Develop an accessory device that reduces whole-body vibrations during neonatal transport.

Project Overview

Critically ill neonates as a result of birth defects or other disorders require transport to neonatal intensive care units (NICU) where specialized medical professionals and equipment increase their chances of survival. Transport in ambulances or helicopters, while necessary, induces physiological stressors which adversely affect the health of the neonates. In particular, whole body vibration (WBV) and excessive sound levels can induce head bleeds, leading to subsequent neurodevelopmental impairment or death. Minimizing the effects of mechanical vibrations and rotational and translational motion could improve outcomes during transport. The current transport incubator has ventilators, monitoring equipment, and temperature control mechanisms, but no control of the physical stressors aforementioned. The client, Dr. Ryan McAdams, has tasked the team with developing a novel transport bed to minimize these issues. The new bed must ensure the safety and security of the neonate while maintaining the functions of current incubators.

Team Picture

Files

• Final Notebook (May 3, 2023)
• Final Report (May 3, 2023)
• Final Poster Presentation (April 27, 2023)
• Executive Summary (April 21, 2023)
• Preliminary Report (March 1, 2023)
• Preliminary Presentation (February 24, 2023)
• PDS (February 10, 2023)

Contact Information

Team Members

• Joshua Varghese - Team Leader
• Meghan Horan - Communicator
• Nicole Parmenter - BSAC
• Sydney Polzin - BWIG
• Joseph Byrne III - BPAG
• Michaela Morhaus

Advisor and Client

• Dr. Melissa Skala - Advisor
• Dr. Melissa Kinney - Advisor
• Dr. Ryan McAdams - Client

Related Projects

• Fall 2023: Reducing whole-body vibrations on neonatal transport
• Spring 2023: Reducing whole-body vibrations on neonatal transport
• Fall 2022: Reducing whole-body vibrations on neonatal transport