Prediction of applied pressure on model lower limb exerted by an air pneumatic device

•A theoretical model was developed to calculate pressure applied by compression sleeves on a lower leg manikin.•The theoretical model developed based on elliptical shaped forms predicted the pressure more accurately for the ankle to above ankle position.•The model based on circular shaped forms pred...

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Bibliographic Details
Published in:Medical engineering & physics 2021-11, Vol.97, p.77-87
Main Authors: Kankariya, Nimesh, Laing, Raechel M, Wilson, Cheryl A
Format: Article
Language:English
Subjects:
Air pneumatic compression
Ankle
Cross-Sectional Studies
Humans
Irregular radius of curvature
Leg
Lower limb
Pressure
Tibia
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Summary:•A theoretical model was developed to calculate pressure applied by compression sleeves on a lower leg manikin.•The theoretical model developed based on elliptical shaped forms predicted the pressure more accurately for the ankle to above ankle position.•The model based on circular shaped forms predicted the pressure more accurately for below the calf to below the knee position. Air pneumatic compression is a concept used for management of venous disease, including oedema. A typical air pneumatic compression device (PCD) consists of an inflatable sleeve composed of either single or multiple pressure chambers that encircle a limb. The aim of this research was to develop a mathematical model to predict the pressure applied by an air pneumatic device to an irregular cross-sectional lower limb manikin. The radius of curvature at any cross-section of the lower limb (i.e. calf (gastrocnemius), tibial crest (anterior edge of the tibia bone)) is irregular, and differs amongst individuals and populations. The effectiveness of air pneumatic devices is difficult to predict with these irregular cross sections. A theoretical model was developed to calculate pressure applied by compression sleeves on a lower leg manikin and results compared against experimental pressure exerted on the manikin by a silicone-based PCD. This prediction was made at each of three positions. The theoretical model developed based on elliptical shaped forms predicted the pressure more accurately for the ankle to above ankle position, whereas the model based on circular shaped forms predicted the pressure more accurately for below the calf to below the knee position. Refinements to the theoretical model to predict the pressure applied by PCD are recommended.
ISSN:1350-4533
1873-4030
DOI:10.1016/j.medengphy.2021.07.007