Ultrasound simulation trainer that provides repeatable, precise, and accurate training for spinal tap providers performing neonatal lumbar punctures.

Design Award

• Tong Biomedical Design Award Winner

News About this Project

• News: Pediatric physicians tap biomedical engineering students to design lumbar puncture model (April 27, 2021)

Project Overview

The current training ideology for neonatal lumbar punctures utilizes experienced providers training newer providers. These types of opportunities are inconsistent and require fragile infants to be exposed to prolonged examinations, which requires parental consent. Although real-time practice on actual infants is desirable, ill infants are often intolerant to prolonged lumbar puncture operations; this further decreases educational experiences for neonatal providers like our client. The team’s goal is to make an ultrasound simulation trainer that provides accessibility to repeatable, precise training for inexperienced neonatal spinal tap providers while mimicking a newborn’s spinal column.

Team Picture

Contact Information

Team Members

• Seth Gehrke - Team Leader
• Noah Pollard - Communicator
• Michael Walz - BSAC
• Megan Baier - BWIG
• Laura Robinson - BPAG
• Jenny Piciw

Advisor and Client

• Dr. Kip Ludwig - Advisor
• Dr. James Trevathan - Advisor
• Dr. Brady Hauser - Client
• Dr. Adam Bauer - Alternate Contact

Related Projects

• Spring 2022: Ultrasound guided neonatal lumbar puncture: A simulation training model for dynamic lumbar punctures
• Fall 2021: Ultrasound guided neonatal lumbar puncture: A simulation training model for dynamic lumbar punctures
• Spring 2021: Ultrasound guided neonatal lumbar puncture: A simulation training model for dynamic lumbar punctures
• Fall 2020: Ultrasound guided neonatal lumbar puncture: A simulation training model for dynamic lumbar punctures