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Auto titration Oxygen Therapy Device with Real-Time Monitoring: Improving Accuracy of Dosing Oxygen and Quality of Life for Patients
The team aims to develop a novel oxygen regulator with an auto-titration algorithm that uses SpO2 and activity data from wearables to automatically adjust oxygen flow rates, improving dosing accuracy and patient health outcomes. This closed-loop system offers personalized oxygen therapy,…
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Developing a LLM-based Chatbot to Scale Returning Genetic Test Results
The team will create a patient-centered, AI-powered chatbot to explain APOL1 genetic test results, guide kidney health behaviors, and reduce anxiety, addressing the national shortage of genetic counselors and improving the communication of genetic test results for kidney disease risk.
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Research Concierge: A Tool to Connect Faculty and Staff with the Resources Needed to Increase Research Impact
The team is developing Peabody Research Concierge (PRC), a conversational AI designed to enhance the matching process between Vanderbilt faculty and relevant research funding opportunities, optimizing resource discovery through AI-driven insights based on individual expertise.
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Joshua Caldwell
Dr. Joshua Caldwell, a professor of Mechanical Engineering at Vanderbilt University, is renowned for his innovative contributions to the fields of semiconductor physics, infrared nanophotonics, chemical sensing, nanotechnology, and materials science. His research addresses critical challenges in…
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Expanding Sensorium Technological Labs Core Technologies into the Health Care Industry
The team is developing Tamm polariton multi-frequency thermal emitters and filters for enhanced gas sensing, with applications in semiconductor monitoring and healthcare, such as breath analysis for early disease detection, based on AI-driven design from the Caldwell Lab at Vanderbilt.
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TissueAb: An Unbiased In Vivo Screening Platform to Identify Tissue Targeting Antibodies
The TissueAb team seeks to enhance the technology that employs phage display libraries to identify tissues or cell type-specific antibodies (Ab) for targeted therapies. This technology will broadly apply to immune-oncology, autoimmunity, rare, and infectious diseases.
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Molecular Omics for Personalized Skincare
An innovative skin intelligence platform that uses skin mass spectrometry (MS) data to analyze the detailed molecular makeup of an individual’s skin and make skin product recommendations accordingly.