Barometric pressure dynamics within the pharynx during human swallowing
This project has been secured to protect intellectual property.
Login for More InformationIntegration with videofluoroscopy through a solenoid-driven radiopaque marker, providing synchronized visual cues during videofluoroscopic swallow studies
Design Award
- Design Excellence Award Winner
Project Overview
This device has the potential to improve researcher’s understanding of physiological mechanisms and support the development of quantifiable diagnostic metrics. The data may provide insight into valving dysfunction and other anatomical impairments associated with dysphagia.
Team Picture
Contact Information
Team Members
- Bodey Cartier - Team Leader
- Annika Syslack - Communicator
- Jacki Szelagowski - BSAC
- Tayler Carlson - BWIG
- Aksel Bresin - BPAG
Advisor and Client
- Prof. Amit Nimunkar - Advisor
- Dr. Nicole Rogus-Pulia - Client
- Mr. Ryan Burdick - Alternate Contact
Related Projects
- Spring 2026: Barometric pressure dynamics within the pharynx during human swallowing
- Fall 2025: Barometric pressure dynamics within the pharynx during human swallowing
- Spring 2025: Barometric pressure dynamics within the pharynx during human swallowing