经尿道等离子电切术治疗犬梗阻性不稳定膀胱术前术后的尿动力学变化

doi:10.19558/j.cnki.10-1020/r.2017.06.012

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摘要 目的: 建立“犬梗阻性不稳定膀胱”的动物模型,通过对该模型动物行膀胱逼尿肌切断术前术后尿动力学的研究,探讨经尿道微创手术对改变逼尿肌不稳定收缩的可行性。方法:首先建立犬不稳定膀胱模型,解除梗阻3个月后在静脉麻醉下行经尿道等离子电切术间断横行切断膀胱逼尿肌。术前术后检测犬最大逼尿肌压力(MDP)、最大膀胱容量(MCC)、最大膀胱顺应性(MBC)等尿动力学参数。结果:7只不稳定膀胱模型犬,电切术后3个月后MDP、MCC、MBC较术前有不同程度改善。结论:经尿道等离子电切术切断膀胱逼尿肌能改善犬梗阻性不稳定膀胱出口梗阻引起的症状,可行性仍需大样本实验支持。

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	陈安龙
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关键词 ：犬, 膀胱模型, 膀胱出口梗阻, 逼尿肌不稳定, 尿动力, 等离子电切术

Abstract：Objective: To establish the experimental canine unstable bladder models,and evaluate the feasibility of minimally invasive transurethral operationtreatment for detrusor instabilityin urodynamics. Methods: The canine unstablebladder model was established. Three months after removing bladder outlet obstruction, transurethral plasmakinetic electroresection was done to cut the bladder detrusor discontinuously and transversely under intravenous anesthesia. The maximum detrusor pressure (MDP), maximum bladder capacity (MCC), and maximum bladder compliance (MBC) were tested preoperatively and postoperatively. Results: The canine models of unstable bladder wereestablished successfully in 7 animals. The MDP, MCC and MBC at 3rdmonth after transurethral plasmakinetic electroresectionwere significantly increased. Conclusions: Transurethral plasmakinetic electroresection can improve bladder function in dogs with bladder outlet obstruction, and the feasibilityneeds be confirmed by larger samples.

Key words： dog bladder model bladder outflow obstruction detrusor instability urodynamics transurethral plasmakinetic electroresection

收稿日期: 2017-01-18

ZTFLH:

R737.14

基金资助:新疆维吾尔自治区自然科学基金(2014211C133)

通讯作者: 吴越,wuyue_1960@sina.com

引用本文:

陈安龙, 吴越, 张国飞, 邓玮, 史京. 经尿道等离子电切术治疗犬梗阻性不稳定膀胱术前术后的尿动力学变化[J]. 微创泌尿外科杂志, 2017, 6(6): 368-370.
Chen Anlong, Wu Yue, Zhang Guofei, Deng Wei, Shi Jing. The urodynamic change before and after transurethral plasmakinetic electroresection cuttingdetrusor in dogs with obstructive and unstable bladder dog. JOURNAL OF MINIMALLY INVASIVE UROLOGY, 2017, 6(6): 368-370.

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http://journal20.magtechjournal.com/Jwk_zgmnwk/CN/abstract/abstract1325.shtml 或 http://journal20.magtechjournal.com/Jwk_zgmnwk/CN/Y2017/V6/I6/368

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