Developing a 3D model of the tongue and mouth to assess pressure generation when swallowing
Project Overview
Dysphagia is a swallowing disorder that affects more than 18 million adults and millions of children in the U.S. alone. The disorder, when left untreated can lead to more damaging and sometimes lethal complications including pneumonia, malnutrition, and dehydration. Lingual weakness has been identified as a critical underlying cause of dysphagia. In order to study and treat dysphagia, a phantom mouth model needs to be constructed that can accurately mimic the mechanical properties of the tongue and the palate. The model will be used to compare pressure generation at various points in the oral cavity during swallowing and the impact on bolus flow in varying conditions.
Due to the complexity of this design, multiple semesters of work will be needed. This semester’s design will focus on creating a functioning, mechanical tongue that will have the ability to realistically mimic swallowing motions of an adult, human tongue. The synthetic tongue will need to replicate proper pressure distribution and mechanics.
Team Picture
Image
Files
- Poster (December 9, 2011)
- Final Paper (December 14, 2011)
- Research: Tongue Movements During Water Swallowing in Healthy Young and Older Adults (December 14, 2011)
- Research: Morphological Analyses of the Human Tongue Musculature for 3D Modeling (December 14, 2011)
- Product Design Specifications (PDS) (October 7, 2011)
- Mid-Semester Presentation (October 26, 2011)
- Mid-Semester Paper (October 26, 2011)
Contact Information
Team Members
- Donald Weier - Team Leader
- Naomi Humpal - Communicator
- Lucas Haug - BSAC
- Matthew Zanotelli - BWIG
Advisor and Client
- Dr. Tom Yen - Advisor
- JoAnne Robbins - Client
- Jacqueline Hind - Alternate Contact
Related Projects
- Fall 2012: Developing a 3D Model of the Tongue and Mouth to Assess Pressure Generation and Predict Bolus Flow when Swallowing
- Spring 2012: Developing a 3D model of the tongue and mouth to assess pressure generation when swallowing
- Fall 2011: Developing a 3D model of the tongue and mouth to assess pressure generation when swallowing