Application of holographic image in transperineal prostate targeted biopsy
10.3760/cma.j.cn112330-20210609-00321
- VernacularTitle:全息影像在经会阴前列腺靶向穿刺中的应用
- Author:
Lei WANG
1
;
Zichen ZHAO
;
Hongfeng GUO
;
Manli NA
;
Mengshen LI
;
Yi WANG
;
Ningchen LI
;
Yanqun NA
Author Information
1. 北京大学首钢医院吴阶平泌尿外科医学中心,北京 100144
- Keywords:
Prostatic neoplasms;
Holographic image;
Three-dimentional visualization technology;
Prostate biopsy
- From:
Chinese Journal of Urology
2022;43(2):111-115
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To investigate the feasibility and accuracy of transperineal prostate targeted biopsy guided by holographic image.Methods:Clinical data of 10 patients with transperineal prostate targeted biopsy guided by holographic image in Peking University Shougang Hospital between May and September 2020 were analyzed retrospectively. The average age was (70.9±10.3) years old, the median PSA was 15.1(6.02-1110.14) ng/ml, prostate MRI were performed before biopsy and the PI-RADS scores were all ≥ 3, and the number of suspicious target lesions was 1.4±0.5. CT examinations of urinary system were performed on the premise of mild lithotomy position and positioning stickers pasted on the skin of perineum and lower abdomen. The original data of CT and MRI were obtained, holographic image models were firstly made separately and then fused into a complete model, and the puncture paths were planned for the target lesions. At the time of puncture, the patient took the same body position as in CT scan, the operator wore a mixed reality head mounted display (HoloLens glasses), and the skin positioning stickers were used for visual registration between the holographic model and the real human body. Then under the guidance of the virtual puncture path, the puncture biopsy gun was placed, fired after reaching the predetermined depth, a transrectal ultrasound probe was placed to clarify the position of the puncture needle, and the objective accuracy of puncture was judged by comparison of ultrasound and MRI images. If the first shot was judged to be inaccurate, it was allowed to make a supplementary shot after adjusting the angle. After holographic guided biopsies, cognitive fusion targeted biopsies and 12-needle systematic biopsies were performed routinely, and the proportion of positive needles of the three different biopsy methods were calculated respectively.Results:All the 10 cases were successfully completed, including 16 holographic image guided shots, 28 cognitive fusion targeted shots and 116 systematic shots. The objective accuracy of holographic image guided biopsy after first shot judgments was 68.8% (11/16), while it raised to 87.5% (14/16) after supplementary shots. The proportion of positive needles in the three puncture methods were 56.3% (9/16), 42.9% (12/28) and 19.8% (23/116), respectively ( P=0.002). The results of subjective questionnaire showed that holographic model was helpful to improve the spatial understanding of lesions. The satisfaction of intraoperative holographic registration and guided puncture were 90% and 60%, respectively. No puncture related complication occurred in this group. Conclusion:The study preliminarily confirmed the feasibility of holographic image-guided prostate targeted biopsy. This new puncture method has better objective accuracy, and the proportion of positive needles is significantly better than systematic biopsy.