Sensor-enabled simulations for the clinical breast exam
This project has been secured to protect intellectual property.
Login for More InformationProject Overview
Breast cancer is one of the leading causes of death for women worldwide. Clinical breast examinations (CBEs) aid in early diagnosis of breast cancer, which is critical in increasing patient survival rate. Research has been conducted to analyze CBEs performed by physicians. There exists a need for an undetectable pressure sensing system incorporated with a silicone breast model to give feedback on the force physicians use. This system will be developed using the novel approach of creating fabric force sensitive resistors with conductive and resistive materials. The system will measure the force and location of an examiner’s touch, with the aim of standardizing the CBE technique. Future work includes integrating two sensor systems, collecting data from physicians, and developing an algorithm to provide feedback. The system has the potential to develop into a breast exam training tool.
Team Picture
Contact Information
Team Members
- Kristen Rasske - Team Leader
- Megan Platner - Communicator
- Clair Kurzynski - BSAC
- Lauren Stopfer - BWIG
- Timothy Abbott - BPAG
Advisor and Client
- Dr. Joseph Towles - Advisor
- Dr. Shlomi Laufer - Client
Related Projects
- Spring 2015: Sensor-enabled simulations for the clinical breast exam
- Fall 2014: Sensor-enabled simulations for the clinical breast exam
- Spring 2014: Sensor-enabled simulations for the clinical breast exam