1 A 2009 study found that 4 out of 5 surgical residents extended their training beyond residency because they 2 did not feel adequately trained to practice independently[1]. Medical program directors identified 121 surgical 3 procedures that they considered essential to a surgeon?s training[1]. However, 31 of these procedures (about 4 25% of all essential procedures) were found on average to be performed less than once by residents before 5 completion of residency[1]. Traditional forms of surgical training, such as the use of cadavers or medical 6 manikins, lack the fluid dynamic response to incisions, may not have identical anatomy (e.g. porcine), and may 7 be difficult to procure. In addition, opportunities to perform actual surgeries are very limited. Medical schools 8 have begun utilizing VR surgery simulation software, such as Touch Surgery, which can realistically simulate 9 the human body but lacks the hands-on aspect of a real operation. VR surgery simulation technology has been 10 shown to have a transfer-effectiveness ratio (TER) of 2.28 or, in other words, for every minute spent using VR 11 training an equivalent of 2.28 minutes using traditional training was saved[8]. Despite these benefits, however, 12 current VR training methods have a serious limitation: the software user must interact through a tablet or 13 joystick and does not hold the surgical tools or receive tactile feedback, which diminishes the skill?s transfer 14 effectiveness. As part of a previous research project, Lynntech developed an electromechanical device that 15 uses biomimetic artificial muscle fibers to move muscle-damaged fingers. We propose to transform this device 16 into a hand-worn peripheral to provide residents with the hand-tool interactions needed to realistically simulate 17 a surgery. In this way, the user will be able to hold, rotate, and move objects during the simulated surgery and 18 therefore practice movements needed in an actual surgery without the bulky or restrictive gloves now available. 19 The goal is to develop the VR Grip to increase the TER through more realistic training, leading to fewer 20 complications in actual surgeries. The following aims will be achieved: (1) develop the VR Grip glove, (2) 21 demonstrate that it can be tracked as it moves, (3) demonstrate that it can stop finger movements when 22 encountering virtual objects, and (4) develop the complete workstation. The final product is expected to be a 23 complete workstation that includes a VR headset, the VR Grip glove, a connected computer, interface 24 software, and a VR simulated environment with pre-programmed virtual objects such as scalpels. 25 This application for an Administrative Supplement is to purchase equipment that will allow Lynntech to 26 simulate human testing by measuring force responses to finger actuation. This will provide a significant 27 improvement on measuring the effectiveness of the VR Grip without the need for human testing in Phase I. In 28 this Administrative Supplement application, we are requesting monies for equipment and labor to install and 29 setup.

Public Health Relevance

Virtual reality is being used to train future surgeons via simulated surgeries at US medical schools. However, these simulations lack the hand-to-object interaction of holding actual surgical tools. The VR Grip glove gives trainees the ability to hold, rotate, and manipulate virtual tools and interact with the patient?s body during a simulated surgery by preventing fingers from moving through virtual objects which will enhance the training?s effectiveness and improve the skill transfer rate.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Small Business Innovation Research Grants (SBIR) - Phase I (R43)
Project #
3R43GM126719-01S1
Application #
9748823
Study Section
Program Officer
Cole, Alison E
Project Start
2018-04-01
Project End
2019-03-31
Budget Start
2018-04-01
Budget End
2019-03-31
Support Year
1
Fiscal Year
2018
Total Cost
Indirect Cost
Name
Lynntech, Inc.
Department
Type
DUNS #
184758308
City
College Station
State
TX
Country
United States
Zip Code
77845