Sabanegh E S, Downey J R, Sago A L
Department of Urology, Wilford Hall Medical Center, Lackland Air Force Base, TX 78236-5300, USA.
Urology. 1996 Aug;48(2):312-6. doi: 10.1016/S0090-4295(96)00185-9.
Traumatic loss of significant lengths of ureter all too often results in nephrectomy when vascularized pedicles of bowel or bladder fail or are not available for substitution. Historically, alloplastic replacement of ureters has failed due to obstruction, bioincompatibility, or graft migration. This study was undertaken to test the performance of ringed expanded polytetrafluoroethylene (PTFE) tube grafts as ureteral replacements in a canine model.
Eight female dogs underwent partial ureteral replacement with ringed PTFE tube grafts. An involuting anastomosis was used to anchor the graft to the bladder. The dogs were followed with intravenous urograms and Whitaker infusion pressure tests for up to 12 months.
Six of 8 animals (75%) had preservation of excellent renal function with normal intravenous urograms and low Whitaker infusion pressures. One animal had mild hydronephrosis with an elevated infusion pressure. One animal died of spontaneous renal rupture secondary to obstruction at the ureteral-graft anastomosis. All other grafts were patent by histologic examination without encrustation or infection.
Although not suggested as first-line therapy after ureteral loss, expanded PTFE may have a use as a prosthetic ureteral replacement in situations where conventional surgical therapies are unsuccessful. This material appears to be biocompatible, and the technique of bladder anastomosis described here prevented migration of the prosthesis.
当肠管或膀胱的带血管蒂移植物无法使用或失败时,创伤性导致的输尿管长段缺失常常会导致肾切除术。从历史上看,输尿管的异体替代物因梗阻、生物不相容性或移植物迁移而失败。本研究旨在测试带环膨体聚四氟乙烯(PTFE)管移植物在犬模型中作为输尿管替代物的性能。
8只雌性犬接受了带环PTFE管移植物的部分输尿管替代术。采用内翻吻合术将移植物固定于膀胱。对这些犬进行静脉肾盂造影和惠特克灌注压力测试,随访时间长达12个月。
8只动物中有6只(75%)肾功能良好,静脉肾盂造影正常,惠特克灌注压力低。1只动物有轻度肾积水,灌注压力升高。1只动物死于输尿管移植物吻合口梗阻继发的自发性肾破裂。通过组织学检查,所有其他移植物均通畅,无结痂或感染。
虽然不建议将其作为输尿管缺失后的一线治疗方法,但在传统手术治疗失败的情况下,膨体PTFE可能可用作输尿管替代假体。这种材料似乎具有生物相容性,此处描述的膀胱吻合技术可防止假体迁移。
