Quantification and age-related distribution of articular cartilage degeneration in the equine fetlock joint.
Abstract: The equine fetlock joint has the largest number of traumatic and degenerative lesions of all joints of the appendicular skeleton. Objective: To gain insight into the distribution of cartilage degeneration across the articular surface in relation to age in order better to understand the dynamic nature and progression of osteoarthritis (OA). Objective: That there would be a specific age-related distribution pattern of cartilage degeneration in the equine metacarpophalangeal joint. Methods: The proximal articular cartilage surfaces of the first phalanges (P1) of 73 slaughter horses (age range 0.4-23 years) with different stages of osteoarthritis were scored semiquantitatively on a 0 to 5 scale and also assessed quantitatively using the cartilage degeneration index (CDI(P1)), which ranges from 0 to 100%. Furthermore, CDI values were determined for special areas of interest; medial dorsal surface (CDI(mds)), lateral dorsal surface (CDI(lds)), medial central fovea (CDI(mcf)) and lateral central fovea (CDI(lcf)). Correlations were calculated for CDI(P1) values and CDI values at the specific areas of interest with macroscopic scores and with age. Results: There was a high correlation between the semiquantitative macroscopic score and the quantitative CDI(P1) values (r = 0.92; P < 0.001). A macroscopic score of 0 (i.e. no obvious cartilage degeneration) corresponded with a CDI(P1) mean +/- s.e. value of 25 +/- 2.8% and a macroscopic score of 5 (i.e. severe cartilage degeneration in localised areas) with a mean +/- s.e. value of 38.1 +/- 7.9%. There was a moderate but highly significant correlation between the CDI(P1) value and the age of the horses (r = 0.41; P < 0.001). Highest CDI values were calculated for the medial dorsal surface (from 10.6 +/- 2.8% at macroscopic Grade 0 to 63.1 +/- 8.4% at Grade 5). At the lateral dorsal surface, these values were 5.9 +/- 1.4% and 47.2 +/- 10.4%, respectively. The CDI(mcf) and CDI(lcf) were significantly lower (P < 0.05) than the CDI(mds) and CDI(lds) at all grades. The CDI(mcf) ranged from 1.0 +/- 2.9% at Grade 0 to 43.7 +/- 9.1% at Grade 5; laterally, these values were 1.5 +/- 2.6% and 15.2 +/- 6.2%, respectively. Conclusions: CDI grading increased from lateral to medial and from central to dorsal. This specific distribution pattern confirms the heterogeneous nature of the OA process and strongly supports an important role for biomechanical loading, superimposed on age-related changes, in the spread of the disorder over the joint. Conclusions: Knowledge of the development of OA across the articular surface is essential for understanding the dynamic nature and progression of the disease and can form a basis for improvements in diagnostic and therapeutic approaches to degenerative joint disease.
Publication Date: 2003-12-03 PubMed ID: 14649362DOI: 10.2746/042516403775696357Google Scholar: Lookup
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- Journal Article
Summary
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This study investigates the patterns of cartilage degeneration in horses’ fetlock joints, particularly in relation to age, to better understand the development and progression of osteoarthritis. The findings suggest that both ageing and biomechanical loading contribute to the disease’s spread.
Objective and Methodology
- The researchers sought to understand the patterns of cartilage degeneration across the fetlock joint in relation to a horse’s age. This information would help to comprehend the dynamic nature and progression of osteoarthritis.
- Inspecting the proximal articular cartilage surfaces of the first phalanges (P1) of 73 horses of varying ages and stages of osteoarthritis, carried out the study.
- A 0 to 5 score on a semiquantitative scale evaluated the horses’ joints’ state, as well as the Cartilage Degeneration Index (CDI) ranging from 0 to 100%.
- Specific areas of interest, such as the medial dorsal surface (CDI(mds)), lateral dorsal surface (CDI(lds)), medial central fovea (CDI(mcf)) and lateral central fovea (CDI(lcf)) were separately assessed using the CDI.
- The researchers then analyzed the correlations between the CDI values and the macroscopic scores along with the age of the horses.
Findings and Conclusions
- The results showed a strong correlation between the semi-quantitative macroscopic score and the quantitative CDI values with a statistic of r = 0.92; P < 0.001. This meant that the CDI’s scores were effective in scoring degeneration in the equine fetlock joint.
- A moderate but highly significant correlation was discovered between the horse’s age and the CDI values, suggesting a gradual increase in cartilage degeneration with age.
- The research found specific patterns of cartilage degeneration, where the CDI index increased from lateral (side) to medial (middle) and from central to dorsal (back).
- The results also highlighted that osteoarthritis’s progression is not uniform but focuses more on certain sections of the joint.
- The role of biomechanical loading surfaces alongside age-related changes in enhancing the spread of osteoarthritis was confirmed by these findings.
- The researchers concluded that this information is vital to understand the disease’s dynamics and progression. The study’s findings can be used as a foundation to improve diagnostic and therapeutic approaches to degenerative joint diseases.
Cite This Article
APA
Brommer H, van Weeren PR, Brama PA, Barneveld A.
(2003).
Quantification and age-related distribution of articular cartilage degeneration in the equine fetlock joint.
Equine Vet J, 35(7), 697-701.
https://doi.org/10.2746/042516403775696357 Publication
Researcher Affiliations
- Department of Equine Sciences, Faculty of Veterinary Medicine, Utrecht University, Yalelaan 12, 3584 CM Utrecht, The Netherlands.
MeSH Terms
- Age Distribution
- Age Factors
- Aging / pathology
- Animals
- Biomechanical Phenomena
- Cartilage Diseases / epidemiology
- Cartilage Diseases / pathology
- Cartilage Diseases / veterinary
- Cartilage, Articular / pathology
- Horse Diseases / epidemiology
- Horse Diseases / pathology
- Horses
- Joints / pathology
- Osteoarthritis / epidemiology
- Osteoarthritis / pathology
- Osteoarthritis / veterinary
Citations
This article has been cited 10 times.- Boado A, Pollard D, Dyson S. Retrospective Analysis of Suspensory Ligament Branch Injuries in 70 Dressage Horses. Animals (Basel) 2025 Oct 23;15(21).
- Klymiuk MC, Speer J, Marco I, Elashry MI, Heimann M, Wenisch S, Arnhold S. Determination of the miRNA profile of extracellular vesicles from equine mesenchymal stem cells after different treatments. Stem Cell Res Ther 2025 Apr 5;16(1):162.
- Nagy A, Dyson S. Magnetic Resonance Imaging, Computed Tomographic and Radiographic Findings in the Metacarpophalangeal Joints of 31 Warmblood Showjumpers in Full Work and Competing Regularly. Animals (Basel) 2024 May 9;14(10).
- Mustonen AM, Lehmonen N, Paakkonen T, Raekallio M, Käkelä R, Niemelä T, Mykkänen A, Sihvo SP, Nieminen P. Equine osteoarthritis modifies fatty acid signatures in synovial fluid and its extracellular vesicles. Arthritis Res Ther 2023 Mar 9;25(1):39.
- Baker ME, Lee S, Clinton M, Hackl M, Castanheira C, Peffers MJ, Taylor SE. Investigation of MicroRNA Biomarkers in Equine Distal Interphalangeal Joint Osteoarthritis. Int J Mol Sci 2022 Dec 8;23(24).
- Chen M, Wen H, Zhou S, Yan X, Li H. Patchouli Alcohol Inhibits D-Gal Induced Oxidative Stress and Ameliorates the Quality of Aging Cartilage via Activating the Nrf2/HO-1 Pathway in Mice. Oxid Med Cell Longev 2022;2022:6821170.
- Thomsen LN, Thomsen PD, Downing A, Talbot R, Berg LC. FOXO1, PXK, PYCARD and SAMD9L are differentially expressed by fibroblast-like cells in equine synovial membrane compared to joint capsule. BMC Vet Res 2017 Apr 14;13(1):106.
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