Tiotropium bromide

Description

Tiotropium bromide is a long-acting inhaled muscarinic antagonist, developed for the once-daily treatment of chronic obstructive pulmonary disease. Tiotropium bromide can be prepared in three steps. The Grignard condensation of 2-thienyl magnesium bromide with oxalic acid dimethyl ester, followed by a transesterlfication with scopine provided the ester which was quaternized with methyl bromide. Tiotropium bromide binds to human recombinant muscarinic receptors M₁-, M₂- and M₃-subtypes with high and similar affinity, comparable to those obtained with ipratropium. Tiotropium bromide is characterized by its novel property of kinetic selectivity : while ipratropium rapidly dissociated from each of the receptor subtypes, tiotropium dissociated rapidly from M₂ receptors (t_1/2=3.6 h) but slowly from MI (t_1/2=14.6 h) and M₃ (t_1/2=34.7 h) receptors. Inhibition of cholinergic bronchospasm by tiotropium bromide was demonstrated in anesthetized guinea pigs, rabbits and dogs. In healthy volunteers, inhalation of tiotropium bromide resulted in an absolute bioavailability of 19.5%, a t,,, value of 5 min. and the terminal half-life value of 5-6 days. There was no evidence of drug accumulation after repeated administration. The extent of biotransfonation was small with a urinary excretion of 74% of unchanged substance after iv. administration. Long term studies in patients with stable COPD have demonstrated that tiotropium bromide gave an effective bronchodilation that was maintained over 24h, significantly improved lung function as measured by FEVI (+ll-12%) and showed progressive reduction in dyspnea. It also reduced exacerbations of COPD patients and improved quality of life. Tiotropium bromide produced greater and more sustained bronchodilation than ipratropium bromide. Tiotropium has been shown to cause superior bronchodilatation and symptomatic improvements when compared to twice daily salmeterol in COPD. Tiotropium bromide was well tolerated and caused few adverse effects. The most common side effect reported was the mechanism-related effect of dry mouth.

Description

Tiotropium is an antagonist that binds to M₁, M₂, and M₃ muscarinic acetylcholine receptors (K_ds = 0.43, 0.54, and 0.69 nM, respectively, for human receptors). It decreases acetylcholine-induced contraction of isolated guinea pig trachea in a concentration-dependent manner. In vivo, tiotropium (1 g/L inhaled aerosol) confers complete protection against acetylcholine-induced bronchospasms in anesthetized dogs. Formulations containing tiotropium have been used in the treatment of chronic obstructive pulmonary disease (COPD).

Chemical properties

White Solid

Originator

Boehringer lngelheim (Germany)

The Uses of Tiotropium bromide

Muscarinic receptor antagonist. Bronchodilator

The Uses of Tiotropium bromide

Specially selective choline drug resistance

The Uses of Tiotropium bromide

Anti - Asthmatic

What are the applications of Application

Tiotropium Bromide is an antimuscarinic compound that prevents binding of acetylcholine

Definition

ChEBI: An organic bromide salt having (1alpha,2beta,4beta,5alpha,7beta)-7-[(hydroxydi-2-thienylacetyl)oxy]-9,9-dimethyl-3-oxa-9-azoniatricyclo[3.3.1.02,4]non ne as the counterion. Used (in the form of the hydrate) for maintenance treatment of airflow obstruction in patients with chronic obstructive pulmonary disease.

brand name

Spiriva

General Description

Tiotropium bromide, (1 ,2 ,4 ,7 )-7-[(hydroxidi-2-thienylacetyl)oxy]-9,9-dimethyl-3-oxa-9-azoniatricyclo[3.3.1.02,4]nonane, (Spiriva) is anantimuscarinic agent that is used in an inhalation device to deliverthe drug into the lungs. It is indicated in the treatment ofchronic obstructive pulmonary disease (COPD), includingchronic bronchitis and emphysema. The standard once-dailydose is 18 g of tiotropium.

Pharmacokinetics

Tiotropium is administered as a dry powder via inhalation using a HandiHaler, in which is placed the drug, contained in a green capsule. Patients should be cautioned not to be confused and take the medication orally. Systemic distribution following oral inhalation is minimal, essentially because of its hydrophilic character. If swallowed, only approximately 14% of the dose is eliminated in the urine, with the remainder being found in the feces. Inhaled tiotropium has a 30-minute onset of action but a much longer duration of action than ipratropium (24 versus <4 hours, respectively). Tiotropium is metabolized by both CYP3A4 and CYP2D6, followed by glutathione conjugation to a variety of metabolites. Only a very small amount is nonenzymatically hydrolyzed to inactive products.

Clinical Use

Tiotropium is the dithienyl derivative of N-methyl scopolamine, a quaternary analogue of naturally occurring scopolamine in Atropa belladonna. It is indicated primarily for the relief of bronchospasms associated with COPD and can be considered to be a site-specific, local medication to the lung.

Side Effects

Tiotropium has an adverse reaction profile similar to that of ipratropium, with dry mouth being the most common adverse effect; however, blurred vision, tachycardia, urinary difficulty, headache precipitation, and exacerbation of narrow-angle glaucoma have been reported.

Synthesis

At least two synthetic paths have been disclosed in the patent and literature. The synthesis of tiotropium is depicted in the scheme. Tropenol hydrochloride 209 was first neutralized with ammonia in toluene and then the free base was reacted with methyl di-(2- thienyl)glycolate (210) in the presence of sodium hydride to furnish desired tropenol ester 211 in 83% yield. The vanadium-catalyzed oxidation of tropenol ester 211 using hydrogen peroxide-urea complex gave epoxide 212, which was converted into its quaternary salt 25 with methyl bromide. The last two steps were carried out in a one-pot process in 88%yield.

storage

Store at +4°C