Clinical research on robot-assisted retroperitoneal nephrectomy with vena thrombectomy (report of 4 cases)
WU Shengpan1, PENG Cheng1, HUANG Qingbo1, DU Songliang1, FAN Yang1, GAO Yu1, GU Liangyou1, NIU Shaoxi1, WANG Hanfeng1, LIU Kan1, TANG Lu1, XU Yong1, ZHAO Hui1, Fan Zhang2, LI Hongzhao1, ZHANG Xu1, WANG Baojun1, MA Xin1
1 Department of Urology, Chinese PLA General Hospital, Beijing 100853, China; 2 Department of Urology, Affiliated Hospital of Weifang Medical University
Abstract:Objective: To investigate the safety and feasibility of robot-assisted retroperitoneal nephrectomy with vena thrombectomy. Methods: Of four enrolled patients, there were two cases of left renal cell carcinoma with tumor thrombus and the Mayo grade 0 (grade 0a in the 301 classification system); one case of right renal cell carcinoma with the Mayo grade I; and one case of right renal cell carcinoma with the Mayo gradeⅡ (The latter two cases were of grade I in the 301 classification system). All operations were performed via the retroperitoneal approach. The third arm was used to fix the kidney to create the operation space. The IVC with tumor thrombus and its branches along the psoasmuscle were exposed and dissociated then. The renal vein was blocked by the Satinsky forceps at the proximal end of the tumor for the patients with Mayo grade 0 and grade I, and the tumor thrombus was pushed back into the renal vein. Then the Endo-GIA was placed at the junction of the renal vein and the IVC to disconnect the right renal vein. There was no need to disconnect the IVC. For the patients with tumor thrombus of Mayo grade I, venous branches of the IVC, the lumbar vein and the short hepatic vein were released and disconnected. The distal end of the IVC, the left renal vein, and the IVC near the cardiac end were sequentially blocked, and the thrombus was removed. The inferior vena cava was reconstructed and the above-mentioned occlusion band was released. After the blood vessel was not oozing, the operation was performed according to the radical nephrectomy procedures. Results: All operations were completed successfully via the retroperitoneal approach without conversion to laparotomy. The average operative time was 158.75 min (range from 110 min to 210 min). The intraoperative blood loss was estimated to be 487.5 mL (ranger from 200 mL to 1 000 mL) and no blood transfusion was needed. The drainage tube was placed for 3 days. The catheter was removed after 3 days. Patients were discharged 4 days after surgery. There was no bleeding, pulmonary embolism and other complications after surgery. Conclusions: Robot-assisted retroperitoneal nephrectomy with vena thrombectomy is safe and feasible, which provides an effective minimally invasive treatment for renal cell carcinoma with tumor thrombus, and there are different surgical indications and technical characteristics for different-sided renal cell carcinoma. However, the clinical efficacy and prognosis of this procedure still need to be expanded to confirm by a larger sample.
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