The role of tendon stiffness in development of equine locomotion with age

The role of tendon stiffness in development of equine locomotion with age

Summary Reasons for performing study: The flexor tendons support the metacarpophalangeal (MCP) and distal interphalangeal (DIP) joints during stance phase and since tendon stiffness and strain changes with age, it is likely that kinematics are also age‐dependent. Hypothesis: Maximum MCP and DIP angl...

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Bibliographic Details
Published in:Equine veterinary journal Vol. 42; no. s38; pp. 556 - 560
Main Authors: ADDIS, P. R., LAWSON, S. E. M.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-11-2010
Wiley Subscription Services, Inc
Subjects:
Age
Aging - physiology
Animals
Biomechanical Phenomena
Correlation coefficients
Degeneration
development
Female
Gait
horse
Horses
Horses - physiology
Immersion plating
injury
Kinematics
Limbs
Locomotion
Locomotion - physiology
Male
Senescence
Strain
tendon stiffness
Tendons
Tendons - physiology
Walking
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Summary:Summary Reasons for performing study: The flexor tendons support the metacarpophalangeal (MCP) and distal interphalangeal (DIP) joints during stance phase and since tendon stiffness and strain changes with age, it is likely that kinematics are also age‐dependent. Hypothesis: Maximum MCP and DIP angles decrease in the young horse, plateau in the mature horse and increase towards senescence. Methods: The distal limbs of 57 walking horses age 3–212 months were filmed and digitised with an automated tracking system. Maximum MCP and DIP angles during stance phase were used to calculate strain in the superficial and deep digital flexor tendons. Horses were divided into 3 age groups; young (3–35 months), mature (36–99 months) and older horses (100–212 months). Pearson's correlation coefficients were calculated to determine the relationship between age and kinematics. Results: Tendon strain decreased in young horses, stayed constant in mature horses and increased in older horses. Joint angles showed significant negative correlation in young horses, with coefficients of −0.88 (MCP) and −0.81 (DIP). In mature horses, correlations were not significant (P = 0.2 for MCP; P = 0.5 for DIP). In older horses, angles showed significant positive correlation, with coefficients of 0.62 (MCP) and 0.48 (DIP). Conclusions: Joint angles decreased in the young horse as tendon stiffness increases, remained constant in the mature horse where tendon stiffness is constant and increased in older horses as tendons weakens and stiffness decreases. Strain patterns were similar to those found in vitro. Potential relevance: Changing tendon stiffness appeared to influence the development and degeneration of gait. This has implications for studying musculoskeletal development, especially for identification of normal and pathological development.
Bibliography:ArticleID:EVJ296
ark:/67375/WNG-XHPKNJCC-X
istex:7C87EFA1274CE77304DD5EDA44FB86EBF1DF37E1
ISSN:0425-1644
2042-3306
DOI:10.1111/j.2042-3306.2010.00296.x