Pharmacological agents for the treatment of urinary incontinence due to overactive bladder

Abstract

Although the exact aetiology of overactive bladder is unknown to date, pharmacological therapy has been targeted to both the central and peripheral nervous systems. Potential CNS targets include GABA, opioid, serotonin (5-HT), dopamine and glutaminergic receptors as well as the alpha-adrenoceptors. Potential PNS targets include muscarinic receptors, calcium and potassium channels and alpha- and beta-adrenergic receptors. Since acetylcholine is the primary excitatory neurotransmitter involved in bladder (detrusor) contraction and emptying, anticholinergic agents are the primary compounds used clinically to decrease involuntary detrusor contractions. Anticholinergic therapy has a stabilising effect on the bladder (detrusor muscle); increases bladder capacity; decreases frequency of involuntary detrusor contractions; and delays the initial urge to void, but does not affect warning time. However, the clinical utility of antimuscarinic therapy is limited by the lack of receptor selectivity, resulting in the classic anticholinergic side effects of dry mouth, blurred vision, constipation and potentially, CNS effects such as somnolence and impaired cognitive function. These unwanted side effects often result in premature discontinuation of therapy and poor compliance. Previous attempts to develop uroselective alpha-adrenergic receptor antagonists have not been successful and although research continues, the hope that this class of agents would be viable alternatives to the anticholinergics remains to be proven in the clinical setting. The recent demise of several potassium channel openers does not augur well for the future of this class of agent. The reasons for the discontinuation of trials with these agents have not been fully elucidated, but one must assume that they were not uroselective and the cardiovascular side effects rendered them less than useful clinically. The serotonin re-uptake inhibitors appear to be promising novel therapeutic agents aimed at controlling bladder over-activity through specific CNS pathways. The sensory side of the micturition reflex is a potential therapeutic target. Agents to desensitise afferent nerve endings involved in C-fibre afferent reflexes include capsaicin and resiniferatoxin. Their clinical applicability is currently being evaluated. Finally, the recent findings related to the role of the P2X3 receptor in the sensory aspects of bladder filling have created new interest in the future development of agents that will improve the management of this prevalent and debilitating condition.