Ryan Z. Wang

Ryan Z. Wang

BioE PhD @ Stanford | Knight-Hennessy 2024 | NDSEG 2024 | Rice '24 | he/him/his

Teaching

Teaching Assistant, Technology Assessment and Regulation of Medical Devices (BIOE/MS&E 256) (Sp26)

Graduate course, Stanford University, Department of Bioengineering, Department of Management Science & Engineering, 2026

Teaching assistant under Dr. Jan Pietzsch. Class of 80 upper-level undergraduates and graduate students. This graduate course gives engineers an introduction to technology assessment methods and the regulation of medical devices. Regulatory approval and reimbursement for new medical technologies are key components of successful product commercialization. This class discusses the regulatory and payer environment in the U.S. and abroad, and common methods of health technology assessment. A framework is presented to identify factors relevant to the value proposition and adoption of new medical devices and the management of those factors in the design and development phases. In addition to lectures and case studies, guest speakers from government (FDA) and industry share their experiences. Students investigate real-world diagnostic and therapeutic technologies in course projects.

Instructor, Rice NeuroCamp

High School summer program, Rice University, 2026

Taught 4 courses to 150+ high school students across 2 years in a free virtual and in-person summer neuroscience program.
NeuroCamp 2023 courses: Neuroscience & Technology, Philosophy of Mind
NeuroCamp 2022 courses: Neuroscience Research, Undergraduate Experiences

Volunteer instructor, Stanford Brain Day (2025, 2026)

Middle School, Palo Alto Unified School District, 2025

Taught about the brain and shared experiences in science to middle schoolers. Spent 1-2 weeks rotating through 7th-grade Palo Alto Unified School District classes. 8 total classes.

Teaching Assistant, Cellular and Molecular Neuroscience (BIOS 385/585) (F22)

Undergraduate & Graduate course, Rice University, Department of Biosciences, 2022

Teaching assistant under Dr. Cana Ross. Class of 60 upper-level undergraduates and graduate students. Topics include cellular, molecular, and integrative mechanisms of neural function, including membrane and axon physiology, synaptic transmission and plasticity, sensory transduction and processing.