Single-use, cost-effective sensor for measuring volume delivered through a ventilator circuit
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Login for More InformationDesign a device that could help decide which ventilatory device is the most effective.
Project Overview
There are a multitude of different designs for airway and ventilatory devices whose performance must be quantified to arm healthcare providers with the best equipment possible. To this end, a single-use sensor to measure tidal volume, average ventilation volume, maximum ventilation volume, minimum ventilation volume, time of initial measurement, and time of final measurement which can be placed in-line between an airway and ventilatory device will be developed. Data from the sensor will be plotted over time and will provide prehospital providers with an indicator if a patient is being over or under-ventilated.
Team Picture
Contact Information
Team Members
- Connor Phipps - Team Leader
- Anna Goforth - Communicator
- Michael Chiariello - BSAC
- Jack Rueth - Co-BWIG
- MJ Hammill - Co-BWIG
- Eva Coughlin - BPAG
- Rishil Mehta
Advisor and Client
- Dr. Kris Saha - Advisor
- Dr. Michael Spigner - Client
Related Projects
- Spring 2023: Single-use, cost-effective sensor for measuring volume delivered through a ventilator circuit
- Fall 2022: Single-use, cost-effective sensor for measuring volume delivered through a ventilator circuit
- Spring 2022: Single-use, cost-effective sensor for measuring volume delivered through a ventilator circuit
- Fall 2021: Single-use, cost-effective sensor for measuring volume delivered through a ventilator circuit