Binodal, wireless epidermal electronic systems with in-sensor analytics for neonatal intensive care.
Ha Uk ChungBong Hoon KimJong Yoon LeeJungyup LeeZhaoqian XieErin M IblerKunHyuck LeeAnthony BanksJi Yoon JeongJongwon KimChristopher OgleDominic GrandeYongjoon YuHokyung JangPourya AssemDennis RyuJean Won KwakMyeong NamkoongJun Bin ParkYechan LeeDo Hoon KimArin RyuJaeseok JeongKevin YouBowen JiZhuangjian LiuQingze HuoXue FengYujun DengYeshou XuKyung-In JangJeonghyun KimYihui ZhangRoozbeh GhaffariCasey M RandMolly SchauAaron HamvasDebra E Weese-MayerYonggang HuangSeung Min LeeChi-Hwan LeeNaresh R ShanbhagAmy S PallerShuai XuJohn A RogersPublished in: Science (New York, N.Y.) (2019)
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.