A KAIST research team led by Professor Keon Jae Lee has proposed an innovative theoretical framework and research strategies for AI-based wearable blood pressure sensors, paving the way for continuous ...

While attending the MEMS & Sensors Executive Congress 2016 (MSEC2016), I met two very bright and capable young men, Nicholas Fritz and Jonathan Garich, from the Blain-Christen Lab at Arizona State ...

(Nanowerk News) A team of researchers at the University of California San Diego has developed a new and improved wearable ultrasound patch for continuous and noninvasive blood pressure monitoring.

Flexible piezoelectric sensors are essential to monitor the motions of both humans and humanoid robots. However, existing designs are either are costly or have limited sensitivity. In a recent study, ...

Some cuffless #bloodpressure monitors don’t measure pressure at all,they infer it from pulse wave signals and map that waveform to #BP values using algorithms, not direct pressure readings.

A new technology has been developed that enables cuffless non-invasive blood pressure monitoring by using ultrasonic to track real-time changes in vascular diameter-without the need for a traditional ...

Hypertension is the leading risk factor for cardiovascular disease, the most common cause of death worldwide. Less than half the people with high blood pressure are aware of their diagnosis, and only ...

(Nanowerk News) Flexible piezoelectric sensors are essential to monitor the motions of both humans and humanoid robots. However, existing designs are either are costly or have limited sensitivity. In ...

This small, stretchy skin patch uses ultrasound to continuously monitor blood pressure deep inside the body. A comprehensive clinical validation on 117 subjects, including patients in the intensive ...