Abstract: One future use of laparoscopic technology is in extravesical reimplantation of the ureters. Technical difficulty arises, however, when intracorporal fine suturing is necessary. We have assessed the efficacy of laser-activated fibrinogen solder to close vesical muscle flaps over submucosal ureters (Lich- Gregoir technique) in a canine model. Four dogs were subjected to unilateral flap closures via a protein solder consisting of indocyanine green and fibrinogen applied to the serosal surface of the bladder and exposed to 808 nm continuous wave diode laser energy. Contralateral reimplantation was performed using 4 - 0 vicryl muscle flap closures and served as controls. Urinary drainage catheters were left in place for 24 hours postoperatively. At 7 (n $EQ 1), 14 (n $EQ 2), and 28 (n $EQ 1) days following reimplantation, intravenous pyelograms confirmed bilateral renal function and ureteral patency. Disruption of wound closures were considered the point of wound dehiscence, vesical diverticulum, or leakage. At intravesical pressures above 100 cm H$-2$/O there was no evidence of wound disruption in either of the groups. However, surrounding normal tissue was noted to disrupt. In conclusion, laser-welded vesical wound closures appear at least as strong as suture closures in the canine model. !18
展开▼
机译:摘要:腹腔镜技术的一种未来用途是输尿管的膀胱外再植入。然而,当需要体内精细缝合时,会出现技术难题。我们评估了犬模型中激光激活的纤维蛋白原焊料关闭粘膜下输尿管上方膀胱肌皮瓣的功效(Lich-Gregoir技术)。四只狗通过蛋白质焊料进行单侧瓣封闭,该蛋白质焊料由吲哚菁绿和纤维蛋白原组成,并涂在膀胱浆膜表面并暴露于808 nm连续波二极管激光能量。对侧再植入使用4-0的vicryl肌瓣封闭进行,并作为对照。术后24小时留置导尿管。再植入后第7天(n EQ 1),14天(n EQ 2)和28天(n EQ 1),静脉肾盂造影证实双侧肾功能和输尿管通畅。伤口闭合的破坏被认为是伤口裂开,膀胱憩室或渗漏的关键。在高于100 cm H $ -2 $ / O的膀胱内压时,两组均无伤口破裂的迹象。但是,注意到周围的正常组织会破裂。总之,在犬模型中,激光焊接的膀胱伤口闭合的强度至少与缝合线闭合的强度相同。 !18
展开▼
