R&D Engineer
As an R&D Engineer at 100XBio, I contribute to the hardware design of cutting-edge equipment and consumables that drive innovation in immunotherapy. Our technology enables up to 100 cycles of antigen-specific stimulation, paving the way for real-world applications like personalized cancer vaccines. I'm passionate about advancing healthcare solutions that push the boundaries of science and deliver impactful results in the fight against cancer
R&D Engineering Intern
As an R&D Engineer Intern at Teleflex Medical OEM, I contributed to developing an innovative abdominal closure and engineered high-performance soft tissue anchors, surpassing client expectations. Rigorous testing prioritized suture safety, enhancing product quality and shaping Teleflex's portfolio. I also assessed sutures for diverse surgical procedures.
Coworker's Feedback
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Revolutionizing Abdominal Closure: Innovating with 3D Printing for Incisional Hernia Reduction
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Innovative Engineering: Advancing Post-Surgery Recovery with High-Performance Soft Tissue Anchors
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Ensuring Quality and Safety: Advanced Testing Methodologies for Medical Sutures Evaluation
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Data-Driven Excellence: Enhancing Product Quality and Portfolio Summary at Teleflex through Suture Analysis
Biomedical Engineer
At SNH Hospital, my contributions were instrumental in creating a revolutionary automated EEG system for seizure detection, boasting an impressive 86% accuracy. Working closely with medical professionals, I was able to bridge the gap between cutting-edge engineering and real-world needs. This resulted in a real-time system with a user-friendly interface, showcasing the power of collaboration in a hospital environment. Here, engineers can directly translate the needs of doctors and patients into groundbreaking healthcare technology.
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Pioneering Automated Seizure Detection: Led the development of a groundbreaking 86% accurate automated EEG system for real-time seizure detection
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Advanced EEG Analysis: Enhanced EEG data processing and identification through cutting-edge image processing techniques
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Collaborative User-Centered Design: Partnered with medical professionals to redesign the system's interface, prioritizing usability through real-time feedback and visual cues
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Bridging Engineering and Medicine: Exemplifies the power of collaboration in a hospital setting, where we translate medical needs into innovative healthcare solutions