Effect of vaginal distension on blood flow and hypoxia of urogenital organs of the female rat

doi:10.1152/japplphysiol.01071.2004

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J Appl Physiol 98: 1884-1890, 2005. First published December 10, 2004; doi:10.1152/japplphysiol.01071.2004
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TRANSLATIONAL PHYSIOLOGY

Effect of vaginal distension on blood flow and hypoxia of urogenital organs of the female rat

M. S. Damaser,¹^,2 C. Whitbeck,³ P. Chichester,³ and R. M. Levin³^,4^,5

¹Research Service, Hines Veterans Affairs Hospital, Hines; ²Department of Urology, Loyola University Medical Center, Maywood, Illinois; ³Research Service, Albany Veterans Affairs Hospital, ⁴Albany College of Pharmacy, and ⁵Department of Urology, Albany Medical College, Albany, New York

Submitted 28 September 2004 ; accepted in final form 2 December 2004

ABSTRACT

Vaginal delivery of children causes traumatic injury to tissuesof the pelvic floor and is correlated with stress urinary incontinence;however, the exact mechanism of organ and tissue injury leadingto incontinence development is unknown. The purpose of thisproject was to test the hypothesis that vaginal distension resultsin decreased blood flow to, and hypoxia of, the urogenital organsresponsible for continence, which would suggest an ischemicand/or reperfusion mechanism of injury. Thirteen female ratsunderwent vaginal distension for 1 h. Thirteen age-matched ratswere sham-distended controls. Blood flow to the bladder, urethra,and vagina were determined using a microsphere technique. Hypoxiaof these organs was determined by immunohistochemistry. Bloodflow to all three organs was significantly decreased just beforerelease of vaginal distension. Bladder blood flow decreasedfurther immediately after release of vaginal distension andcontinued to be significantly decreased 15 min after the release.Blood flow to both the urethra and vagina tripled immediatelyafter release, inducing a rapid return to normal values. Vaginaldistension resulted in extensive smooth muscle hypoxia of thebladder, as well as extensive hypoxia of the vaginal epitheliumand urethral hypoxia. Bladders from sham-distended rats demonstratedurothelial hypoxia as well as focal hypoxic areas of the detrusormuscle. We have clearly demonstrated that vaginal distensionresults in decreased blood flow to, and hypoxia of, the bladder,urethra, and vagina, supportive of hypoxic injury as a possiblemechanism of injury leading to stress urinary incontinence.

bladder; vagina; urethra

Address for reprint requests and other correspondence: R. M. Levin, Albany College of Pharmacy, Albany, NY 12208 (E-mail: levinr{at}acp.edu)

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