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Effects of local anesthetics on human bladder contractility
OH SJ; PAICK SH; LIM DJ; LEE E; LEE SE
NEUROUROL URODYN , 2005, vol. 24, n° 3, p. 288-294 Doc n°: 119727 Localisation : Documentation IRR Descripteurs : AH2 - TROUBLES MICTIONNELS We investigated the in vitro effects of local anesthetics on the contractility of the human bladder. Methods: By measuring the in vitro isometric contractions of human bladder strips, we determined the effects of tetracaine, bupivacaine, lidocaine, and ropivacaine on the basal spontaneous contractions and contractions induced by various stimuli, namely, KC1 (60 mM), carbachol (CCh), and electrical field stimulation (EFS). The effect of local anesthetic agents on Ca2+-independent sustained tonic contraction (SuTC) of the detrusor was also investigated. Results: Local anesthetics increased phasic and tonic spontaneous contractile activity dose dependently in the concentration range 1-500 mu M, but abolished phasic activity at higher concentrations. Local anesthetic agents inhibited nerve-mediated contraction (EFS, 0.8 msec) in a concentration-dependent manner (ropivacaine > tetracaine = bupivacaine > lidocaine), and inhibited non-nerve mediated contractions induced by KCI, long pulse EFS (direct muscle stimulation, 100 msec), and CCh. Inhibitory potency on non-nerve mediated contraction was for long pulse EFS: ropivacaine = tetracaine > bupivacaine = liclocaine and for KCI- and CCh-induced contractions: ropivacaine > tetracaine > bupivacaine = lidocaine. Higher concentrations of local anesthetics were needed to inhibit non-nerve-mediated bladder contraction than nerve-mediated contraction. SuTC was suppressed by all local anesthetics concentration dependently. Conclusions: Our study demonstrates that local anesthetics have inhibitory effects on the contraction of human bladder as induced by different stimulants and concentrations. Their effects and differences suggest that they may be considered potentially useful as diagnostic and therapeutic agents for bladder dysfunction. Neurourol. Urodynam.24:288-294,2005. (c) 2005 Wiley-Liss, Inc. Langue : ANGLAIS Tiré à part : OUI |
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