在大鼠冷冻损伤模型中逼尿肌活动低下的尿动力学和分子特征及低能量冲击波治疗的效果。

Urodynamic and molecular characteristics of detrusor underactivity in a rat cryoinjury model and effects of low energy shock wave therapy.

机构信息

Department of Urology, Kaohsiung Chang Gung Memorial Hospital, Chang Gung University College of Medicine, Kaohsiung, Taiwan.

The Center of Excellence in Shockwave Medicine and Tissue Regeneration, Kaohsiung Chang Gung Memorial Hospital, Chang Gung University College of Medicine, Kaohsiung, Taiwan.

出版信息

Neurourol Urodyn. 2018 Feb;37(2):708-715. doi: 10.1002/nau.23381. Epub 2017 Aug 2.

DOI:10.1002/nau.23381

PMID:28767169

Abstract

AIMS

Low energy shock wave (LESW) has been shown to facilitate tissue regeneration and reduce inflammation. We investigated the effects of LESW in an underactive (DU) model induced by cryoinjury of rat detrusor.

METHODS

Forty-six female Sprague-Dawley rats were divided into sham, cryoinjury with or without LESW (0.12 mJ/mm ; 200 pulses). Under halothane anesthesia, a low midline incision was made and a cryoinjury of detrusor was induced by placing an aluminum rod (chilled with dry ice) for 30 s on the serosal side of the bladder filled with 1 mL sterile saline bilaterally. Awake cystometrogram (CMG), molecular and histopathology studies were performed on Day 8 or 15 after cryoinjury.

RESULTS

Significant urodynamic, histological, and molecular changes induced by cryoinjury of rat detrusor were detected on Day 8 and decrease in the contraction amplitude (54.3%), a significant increase in wet bladder weight (64.1%), edematous changes, muscle thinning and downregulation of α-SMA, IL-6, and upregulation of COX-2. LESW reversed the cryoinjury induced histological and COX-2 expression to cause a 49.0% increase in the contraction amplitude (P < 0.05). LESW induced cell proliferation was revealed by increased CD31 and Ki67 immunostaining. The effect of cryoinjury on urodynamic and histological changes was maintained till Day 15.

CONCLUSION

The cryoinjury of rat detrusor models myogenic DU, which is partially reversed by LESW. LESW may afford a simple, non-invasive modality to facilitate tissue regeneration and improve voiding function in myogenic detrusor underactivity.

摘要

目的

低能量冲击波（LESW）已被证明可促进组织再生和减轻炎症。我们研究了 LESW 在由大鼠膀胱逼尿肌冷冻损伤诱导的活动低下（DU）模型中的作用。

方法

46 只雌性 Sprague-Dawley 大鼠分为假手术组、冷冻损伤组和冷冻损伤加 LESW 组（0.12mJ/mm；200 脉冲）。在氟烷麻醉下，在中线做一个低切口，在充满 1ml 无菌盐水的膀胱的浆膜侧放置一根铝棒（用干冰冷却）30s，双侧均可引起逼尿肌冷冻损伤。在冷冻损伤后第 8 天或第 15 天进行清醒膀胱测压（CMG）、分子和组织病理学研究。

结果

大鼠逼尿肌冷冻损伤后第 8 天检测到明显的尿动力学、组织学和分子变化，收缩幅度下降（54.3%），湿膀胱重量显著增加（64.1%），水肿、肌肉变薄和α-SMA、IL-6 下调，COX-2 上调。LESW 逆转了冷冻损伤引起的组织学和 COX-2 表达，使收缩幅度增加了 49.0%（P<0.05）。通过增加 CD31 和 Ki67 免疫染色显示 LESW 诱导细胞增殖。冷冻损伤对尿动力学和组织学变化的影响一直持续到第 15 天。

结论

大鼠逼尿肌冷冻损伤模型产生肌源性 DU，部分可被 LESW 逆转。LESW 可能为肌源性逼尿肌活动低下提供一种简单、非侵入性的方法，促进组织再生和改善排尿功能。

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在大鼠冷冻损伤模型中逼尿肌活动低下的尿动力学和分子特征及低能量冲击波治疗的效果。

Urodynamic and molecular characteristics of detrusor underactivity in a rat cryoinjury model and effects of low energy shock wave therapy.

机构信息

出版信息

AIMS

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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