AI Article Synopsis
- The development of a programmable epidermal microfluidic valving system enhances wearable technology by enabling real-time biofluid management for accurate biomarker analysis from sweat.
- The system employs microheater-controlled hydrogel valves and pressure regulation to ensure effective sampling and routing, overcoming the challenges posed by flow rate variability.
- By integrating this system with wireless technology, it facilitates convenient data acquisition and display of relevant health biomarker information on consumer devices like smartwatches.
Article Abstract
Active biofluid management is central to the realization of wearable bioanalytical platforms that are poised to autonomously provide frequent, real-time, and accurate measures of biomarkers in epidermally-retrievable biofluids (e.g., sweat). Accordingly, here, a programmable epidermal microfluidic valving system is devised, which is capable of biofluid sampling, routing, and compartmentalization for biomarker analysis. At its core, the system is a network of individually-addressable microheater-controlled thermo-responsive hydrogel valves, augmented with a pressure regulation mechanism to accommodate pressure built-up, when interfacing sweat glands. The active biofluid control achieved by this system is harnessed to create unprecedented wearable bioanalytical capabilities at both the sensor level (decoupling the confounding influence of flow rate variability on sensor response) and the system level (facilitating context-based sensor selection/protection). Through integration with a wireless flexible printed circuit board and seamless bilateral communication with consumer electronics (e.g., smartwatch), contextually-relevant (scheduled/on-demand) on-body biomarker data acquisition/display was achieved.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7467936 | PMC |
| http://dx.doi.org/10.1038/s41467-020-18238-6 | DOI Listing |
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