2018
DOI: 10.1126/scitranslmed.aap8674
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Smartphone-based blood pressure monitoring via the oscillometric finger-pressing method

Abstract: High blood pressure (BP) is a major cardiovascular risk factor that is treatable, yet hypertension awareness and control rates are low. Ubiquitous BP monitoring technology could improve hypertension management, but existing devices require an inflatable cuff and are not compatible with such anytime, anywhere measurement of BP. We extended the oscillometric principle, which is used by most automatic cuff devices, to develop a cuff-less BP monitoring device using a smartphone. As the user presses her/his finger … Show more

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Cited by 173 publications
(115 citation statements)
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“…Above testing results also reveal that our pulse sensing system can measure the blood pressure, as indicated in Figure c. This result is similar to the traditional oscillometric method, in which blood pressure is measured by decreasing the cuff pressure applied on the radial artery . Specifically, the mean arterial pressure (MAP), which is the static pressure of the maximum pulse wave amplitude, is read from the pulse wave envelope directly.…”
Section: Resultssupporting
confidence: 61%
“…Above testing results also reveal that our pulse sensing system can measure the blood pressure, as indicated in Figure c. This result is similar to the traditional oscillometric method, in which blood pressure is measured by decreasing the cuff pressure applied on the radial artery . Specifically, the mean arterial pressure (MAP), which is the static pressure of the maximum pulse wave amplitude, is read from the pulse wave envelope directly.…”
Section: Resultssupporting
confidence: 61%
“…Through placement of high density weights on the screen adjacent to the camera, the application derives force (F, grams) from the strain gauge output (V) as F = 443.75 V, where V takes on 400 levels from 0 to 0.83 (firm setting). Like our previous device 6 , the application plots the data as they are recorded to visually guide the finger actuation.
Figure 1An iPhone application for cuff-less and calibration-free blood pressure (BP) monitoring via extension of the oscillometric cuff measurement principle. ( a ) Photograph of an oscillometric cuff device and diagram of BP computation from the measured cuff pressure and blood volume oscillations.
…”
Section: Resultsmentioning
confidence: 99%
“…Wearable devices with continuous monitoring are being used to study a wide range of physiologic measures with daily rhythms (1). Ambulatory blood pressure monitoring, the gold-standard for hypertension diagnosis, or a recently developed cuffless BP monitoring system (42) can be used to test the effect of circadian dosage time on efficacy. In parallel, the development of robust circadian biomarkers will help clinicians administer treatment at optimal times.…”
Section: Discussionmentioning
confidence: 99%