Prognosis of Cardiovascular Conditions Noninvasively Using Printable Elastomeric Electronic Skin.

Abstract

Lack of timely prognosis of cardiovascular condition (CVC) is resulting in increased mortality across the globe. Currently, available techniques are confined to medical facilities and need the intervention of specialists. Frequently, this impedes timely treatment, driven by socioeconomic factors. Consequently, the disease transcends toward incurable complications. In such a scenario, point-of-care diagnostic tools can help with prognosis at an early stage. Albeit there are such tools available, it is imperative to develop affordably in uncomplicated manufacturing techniques and should have simple readout and analysis modules for monitoring CVC. Accordingly, the solvent-free manufacturing of stencil printable liquid elastomer-carbon nanotube electronic skin-based strain sensor, capable of accurately detecting pulse (at different positions) and other parameters like augmentation index and stiffness index of artery related to the CVC, is reported. The Poincare plot, derived from the recorded data, measures heart rate variability, a key indicator linked to mortality. Thanks to the staggering linearity, gauge factor of 234.26, fast response time of 85 ms (measured from pulse data), and cyclic stability (over 500 cycles), assist in the ease of detection of vital parameters. Furthermore, the sensor patch demonstrates its capability to acquire pulse waves under different real-time artery conditions using cuff-based pressure applications.