A Simulation of the Viscoelastic Behaviour of Heel Pad During Weight-Bearing Activities of Daily Living

Internal strain is known to be one of the contributors to plantar soft tissue damage. However, due to challenges related to measurement techniques, there is a paucity of research investigating the strain within the plantar soft tissue during daily weight-bearing activities. Therefore, the main aim o...

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Published in	Annals of biomedical engineering Vol. 45; no. 12; pp. 2750 - 2761
Main Authors	Behforootan, Sara, Chatzistergos, Panagiotis E., Chockalingam, Nachiappan, Naemi, Roozbeh
Format	Journal Article
Language	English
Published	New York Springer US 01.12.2017 Springer Nature B.V
Subjects	Activities of Daily Living Adult Biochemistry Biological and Medical Physics Biomedical and Life Sciences Biomedical Engineering and Bioengineering Biomedicine Biophysics Classical Mechanics Compressive Strength - physiology Computer Simulation Connective Tissue - physiology Diabetes Elastic Modulus - physiology Female Foot diseases Hardness - physiology Hardness Tests - methods Heel - physiology Humans In vivo methods and tests Indentation Male Mathematical models Measurement techniques Mechanical properties Models, Biological Physical Stimulation - methods Plantar pressure Pressure Statistical analysis Strain Stress relaxation Stress relaxation tests Stress, Mechanical Ultrasonic testing Ultrasound Viscoelasticity Viscosity Walking Walking - physiology Weight-Bearing - physiology Soft tissue injury Mathematical method Mathematical computing Ultrasound indentation Diabetic foot Strain
Online Access	Get full text
ISSN	0090-6964 1573-9686 1573-9686
DOI	10.1007/s10439-017-1918-1

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Abstract	Internal strain is known to be one of the contributors to plantar soft tissue damage. However, due to challenges related to measurement techniques, there is a paucity of research investigating the strain within the plantar soft tissue during daily weight-bearing activities. Therefore, the main aim of this study was to develop a non-invasive method for predicting heel pad strain during loading. An ultrasound indentation technique along with a mathematical model was employed to calculate visco-hyperelastic structural coefficients from the results of cyclic-dynamic indentation and stress-relaxation tests. Subject-specific structural coefficients of heel pads were calculated from twenty participants along with the assessment of plantar pressure. The average difference between the predicted and the measured force during the cyclic-dynamic indentation test was only 5.8%. Moreover, the average difference between the predicted and the in vivo strain during walking was 14%. No statistically significant correlation was observed between maximum strain and peak plantar pressure during walking; indicating that the measurement of strain along with plantar pressure can improve our understanding of the mechanical behaviour of the plantar soft tissue.
AbstractList	Internal strain is known to be one of the contributors to plantar soft tissue damage. However, due to challenges related to measurement techniques, there is a paucity of research investigating the strain within the plantar soft tissue during daily weight-bearing activities. Therefore, the main aim of this study was to develop a non-invasive method for predicting heel pad strain during loading. An ultrasound indentation technique along with a mathematical model was employed to calculate visco-hyperelastic structural coefficients from the results of cyclic-dynamic indentation and stress-relaxation tests. Subject-specific structural coefficients of heel pads were calculated from twenty participants along with the assessment of plantar pressure. The average difference between the predicted and the measured force during the cyclic-dynamic indentation test was only 5.8%. Moreover, the average difference between the predicted and the in vivo strain during walking was 14%. No statistically significant correlation was observed between maximum strain and peak plantar pressure during walking; indicating that the measurement of strain along with plantar pressure can improve our understanding of the mechanical behaviour of the plantar soft tissue. Internal strain is known to be one of the contributors to plantar soft tissue damage. However, due to challenges related to measurement techniques, there is a paucity of research investigating the strain within the plantar soft tissue during daily weight-bearing activities. Therefore, the main aim of this study was to develop a non-invasive method for predicting heel pad strain during loading. An ultrasound indentation technique along with a mathematical model was employed to calculate visco-hyperelastic structural coefficients from the results of cyclic-dynamic indentation and stress-relaxation tests. Subject-specific structural coefficients of heel pads were calculated from twenty participants along with the assessment of plantar pressure. The average difference between the predicted and the measured force during the cyclic-dynamic indentation test was only 5.8%. Moreover, the average difference between the predicted and the in vivo strain during walking was 14%. No statistically significant correlation was observed between maximum strain and peak plantar pressure during walking; indicating that the measurement of strain along with plantar pressure can improve our understanding of the mechanical behaviour of the plantar soft tissue. Internal strain is known to be one of the contributors to plantar soft tissue damage. However, due to challenges related to measurement techniques, there is a paucity of research investigating the strain within the plantar soft tissue during daily weight-bearing activities. Therefore, the main aim of this study was to develop a non-invasive method for predicting heel pad strain during loading. An ultrasound indentation technique along with a mathematical model was employed to calculate visco-hyperelastic structural coefficients from the results of cyclic-dynamic indentation and stress-relaxation tests. Subject-specific structural coefficients of heel pads were calculated from twenty participants along with the assessment of plantar pressure. The average difference between the predicted and the measured force during the cyclic-dynamic indentation test was only 5.8%. Moreover, the average difference between the predicted and the in vivo strain during walking was 14%. No statistically significant correlation was observed between maximum strain and peak plantar pressure during walking; indicating that the measurement of strain along with plantar pressure can improve our understanding of the mechanical behaviour of the plantar soft tissue.Internal strain is known to be one of the contributors to plantar soft tissue damage. However, due to challenges related to measurement techniques, there is a paucity of research investigating the strain within the plantar soft tissue during daily weight-bearing activities. Therefore, the main aim of this study was to develop a non-invasive method for predicting heel pad strain during loading. An ultrasound indentation technique along with a mathematical model was employed to calculate visco-hyperelastic structural coefficients from the results of cyclic-dynamic indentation and stress-relaxation tests. Subject-specific structural coefficients of heel pads were calculated from twenty participants along with the assessment of plantar pressure. The average difference between the predicted and the measured force during the cyclic-dynamic indentation test was only 5.8%. Moreover, the average difference between the predicted and the in vivo strain during walking was 14%. No statistically significant correlation was observed between maximum strain and peak plantar pressure during walking; indicating that the measurement of strain along with plantar pressure can improve our understanding of the mechanical behaviour of the plantar soft tissue. Internal strain is known to be one of the contributors to plantar soft tissue damage. However, due to challenges related to measurement techniques, there is a paucity of research investigating the strain within the plantar soft tissue during daily weight-bearing activities. Therefore, the main aim of this study was to develop a non-invasive method for predicting heel pad strain during loading. An ultrasound indentation technique along with a mathematical model was employed to calculate visco-hyperelastic structural coefficients from the results of cyclic-dynamic indentation and stress-relaxation tests. Subject-specific structural coefficients of heel pads were calculated from twenty participants along with the assessment of plantar pressure. The average difference between the predicted and the measured force during the cyclic-dynamic indentation test was only 5.8%. Moreover, the average difference between the predicted and the in vivo strain during walking was 14%. No statistically significant correlation was observed between maximum strain and peak plantar pressure during walking; indicating that the measurement of strain along with plantar pressure can improve our understanding of the mechanical behaviour of the plantar soft tissue.
Author	Behforootan, Sara Chatzistergos, Panagiotis E. Chockalingam, Nachiappan Naemi, Roozbeh
Author_xml	– sequence: 1 givenname: Sara orcidid: 0000-0001-5580-4178 surname: Behforootan fullname: Behforootan, Sara email: sara.behforootan@research.staffs.ac.uk, sara.behforootan@gmail.com organization: School of Life Sciences and Education, Staffordshire University – sequence: 2 givenname: Panagiotis E. surname: Chatzistergos fullname: Chatzistergos, Panagiotis E. organization: School of Life Sciences and Education, Staffordshire University – sequence: 3 givenname: Nachiappan surname: Chockalingam fullname: Chockalingam, Nachiappan organization: School of Life Sciences and Education, Staffordshire University – sequence: 4 givenname: Roozbeh surname: Naemi fullname: Naemi, Roozbeh organization: School of Life Sciences and Education, Staffordshire University
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Snippet	Internal strain is known to be one of the contributors to plantar soft tissue damage. However, due to challenges related to measurement techniques, there is a...
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SubjectTerms	Activities of Daily Living Adult Biochemistry Biological and Medical Physics Biomedical and Life Sciences Biomedical Engineering and Bioengineering Biomedicine Biophysics Classical Mechanics Compressive Strength - physiology Computer Simulation Connective Tissue - physiology Diabetes Elastic Modulus - physiology Female Foot diseases Hardness - physiology Hardness Tests - methods Heel - physiology Humans In vivo methods and tests Indentation Male Mathematical models Measurement techniques Mechanical properties Models, Biological Physical Stimulation - methods Plantar pressure Pressure Statistical analysis Strain Stress relaxation Stress relaxation tests Stress, Mechanical Ultrasonic testing Ultrasound Viscoelasticity Viscosity Walking Walking - physiology Weight-Bearing - physiology
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Title	A Simulation of the Viscoelastic Behaviour of Heel Pad During Weight-Bearing Activities of Daily Living
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