Influence of methylprednisolone acetate on osteochondral healing in exercised tarsocrural joints of horses.
Abstract: To evaluate joint function and healing of surgically created full-thickness articular cartilage defects in exercised horses after intra-articular administration of methylprednisolone acetate (MPA; 120 mg) and sterile saline solution in the contralateral limb. Methods: Experimental investigation. Methods: 12 healthy, sound, radiographically normal horses with induced full-thickness osteochondral lesions on the medial and lateral trochlear ridges of the tali. Methods: Two 8.4-mm-diameter full-thickness articular cartilage lesions were created in each tarsocrural joint (12 horses [24 tarsocrural joints]); 1 was in a weight-bearing (WB) position and the other in a less weight-bearing (LWB) position. Each horse was maintained on a standardized exercise protocol (stall rest, days 0-6; walking, days 7-12; and treadmill, days 13-42) and evaluated throughout the study for changes in joint circumferences, synovial fluid, radiographs, lameness, and scintigraphy. 6 horses were euthanatized on day 42, and 6 on day 180. Gross morphometric assessment was performed, using an image analysis system on a projected color slide of the defect. The type of repair tissue, based on gross appearance, was expressed as a percentage of the total defect for each osteochondral defect. Histochemical assessment was performed, using safranin-O staining for proteoglycans and an image analysis system to express the area of stain uptake. Histomorphometric assessment was performed on H&E-stained sections, using an image analysis system. The repair tissue filling the defect was categorized as to tissue type and expressed as a percentage of the total defect area. Synovial membrane specimens were assessed semiquantitatively on H&E-stained sections for changes in character. Significance was established at P < 0.05. Results: Joint circumference was significantly increased in the saline, compared with the MPA-treated, limbs on days 7, 12, and 42. Synovial fluid WBC counts were significantly increased in the MPA-treated limbs on day 42. Gross osteochondral defects had a greater percentage of mature repair tissue in saline-treated joints (30.8% LWB, 23% WB), compared with MPA-treated joints (0% LWB, 0% WB) at 42 days Histomorphometric assessment of the repair tissue indicated significant differences with regard to the quality of repair in the saline-treated (34% fibrous tissue LWB, 19.4% fibrous tissue WB) versus MPA-treated (2.5% fibrous tissue in LWB and WB) joints at 42 days. Microscopically, the percentage of fibrocartilage in the LWB (MPA, 23.7%; saline, 24.8%) was significantly greater than that in the WB (MPA, 14.6%; saline, 15.4%) site at day 180. The MPA-treated limbs had greater villous hyperplasia, edema, and extent of inflammation within the synovial membrane than did saline-treated limbs (days 42 and 180). Conclusions: MPA inhibits the development and maturation of repair tissue at 42 days and incites potential long-term (180 days) detrimental synovial membrane inflammation. Furthermore, a single dose of MPA does not cause long-term detrimental effects (180 days) in quality of repair-tissue.
Publication Date: 1996-06-01 PubMed ID: 8725823
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- Clinical Trial
- Journal Article
- Randomized Controlled Trial
Summary
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The study investigates the impact of methylprednisolone acetate on the healing of joint cartilage in horses, finding that it inhibits early repair tissue development and causes potential long-term inflammation. However, it does not have detrimental effects on the quality of repair tissue in the long run.
Objective of the Research
The research aims to evaluate the impact of methylprednisolone acetate (MPA) on the healing and joint function in horses that have had surgically induced full-thickness articular cartilage defects. The MPA was administered intra-articularly in one limb, with a sterile saline solution given in the opposite limb for comparison.
Methodology
- The study involved 12 healthy horses, each with induced cartilage lesions on their tarsocrural joints. The location of these lesions varied with some being in a weight-bearing position (WB) and others in a less weight-bearing (LWB) position.
- The horses were maintained on a standardized exercise protocol which involved different activity levels and durations. They were evaluated throughout the study for changes in factors such as lameness, joint circumferences, synovial fluid, radiographs, and scintigraphy.
- Half of the horses were euthanatized on day 42 of the study and the remaining half on day 180. This allowed for different stages of the healing process to be analyzed.
- A wide variety of assessment methods were used including gross morphometric, histochemical, and histomorphometric assessments. These evaluations focused on things like the type of repair tissue visible, stain uptake, and the categorization of repair tissue filling in the defects.
Results
- The circumference of the saline-treated limbs was significantly larger than the MPA-treated limbs on certain days of observation. The MPA-treated limbs also had increased white blood cell counts in the synovial fluid.
- At day 42, the saline-treated limbs showed a greater percentage of mature repair tissue versus the MPA-treated limbs. Histomorphometric assessment showed differences in the quality of the repair tissues in the saline versus MPA-treated limbs.
- On day 180, the MPA limbs showed a greater amount of fibrocartilage in the less weight-bearing (LWB) sites than in the weight-bearing (WB) sites.
- It was also noted that MPA-treated limbs had greater villous hyperplasia, edema and inflammation in the synovial membrane than the saline-treated limbs.
Conclusion
MPA was found to inhibit the development and maturation of repair tissue at 42 days post-surgery, and induce long-term inflammation in the synovial membrane up to 180 days. However, the quality of the repair tissue was not negatively affected by a single MPA dose in the long run.
Cite This Article
APA
Carter BG, Bertone AL, Weisbrode SE, Bailey MQ, Andrews JM, Palmer JL.
(1996).
Influence of methylprednisolone acetate on osteochondral healing in exercised tarsocrural joints of horses.
Am J Vet Res, 57(6), 914-922.
Publication
Researcher Affiliations
- Department of Veterinary Clinical Sciences, Ohio State University, Columbus 43210, USA.
MeSH Terms
- Animals
- Anti-Inflammatory Agents / administration & dosage
- Anti-Inflammatory Agents / pharmacology
- Anti-Inflammatory Agents / therapeutic use
- Cartilage, Articular / drug effects
- Cartilage, Articular / injuries
- Cartilage, Articular / physiology
- Horses / injuries
- Horses / physiology
- Image Processing, Computer-Assisted
- Injections, Intra-Articular / veterinary
- Leukocytes / pathology
- Methylprednisolone / administration & dosage
- Methylprednisolone / analogs & derivatives
- Methylprednisolone / pharmacology
- Methylprednisolone / therapeutic use
- Methylprednisolone Acetate
- Physical Conditioning, Animal / physiology
- Radiography
- Synovial Fluid / cytology
- Synovial Membrane / pathology
- Tarsus, Animal / diagnostic imaging
- Tarsus, Animal / pathology
- Tarsus, Animal / physiology
- Wound Healing / drug effects
- Wound Healing / physiology
Citations
This article has been cited 4 times.- Alves JC, Santos A, Jorge P, Carreira LM. A first report on the efficacy of a single intra-articular administration of blood cell secretome, triamcinolone acetonide, and the combination of both in dogs with osteoarthritis. BMC Vet Res 2022 Aug 13;18(1):309.
- Alves JC, Santos A, Jorge P, Lavrador C, Carreira LM. Intra-articular Injections With Either Triamcinolone Hexacetonide, Stanozolol, Hylan G-F 20, or a Platelet Concentrate Improve Clinical Signs in Police Working Dogs With Bilateral Hip Osteoarthritis. Front Vet Sci 2020;7:609889.
- Alves JC, Santos A, Jorge P, Lavrador C, Carreira LM. A Pilot Study on the Efficacy of a Single Intra-Articular Administration of Triamcinolone Acetonide, Hyaluronan, and a Combination of Both for Clinical Management of Osteoarthritis in Police Working Dogs. Front Vet Sci 2020;7:512523.
- Bejar J, Peled E, Boss JH. Vasculature deprivation--induced osteonecrosis of the rat femoral head as a model for therapeutic trials. Theor Biol Med Model 2005 Jul 5;2:24.
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