Department of Urology, Cleveland Clinic, Cleveland, Ohio, United States.
Int Braz J Urol. 2019 Nov-Dec;45(6):1275-1276. doi: 10.1590/S1677-5538.IBJU.2018.0794.
Uretero-ileal anastomosis strictures (UAS) occur in 3 to 11% of patients who undergo ileal conduit urinary diversion after cystectomy. We aimed to demonstrate our surgical technique for robotic repair of UAS after cystectomy, focusing on the technical points.
We present the case of a 75 year-old male with right hydronephrosis status post cystectomy with ileal conduit urinary diversion. Da Vinci Si® surgical system (Intuitive Surgical, Sunnyvale, CA) was docked and access into the abdominal cavity was gained. Uretero-ileal anastomosis was identified followed by ureteral stent visualization guiding the dissection. Stent was cut and further ureteral dissection was performed to maximize the length. Ureter was spatulated and specimen was sent for frozen section. Ileal conduit was incised at the site of the planned ureteral reimplantation. A new ureteral stent was inserted and the uretero-ileal anastomosis was performed. Thereafter, the previous site of the right ureteral anastomosis was closed.
Operative time was 120 minutes. Blood loss was 60mL. No perioperative complications occurred. Patient was discharged on postoperative day 1. Technical points for outcomes optimization during UAS robotic repair: 1) Preoperative placement of a ureteral stent is required for guidance and urinary diversion, 2) Port placement should be tailored according to the previous surgical site, 3) Maximal ureteral dissection facilitates reimplantation, 4) Frozen section from the stricture is mandatory to rule out malignancy.
In our experience, UAS repair is feasible and reproducible using a minimally invasive robotic approach. Comparative studies with open surgical approach are warranted.
在接受膀胱切除术后行回肠导管尿流改道术的患者中,有 3%至 11%会发生输尿管-回肠吻合口狭窄(UAS)。我们旨在展示我们在膀胱切除术后使用机器人修复 UAS 的手术技术,重点介绍技术要点。
我们介绍了一名 75 岁男性的病例,该患者在接受膀胱切除术后因右侧肾积水而行回肠导管尿流改道术。达芬奇 Si®手术系统(Intuitive Surgical,加利福尼亚州森尼韦尔)对接并进入腹腔。识别出输尿管-回肠吻合口,然后通过输尿管支架可视化引导解剖。切割支架并进一步进行输尿管解剖,以最大化长度。输尿管被切开并进行标本冷冻切片检查。在计划进行输尿管再植入的部位切开回肠导管。插入新的输尿管支架并进行输尿管-回肠吻合。然后,封闭右侧输尿管吻合口的先前部位。
手术时间为 120 分钟。失血量为 60 毫升。无围手术期并发症发生。患者于术后第 1 天出院。UAS 机器人修复术中优化结果的技术要点:1)术前需要放置输尿管支架以进行引导和导尿,2)根据先前的手术部位调整端口放置,3)最大限度地进行输尿管解剖有助于再植入,4)对狭窄部位进行冰冻切片检查以排除恶性肿瘤。
根据我们的经验,使用微创机器人方法修复 UAS 是可行且可重复的。需要与开放手术方法进行比较研究。
