This study aims to compare the outcomes of Simplified Robot (FASTER) assisted Endoscopic Submucosal Dissection (ESD) with conventional ESD in the treatment of colorectal lesions. Using a prospective, single-center, randomized controlled design, the investigators will systematically evaluate differences between the two approaches in terms of total procedure time, mucosal dissection time and speed, resection quality (R0 resection rate and en bloc resection rate), incidence of complications (bleeding, perforation, muscularis injury), and the flexibility and clinical feasibility of robotic operation. The clinical significance of this study lies in assessing the value of robotic assistance in colorectal ESD, optimizing intraoperative workflow, reducing complication risks, improving patient outcomes and procedural efficiency, and providing evidence to support individualized therapeutic strategies in clinical practice.This study aims to compare the outcomes of Simplified Robot (FASTER) assisted Endoscopic Submucosal Dissection (ESD) with conventional ESD in the treatment of colorectal lesions. Using a prospective, single-center, randomized controlled design, the investigators will systematically evaluate differences between the two approaches in terms of total procedure time, mucosal dissection time and speed, resection quality (R0 resection rate and en bloc resection rate), incidence of complications (bleeding, perforation, muscularis injury), and the flexibility and clinical feasibility of robotic operation. The clinical significance of this study lies in assessing the value of robotic assistance in colorectal ESD, optimizing intraoperative workflow, reducing complication risks, improving patient outcomes and procedural efficiency, and providing evidence to support individualized therapeutic strategies in clinical practice.
This study is a prospective, single-center, randomized controlled trial enrolling patients scheduled to undergo endoscopic submucosal dissection (ESD) for colorectal lesions. Eligible subjects will be screened according to predefined inclusion and exclusion criteria and, after providing written informed consent, randomized 1:1 to the experimental group (FASTER robot-assisted ESD) or the control group (conventional ESD). All participants will undergo standardized ESD performed by experienced endoscopists. In the experimental group, after a circumferential incision is completed, the FASTER robotic arm will be used; its end-effector grasper will apply multidirectional traction to the lesion margins to optimize the submucosal field before completing the dissection. The control group will undergo mucosal-submucosal dissection using conventional ESD techniques. Postoperatively, all participants will receive routine acid-suppression therapy and begin a warm, cool liquid diet 6 hours after the procedure. If no intolerance occurs within 24 hours, the diet will be advanced stepwise to semi-liquid and then soft foods until discharge. During treatment, the following parameters will be recorded and evaluated: total procedure time, mucosal dissection time and dissection speed, resection quality (R0 resection rate and en-bloc resection rate), complication rates (bleeding, perforation, muscularis propria injury), procedural stability, and robotic maneuverability. All participants will be followed during the postoperative hospitalization period, with collection of clinical status, laboratory results, and device-related information. The study team will conduct statistical analyses to compare the two approaches in terms of efficacy and safety, evaluate their clinical applicability, and provide scientific evidence to support optimization of colorectal ESD workflows and the broader adoption of robot-assisted technology.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
40
In the experimental group, the FASTER robotic arm will be attached to the tip of the endoscope at the beginning of the procedure. ESD will then be performed according to the standard steps of conventional ESD: (1) lesion marking; (2) submucosal injection with normal saline mixed with indigo carmine; and (3) circumferential incision. After completion of the submucosal injection and circumferential incision, the robotic arm will be deployed, and the end-effector grasper will grasp and lift the mucosal edge to provide a clear view of the dissection plane, after which submucosal dissection will be performed. Finally, the resected specimen will be retrieved using the FASTER system through the endoscope or via suction. Throughout the procedure, patients' vital signs and any procedure-related serious adverse events will be recorded for statistical analysis
In the control group, a transparent distal attachment cap will be mounted onto the tip of the endoscope at the beginning of the procedure. ESD will then be performed following the standard steps of conventional ESD, including: (1) lesion marking; (2) submucosal injection using normal saline mixed with indigo carmine; (3) circumferential incision; (4) submucosal dissection; and (5) retrieval of the resected specimen via suction. Throughout the procedure, patients' vital signs and any procedure-related serious adverse events will be recorded for statistical analysis.
Total procedure time
Measured from initiation of submucosal injection to completion of submucosal dissection.
Time frame: Recorded intraoperatively
En bloc resection rate
Defined as whether the lesion was resected in a single piece, assessed immediately after resection by the endoscopist.
Time frame: Periprocedural (intraoperative assessment)
Submucosal dissection time
Measured from completion of circumferential incision to complete removal of the lesion
Time frame: Recorded intraoperatively
Robotic operational flexibility
Number of attempts required for successful grasp and number of accidental drops. Successful grasp defined as effective traction providing clear submucosal visualization.
Time frame: Recorded intraoperatively
Dissection speed
Calculated as lesion area divided by dissection time. Lesion area is determined intraoperatively or from the resected specimen using the longest diameter (a) and the perpendicular diameter (b), applying the ellipse formula: area = a × b × π/4.
Time frame: Periprocedural (from intraoperative measurement to postoperative calculation within 24 hours)
Incidence of device malfunction
Device malfunctions (arm jamming, vision interruption, waterway obstruction/leakage) will be recorded intraoperatively and expressed as events per total cases.
Time frame: Recorded intraoperatively
Rates of intraoperative and postoperative complications
Intraoperative and postoperative complications such as bleeding, perforation, and muscularis propria injury will be documented. Based on established clinical diagnostic criteria and the corresponding medical records, these events will be assessed by the study investigators and recorded in the CRF.
Time frame: Periprocedural (from intraoperative period through hospital discharge, up to 7 days)
Complete resection rate
Defined as en bloc resection with histologically tumor-free lateral and vertical margins (R0 resection).
Time frame: Within 7 days post-procedure (upon pathology report issuance)
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