Application of three-dimensional image reconstruction technology based on 3D-slicer software in urology
10.3760/cma.j.cn115396-20220311-00080
- VernacularTitle:基于3D-slicer软件三维影像重建技术在泌尿外科中的应用研究
- Author:
Mengmeng ZHENG
1
;
Chunkai DU
;
Limin SHANG
;
Lei ZHANG
;
Wen SUN
;
Zhipeng WANG
;
Yichen ZHU
;
Ye TIAN
Author Information
1. 首都医科大学附属北京友谊医院泌尿外科,北京 100050
- Keywords:
Three-dimensional image reconstruction;
CT scan;
3D-slicer software;
Renal transplant donor;
Hydronephrosis
- From:
International Journal of Surgery
2022;49(10):676-680,C2
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To investigate the application value of three-dimensional image reconstruction technology based on 3D-slicer software in urology.Methods:The data of 36 patients with urinary tract diseases admitted to Beijing Friendship Hospital, Capital Medical University from May 2019 to December 2021 were retrospectively analyzed, including 20 males and 16 females; the median age was 53.50(41.75, 66.25) years. There were 10 relative kidney transplant donors, 12 cases with renal tumors, 6 cases with hydronephrosis and 8 patients with urinary calculi. The CT urography data of 36 cases were reconstructed into three-dimensional image models based on 3D-slicer software, and the morphology of the target tissue was measured.Results:In the urinary system model of 10 relative kidney transplant donors constructed in this study, the type of donor renal artery was single artery in 7 cases and accessory renal artery in 3 cases; In the three-dimensional model of 12 tumor kidneys, 4 tumors were located at the upper part of the kidney (2 near ventral and 2 near dorsal), 5 tumors were located at the middle part of the kidney (2 near ventral and 3 near dorsal), and 3 tumors were located at the lower part of the kidney near ventral. The average maximum diameter of the tumors was (27.3 ± 9.63) mm, and the tumor volume was (15.89 ± 5.93) cm 2. The study also successfully constructed a three-dimensional image model of the urinary system in 6 patients with hydronephrosis and 8 patients with urinary calculi (without hydronephrosis). Three-dimensional model image reconstructed by 3D-slicer software clearly showed the spatial structure of renal parenchyma, blood vessels, renal pelvis, calyces and ureter. The diameter, position and direction of ureters and blood vessels can be observed clearly based on the three-dimensional reconstruction model, and clinicians could also evaluate the location, shape, size and adjacent relationship with surrounding tissues of renal cysts, tumors, stones or other masses. Conclusion:3D-slicer software platform can assist clinicians to reconstruct the three-dimensional model of urinary system, which is worthy of further clinical application.
