Contributed to the design and development of an infant medical training manikin as part of a cross-functional product team, helping create realistic anatomical features for emergency care education and clinical procedure training.

My responsibilities focused on the design and engineering of key functional anatomy, including the chest skin with EKG capability and functioning umbilical assembly, realistic airway, venous arm and leg, and intraosseous leg. These components were developed to support hands-on medical training scenarios and provide a more accurate experience for healthcare professionals and students.

To ensure anatomical accuracy, I worked with doctors at the University of Wisconsin to verify the internal structures required for procedures such as intubation. This clinical collaboration helped align the product experience with real-world training needs and medical expectations.

My role extended through prototyping and production development. For the components I designed, I created prototypes, molding patterns, molds, production-line procedures, and assembly instructions, helping translate the anatomy and functionality into repeatable, manufacturable parts.

I also supported the product launch by partnering with the sales team at medical trade shows and with larger clients, helping train sales representatives on how to properly demonstrate the product to medical staff. The result was a realistic, procedure-focused infant training manikin that combined anatomical accuracy, functional training capability, and production-ready design.