再现性
生物医学工程
计算机科学
比色法
体液
持续监测
微流控
远程病人监护
可穿戴计算机
病危
光容积图
跟踪(教育)
材料科学
注意事项
纳米技术
样品(材料)
作者
Alejandra Castelblanco,Elisabetta Ruggeri,Giusy Matzeu,Motaharehsadat Heydarian,Kai Foerster,Ahmed Bahnasy,Andreas Flemmer,Julia A. Schnabel,Benjamin Schubert,Fiorenzo G. Omenetto,Anne Hilgendorff
出处
期刊:ACS Sensors
[American Chemical Society]
日期:2026-05-28
卷期号:11 (6): 4409-4419
标识
DOI:10.1021/acssensors.5c04171
摘要
Clinical monitoring in the most vulnerable patients, such as newborns, relies on invasive and costly procedures and/or wired sensor surveillance, increasing discomfort and risk for undetected events. Addressing this critical need, we present a noninvasive, AI-supported multibiomarker monitoring sensor capturing multiple critical body functions via colorimetric analysis of body fluids. The sensor is optimized for its use in critically ill preterm neonates, where transepidermal fluid mirrors the interstitial compartment, thereby opening new avenues for future clinical monitoring. The silk-based sensor introduces twelve different colorimetric inks that stabilize labile bioresponsive molecules to a simple, wax-printed paper microfluidic wearable patch to facilitate real-time tracking of biomarkers (temperature (T), pH, sodium (S), and glucose (G)) on a miniaturized surface. Colorimetric responses showed high precision and reproducibility in sensing ranges relevant for neonatal care (T: 32-41 [°C]; pH: 3-9; S: 2.92-29.20 [mg/mL], G: 0.039-0.625 [mg/mL]). Deep learning for color response quantification achieved high-precision estimates (T: 0.455 [°C]; pH: 0.416; S: 0.857 [mg/mL], G:0.019 [mg/mL]; mean absolute error). The sensor's optimized interface for sample collection on skin and its performance under clinically relevant conditions, e.g., increased humidity (80%), tracking on moving object (0.986 AP@IoU = 0.5), sensor shear/rotation, uncontrolled light, as well as successful capture of physiological effects in biological fluids together with its miniaturized design caters to the critical needs of intensified monitoring in high-end patient populations such as neonates.
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