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Xu, Shuai (author), Rwei, A.Y. (author), Vwalika, Bellington (author), Chisembele, Maureen P. (author), Stringer, Jeffrey S.A. (author), Ginsburg, Amy Sarah (author), Rogers, John A. (author)Globally, neonatal mortality remains unacceptability high. Physiological monitoring is foundational to the care of these vulnerable patients to assess neonatal cardiopulmonary status, guide medical intervention, and determine readiness for safe discharge. However, most existing physiological monitoring systems require multiple electrodes and...review 2021
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Rwei, A.Y. (author), Lu, Wei (author), Wu, Changsheng (author), Human, Kelia (author), Suen, Emily (author), Franklin, Daniel (author), Fabiani, Monica (author), Gratton, Gabriele (author), Rogers, John A. (author)The standard of clinical care in many pediatric and neonatal neurocritical care units involves continuous monitoring of cerebral hemodynamics using hard-wired devices that physically adhere to the skin and connect to base stations that commonly mount on an adjacent wall or stand. Risks of iatrogenic skin injuries associated with adhesives...journal article 2020
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O'Brien, Megan K. (author), Hidalgo-Araya, Marco D. (author), Mummidisetty, Chaithanya K. (author), Vallery, H. (author), Ghaffari, Roozbeh (author), Rogers, John A. (author), Lieber, Richard (author), Jayaraman, Arun (author)Gait and balance impairments are linked with reduced mobility and increased risk of falling. Wearable sensing technologies, such as inertial measurement units (IMUs), may augment clinical assessments by providing continuous, high-resolution data. This study tested and validated the utility of a single IMU to quantify gait and balance features...journal article 2019