increased intraocular pressure, narrow-angle glaucoma, eye pain) when aerosolised ipratropium bromide either alone or in combination with an adrenergic beta2-agonist, has come into contact with the eyes. Thus patients must be instructed in the correct administration of ATROVENT metered aerosol.

Eye pain or discomfort, blurred vision, visual halos or coloured images in association with red eyes from conjunctival and corneal congestion may be signs of acute narrow-angle glaucoma. Should any combination of these symptoms develop, treatment with miotic drops should be initiated and specialist advice should be sought immediately.

Patients must be instructed in the correct administration of ATROVENT solution for inhalation. Care must be taken not to allow the solution or mist into the eyes. It is recommended that the nebulised solution is administered via a mouth piece. If this is not available and a nebuliser mask is used, it must fit properly. Patients who may be predisposed to glaucoma should be warned specifically to protect their eyes.

Use in Pregnancy

The safety of ATROVENT during human pregnancy has not been established. The benefits of using ATROVENT during a confirmed or suspected pregnancy must be weighed against possible hazards to the unborn child. Preclinical studies have shown no embryotoxic or teratogenic effects following inhalation or intranasal application at doses considerably higher than those recommended in man.

Use in Lactation

It is not known whether ATROVENT is excreted into breast milk. Although lipid-insoluble quaternary cations pass into breast milk, it is unlikely that ATROVENT would reach the infant to an important extent, when administered by inhalation. However, because many drugs are excreted into breast milk, caution should be exercised when ATROVENT is administered to nursing mothers.

Effect on driving or operating machinery

Presumed to be safe or unlikely to produce an effect on the ability to drive or use machinery.

Adverse Effects

The most frequent non-respiratory adverse events reported in clinical trials were gastro-intestinal motility disorders (e.g. constipation, diarrhoea and vomiting) headache and dryness of the mouth.

The following side effects have been observed with ATROVENT: increased heart rate, palpitations, supraventricular tachycardia and atrial fibrillation in patients known to be susceptible, ocular accommodation disturbances, gastro-intestinal motility disturbances, nausea and urinary retention. These side effects have been rare and reversible. The risk of urinary retention may be increased in patients with pre-existing outflow tract obstruction.

Ocular side effects have been reported (see: Warnings and Precautions).

As with other inhaled therapy including bronchodilators cough, local irritation and, inhalation induced bronchoconstriction have been observed.

Allergic-type reactions such as skin rash, angio-oedema of the tongue, lips and face, urticaria (including giant urticaria), laryngospasm and anaphylactic reactions have been reported, with positive rechallenge in some cases. Many of the patients have had a history of allergy to other drugs and/or foods, including soybean (see: Contraindications).

Interactions

Beta-adrenergics and xanthine preparations may intensify the bronchodilator effect.

The risk of acute glaucoma in patients with a history of narrow-angle glaucoma (see Warnings and Precautions) may be increased when nebulised ipratropium bromide and beta-mimetics are administered simultaneously.

Overdosage

No symptoms specific to overdose have been encountered. In view of the wide therapeutic range and topical administration of ATROVENT, no serious anticholinergic symptoms are to be expected. Minor systemic manifestations of anticholinergic action, including dry mouth, visual accommodation disturbances and increase of heart rate may occur.

Pharmaceutical Precautions

Store in a safe place out of the reach of children.

Store below 25°C

Inhaler

Shake well before use. Do not expose ATROVENT Metered Dose Inhaler to high temperatures. Do not force the inhaler open even when apparently empty.

Medicine Classification

Prescription Medicine

Package Quantities

Inhaler 20 mcg dose, 200 metered doses.

Inhaler (Forte) 40 mcg dose, 200 metered doses.

Respule Paediatric 250 mcg / 1ml, and 250 mcg / 2ml, 10 respules

Respule 500 mcg / 1ml, and 500 mcg / 2ml, 20 respules

Further Information

Instructions for Use of Metered Dose Inhaler:

The correct operation of the metered aerosol apparatus is essential for successful therapy.

When using the aerosol for the first time it should be shaken, the protective cap removed and the valve depressed once or twice to prime the metering valve before initial use.

The correct operation of the metered aerosol apparatus is essential for successful therapy.

1. Remove the protective cap.
   
2. Shake the metered aerosol well before each use. (See Fig 1)
3. Breathe out deeply.
4. Hold the metered aerosol (as shown in Fig 2), and close lips over the mouthpiece. The arrow and the base of the container should be pointing upwards.
   
5. Breathe in as deeply as possible, pressing the base of the container firmly at the same time, this releases one metered dose. Hold the breath for a few seconds, then remove the mouthpiece from the mouth and breathe out.
6. Replace the protective cap after use.

The container is under pressure and should on no account be opened by force or exposed to temperatures exceeding 50ºC. As the container is not transparent it is not possible to see when the contents are used up, but shaking the container will show if there is any remaining fluid.

The plastic mouthpiece has been specially designed for use with ATROVENT metered aerosol to ensure that you always get the right amount of the medicine. The mouthpiece must never be used with any other metered aerosol nor must the ATROVENT metered aerosol be used with any mouthpiece other than the one supplied with the product.

The mouthpiece should always be kept clean and can be washed in warm water. If soap or detergent is used, the mouthpiece should be thoroughly rinsed in clear water.

Instructions for Use / Handling of Respule:

Prepare the nebuliser by following the manufacturer's instructions and the advice of your doctor.

1. Carefully separate a new vial from the strip (See Fig 1). NEVER use one that has been opened already.
   
   (fig. 1)
2. Open the vial by simply twisting off the top, always taking care to hold it in an upright position. (See Fig 2).
   
   (fig. 2)
3. Unless otherwise instructed by your doctor, squeeze all the contents of the plastic vial into the nebuliser chamber (See Fig 3).
   
   (fig. 3)
4. Assemble the nebuliser and use it as directed by your doctor.
5. After nebulisation clean the nebuliser according to the manufacturer's instructions.

As the Respules contain no preservative, it is important that you use the contents as soon as possible after opening to avoid microbial contamination. Partly used, opened or damaged vials should be discarded.

ATROVENT is also available as: ATROVENT NASAL AQUEOUS 20µg/ puff (with a nasal adaptor) for the treatment of allergic, perennial and vasomotor rhinitis when characterised by watery rhinorrhoea.

With the respiratory preparation, even in doses exceeding the normal therapeutic range, there have been no reports of adverse effects on pulmonary secretion or mucociliary clearance. As the surface area of the lung is far greater than that of the nose, the ATROVENT concentration per square centimetre of lung obtained with the respiratory presentations is considerably less than that obtained in the nose.

Pre-clinical Information

In vitro bacterial mutagenicity assays (Ames test) did not indicate a mutagenic potential. The results of in vivo assays (micronucleus test, dominant lethal test in mice, cytogenic assay on bone marrow cells of Chinese hamsters), did not demonstrate an increase in the rate of chromosomal aberrations.

No tumorigenic or carcinogenic effects were demonstrated in long term studies in mice and rats.

Studies to investigate the possible influence of ATROVENT on fertility, embryo-fetotoxicity, and peri-/postnatal development have been performed on mice, rats and rabbits. Even the highest oral dose levels employed (1000 mg/kg/day in the rat and
125 mg/kg/day in the rabbit, which proved to be maternotoxic and, to some extent, embryo-/fetotoxic at dosages, far in excess to the human therapeutic dose, did not induce malformations in the offspring.

Source Document

BPI No: 0019-05 dated 15.5.03
BPI No.:0012-05 dated 15.5.03
BPI No.:0022-04 dated 15.5.03
BPI No.:0013-04 dated 15.5.03

Name and Address

Boehringer Ingelheim (N.Z.) Limited
P O Box 76-216
Manukau City
Auckland
NEW ZEALAND

Telephone: (09) 262-1356
Facsimile: (09) 262-1462

Date of Preparation

24 September 2003