Experience
Glass Health
Feb 2024 - Present
• Joined as the team’s founding designer, leading the end-to-end redesign of Glass’s core product offerings, including AI-assisted clinical decision support and ambient scribing • Help shape product strategy by refining foundational workflows and interaction patterns, then implement key features directly in code in collaboration with engineering and clinical teams • Design and develop external-facing assets for growth and marketing, including the company website, product demo videos, Figma prototypes, and conference assets
MIT, Traverso Lab
Feb 2022 - May 2022
Conducted and presented research on the feasibility of using physical neural networks (PNNs) as a basis for biosignal learning. • Reviewed state-of-research on (1) physical neural networks, (2) physiological signals as potential candidates for continual learning, and (3) the trade-offs of creating miniaturized medical devices for in-vivo integration • Specified, designed, and fabricated an analog electronic circuit PNN • Built and ran four virtual instruments using simulated signals in LabVIEW to validate the function of the PNN
Medtronic
Jan 2021 - Aug 2021
• Generated and refined multiple rounds of concepts for graphical user interface (GUI) features for a multiple-display robotically-assisted surgery system using Sketch and PowerPoint • Built wireframes and interactive prototypes of GUI features for use in usability testing • Developed and iterated graphics for user-facing documentation and training
Engineering Co-Op, Surgical Robotics
Aug 2020 - Dec 2020
• Executed performance evaluations of prototype systems through dry and wet lab testing with prospective customers and KOLs • Assisted with debugging and troubleshooting complex electromechanical robotic systems • Drove resolution of defects by analyzing and documenting device shortcomings, and efficiently reported issues through tracking software
Wyss Institute, Mooney Lab
Jun 2018 - May 2020
Conducted and presented research on creating therapeutic-loaded bandages for the treatment of chronic wounds in diabetic patients. • Fabricated alginate bandages loaded with pro-wound healing factors • Analyzed therapeutic release kinetics via enzyme-linked immunosorbent assays • Tested bandages in a murine model to assess capability for wound healing • Collected data on cell recruitment via fluorescence-activated cell sorting
Emulate
Jun 2019 - Aug 2019
With their Organ-Chip platforms and Human Emulation System product suite, Emulate is a biotech startup that strives to set a new standard for recreating true-to-life human biology with greater precision and control than today’s cell culture or animal-based testing methods. • Aided in the final stages of experimentation of the Kidney-on-a-Chip platform prior to its launch. • Provided support in designing and executing studies as a member of both the Kidney and Liver services teams to deliver clinically-relevant insights to external companies.
