Computerized Cuff Pressure Algometry as Guidance for Circumferential Tissue Compression for Wearable Soft Robotic Applications: A Systematic Review.

Journal: Soft robotics

Published Date: Feb 1, 2018

Abstract

In this article, we review the literature on quantitative sensory testing of deep somatic pain by means of computerized cuff pressure algometry (CPA) in search of pressure-related safety guidelines for wearable soft exoskeleton and robotics design. Most pressure-related safety thresholds to date are based on interface pressures and skin perfusion, although clinical research suggests the deep somatic tissues to be the most sensitive to excessive loading. With CPA, pain is induced in deeper layers of soft tissue at the limbs. The results indicate that circumferential compression leads to discomfort at ∼16-34 kPa, becomes painful at ∼20-27 kPa, and can become unbearable even below 40 kPa.

Authors

Tjaša Kermavnar

School of Design and Health Research Institute, University of Limerick , Limerick, Ireland .
Valerie Power

School of Design and Health Research Institute, University of Limerick , Limerick, Ireland .
Adam de Eyto

School of Design and Health Research Institute, University of Limerick , Limerick, Ireland .
Leonard W O'Sullivan

School of Design and Health Research Institute, University of Limerick , Limerick, Ireland .

Keywords

Humans Nociceptive Pain Pain Measurement Pressure Robotics

External Resources

View on PubMed Access via DOI PubMed (29412078)

Computerized Cuff Pressure Algometry as Guidance for Circumferential Tissue Compression for Wearable Soft Robotic Applications: A Systematic Review.

Abstract

Authors

Keywords

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