2011
DOI: 10.1007/s11884-011-0083-x
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New Insights into the Pathophysiology of Detrusor-Sphincter Dyssynergia

Abstract: Detrusor-sphincter dyssynergia (DSD) is a condition in which the urethral outlet actively contracts during a detrusor contraction. This is most often caused by isolated and complete suprasacral spinal cord lesions and can be manifested by external urethral sphincter (EUS) or bladder neck/ proximal urethral smooth muscle contraction, or both, reflexly generated against a hyperreflexive detrusor contraction. The resultant generation of high intravesical pressures, if left untreated, can cause damage to the bladd… Show more

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Cited by 10 publications
(11 citation statements)
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“…Phasic EUS activity during voiding has also been reported in the mouse, hamster,cat, and non‐human primate with intact nervous systems and after damage to the nervous system in the rabbit and dog . The guinea pig EUS does not normally exhibit phasic activation during voiding, but noxious experimental conditions (e.g., instillation of slightly acidic or ice‐cold solutions into the bladder) can elicit EUS bursting. These observations, plus one anecdotal report of bursting‐like EUS activity in brain‐dead humans, support the hypothesis that bursting is a phylogenetically conserved mechanism .…”
Section: Discussionmentioning
confidence: 99%
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“…Phasic EUS activity during voiding has also been reported in the mouse, hamster,cat, and non‐human primate with intact nervous systems and after damage to the nervous system in the rabbit and dog . The guinea pig EUS does not normally exhibit phasic activation during voiding, but noxious experimental conditions (e.g., instillation of slightly acidic or ice‐cold solutions into the bladder) can elicit EUS bursting. These observations, plus one anecdotal report of bursting‐like EUS activity in brain‐dead humans, support the hypothesis that bursting is a phylogenetically conserved mechanism .…”
Section: Discussionmentioning
confidence: 99%
“…The guinea pig EUS does not normally exhibit phasic activation during voiding, but noxious experimental conditions (e.g., instillation of slightly acidic or ice‐cold solutions into the bladder) can elicit EUS bursting. These observations, plus one anecdotal report of bursting‐like EUS activity in brain‐dead humans, support the hypothesis that bursting is a phylogenetically conserved mechanism . Thus, bursting may represent a primitive and/or energetically costly mode of voiding that is used differentially among mammals, and that can be recruited into action in some species when neural circuitry that controls LUT function is perturbed, e.g., by neural injury, noxious sensory input, or anesthesia.…”
Section: Discussionmentioning
confidence: 99%
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“…This may reflect the influence of local synaptic circuits or intrinsic properties of EUS motoneurons that are active in intact rats but attenuated or absent in transected rats. rhabdosphincter; motoneuron; EUS bursting; guarding reflex; spinal cord injury THE PATTERN OF ACTIVATION of the external urethral sphincter (EUS) during micturition in the adult rat is well established (de Groat et al 1998;Fraser 2011;Kruse et al 1993;Maggi et al 1986;Mersdorf et al 1993;Streng et al 2004;Van Asselt et al 1995) and consists of three distinct phases. 1) Prior to voiding, passive filling and active contraction of the bladder result in tonic activation of the EUS muscle (i.e., the guarding reflex) that increases with bladder pressure and functions to maintain continence.…”
mentioning
confidence: 99%