Improvement of RARP Outcomes Via 3D Printed/Virtual Prostate Models

Not Applicable

Not yet recruiting

• Conditions: Prostate Cancer
• Interventions: Device: 3D Printed Models (3D printing facilities at GSTT); Device: 3D Virtual Models (Innersight Labs)

• Registration Number: NCT05982418
• Lead Sponsor: Guy's and St Thomas' NHS Foundation Trust

Brief Summary

Study the effect 3D printed or 3D virtual prostate models of a patient, when manipulated by surgeons during RARP, has on positive surgical margins and functional outcomes of patients. Our main hypothesis is that there is a reduction of positive resection margins and functional outcomes of patients undergoing RARP when surgeons are presented with 3D printed or 3D virtual patient-specific prostate models during surgery. Specifically, we hypothesize that the anatomical knowledge of surgeons that results from the manipulation of 3D printed/virtual models constructed from automated segmentations reduces positive resection margins and functional outcomes.

Detailed Description

This is a parallel group research feasibility study consisting of two intervention arms (3D printed and 3D virtual models) and a control group (standard practice). Intervention groups are prospective; control group is retrospective. Prospective patients, complying with the inclusion criteria, will randomly be allocated to only one intervention group.

Primary outcomes Study the effect of two-intervention arms (3D printed and virtual prostate models) have on the improvement of positive resection margins after RARP, validate the accuracy of automated methods when identifying masks of the prostate gland and, cancer lesions urethra, neurovascular bundles, and external sphincter, and validate the effectiveness of an automated deployment pipeline with the goal of setting groundwork in preparation for a randomise control trial in a subsequent study.

Secondary outcomes Study the effect of two-intervention arms have on functional outcomes, surgeons' and patients' perspectives on using 3D prostate models.

A total of 162 cases will be considered in this feasibility study stratified into 3 cohorts:

* Control group. The control group will consist of 54 retrospective case-matched dataset whereby mp-MRI, positive resection margins, and functional outcomes will be collected and used as a baseline. Automated segmentation of prostate gland and lesions will be done on mp-MRI.

* Intervention arm 1 - 3D printed models. This cohort will consist of 54 prospective cases whereby patient-specific 3D printed models will be available to the surgeon during RARP for manipulation.

* Intervention arm 2 - 3D virtual models. This cohort will consist of 54 prospective cases whereby 3D virtual models will be available to the surgeon during RARP for manipulation using Innersight Labs platform.

Study Timeline

• Status Verified: 2022-12
• Study First Submitted: 2023-07-20
• Study Start: 2023-07-31
• Study First Submitted QC: 2023-08-01
• Last Update Submitted: 2023-08-01
• Study First Posted: 2023-08-08
• Last Update Posted: 2023-08-08
• Primary Completion: 2024-01-31
• Study Completion: 2024-01-31

Recruitment & Eligibility

• Status: NOT_YET_RECRUITING
• Sex: Male
• Target Recruitment: 162

Inclusion Criteria

• Eligible for RARP after assessment of mp-MRI during multi-disciplinary team meetings at Guy's Hospital
• T2b-T3 prostate cancer patients
• Gleason's score>=3+4 .

Exclusion Criteria

• prior treatment for prostate cancer
• patients with pre-existing urinary incontinence problems
• patients where mp-MRI scans are not possible
• patients participating in other studies investigating functional outcomes after surgery will be excluded. This is to avoid other studies influencing our secondary endpoints.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
3D Printed Models	3D Printed Models (3D printing facilities at GSTT)	This cohort will consist of 54 prospective cases whereby patient-specific 3D printed models will be available to the surgeon during RARP for manipulation.
3D Virtual Models	3D Virtual Models (Innersight Labs)	This cohort will consist of 54 prospective cases whereby 3D virtual models will be available to the surgeon during RARP for manipulation using Innersight Labs platform.

Primary Outcome Measures

Name	Time	Method
Automated segmentation metrics	Assessed after mp-MRI of patient is available and before surgery (RARP). Reported at end of study (6 months).	Automated segmentation metrics in relation to the accuracy of predicted masks of prostate gland and lesions
Patient recruitment rate	Assessed throughout the study for each patient. Reported at end of study (6 months).	Patient recruitment rate will be captured throughout the study to measure effectiveness in preparation for a follow-up randomised control trial.
Percentage of cases that led to successful model deployment to the theatre	Assessed throughout the study for each patient. Reported at end of study (6 months).	Percentage of cases that led to successful model deployment to the theatre will be captured throughout the study to measure effectiveness in preparation for a follow-up randomised control trial.
Positive resection margins	Duration of the study	Assessed after surgery and after specimen analysis. Reported at end of study (6 months).

Secondary Outcome Measures

Name	Time	Method
Patient's perspectives	Assessed after surgery and after first clinical follow-up at 6 weeks. Reported at end of study (6 months).	Patient's perspectives on the use of their patient-specific 3D printed and virtual prostate model after surgery will be captured after surgery during clinic review
Urinary incontinence pad weights outcomes	Assessed at 6 weeks and 3 months after surgery. Reported at end of study (6 months)	These are captured via questionnaires (EPROM) answered by patients in relation to urinary incontinence measured by pad weights.
Surgeon's perspectives	Assessed only once after surgery and once surgeon has participated in both arms. Reported at end of study (6 months)	Surgeon's perspectives on the use of patient-specific 3D printed and virtual prostate models during surgery will be captured after surgery
Erectile dysfunction functional outcomes	Assessed at 6 weeks and 3 months after surgery. Reported at end of study (6 months)	These are captured via questionnaires (IIEF, and erectile hardness score) answered by patients in relation to erectile dysfunction.
Accuracy metrics for the automated segmentation of other structures	Assessed after mp-MRI of patient is available and before surgery (RARP). Reported at end of study (6 months).	Accuracy metrics of a model that will automatically identify neurovascular bundles, urethra, and external sphincter based on manually identified masks on mp-MRI
Surgical phase and action recognition	Assessed and reported at end of study (6 months).	Surgical phase and action recognition accuracy metrics of RARP endoscopic videos to understand the actions done leading to the reported complications
Urinary incontinence leak outcomes	Assessed at 6 weeks and 3 months after surgery. Reported at end of study (6 months)	These are captured via questionnaires (ICIQ-UI) answered by patients in relation to urinary leaks.
Urinary incontinence quality of life outcomes	Assessed at 6 weeks and 3 months after surgery. Reported at end of study (6 months)	These are captured via questionnaires (ICIQ-LUTS-QoL) answered by patients in relation to quality of life resulting from urinary incontinence.