An Update on the Use of Transdermal Oxybutynin in the Management of Overactive Bladder Disorder

Overview

Journal Ther Adv Urol

Publisher Sage Publications

Date 2016 Apr 2

PMID 27034721

Citations 4

Authors

Joshua A Cohn

Elizabeth T Brown

W Stuart Reynolds

Melissa R Kaufman

Douglas F Milam

Roger R Dmochowski

Affiliations

Soon will be listed here.

Abstract

Antimuscarinic medications are used to treat nonneurogenic overactive bladder refractory to nonpharmacologic therapy. Side effects such as dry mouth, constipation, blurred vision, dizziness, and impaired cognition limit the tolerability of therapy and are largely responsible for high discontinuation rates. Oxybutynin is a potent muscarinic receptor antagonist whose primary metabolite after first-pass hepatic metabolism is considered largely responsible for its associated anticholinergic side effects. Transdermal administration of medications bypasses hepatic processing. Specifically with oxybutynin, whose low molecular weight permits transdermal administration, bioavailability of the parent drug with oral administration is less than 10%, whereas with transdermal delivery is a minimum of 80%. The result has been an improved side effect profile in multiple clinical trials with maintained efficacy relative to placebo; however, the drug may still be discontinued by patients due to anticholinergic side effects and application site reactions. Transdermal oxybutynin is available as a patch that is changed every 3-4 days, a gel available in individual sachets, or via a metered-dose pump that is applied daily. The transdermal patch was briefly available as an over-the-counter medication for adult women, although at this time all transdermal formulations are available by prescription only.

Citing Articles

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Comparison of Oxidative Effects of Two Different Administration Form of Oxybutynin in the Potential Target Tissues.

Kaltalioglu K, Tugcu-Demiroz F, Acarturk F, Balabanli B, Coskun-Cevher S Adv Urol. 2019; 2018:8124325.

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Pharmacotherapy for Pediatric Neurogenic Bladder.

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References

Appell R, Chancellor M, Zobrist R, Thomas H, Sanders S . Pharmacokinetics, metabolism, and saliva output during transdermal and extended-release oral oxybutynin administration in healthy subjects. Mayo Clin Proc. 2003; 78(6):696-702. DOI: 10.4065/78.6.696. View

Yamaguchi O, Uchida E, Higo N, Minami H, Kobayashi S, Sato H . Efficacy and safety of once-daily oxybutynin patch versus placebo and propiverine in Japanese patients with overactive bladder: A randomized double-blind trial. Int J Urol. 2013; 21(6):586-93. DOI: 10.1111/iju.12372. View

Lucas M, Bosch R, Burkhard F, Cruz F, Madden T, Nambiar A . EAU guidelines on assessment and nonsurgical management of urinary incontinence. Eur Urol. 2012; 62(6):1130-42. DOI: 10.1016/j.eururo.2012.08.047. View

Pizzi L, Talati A, Gemmen E, Dahl N, Bunz T, Sand P . Impact of transdermal oxybutynin on work productivity in patients with overactive bladder: results from the MATRIX study. Pharmacoeconomics. 2009; 27(4):329-39. DOI: 10.2165/00019053-200927040-00005. View

Guy R, Hadgraft J, Bucks D . Transdermal drug delivery and cutaneous metabolism. Xenobiotica. 1987; 17(3):325-43. DOI: 10.3109/00498258709043943. View

Dmochowski R, Sand P, Zinner N, Gittelman M, Davila G, Sanders S . Comparative efficacy and safety of transdermal oxybutynin and oral tolterodine versus placebo in previously treated patients with urge and mixed urinary incontinence. Urology. 2003; 62(2):237-42. DOI: 10.1016/s0090-4295(03)00356-x. View

Nitti V, Sanders S, Staskin D, Dmochowski R, Sand P, MacDiarmid S . Transdermal delivery of drugs for urologic applications: basic principles and applications. Urology. 2006; 67(4):657-64. DOI: 10.1016/j.urology.2005.11.039. View

Dmochowski R, Newman D, Sand P, Rudy D, Caramelli K, Thomas H . Pharmacokinetics of oxybutynin chloride topical gel: effects of application site, baths, sunscreen and person-to-person transference. Clin Drug Investig. 2011; 31(8):559-571. DOI: 10.2165/11588990-000000000-00000. View

Starkman J, Dmochowski R . Management of overactive bladder with transdermal oxybutynin. Rev Urol. 2006; 8(3):93-103. PMC: 1578546. View

10.

Caulfield M, Birdsall N . International Union of Pharmacology. XVII. Classification of muscarinic acetylcholine receptors. Pharmacol Rev. 1998; 50(2):279-90. View

11.

Dmochowski R, Nitti V, Staskin D, Luber K, Appell R, Davila G . Transdermal oxybutynin in the treatment of adults with overactive bladder: combined results of two randomized clinical trials. World J Urol. 2005; 23(4):263-70. DOI: 10.1007/s00345-005-0012-8. View

12.

Cartwright R, Srikrishna S, Cardozo L, Robinson D . Patient-selected goals in overactive bladder: a placebo controlled randomized double-blind trial of transdermal oxybutynin for the treatment of urgency and urge incontinence. BJU Int. 2010; 107(1):70-6. DOI: 10.1111/j.1464-410X.2010.09508.x. View

13.

Nabi G, Cody J, Ellis G, Herbison P, Hay-Smith J . Anticholinergic drugs versus placebo for overactive bladder syndrome in adults. Cochrane Database Syst Rev. 2006; (4):CD003781. PMC: 8729219. DOI: 10.1002/14651858.CD003781.pub2. View

14.

Hajjar E, Cafiero A, Hanlon J . Polypharmacy in elderly patients. Am J Geriatr Pharmacother. 2008; 5(4):345-51. DOI: 10.1016/j.amjopharm.2007.12.002. View

15.

Gomelsky A, Dmochowski R . Oxybutynin gel for the treatment of overactive bladder. Expert Opin Pharmacother. 2012; 13(9):1337-43. DOI: 10.1517/14656566.2012.688953. View

16.

Wang P, Luthin G, Ruggieri M . Muscarinic acetylcholine receptor subtypes mediating urinary bladder contractility and coupling to GTP binding proteins. J Pharmacol Exp Ther. 1995; 273(2):959-66. PMC: 3277792. View

17.

Wiedersberg S, Guy R . Transdermal drug delivery: 30+ years of war and still fighting!. J Control Release. 2014; 190:150-6. DOI: 10.1016/j.jconrel.2014.05.022. View

18.

Rovner E, Wein A . Once-daily, extended-release formulations of antimuscarinic agents in the treatment of overactive bladder: a review. Eur Urol. 2002; 41(1):6-14. DOI: 10.1016/s0302-2838(01)00009-4. View

19.

Hall S, Thummel K, Watkins P, Lown K, Benet L, Paine M . Molecular and physical mechanisms of first-pass extraction. Drug Metab Dispos. 1999; 27(2):161-6. View

20.

Cartwright P, Coplen D, Kogan B, Volinn W, Finan E, Hoel G . Efficacy and safety of transdermal and oral oxybutynin in children with neurogenic detrusor overactivity. J Urol. 2009; 182(4):1548-54. DOI: 10.1016/j.juro.2009.06.058. View