The physiology of the mammalian urinary outflow tract

Alison F. Brading

doi:10.1111/j.1469-445X.1999.tb00084.x

Abstract

Urinary outflow from the mammalian bladder occurs through the urethra. This outflow tract is a complicated structure composed of striated and smooth muscle and vascular urothelium. It is controlled by somatic and autonomic nerves and has several functions: it generates sustained tone to prevent urinary leakage during bladder filling; it generates transient reflex increases in pressure to prevent opening of the lumen when abdominal pressure rises; it undergoes relaxation preceding micturition and can generate urethral opening and shortening during micturition. A urethral pressure profile shows a peak pressure of [greater than or equal to] 100 cmH2O. The outermost coat is striated muscle, the striated or external sphincter. The fibres are predominantly circularly oriented. The extent varies in different species and between sexes. In the human female it extends the length of the urethra, and is composed mainly of slow twitch fibres. In the male, the sphincter extends from the membranous urethra over the base of the prostate and has nearly equal numbers of slow and fast twitch fibres. In both sexes, the posterior border may be deficient in striated muscle, and filled by circularly oriented smooth muscle. Activity in the slow twitch fibres through somatic nerves may be continuous during bladder filling. Outer circular and inner longitudinal smooth muscle is present Strips from either layer will generate sustained tone particularly if dissected from the high pressure zone. This tone is myogenic, and may be achieved in the absence of action potentials, but relies on influx of calcium through L-type calcium channels. Both layers receive sympathetic and parasympathetic excitatory innervation and nitrergic inhibitory innervation. Normal urethral pressure requires blood flow to the urothelium (lamina propria). Striated and smooth muscles are both thought to contribute to the resting urethral pressure in the human. The precise role of the smooth muscles during micturition is as yet unresolved.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Hamill, Owen P. and Martinac, Boris 2001. Molecular Basis of Mechanotransduction in Living Cells. Physiological Reviews, Vol. 81, Issue. 2, p. 685.

SALMI, SAIJA SANTTI, RISTO GUSTAFSSON, JAN-ÂKE and MÁKELÁ, SARI 2001. CO-LOCALIZATION OF ANDROGEN RECEPTOR WITH ESTROGEN RECEPTOR β IN THE LOWER URINARY TRACT OF THE MALE RAT. Journal of Urology, Vol. 166, Issue. 2, p. 674.

SERGEANT, G.P. HOLLYWOOD, M.A. MCHALE, N.G. and THORNBURY, K.D. 2001. SPONTANEOUS CA 2+ ACTIVATED CL − CURRENTS IN ISOLATED URETHRAL SMOOTH MUSCLE CELLS . Journal of Urology, Vol. 166, Issue. 3, p. 1161.

Streng, Tomi Santti, Risto and Talo, Antti 2001. Possible action of the proximal rhabdosphincter muscle in micturition of the adult male rat. Neurourology and Urodynamics, Vol. 20, Issue. 2, p. 197.

Reynard, John and Brading, Alison 2001. Nitric oxide donors in treatment of spinal cord injury. The Lancet, Vol. 358, Issue. 9291, p. 1461.

SERGEANT, G. P. HOLLYWOOD, M. A. MCHALE, N. G. and THORNBURY, K. D. 2001. SPONTANEOUS CA2+ ACTIVATED CL??? CURRENTS IN ISOLATED URETHRAL SMOOTH MUSCLE CELLS. The Journal of Urology, p. 1161.

Streng, Tomi Santti, Risto and Talo, Antti 2002. Similarities and differences in female and male rat voiding. Neurourology and Urodynamics, Vol. 21, Issue. 2, p. 136.

Jankowski, R.J. Vorp, D.A. Prantil, R.L. Torimoto, K. Chancellor, M.B. Fraser, M.O. and Huard, J. 2002. Establishing a system for the study of urethral biomechanical function. Vol. 1, Issue. , p. 849.

Wibberley, Alexandra Nunn, Philip A Naylor, Alasdair M and Ramage, Andrew G 2002. An investigation of the effects of zaprinast, a PDE inhibitor, on the nitrergic control of the urethra in anaesthetized female rats. British Journal of Pharmacology, Vol. 136, Issue. 3, p. 399.

Teleman, Pia M Gunnarsson, Marianne Lidfeldt, Jonas Nerbrand, Christina Samsioe, Göran and Mattiasson, Anders 2003. Urethral pressure changes in response to squeeze: a population-based study in healthy and incontinent 53- to 63-year-old women. American Journal of Obstetrics and Gynecology, Vol. 189, Issue. 4, p. 1100.

Hollywood, M. A. Woolsey, Siobhan Walsh, I. K. Keane, P. F. McHale, N. G. and Thornbury, K. D. 2003. T‐ and L‐type Ca2+ Currents in Freshly Dispersed Smooth Muscle Cells from the Human Proximal Urethra. The Journal of Physiology, Vol. 550, Issue. 3, p. 753.

Pezzone, Michael A. Watkins, Simon C. Alber, Sean M. King, William E. de Groat, William C. Chancellor, Michael B. and Fraser, Matthew O. 2003. Identification of c-kit-positive cells in the mouse ureter: the interstitial cells of Cajal of the urinary tract. American Journal of Physiology-Renal Physiology, Vol. 284, Issue. 5, p. F925.

Martin, P. A. Pineda, M. H. and Dooley, M. P. 2003. Xylazine does not Induce Retrograde Flow of Spermatozoa into the Urinary Bladder of Sexually Rested Boars. Journal of Veterinary Medicine Series A, Vol. 50, Issue. 3, p. 160.

D’Agostino, Gianluigi Condino, Anna Gallinari, Paola Boselli, Cinzia Agazzi, Alessandro and Tonini, Marcello 2004. An appraisal of recently patented compounds for bladder overactivity and urinary incontinence. Expert Opinion on Therapeutic Patents, Vol. 14, Issue. 7, p. 1041.

Stefanov, Miroslav 2004. Extraglandular and intraglandular vascularization of canine prostate. Microscopy Research and Technique, Vol. 63, Issue. 4, p. 188.

Bradley, J. E. Anderson, U. A. Woolsey, S. M. Thornbury, K. D. McHale, N. G. and Hollywood, M. A. 2004. Characterization of T-type calcium current and its contribution to electrical activity in rabbit urethra. American Journal of Physiology-Cell Physiology, Vol. 286, Issue. 5, p. C1078.

Middleton, James W and Keast, Janet R 2004. Artificial autonomic reflexes: using functional electrical stimulation to mimic bladder reflexes after injury or disease. Autonomic Neuroscience, Vol. 113, Issue. 1-2, p. 3.

Streng, Tomi Santti, Risto Andersson, Karl‐Erik and Talo, Antti 2004. The role of the rhabdosphincter in female rat voiding. BJU International, Vol. 94, Issue. 1, p. 138.

García-Pascual, A. Costa, G. Labadía, A. Jimenez, E. Triguero, D. Rodríguez-Veiga, E. and González-Soriano, J. 2005. Partial nicotinic receptor blockade unmasks a modulatory role of nitric oxide on urethral striated neuromuscular transmission. Nitric Oxide, Vol. 13, Issue. 2, p. 98.

Teramoto, Noriyoshi Tomoda, Toshihisa and Ito, Yushi 2005. Mefenamic acid as a novel activator of L‐type voltage‐dependent Ca2+ channels in smooth muscle cells from pig proximal urethra. British Journal of Pharmacology, Vol. 144, Issue. 7, p. 919.

Download full list

Article contents

The physiology of the mammalian urinary outflow tract

Abstract

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

The physiology of the mammalian urinary outflow tract

Abstract

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests