Tag: Xudong Fan
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U-M Team Receives NIH Grant for Collaborative Research to Speed ARDS Diagnosis
Team researches ways to develop portable device.
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U-M Weil Institute, College of Engineering & Michigan Medicine Awarded $5.7M Grant for Wearable Sensor that Detects Diseases through Body Odor
The device could bring powerful monitoring and detection capabilities from the hospital to the point-of-care, home and workplace.
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Research Team Awarded $2M NIH Grant for Breath Analyzer that Detects and Monitors COVID-19, COVID-19 Induced Lung Injury
The grant, awarded as part of the NIH “SCENT” program, will further propel the ongoing work Fan and his team have been conducting with gas chromatography technology in the setting of life-threatening lung diseases.
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Lab-on-a-chip offers faster means of identifying best plasma donors in COVID fight
University of Michigan collaboration with Hackensack Meridian CDI offers new pathway to identify antibodies.
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Lab-on-a-chip COVID-19 antibody test could offer rapid, accurate results
Our campus, like the global community, is contending with COVID-19 and working to adapt to a new normal. Many are rapidly working on solutions. See all COVID-19 developments from University of Michigan Engineering.
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Shoe-box size breath-analyzer spots deadly lung disease faster, more accurately than doctors
The device could also be used to detect other diseases such as pneumonia, sepsis, asthma and others associated with lung or systemic blood inflammation.
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Turning blood into a laser emitter for drug testing, cancer treatment
By analyzing the light that was reflected back out, researchers observed cell structures and changes within the blood on the molecular level.
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U-M developing wearable tech for disease monitoring
The new sensor, which can detect airborne chemicals either exhaled or released through the skin, would likely be the first wearable to pick up a broad array of chemical, rather than physical, attributes.
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Smart gas sensors for better chemical detection
The main advance of the sensor designed by Fan and his colleagues at U-M and the University of Missouri, Columbia, is a better approach to divvying up the chemicals.