Info

I am a driven and innovative Biomedical Engineering student at the University of Utah, passionate about developing cutting-edge medical devices, conducting impactful research, and leading cross-functional teams to bring novel healthcare solutions to life. With expertise in CAD modeling, 3D printing, electronics and advanced manufacturing techniques, I specialize in designing user-centered medical technologies that aim to improve patient outcomes and comfort.

As Chief of Engineering at CathSecure, I conducted the design, prototyping, and testing of a novel catheter-to-shunt securing device, leading to its recognition as a Bench2Bedside Competition winner. This role allowed me to bridge engineering, clinical needs, and manufacturability, ensuring a device that is both innovative and practical for real-world use.

In addition to my work at CathSecure, my thesis research has focused on wearable cardiovascular monitoring devices and additive manufacturing for medical applications. My studies explore novel electrode materials, sensor integration, and real-time physiological data collection, addressing limitations in ECG and SpO2 monitoring. Through experimental trials and comparative testing, I aim to improve the accuracy and reliability of continuous health monitoring technologies, bridging the gap between research and clinical adoption.

Beyond academics, I have extensive leadership experience—from managing high-precision manufacturing teams at Edwards Lifesciences to organizing large-scale community projects, such as designing and installing bike repair stations to promote sustainable transportation for my BSA Eagle Project. My work is driven by a deep commitment to innovation, problem-solving, and the advancement of healthcare technology.