Clinical Trial: Robotic Retinal Dissection Device Trial

Study Status: Recruiting
Recruit Status: Recruiting
Study Type: Interventional

Official Title: Robotic Retinal Dissection Device Trial

Brief Summary: The purpose of the study is to determine whether use of a robotic system improves the precision and therefore safety of high precision steps in retinal surgery. Two common surgical scenarios (ERM/ILM peel and sub retinal haemorrhage displacement surgery) that require a high degree of precision to avoid damage to the retina have been chosen for this trial. These steps also have been selected because they allow a clearly definable outcome measure e.g. time taken to complete a specific step in the operation. The main issue here is that the patients will be undergoing this procedure regardless of enrolment in the trial - the only difference being that for study participants the surgeon will perform parts of the operation with the assistance of the robot.

Detailed Summary: This trial will be a prospective interventional surgical case series to pilot the use of a robotic device in retinal surgery. Specifically, the investigators will determine whether particular operations are performed more quickly and safely with robotic assistance. The PRECEYES Surgical System is a robotically assistive device developed by PRECEYES Medical Robotics, a Dutch-based research group at the Technische Universiteit Eindhoven. It has been designed to enhance surgical precision, specifically for vitreoretinal eye surgery. The device provides accuracy beyond human capabilities of <10μm in all directions (x, y, z planes). The surgeon is always in control of the instrument by manipulating the motion controller. Patients undergoing one of two operations will be invited to enroll in the study (i.e. consent for the following operations is an eligibility criteria for the study itself): i) those undergoing epiretinal or inner limiting membrane peel, ii) those undergoing subretinal haemorrhage displacement surgery. The study will involve the surgeon performing specific surgical steps of these operations, that require very high levels of precision, with the assistance of the robot. Efficiency, accuracy and safety data will be collected. Eligible study participants will be recruited from the cohort of patients attending the outpatient clinics of the Oxford Eye Hospital who require either ERM/ILM peel or sub retinal haemorrhage displacement surgery. The expected duration and frequency of pre- and post-operative follow up will be identical to standard NHS care for these particular operations i.e. no additional study visits or procedures will be required.
Sponsor: University of Oxford

Current Primary Outcome: Intra-operative retinal micro-trauma [ Time Frame: 3 months ]

To explore the safety of the PRECEYES surgical robot assisted surgeon in two specific eye surgery procedures during steps that require the greatest manual precision. A count of the number of iatrogenic retinal micro-haemorrhages and/or inadvertent instrument touches of the retina will be made. This outcome measure will be assessed at the time of surgery and followed post-operatively using optical coherence tomography scans of the macula.


Original Primary Outcome: Same as current

Current Secondary Outcome:

  • Duration of robotic assisted surgery compared to standard surgery [ Time Frame: Intra-operative i.e. 1 day. ]
    To investigate the speed of the PRECEYES surgical robot assisted surgeon in initiating membrane removal from the retina compared with the standard of care (manual) technique. The duration of steps performed with the assistance of the robot will be compared to the standard operative technique.
  • Accuracy of instrument positioning in the subretinal space during subretinal injection, measured by visualising the cannula tip position with an integrated optical coherence tomography (OCT) operating microscope. [ Time Frame: Intra-operative i.e. 1 day. ]
    To investigate the accuracy of the PRECEYES surgical robot assisted surgeon in performing subretinal injection of tissue plasminogen activator (tPA). The cannula tip position will be documented using real-time OCT. Where possible, a comparison to the standard technique will be performed. Deviation in an x, y or z plane from the desired optimal position in the subretinal space will be recorded.


Original Secondary Outcome: Same as current

Information By: University of Oxford

Dates:
Date Received: January 4, 2017
Date Started: May 2016
Date Completion: April 2017
Last Updated: February 9, 2017
Last Verified: February 2017