Design, fabrication, and preliminary experimental study of laparoscopic partial renal blood flow blocker
10.3760/cma.j.cn431274-20200519-00630
- VernacularTitle:腹腔镜下肾部分血流阻断器的设计制作及初步实验研究
- Author:
Xiyou WANG
1
;
Guang GUO
;
Cuilong LIU
;
Anlong CHEN
;
Chuan ZHANG
Author Information
1. 解放军总医院第六医学中心泌尿外科,北京 100048
- Keywords:
Laparoscopy;
Partial nephrectomy;
Partial renal blood flow blocker;
Warm ischemia time
- From:
Journal of Chinese Physician
2021;23(8):1192-1195
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To design a laparoscopic partial renal blood flow blocker (LPRB), and to explore the design rationality and effect of LPRB on blocking the blood flow of local renal tissue in rabbit kidney experiment.Methods:⑴ Design.According to the anatomical characteristics of the renal blood flow from the center to the periphery in the human, pig and rabbit, the blood flow at the distal part of the compression area could be blocked by the compression of the medial kidney tissue. LPRB included the first pressure arm, the second pressure arm and shaft. A built-in torsion spring made the two ends of the pressure arm to automatically close. The ends of pressure arm were provided with an arc-shaped compression component, on which, there were multiple adaptive compression plates. ⑵ Fabrication. 3D printer printed the finished product with titanium alloy material. ⑶ Animal experiments. Five New Zealand rabbits were anesthetized and fixed on the operating table in a semi-lateral position, with a lateral abdominal incision. Kidneys were exposed, only the renal pedicle vessels were retained. According to different methods of blocking blood flow, they were divided into conventional group and LPRB group for self-control. The effect of blocking blood flow was observed. The clamping force of LPRB was detected, and the degree of tissue damage at the clamping site was observed by naked eye and pathology.Results:LPRB had been licensed as a utility model and apperance patent. The device was successfully made from titanium alloy by 3D printer. In the experiment, the device was easily placed and removed. The two pressure arms were automatically closed and fixed under the action of torsion spring. The angle of the compression arm could be adjusted according to the position of clamping. The self-adaptive compression plates might be inclined in order to be consistent with the shape of the kidney; The pressure of LPRB was sufficient and the hemostasis was complete.Conclusions:LPRB is basicly rational and safe, and it can realize the partial hemostasis of the excised part and guarantee the blood flow of other parts at the same time. However, the larger size and harder adaptive component need to be improved in the future.
