ImgGyd: MR compatible articulating skull hand drill clamp system
This project has been secured to protect intellectual property.
Login for More InformationThe team has been tasked with designing a drill stabilization system for use during novel neurosurgical procedures.
Project Overview
The AccuGyd trajectory system for neurosurgery is limited by the amount of weight that can be applied into a device that is affixed to the skull. Due to the nature of the surgery, ferrous metals and powered tools are unsafe and a manual hand drill must be used. The vibrational translational motion caused by the movement of the hand drill can lead to skiving on the skull, altering the trajectory of the system. To diminish the unwanted movement and vibration, a drill clamping system is needed to attain trajectory accuracy within 1 mm at 10 cm depth. This system should provide the hand drill with stability, a higher degree of accuracy, and improved consistency drilling into the skull.
Team Picture
Contact Information
Team Members
- Lily Xistris - Team Leader
- Matthew Wroblewski - Communicator
- Ryan Meekin - BSAC
- Colleen Cuncannan - BWIG
- Kenzie Hurt - BPAG
Advisor and Client
- Prof. Walter Block - Advisor
- Dr. Terrence Oakes - Client
- Dr. Azam Ahmed - Alternate Contact
- Prof. Walter Block - Alternate Contact
Related Projects
- Spring 2023: ImgGyd: MR compatible articulating skull hand drill clamp system
- Fall 2022: ImgGyd: MR compatible articulating skull hand drill clamp system