News

June 2023

https://mailchi.mp/0c668752adea/ewear-newsletter-june-062123
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Current opinions on the present and future use of functional near-infrared spectroscopy (fNIRS) in psychiatry

Prof. Allan Reiss, Prof. Manish Saggar, Prof. Hadi Hosseini et al discuss many applications of fNIRS in psychiatry, protype wearable fNIRS devices, and future integration of EEG, eye tracking, heart rate and artificial intelligence to enable effective personalized monitoring, diagnosis, and treatment for patients with psychiatric disorders.

May 2023

https://mailchi.mp/966921254955/ewear-newsletter-may-052323
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Neuromorphic sensorimotor loop embodied by monolithically integrated, low-voltage, soft e-skin

Prof. Zhenan Bao et al report an electronic skin that incorporates organic semiconductor transistors and has no rigid components, thus mimicking aspects of real skin in mechanical properties, sensing temperature and pressure and can encode these stimuli into electrical pulses.
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Decoupling transmission and transduction for improved durability of highly stretchable, soft strain sensing: Applications in human health monitoring

Prof. Mark Cutkosky, Prof. Doff McElhinney et al present a modular approach that includes a soft, elastomeric microelectromechanical system (MEMS) optimized for application-specific performance and demonstrate an implantable cardiac sensor for measuring global longitudinal strain.

April 2023

https://mailchi.mp/e59423d3f663/ewear-newsletter-april-042723

Patent Newsletter- March 2023

https://mailchi.mp/77ed65d53cf6/ewear-patent-newsletter-winter-031623
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Characterization of a 30 µm pixel size CLIP-based 3D printer and its enhancement through dynamic printing optimization

Prof. Joseph DeSimone et al demonstrate a micro-CLIP 3D printing capability to manufacture finely detailed and gradient 3D structures, such as terraced microneedle arrays and micro-lattice structures, while maintaining high print speeds.

March 2023

https://mailchi.mp/dafc24a7cd74/ewear-newsletter-march-030823
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Multi-omics microsampling for the profiling of lifestyle-associated changes in health

Prof. Michael Snyder et al describe a strategy for the frequent collection and analysis of thousands of metabolites, lipids, cytokines and proteins in 10 μl of blood alongside physiological information from wearable sensors and demonstrate its advantages for discovering individualized inflammatory and metabolic responses to complex dietary changes and for deep individualized profiling.