MECHANICAL AND STRAIN BEHAVIOUR OF HUMAN ACHILLES TENDON DURING IN VITRO TESTING TO FAILURE

C. V. Nagelli; A. Hooke; N. Quirk; C. L. De Padilla; T. E. Hewett; M. van Griensven; M. Coenen; L. Berglund; C. H. Evans; S. A. Müller

doi:10.22203/eCM.v043a12

MECHANICAL AND STRAIN BEHAVIOUR OF HUMAN ACHILLES TENDON DURING IN VITRO TESTING TO FAILURE

C. V. Nagelli
, A. Hooke
, N. Quirk
, C. L. De Padilla
, T. E. Hewett
, M. van Griensven
, M. Coenen
, L. Berglund
, C. H. Evans
, S. A. Müller

Mayo Clinic
Minneapolis and Rochester
The Rocky Mountain Consortium for Sports Research
University of Maastricht
University of Basel

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

The Achilles tendon is the strongest tendon in the human body but its mechanical behaviour during failure has been little studied and the basis of its high tensile strength has not been elucidated in detail. In the present study, healthy, human, Achilles tendons were loaded to failure in an anatomically authentic fashion while the local deformation and strains were studied in real time, with very high precision, using digital image correlation (DIC). The values determined for the strength of the Achilles tendon were at the high end of those reported in the literature, consistent with the absence of a pre-existing tendinopathy in the samples, as determined by careful gross inspection and histology. Early in the loading cycle, the proximal region of the tendon accumulated high lateral strains while longitudinal strains remained low. However, immediately before rupture, the mid-substance of the Achilles tendon, its weakest part, started to show high longitudinal strains. These new insights advance the understanding of the mechanical behaviour of tendons as they are stretched to failure.

Original language	English
Pages (from-to)	153-161
Number of pages	9
Journal	European Cells and Materials
Volume	43
DOIs	https://doi.org/10.22203/eCM.v043a12
State	Published - 1 Jan 2022
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Achilles tendon
Strain behaviour
digital image correlation
tendon rupture

Access to Document

10.22203/eCM.v043a12

Cite this

@article{00d226e2c3704e1a87c8ab8f8c9c7083,

title = "MECHANICAL AND STRAIN BEHAVIOUR OF HUMAN ACHILLES TENDON DURING IN VITRO TESTING TO FAILURE",

abstract = "The Achilles tendon is the strongest tendon in the human body but its mechanical behaviour during failure has been little studied and the basis of its high tensile strength has not been elucidated in detail. In the present study, healthy, human, Achilles tendons were loaded to failure in an anatomically authentic fashion while the local deformation and strains were studied in real time, with very high precision, using digital image correlation (DIC). The values determined for the strength of the Achilles tendon were at the high end of those reported in the literature, consistent with the absence of a pre-existing tendinopathy in the samples, as determined by careful gross inspection and histology. Early in the loading cycle, the proximal region of the tendon accumulated high lateral strains while longitudinal strains remained low. However, immediately before rupture, the mid-substance of the Achilles tendon, its weakest part, started to show high longitudinal strains. These new insights advance the understanding of the mechanical behaviour of tendons as they are stretched to failure.",

keywords = "Achilles tendon, Strain behaviour, digital image correlation, tendon rupture",

author = "Nagelli, \{C. V.\} and A. Hooke and N. Quirk and \{De Padilla\}, \{C. L.\} and Hewett, \{T. E.\} and \{van Griensven\}, M. and M. Coenen and L. Berglund and Evans, \{C. H.\} and M{\"u}ller, \{S. A.\}",

year = "2022",

month = jan,

day = "1",

doi = "10.22203/eCM.v043a12",

language = "English",

volume = "43",

pages = "153--161",

journal = "European Cells and Materials",

issn = "1473-2262",

publisher = "Forum Multimedia Publishing LLC",

}

TY - JOUR

T1 - MECHANICAL AND STRAIN BEHAVIOUR OF HUMAN ACHILLES TENDON DURING IN VITRO TESTING TO FAILURE

AU - Nagelli, C. V.

AU - Hooke, A.

AU - Quirk, N.

AU - De Padilla, C. L.

AU - Hewett, T. E.

AU - van Griensven, M.

AU - Coenen, M.

AU - Berglund, L.

AU - Evans, C. H.

AU - Müller, S. A.

PY - 2022/1/1

Y1 - 2022/1/1

N2 - The Achilles tendon is the strongest tendon in the human body but its mechanical behaviour during failure has been little studied and the basis of its high tensile strength has not been elucidated in detail. In the present study, healthy, human, Achilles tendons were loaded to failure in an anatomically authentic fashion while the local deformation and strains were studied in real time, with very high precision, using digital image correlation (DIC). The values determined for the strength of the Achilles tendon were at the high end of those reported in the literature, consistent with the absence of a pre-existing tendinopathy in the samples, as determined by careful gross inspection and histology. Early in the loading cycle, the proximal region of the tendon accumulated high lateral strains while longitudinal strains remained low. However, immediately before rupture, the mid-substance of the Achilles tendon, its weakest part, started to show high longitudinal strains. These new insights advance the understanding of the mechanical behaviour of tendons as they are stretched to failure.

AB - The Achilles tendon is the strongest tendon in the human body but its mechanical behaviour during failure has been little studied and the basis of its high tensile strength has not been elucidated in detail. In the present study, healthy, human, Achilles tendons were loaded to failure in an anatomically authentic fashion while the local deformation and strains were studied in real time, with very high precision, using digital image correlation (DIC). The values determined for the strength of the Achilles tendon were at the high end of those reported in the literature, consistent with the absence of a pre-existing tendinopathy in the samples, as determined by careful gross inspection and histology. Early in the loading cycle, the proximal region of the tendon accumulated high lateral strains while longitudinal strains remained low. However, immediately before rupture, the mid-substance of the Achilles tendon, its weakest part, started to show high longitudinal strains. These new insights advance the understanding of the mechanical behaviour of tendons as they are stretched to failure.

KW - Achilles tendon

KW - Strain behaviour

KW - digital image correlation

KW - tendon rupture

UR - https://www.scopus.com/pages/publications/85128622220

U2 - 10.22203/eCM.v043a12

DO - 10.22203/eCM.v043a12

M3 - Article

C2 - 35446434

AN - SCOPUS:85128622220

SN - 1473-2262

VL - 43

SP - 153

EP - 161

JO - European Cells and Materials

JF - European Cells and Materials

ER -

MECHANICAL AND STRAIN BEHAVIOUR OF HUMAN ACHILLES TENDON DURING IN VITRO TESTING TO FAILURE

Abstract

UN SDGs

Keywords

Access to Document

Other files and links

Fingerprint

Cite this