Litcius/Paper detail

Towards Ultrasound Wearable Technology for Cardiovascular Monitoring: From Device Development to Clinical Validation

Ana Belen Amado Rey, Ana Carolina Gonçalves Seabra, Thomas Stieglitz

2024IEEE Reviews in Biomedical Engineering15 citationsDOI

Abstract

The advent of flexible, compact, energy-efficient, robust, and user-friendly wearables has significantly impacted the market growth, with an estimated value of 61.30 billion USD in 2022. Wearable sensors have revolutionized in-home health monitoring by warranting continuous measurements of vital parameters. Ultrasound is used to non-invasively, safely, and continuously record vital parameters. The next generation of smart ultrasonic devices for healthcare integrates microelectronics with flexible, stretchable patches and body-conformable devices. They offer not only wearability, and user comfort, but also higher tracking accuracy of immediate changes of cardiovascular parameters. Moreover, due to the fixed adhesion to the skin, errors derived from probe placement or patient movement are mitigated, even though placement at the correct anatomical location is still critical and requires a user's skill and knowledge. In this review, the steps required to bring wearable ultrasonic systems into the medical market (technologies, device development, signal-processing, in-lab validation, and, finally, clinical validation) are discussed. The next generation of vascular ultrasound and its future research directions offer many possibilities for modernizing vascular health assessment and the quality of personalized care for home and clinical monitoring.

Topics & Concepts

Wearable computerComputer scienceWearable technologyUltrasonic sensorContinuous monitoringHealth careEmbedded systemSystems engineeringEngineeringMedicineOperations managementRadiologyEconomicsEconomic growthNon-Invasive Vital Sign MonitoringHemodynamic Monitoring and TherapyOptical Imaging and Spectroscopy Techniques