2019
DOI: 10.3390/s19183862
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Active Body Pressure Relief System with Time-of-Flight Optical Pressure Sensors for Pressure Ulcer Prevention

Abstract: A body pressure relief system was newly developed with optical pressure sensors for pressure ulcer prevention. Unlike a conventional alternating pressure air mattress (APAM), this system automatically regulates air flow into a body supporting mattress with adaptive inflation (or deflation) duration in response to the pressure level in order to reduce skin stress due to prolonged high pressures. The system continuously quantifies the body pressure distribution using time-of-flight (ToF) optical sensors. The pro… Show more

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Cited by 22 publications
(18 citation statements)
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“…Technologies for continuous measurements of local pressures and temperatures at skin interfaces may provide the basis for an improved, quantitative approach for assessing risk and alerting for the need for preventive action. Previously reported approaches use mattress 15 , 16 —and textile 17 —integrated pressure sensors. Such technologies do not, however, allow for accurate tracking of ulcer-related variables, including pressure 18 , skin temperature 19 , relative humidity (RH) 20 and skin blood flow 21 , 22 on body locations of interest through the natural course of postural changes.…”
Section: Introductionmentioning
confidence: 99%
“…Technologies for continuous measurements of local pressures and temperatures at skin interfaces may provide the basis for an improved, quantitative approach for assessing risk and alerting for the need for preventive action. Previously reported approaches use mattress 15 , 16 —and textile 17 —integrated pressure sensors. Such technologies do not, however, allow for accurate tracking of ulcer-related variables, including pressure 18 , skin temperature 19 , relative humidity (RH) 20 and skin blood flow 21 , 22 on body locations of interest through the natural course of postural changes.…”
Section: Introductionmentioning
confidence: 99%
“…Above analysis is mainly about passively adjustment of air mattresses, and the active depressurization mattress is much more significant. For example, an active depressurization air mattress quantitatively measured body pressure distribution of human-mattress interface and successfully adjusted firmness of mattress by means of Time-of-Flight optical pressure sensors, providing a relatively ideal body pressure distribution [16], however, spinal alignment was still not taken into consideration. Verhaert [17,18], had studied spinal alignment in lying position further, including identifying spinal morphology by indentation on mattress surface and adjusting it by alternating stiffness of a specially designed mattress, which is an important step towards regulating spinal alignment.…”
Section: Introductionmentioning
confidence: 99%
“…This bed utilizes body pressure distribution information, but it is impractical because it requires a large number of actuators for bed operation [14]. An air mattress integrated with a pneumatic pump was developed to estimate body pressure by measuring mattress deformation [15]. Misaki et al proposed an anti-bedsore mattress consisting of multiple air cells and a capacitive pressure sensor.…”
Section: Introductionmentioning
confidence: 99%