Safety and efficacy of C-arm CT laser-guided percutaneous renal pelvic catheter drainage under DSA in the treatment of hydronephrosis caused by pelvic malignancy
10.3760/cma.j.cn112330-20220217-00051
- VernacularTitle:C臂CT激光引导穿刺联合DSA下经皮肾盂置管引流治疗盆腔恶性肿瘤致肾盂积水的安全性和有效性
- Author:
Xiang GENG
1
;
Hailiang LI
;
Hongtao HU
;
Chenyang GUO
;
Hongtao CHENG
;
Quanjun YAO
;
Yanan ZHAO
;
Ke ZHAO
Author Information
1. 郑州大学附属肿瘤医院(河南省肿瘤医院)微创介入科,郑州 450008
- Keywords:
Hydronephrosis;
C-arm CT;
Laser-guided;
Pelvic malignancy
- From:
Chinese Journal of Urology
2023;44(4):276-281
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To investigate the safety and efficacy of C-arm CT laser-guided puncture combined with digital subtraction angiography (DSA)for percutaneous renal pelvic catheter drainage in the treatment of hydronephrosis caused by pelvic malignancy.Methods:A retrospective analysis was performed on the data of 56 patients with ureteral obstruction caused by pelvic malignancy admitted to the Affiliated Cancer Hospital of Zhengzhou University from February 2020 to August 2021, including 10 males and 46 females. The mean age of the patients was (54.0±10.1)years old. The causes were colorectal cancer (7 cases), bladder cancer (3 cases), cervical cancer (36 cases), endometrial cancer (3 cases), ovarian cancer (2 cases), pelvic metastasis of gastric cancer (4 cases) and pelvic sarcoma (1 case). There were 71 sides of renal pelvis dilation in 56 patients, with the degree of dilation ranging from 1.2cm to 5.0cm.The degree of hydronephrosis was mild on 36 sides, moderate on 27 sides, and severe on 8 sides. Preoperative blood urea nitrogen(9.90±6.22)mmol/L and creatinine (155.80±146.83)μmol/L.During the puncture and catheter drainage, the patient was placed in the prone position, the C-arm CT scan was used to plan the puncture path, and the laser positioning of the DSA flat panel detector was used to determine the skin puncture point. With local anesthesia, the puncture direction of the puncture needle was adjusted to make the skin puncture point, the tail of the puncture needle, and the laser fixation point present a state of "three-points in one-line" when the patient stopped breathing temporarily at the end of expiratory breath in a non-fluoroscopic state, so as to achieve the preset puncture angle. Subsequently, pyelocentesis was completed according to the planned puncture depth. After successful pyelocentesis, percutaneous external renal drainage tube insertion or ureteral stents were performed under DSA. The number of renal pelvis puncture, puncture time, radiation dose, deviation of external renal drainage tube insertion angle from puncture angle, as well as postoperative hemoglobin changes, renal function recovery and complications were recorded.Results:In this group, 56 cases of 71 sides of renal pelvis puncture and catheter drainage were successfully completed, and the success rate of the operation was 100.0% (71/71). The success rate of the first needle puncture was 97.2% (69/71). Those who failed the first needle puncture succeeded in the second puncture during the operation. The puncture time of renal pelvis was (1.9±1.8) min.The intraoperative radiation dose was (2.7±1.5) mSV. The external drainage tube of the renal pelvis was placed on 53 sides, and the external drainage tube was placed on 29 sides with the same angle as the preset angle, and 24 sides with a deviation within 3°.On the first day after operation, there was no significant difference in hemoglobin compared with that before operation, urea nitrogen (5.31±1.99) mmol/L and creatinine (62.25±16.72) μmol/L were re-examined after operation, and the differences were statistically significant compared with those before operation ( P=0.008, P=0.002). No serious surgery-related complications occurred in any patient. Conclusion:C-arm CT laser-guided puncture combined with DSA percutaneous renal pelvic catheter drainage could be safe and effective in the treatment of ureteral obstruction caused by pelvic malignancy.
