Departamento de Urologia, Universidade do Estado do Rio de Janeiro - Uerj, Rio de Janeiro, RJ, Brasil.
Serviço de Urologia Reconstrutora, Hospital dos Servidores do Estado do Pará, Belém, PA.
Int Braz J Urol. 2022 Mar-Apr;48(2):371-372. doi: 10.1590/S1677-5538.IBJU.2022.99.09.
Tissue transfer has been used in urethral reconstruction for decades, and several grafts have been described (1, 2). The ideal graft would have optimal tissue characteristics and lead to minimal morbidity at the donor site. Urethroplasty using bladder mucosa was first described by Memmelaar in 1947 (3). The main limitation in using bladder mucosal grafts has been the invasiveness of open harvesting (4). We describe an endoscopic technique using Holmium:YAG laser to harvest bladder mucosal graft for substitution urethroplasty.
A 33-year-old male with no history of urethral instrumentation, trauma, or infection presented with obstructive lower urinary tract symptoms. On retrograde urethrogram a 6cm bulbar urethral stricture was identified. Several options were discussed, and the patient opted for a one-sided onlay dorsal urethroplasty (5) using a bladder mucosal graft. Equipment used to harvest the graft included an 18.5Fr continuous flow laser endoscope with a Kuntz working element (RZ) and a 60W Holmium Laser (Quanta) with 550μm laser fiber. The procedure was started by making a perineal incision, urethral mobilization and incision of the stricture segment. The laser endoscope was then introduced via the perineum. Settings of 0.5J, 30 Hz, and long pulse were used and a 7 x 2.5cm graft was harvested from the posterior bladder wall. Hemostasis of the harvest site was performed. The bladder mucosal graft was thinned in similar fashion to a buccal mucosal graft and sutured as per previously described techniques.
Endoscopic Holmium Laser harvesting of bladder mucosal graft is feasible and may allow this graft to become an alternative to buccal mucosa. Further studies are required to define its role in urethral reconstruction.
组织移植在尿道重建中已经应用了几十年,已经描述了几种移植物(1,2)。理想的移植物应该具有最佳的组织特性,并在供体部位引起最小的发病率。Memmelaar 于 1947 年首次描述了使用膀胱黏膜进行尿道成形术(3)。使用膀胱黏膜移植物的主要限制是开放性采集的侵袭性(4)。我们描述了一种使用钬:YAG 激光从膀胱黏膜采集移植物进行替代尿道成形术的内镜技术。
一名 33 岁男性,无尿道器械操作、创伤或感染史,表现为下尿路梗阻症状。逆行尿道造影显示 6cm 球部尿道狭窄。讨论了几种选择,患者选择了单侧背侧尿道成形术(5),使用膀胱黏膜移植物。采集移植物的设备包括带有 Kuntz 工作元件(RZ)的 18.5Fr 连续流激光内窥镜和带有 550μm 激光光纤的 60W 钬激光器(Quanta)。手术从会阴切口、尿道松解和狭窄段切开开始。然后通过会阴将激光内窥镜引入。使用 0.5J、30Hz 和长脉冲的设置从膀胱后壁采集了 7 x 2.5cm 的移植物。对采集部位进行止血。以类似于颊黏膜移植物的方式对膀胱黏膜移植物进行减薄,并按照先前描述的技术进行缝合。
内镜钬激光采集膀胱黏膜移植物是可行的,可能使这种移植物成为颊黏膜的替代物。需要进一步研究来确定其在尿道重建中的作用。
