Department of Cardiology, Southern University of Science and Technology Hospital (SUSTech-Hospital), Shenzhen, 518071, China.
Department of Materials Science and Engineering, Southern University of Science and Technology, Shenzhen, 518055, China.
Adv Healthc Mater. 2023 Nov;12(29):e2301838. doi: 10.1002/adhm.202301838. Epub 2023 Aug 31.
Arteriosclerosis, which appears as a hardened and narrowed artery with plaque buildup, is the primary cause of various cardiovascular diseases such as stroke. Arteriosclerosis is often evaluated by clinically measuring the pulse wave velocity (PWV) using a two-point approach that requires bulky medical equipment and a skilled operator. Although wearable photoplethysmographic sensors for PWV monitoring are developed in recent years, likewise, this technique is often based on two-point measurement, and the signal can easily be interfered with by natural light. Herein, a single-point strategy is reported based on stable fingertip pulse monitoring using a flexible iontronic pressure sensor for heart-fingertip PWV (hfPWV) measurement. The iontronic sensor exhibits a high pressure-resolution on the order of 0.1 Pa over a wide linearity range, allowing the capture of characteristic peaks of fingertip pulse waves. The forward and reflected waves of the pulse are extracted and the time difference between the two waves is computed for hfPWV measurement using Hiroshi's method. Furthermore, a hfPWV-based model is established for arteriosclerosis evaluation with an accuracy comparable to that of existing clinical criteria, and the validity of the model is verified clinically. The work provides a reliable technique that can be used in wearable arteriosclerosis assessment systems.
动脉硬化是一种动脉变硬变窄并伴有斑块堆积的疾病,是中风等各种心血管疾病的主要病因。动脉硬化通常通过临床测量脉搏波速度 (PWV) 来评估,采用两点法,需要体积庞大的医疗设备和熟练的操作人员。尽管近年来已经开发出用于 PWV 监测的可穿戴光电容积脉搏波传感器,但同样,该技术通常基于两点测量,并且信号很容易受到自然光的干扰。在此,报道了一种基于使用柔性离子电子压力传感器稳定指尖脉搏监测的单点策略,用于测量心-指尖脉搏波速度 (hfPWV)。该离子电子传感器在很宽的线性范围内具有 0.1 Pa 量级的高压力分辨率,允许捕获指尖脉搏波的特征峰。使用 Hiroshi 方法提取脉搏的正向波和反射波,并计算两波之间的时间差,以测量 hfPWV。此外,还建立了基于 hfPWV 的动脉硬化评估模型,其准确性可与现有临床标准相媲美,并在临床上验证了该模型的有效性。这项工作为可穿戴动脉硬化评估系统提供了一种可靠的技术。
