Incremental advance drill stop device for orthopedic surgery

Project Overview

The risk of injury to nerves, vascular structures, and tendons is present due to the overpenetration of the far cortex during bicortical drilling in orthopedic surgery. The current depth gauge used to determine the length of screw placed in the bone is static and cannot be changed during the drilling process. This can lead to inaccurate drilling due to the variety of bone depths in different sections of the bone. Previous studies have shown the average plunge depth to be 1.5 to 3 cm past the far cortex depending on the experience of the surgeon. Our team has been asked to design a variable depth drill guide with a drill stop that can be dynamically adjusted while preventing overpenetration of the far cortex.

Team Picture

Team members (from left to right): Andy LaCroix, Alex Bloomquist, Kara Murphy, Jon Mantes (consultant), Graham Bousley

Files

Final Poster (April 28, 2011)
Final Report (May 4, 2011)
PDS (February 4, 2011)
Mid Semester Presentation (March 4, 2011)

Contact Information

Team Members

Alex Bloomquist - Team Leader
Kara Murphy - Communicator
Graham Bousley - BSAC
Andrew LaCroix - BWIG

Advisor and Client

Prof. Naomi Chesler - Advisor
Dr. Tim O'Connor - Client

Related Projects

Fall 2011: Incremental advance drill stop for orthopedic surgery
Spring 2011: Incremental advance drill stop device for orthopedic surgery
Fall 2010: Use of drill stop device for more accurate and efficient drilling in orthopedic surgery