Adebola Fabiyi scite author profile

RESULTS(-)-Cromakalim, WAY-133537 and ZD6169 caused a dose-dependent suppression of spontaneous contractions in the obstructed model, with a 50% inhibition of the contraction area under the curve at doses of 0.06, 0.14 and 2.4 m mol/kg (intravenous), respectively. Corresponding decreases in mean arterial pressure at these effective doses were 24%, 15% and 15%, respectively. The KCO potency rank order was the same and their relative potency highly comparable in the neurogenic model. There was complete inhibition of spontaneous contractions in obstructed rats at doses corresponding to ª 50% inhibition of the neurogenic contractions. While tolterodine caused a dose-dependent inhibition of contractions in the neurogenic model, it was ineffective at inhibiting non-voiding contractions in obstructed rats. CONCLUSIONSAll KCOs tested caused significant decreases in arterial pressure at doses effective on the bladder in the model of obstructive instability, suggesting a lack of bladder-vascular selectivity. Similar KCO potency in both assays suggests no appreciable changes in K ATP channel function as a result of partial outlet obstruction. KEYWORDSATP-sensitive potassium channel, detrusor instability, overactive bladder, partial outlet obstruction, smooth muscle, glyburide, tolterodine OBJECTIVETo compare in vivo the potency and bladdervascular selectivity of ATP-sensitive potassium channel openers (KCOs) (-)-cromakalim, WAY-133537 and ZD6169 and a muscarinic antagonist, tolterodine in rats. MATERIALS AND METHODSBladder and arterial pressures were monitored simultaneously, before and after increasing intravenous doses of compounds, in each of two urethaneanaesthetized rat bladder hyperactivity models: spontaneous non-voiding myogenic contractions secondary to partial outlet obstruction and volume-induced neurogenic contractions.

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Bladder dysfunction in mice with experimental autoimmune encephalomyelitis

Altuntas

Daneshgari

Liu

et al. 2008

Journal of Neuroimmunology

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The vast majority of patients with multiple sclerosis (MS) develop bladder control problems including urgency to urinate, urinary incontinence, frequency of urination, and retention of urine. Over 60% of MS patients show detrusor-sphincter dyssynergia, an abnormality characterized by obstruction of urinary outflow as a result of discoordinated contraction of the urethral sphincter muscle and the bladder detrusor muscle. In the current study we examined bladder function in female SWXJ mice with different defined levels of neurological impairment following induction of experimental autoimmune encephalomyelitis (EAE), an animal model of central nervous system inflammation widely used in MS research. We found that EAE mice develop profound bladder dysfunction characterized by significantly increased micturition frequencies and significantly decreased urine output per micturition. Moreover, we found that the severity of bladder abnormalities in EAE mice was directly related to the severity of clinical EAE and neurologic disability. Our study is the first to show and characterize micturition abnormalities in EAE mice thereby providing a most useful model system for understanding and treating neurogenic bladder.

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Adebola Fabiyi

P2X7-related modulation of pathological nociception in rats

In vivo evaluation of the potency and bladder‐vascular selectivity of the ATP‐sensitive potassium channel openers (–)‐cromakalim, ZD6169 and WAY‐133537 in rats

Bladder dysfunction in mice with experimental autoimmune encephalomyelitis

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