Application of 3D-printed navigation for genital nerve regulation in male with lower urinary tract symptoms.
- Author:
Zi-Qin ZHOU
1
;
Xin SONG
2
;
Yin-Jun GU
3
;
Jian-Wei LÜ
2
Author Information
1. School of Medical Technology, Gongli Hospital, Shanghai University of Technology, Shanghai 200093, China.
2. Department of Urology, Gongli Hospital of Pudong New Area, Shanghai 200135, China.
3. Department of Urology, Renji Hospital Affiliated to Shanghai Jiao Tong University School of Medicine, Shanghai 200001, China.
- Publication Type:English Abstract
- Keywords:
3D printing;
neural stimulation;
pudendal nerve;
lower urinary tract symptom
- MeSH:
Humans;
Male;
Printing, Three-Dimensional;
Lower Urinary Tract Symptoms/surgery*;
Adult;
Pudendal Nerve;
Middle Aged;
Electrodes, Implanted
- From:
National Journal of Andrology
2025;31(8):698-702
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVE:To investigate the efficacy of 3D-printed navigation guided pudendal lead implantation on nervous regulation of lower urinary tract symptoms(LUTS) in male patients.
METHODS:Twenty-eight male patients who underwent perineal nervous regulation treatment for LUTS in Gongli Hospital of Pudong New Area from October 2021 to October 2023 were randomly divided into observation group and control group. The technology assisted with 3D-printed navigation to regulate the genital nerves was used in observation group. And the patients in control group were treated with regulation of the genital nerves by routine puncture. Operation time of puncture, number of surgical punctures, and stimulator debugging time compared between the two groups. The improvement of postoperative symptoms and surgical complications of patients in the observation group were recorded as well.
RESULT:A total of 12 male LUTS patients were included in the observation group, with an average age of 36.5±6.5 years, including 7 cases of frequent micturition, 3 cases of perineal pain, and 2 cases of dysuria. Four patients showed no significant improvement in symptoms, including two patients with pain and two cases of frequent micturition who did not undergo secondary surgery. While the other eight patients showed significant improvement in symptoms. The average time for successful puncture in control group was (21.13 ± 4.53) minutes, which was longer than that of the 3D-printed navigation group ([10.32 ± 3.42] min) significantly (P<0.05). The average number of punctures in the ordinary puncture group was 5.62 ± 1.43, which was significantly higher than that in the 3D-printed navigation group (1.5 ± 0.56). There was no statistically significant difference in the average time for stimulator debugging between the two groups of patients. The conversion rate of the 3D-printed navigation group in the second phase was 66.7%, which was higher than that (37.5%) significantly (P<0.05).
CONCLUSION:3D printing navigation of pudendal nerve electrode wire implantation can improve the accuracy of electrode implantation and the conversion rate to a certain extent, which has the advantages of reducing the difficulty of surgery.
