Binodal, wireless epidermal electronic systems with in-sensor analytics for neonatal intensive care | Zendy

Ha Uk Chung | Zendy; Bong Hoon Kim | Zendy; Jong Yoon Lee | Zendy; Jungyup Lee | Zendy; Zhaoqian Xie | Zendy; Erin Ibler | Zendy; KunHyuck Lee | Zendy; Anthony Banks | Zendy; Ji Yoon Jeong | Zendy; Jong-Won Kim | Zendy; Christopher Ogle | Zendy; Dominic Grande | Zendy; Yongjoon Yu | Zendy; Hokyung Jang | Zendy; Pourya Assem | Zendy; Dennis Ryu | Zendy; Jean Won Kwak | Zendy; Myeong Namkoong | Zendy; Jun Bin Park | Zendy; Yechan Lee | Zendy; Do Hoon Kim | Zendy; Arin Ryu | Zendy; Jaeseok Jeong | Zendy; Kevin You | Zendy; Bowen Ji | Zendy; Zhuangjian Liu | Zendy; Qingze Huo | Zendy; Xue Feng | Zendy; Yujun Deng | Zendy; Yeshou Xu | Zendy; KyungIn Jang | Zendy; Jeonghyun Kim | Zendy; Yihui Zhang | Zendy; Roozbeh Ghaffari | Zendy; Casey M. Rand | Zendy; Molly Schau | Zendy; Aaron Hamvas | Zendy; Debra E. WeeseMayer | Zendy; Yonggang Huang | Zendy; Seung Min Lee | Zendy; Chi Hwan Lee | Zendy; Naresh R. Shanbhag | Zendy; Amy S. Paller | Zendy; Shuai Xu | Zendy; John A. Rogers | Zendy

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Binodal, wireless epidermal electronic systems with in-sensor analytics for neonatal intensive care

Author(s) -

Ha Uk Chung,

Bong Hoon Kim,

Jong Yoon Lee,

Jungyup Lee,

Zhaoqian Xie,

Erin Ibler,

KunHyuck Lee,

Anthony Banks,

Ji Yoon Jeong,

Jong-Won Kim,

Christopher Ogle,

Dominic Grande,

Yongjoon Yu,

Hokyung Jang,

Pourya Assem,

Dennis Ryu,

Jean Won Kwak,

Myeong Namkoong,

Jun Bin Park,

Yechan Lee,

Do Hoon Kim,

Arin Ryu,

Jaeseok Jeong,

Kevin You,

Bowen Ji,

Zhuangjian Liu,

Qingze Huo,

Xue Feng,

Yujun Deng,

Yeshou Xu,

KyungIn Jang,

Jeonghyun Kim,

Yihui Zhang,

Roozbeh Ghaffari,

Casey M. Rand,

Molly Schau,

Aaron Hamvas,

Debra E. WeeseMayer,

Yonggang Huang,

Seung Min Lee,

Chi Hwan Lee,

Naresh R. Shanbhag,

Amy S. Paller,

Shuai Xu,

John A. Rogers

Publication year - 2019

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.aau0780

Subject(s) - analytics , wireless , neonatal intensive care unit , computer science , wireless sensor network , intensive care , embedded system , computer network , operating system , medicine , data science , intensive care medicine , psychiatry

Existing vital sign monitoring systems in the neonatal intensive care unit (NICU) require multiple wires connected to rigid sensors with strongly adherent interfaces to the skin. We introduce a pair of ultrathin, soft, skin-like electronic devices whose coordinated, wireless operation reproduces the functionality of these traditional technologies but bypasses their intrinsic limitations. The enabling advances in engineering science include designs that support wireless, battery-free operation; real-time, in-sensor data analytics; time-synchronized, continuous data streaming; soft mechanics and gentle adhesive interfaces to the skin; and compatibility with visual inspection and with medical imaging techniques used in the NICU. Preliminary studies on neonates admitted to operating NICUs demonstrate performance comparable to the most advanced clinical-standard monitoring systems.

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