Kelia A. Human
Northwestern University
2 Papers
Kelia A. Human is an academic researcher from Northwestern University. The author has contributed to research in topics: Medicine & Health care. The author has an hindex of 2, co-authored 2 publications.
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Papers
Skin-interfaced biosensors for advanced wireless physiological monitoring in neonatal and pediatric intensive-care units
Ha Uk Chung,Alina Y. Rwei,Aurélie Hourlier-Fargette,Shuai Xu,Kun Hyuck Lee,Emma C. Dunne,Zhaoqian Xie,Claire Liu,Andrea S. Carlini,Dong Hyun Kim,Dong Hyun Kim,Dennis Ryu,Elena Kulikova,Jingyue Cao,Ian C. Odland,Kelsey B. Fields,Brad Hopkins,Anthony Banks,Christopher Ogle,Dominic Grande,Jun Bin Park,Jongwon Kim,Jongwon Kim,Masahiro Irie,Hokyung Jang,Hokyung Jang,Joo Hee Lee,Yerim Park,Jungwoo Kim,Han Heul Jo,Hyoungjo Hahm,Raudel Avila,Yeshou Xu,Myeong Namkoong,Jean Won Kwak,Emily Suen,Max A. Paulus,Robin J. Kim,Blake V. Parsons,Kelia A. Human,Seung Sik Kim,Manish Patel,William Reuther,Hyun Soo Kim,Sung Hoon Lee,John D. Leedle,Yeojeong Yun,Sarah Rigali,Taeyoung Son,Inhwa Jung,Hany Arafa,Vinaya R. Soundararajan,Ayelet Ollech,Avani Shukla,Allison Bradley,Molly Schau,Casey M. Rand,Lauren E. Marsillio,Zena Leah Harris,Yonggang Huang,Aaron Hamvas,Amy S. Paller,Amy S. Paller,Debra E. Weese-Mayer,Jong Yoon Lee,John A. Rogers +65 more
TL;DR: A wireless, non-invasive technology is presented that not only offers measurement equivalency to existing clinical standards for heart rate, respiration rate, temperature and blood oxygenation, but also provides a range of important additional features, as supported by data from pilot clinical studies in both the NICU and PICU.
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A wireless, skin-interfaced biosensor for cerebral hemodynamic monitoring in pediatric care
Alina Y. Rwei,Alina Y. Rwei,Wei Lu,Changsheng Wu,Kelia A. Human,Emily Suen,Daniel Franklin,Monica Fabiani,Gabriele Gratton,Zhaoqian Xie,Yujun Deng,Sung Soo Kwak,Sung Soo Kwak,Lizhu Li,Carol Ge Gu,Alanna Liu,Casey M. Rand,Tracey M. Stewart,Yonggang Huang,Debra E. Weese-Mayer,Debra E. Weese-Mayer,John A. Rogers +21 more
TL;DR: A wireless, miniaturized, and mechanically soft, flexible device that supports measurements quantitatively comparable to existing clinical standards has the potential to substantially enhance the quality of pediatric care across a wide range of conditions and use scenarios.