Role of subchondral bone remodelling in collapse of the articular surface of Thoroughbred racehorses with palmar osteochondral disease.

REASONS FOR PERFORMING STUDY: To gain a better understanding of the aetiology of articular surface collapse in horses with palmar osteochondral disease. OBJECTIVES: To determine whether acceleration of focal bone resorption associated with reduced physical activity contributes to articular surface collapse in racehorses with palmar osteochondral disease. STUDY DESIGN: Cross-sectional study comparing metacarpal bones from horses at varying stages of race training. METHODS: Metacarpal bones from 36 racing Thoroughbred horses were examined with high-resolution peripheral quantitative computed tomography to determine the proportion of the articular surface that had collapsed and with backscattered scanning electron microscopy to quantify porosity and eroded bone surface. Racing and training histories were obtained for comparison with imaging data. RESULTS: In 21 cases, inward collapse of the calcified cartilage layer was observed on backscattered scanning electron microscopy. An increased extent of articular surface collapse was associated with greater numbers of microfractures in the calcified cartilage and superficial subchondral bone (Spearman's correlation [rs ] = 0.62, P<0.001). In the deeper bone (6-10 mm), porosity was lower with a greater extent of articular surface collapse (rs = -0.38, P = 0.023), whereas in the superficial bone (0-4 mm) there was no association between articular surface collapse and porosity (rs = 0.19, P = 0.26). Both porosity (median 14, range 3.8-26 vs. 3.8, 1.6-17%, P = 0.008) and eroded surface (1.1, 0.74-4.5 vs. 0.64, 0.11-4.7 mm(-1) , P = 0.016) of the superficial subchondral bone were higher in resting than in training horses, and in some resting horses subchondral bone voids were highly concentrated, resulting in an apparent loss of support for the overlying calcified cartilage layer. CONCLUSIONS: Articular surface collapse is common in cases of palmar osteochondral disease and is likely to be a sequel to fatigue injury of subchondral bone. Focal subchondral bone resorption appears to contribute to collapse of the calcified cartilage and is potentiated by a reduced-intensity exercise regimen.

Relationship between serum biomarkers of cartilage and bone metabolism and joint injury in young Thoroughbred racehorses in training.

OBJECTIVE: To compare serum concentrations of biomarkers of cartilage and bone metabolism between racehorses with a carpal or metacarpophalangeal or metatarsophalangeal (ie, fetlock) joint injury and matched uninjured control horses, determine changes in biomarker concentrations following joint injury, and establish the biomarkers' diagnostic test performance. ANIMALS: 50 Thoroughbred racehorses with a carpal or fetlock joint injury and 50 matched uninjured horses (control horses). PROCEDURES: Serum concentrations of 2 cartilage synthesis biomarkers (carboxy-terminal propeptide of type II collagen [CPII] and chondroitin sulfate epitope 846 [CS846]), 2 cartilage degradation biomarkers (neoepitope generated by collagenase cleavage of type II collagen [C2C] and cross-linked carboxy-terminal telopeptide fragments of type II collagen [CTX-II]), and serum activity of a bone formation marker (bone-specific alkaline phosphatase [BAP]) were measured around the time of injury diagnosis and monthly thereafter for as long as possible. RESULTS: Injured horses as a group and horses specifically with fetlock joint injuries had significantly lower serum CPII concentrations and significantly higher serum BAP activities than matched control horses. Concentrations of CTX-II were decreased between 2 and 4 months following joint injury. Measurement of CPII concentration at baseline could distinguish between injured horses and control horses with a sensitivity of 82% and specificity of 50%. CONCLUSIONS AND CLINICAL RELEVANCE: Although significant differences in specific biomarker concentrations between horses with carpal and fetlock joint injuries and matched control horses were identified, there was no convincing evidence of the suitability of these biomarkers as diagnostic or prognostic tools in a clinical setting.

Horse-, training- and race-level risk factors for palmar/plantar osteochondral disease in the racing Thoroughbred.

REASONS FOR PERFORMING STUDY: Palmar/plantar osteochondral disease (POD) is a common, debilitating condition in Thoroughbred racehorses; however, training- and racing-related factors associated with this disease are unknown. OBJECTIVES: To determine horse-, racing- and training-related risk factors for POD. The general hypotheses were that early training and racing, and increased intensity of racing and training, lead to increased severity of POD. METHODS: The metacarpo/metatarsophalangeal joints of 164 Thoroughbred racehorses were examined at post mortem and graded for third metacarpal and metatarsal POD. The relationships between training- and racing-related factors and grade of POD in each condyle were determined using multilevel, multivariable, ordinal logistic regression models. RESULTS: A total of 1288 condyles were graded. Factors associated with higher grades of POD were the total lifetime number of races, an increase in gallop sessions in the previous season, racing before import to Hong Kong and an increase in the number of short (8-16 weeks) between-race intervals per season. Horses in their first racing season were more likely to have lower POD grades, while horses that had a long between-race interval (greater than 16 weeks) in the season prior to euthanasia were also more likely to have lower POD grades. Lower POD grades were significantly more likely as days since last race increased up to 400 days. Age at first race was not significantly associated with grade of POD. CONCLUSIONS AND POTENTIAL RELEVANCE: Cumulative racing exposure and training intensity in the previous season were associated with higher grades of POD, supporting the hypothesis that the disease is due to repetitive loading. Longer between-race intervals and increased time since racing were associated with lower POD grades, which may indicate that lesions heal. Further work is required to enable optimisation of racing and training programmes to reduce the frequency and severity of this disease.

Implante de condrócitos homólogos em defeitos osteocondrais de cães: padronização da técnica e avaliação histopatológica / Homologous articular chondrocytes implantation in osteochondral defects of dogs: technique and histopathological evaluation standardization

Padronizou-se a metodologia para cultura de condrócitos em cães e avaliou-se seu implante em lesões osteocondrais, utilizando-se a membrana biossintética de celulose (MBC) como revestimento. Dez cães, adultos e clinicamente sadios, foram submetidos à artrotomia das articulações fêmoro-tíbio-patelares. Defeitos de 4mm de diâmetro e profundidade foram induzidos no sulco troclear de ambos os membros. MBC foi aplicada na base e na superfície das lesões. Os defeitos do membro direito foram preenchidos com condrócitos homólogos cultivados formando o grupo-tratado (GT); os do membro esquerdo, sem implante celular, foram designados grupo-controle (GC). A evolução pós-operatória foi analisada com especial interesse nos processos de reparação da lesão, por meio de histomorfometria e imuno-histoquímica para colágeno tipo II e sulfato de condroitina. A cultura de condrócitos homólogos apresentou alta densidade e taxa de viabilidade. Observou-se integridade do tecido neoformado com a cartilagem adjacente na avaliação histológica, em ambos os grupos. Na imuno-histoquímica, verificou-se predomínio de colágeno tipo II no GT. Morfometricamente, não houve diferença significativa entre o tecido fibroso e o fibrocartilaginoso entre os grupos. A cultura de condrócitos homólogos de cães foi exequível. O tecido neoformado apresentou qualidade discretamente superior associado ao implante homólogo de condrócitos, contudo não promoveu reparação por cartilagem hialina.

The aim of the study is to standardize the methodology to achieve canine chondrocytes culture, and evaluate its implant on osteochondral defects made in the femoral trochlear sulcus of dogs, using the cellulose biosynthetic membrane (CBM) as coating. Ten healthy adult dogs without locomotor disorders were used. All animals were submitted to arthrotomy of stifle joints and defects of four millimeters in diameter x four millimeters deep were done in the femoral trochlear sulcus of both limbs. CBM were applied in the lesion base and surface of all limbs. In the treated group (TG), defects of the right limb were filled with cultivated homologous chondrocytes, and in control group (CG), defects of the left limb were left without cellular implant. Postoperative follow up was done by histomorphometry and Collagen type II and anti-chondroitin sulfate immunohistochemistry. The homologous chondrocytes culture showed high density and viability rate. Upon immunohistochemistry the predominance of type II collagen in extracellular matrix of TG was verified. However, no significant statistical difference was observed between the groups upon histomorphometry analysis of fibrous and fibrocartilaginous tissues. Canine homologous chondrocytes culture was practicable. Neoformed tissue showed slightly higher quality in TG, but without promoting repair by the hyaline cartilage.

Reparação de defeitos osteocondrais de cães com implante de cultura de condrócitos homólogos e membrana biossintética de celulose: avaliação clínica, ultrassonográfica e macroscópica / The repair of osteochondral defects in dogs with homologous articular chondrocytes and biosynthetic cellulose membrane: clinical, ultrasound and macroscopic evaluation

Avaliou-se o implante de condrócitos homólogos em lesões osteocondrais, utilizando a membrana biossintética à base de celulose (MBC) como revestimento. Dez cães adultos e clinicamente sadios foram submetidos à artrotomia das articulações fêmoro-tíbio-patelares. Defeitos de quatro milímetros de diâmetro por quatro milímetros de profundidade foram induzidos na tróclea femoral de ambos os membros. A MBC foi aplicada na base e superfície das lesões. Os defeitos do membro direito foram preenchidos com condrócitos homólogos cultivados e formaram o grupo tratado (GT); e os defeitos do membro esquerdo, sem implante celular, formaram o grupo controle (GC). Os animais foram avaliados clínica e ultrassonograficamente aos 30 e 60 dias. A evolução pós-operatória dos cães foi analisada com especial interesse nos processos de reparação da lesão, por meio de macroscopia. Não houve diferença clínica e ultrassonográfica entre os grupos. Entretanto, à macroscopia, ocorreu maior prevalência de formação de tecido cicatricial esbranquiçado no GT. O tecido neoformado apresentou melhor qualidade associado ao implante homólogo de condrócitos, mas não promoveu reparação por cartilagem hialina.

The aim of the study was to evaluate the repair of deep cartilaginous defects made in the femoral trochlear sulcus of dogs, using the cellulose biosynthetic membrane (CBM) as coating. Ten healthy adult dogs without locomotor disorders were used. All animals were submitted to arthrotomy of stifle joints and defects with four millimeters diameter x four millimeters deep were done in the femoral trochlear sulcus of both limbs. CBM was applied in the lesion's base and surface of all limbs. In the treated group (TG), the defects of the right limb were filled with cultivated homologous chondrocytes, and in control group (CG), the defects of the left limb were filled without cellular implant. The animals were evaluated by physical examination and ultrasound at 30 and 60 days. The postoperative follow up of the dogs was done by macroscopy with special interest in the healing process of the osteochondral defect. No clinical and ultrasonographic differences were observed in both groups. In the macroscopic evaluation higher prevalence of whitish scar tissue formation was noted in TG, but without statistical difference. The neoformed tissue showed slightly higher quality in TG, but without promoting repair by the hyaline cartilage.

Owner survey of tarsocrural effusion (bog spavin) in Clydesdale horses.

A postal survey of the owners of Clydesdale horses in the UK and USA was conducted to obtain information on tarsocrural effusion ('bog spavin') as an indicator of osteochondrosis from 935 horses. Additional information requested included details of how this condition was investigated and treated. The reported tarsocrural effusion incidence was 10 per cent. The majority of respondents believed the condition to be of concern to Clydesdale owners, but only a minority were aware of the implications of tarsocrural effusion, suggesting that owner education would be of benefit.

Osteochondral autograft transfer for the treatment of osteochondritis dissecans of the medial femoral condyle in dogs.

OBJECTIVE: To describe the clinical application of osteochondral autograft transfer procedure for the treatment of osteochondritis dissecans (OCD) of the canine medial femoral condyle and to report clinical and force plate outcomes. METHODS: Osteochondral autograft transfer (OATS™ Arthrex, Naples FL, USA) instrumentation was employed in six stifle joints of five dogs. Clinical examination was performed preoperatively and at two to three weeks, six to eight weeks, 12-18 weeks and at >22 months postoperatively. Radiography and arthroscopy were performed preoperatively and 12-18 weeks postoperatively. The follow-up examinations performed at 22 to 56 months included radiography, questionnaire completion with the owner, and force plate gait evaluation. RESULTS: Articular surface reconstruction was radiographically (for 6 stifle joints) and arthroscopically (for 5 stifle joints) maintained at 12-18 weeks. Subjectively-assessed lameness resolved in five out of six stifles by the 12 to 18 week reassessment. Morbidity included lateral patellar luxation at seven weeks and cranial cruciate ligament rupture at 11 months postoperatively. At the >22 month re-evaluation examination, subjectively-assessed lameness and signs of discomfort were minimal. Owner perceptions of outcome were positive; force plate assessment of gait indicated that weight bearing on three out of six OAT implanted limbs was less than the contralateral limb, but these comparisons were not evaluated statistically. A progression in the development of osteophytes was radiographically evident. CLINICAL SIGNIFICANCE: The OAT procedure can reconstruct medial femoral condyle OCD defects in dogs. Long-term lameness and progressive osteophytosis may occur but can be associated with other pathology such as cruciate ligament insufficiency.

Low-field standing magnetic resonance imaging findings of the metacarpo/metatarsophalangeal joint of racing Thoroughbreds with lameness localised to the region: a retrospective study of 131 horses.

REASONS FOR PERFORMING STUDY: The metacarpo/metatarsophalangeal (MCP/MTP) joint is a common site of lameness in the Thoroughbred racehorse. Radiographs may fail to show pathology consistent with the degree of lameness. With a high incidence of stress fractures occurring in the distal third metacarpal/metatarsal (MC3/MT3) condyles and proximal phalanx, a definitive diagnosis as to the nature of the pathology is essential. OBJECTIVE: To describe the low-field magnetic resonance imaging (MRI) findings in Thoroughbred racehorses with MCP/MTP joint pain scanned under standing sedation. METHODS: The MR images and clinical records of all Thoroughbred racehorses undergoing MRI of the MCP/MTP joint between October 2006 and August 2010 were reviewed. A total of 168 joints from 131 horses were selected for inclusion. The MRI finding considered most significant in the lame (or lamest) limb was noted. RESULTS: Diagnostic quality images were obtainable in 97.8% of horses. The most common finding was palmar/plantar osteochondral disease in MC3/MT3 (54.9% of horses). Incomplete condylar fracture was diagnosed in 19.8% of horses, with the lateral condyle predominating. An incomplete sagittal fracure of P1 was diagnosed in 14.5% of horses and 11.4% were diagnosed with 'dorsal joint disease'. Other findings included transverse MC3 stress fractures (1.5%), soft tissue injuries (12.2%) and proximal phalangeal 'contusions' (3.8%). No significant bone/soft tissue injury was detected in 5.4% of cases. CONCLUSIONS: Standing MRI can detect a spectrum of disease within the MCP/MTP joints of racehorses. The procedure is well tolerated and may lead to a definitive diagnosis where radiographic imaging is inconclusive. POTENTIAL RELEVANCE: A total of 35.8% of cases had MRI findings consistent with fracture pathology, which could not be confirmed radiographically at the time of the MRI examination. This has important therapeutic and prognostic implications and may help to prevent catastrophic injury.

Cartilage thickness and split-line pattern at the canine humeral trochlea.

OBJECTIVE: To characterise the humeral trochlea in middle to large breed dogs in respect to split-line pattern and cartilage thickness. METHODS: In 15 paired cadaveric elbow joints of mature dogs (>20 kg body weight) collagen network orientation of the hyaline cartilage of the humeral trochlea was visualised using a traditional split-line technique in which a dissecting needle dipped in India ink was inserted into the cartilage (n = 10). Cartilage thickness was measured radiographically on osteochondral plugs harvested at four representative locations within the joint surface of the humeral trochlea (n = 15). RESULTS: The joint surface of the humeral trochlea showed a distinct pattern of centripetally oriented split-lines with less pronounced or even absent split-lines caudo- proximally towards the olecranon fossa. Median cartilage thickness at the canine humeral trochlea was 0.51 mm (interquartile range: 0.42 - 0.61 mm). Centrally, at the region where osteochondrosis lesions commonly occur in middle to large breed dogs, the median cartilage thickness was 0.55 mm (interquartile range: 0.48 - 0.62 mm). CLINICAL SIGNIFICANCE: When focusing on anatomical joint resurfacing while performing osteochondral transplantation at the canine humeral trochlea, transplants should be implanted such that their split-lines are oriented centripetally. Hyaline cartilage thickness of transferred grafts should be in the range of half a millimetre to optimally match the situation at the canine humeral trochlea.

Associations of horse age, joint type, and osteochondral injury with serum and synovial fluid concentrations of type II collagen biomarkers in Thoroughbreds.

OBJECTIVE: To determine the effects of horse age, osteochondral injury, and joint type on a synthesis biomarker and 3 degradative biomarkers of type II collagen in Thoroughbreds. ANIMALS: Healthy rested adult (3- to 12-year-old) Thoroughbreds (n = 19), yearling (1- to 2-year-old) Thoroughbreds (40), and Thoroughbred racehorses (2 to 7 years old) undergoing arthroscopic surgery for removal of osteochondral fragments that resulted from training or racing (41). PROCEDURES: Samples of blood and metacarpophalangeal, metatarsophalangeal, or carpal joint synovial fluid (SF) were collected from all horses. Commercially available assays were used to analyze SF and serum concentrations of type II collagen biomarkers of synthesis (carboxy propeptide of type II collagen [CPII]) and degradation (cross-linked C-telopeptide fragments of type II collagen [CTX II], neoepitope generated by collagenase cleavage of type I and II collagen [C1,2C], and neoepitope generated by collagenase cleavage of type II collagen [C2C]). RESULTS: Osteochondral injury affected concentrations of CPII, CTX II, C1,2C, and C2C in SF, serum, or both, compared with concentrations in healthy adult horses. Compared with adult horses, yearling horses had increased SF or serum concentrations of degradative biomarkers (CTX II, C1,2C, and C2C). Concentrations were higher in carpal than metacarpophalangeal or metatarsophalangeal joints for all biomarkers in osteochondral-injured horses. Variable differences in SF concentrations between joint types were detected in healthy adult and yearling horses. CONCLUSIONS AND CLINICAL RELEVANCE: Horse age, osteochondral injury, and joint type all significantly affected type II collagen biomarker concentrations in SF and serum of Thoroughbreds.

Interleukin-6 and high mobility group box protein-1 in synovial membranes and osteochondral fragments in equine osteoarthritis.

Cytokine production in synovial membranes (SM) and osteochondral fragments (OCF) may influence the development of equine osteoarthritis (OA). In this study, the presence of interleukin (IL)-6 and cytoplasmic and extracellular high mobility group box protein (HMGB)-1 in SM and osteochondral tissue from healthy and diseased equine joints was investigated by immunohistochemistry. Additionally, microscopic synovitis was graded. IL-6 was commonly found in SM cells and in chondrocytes in uncalcified cartilage of OCF, whereas little staining was detected in healthy cartilage. Cytoplasmic and/or extracellular HMGB-1 was widespread only in SM from diseased joints, and also detected in OCF in areas of cartilage damage, fibrous repair tissue, and tidemark reduplication. Joints with OCF and cartilage lesions (without OCF) showed significantly higher median synovitis scores than healthy joints (p=0.013 and p=0.042, respectively). The study identifies OCF as a source of inflammatory mediators in equine OA, as shown by the presence of IL-6 and extracellular HMGB-1 in the fragment. Based upon HMGB-1 release in SM and OCF, further studies to investigate possible involvement of HMGB-1 in the pathogenesis of OA are warranted.

Osteocondrose de articulação fêmoro-tíbio-patelar em potro da raça Crioula / Stifle joint osteochondrosis in a Criollo foal

Um potro da raça crioula, com dois anos de idade, foi encaminhado ao Hospital Veterinário da Universidade Federal de Santa Maria (UFSM) apresentando aumento de volume na região da patela esquerda e claudicação manifestada ao trote. Os exames físico e radiográfico identificaram a presença de uma lesão envolvendo o osso subcondral na tróclea lateral do fêmur, característica de uma osteocondrose. Trata-se do primeiro relato de osteocondrose em um potro da raça Crioula.

A two-year-old Criollo foal was referred to the Veterinary Teaching Hospital of the UFSM presenting joint effusion on the left stifle joint. Physical and radiographic examination revealed the presence of osteochondreal fragmentation located at the lateral throclea ridge of the femur characterizing osteochondrosis in the stifle joint.

Autogenous osteochondral grafting for treatment of stifle osteochondrosis in dogs.

OBJECTIVE: To develop and assess clinical outcomes for osteochondral autografting for treatment of stifle osteochondrosis (OC) in dogs. STUDY DESIGN: Retrospective case series. ANIMALS: Dogs with stifle OC (n=10). METHODS: Osteochondral autografting was developed and optimized in canine cadavers and purpose-bred research dogs using the Osteochondral Autograft Transfer System (OATS). Dogs with stifle OC (n=10 dogs, 12 stifles) were then treated using the OATS system. Outcomes were assessed by radiography (n=12), magnetic resonance imaging (1), second-look arthroscopy (9), lameness scoring (12), and telephone survey of owners (10 clients, 12 stifles) 6-15 months after surgery. RESULTS: Complications were documented in 4 of the 12 stifles treated and included peri-incisional seromas (3) and marked stifle effusion (1). Subjective assessment of follow-up radiographs revealed evidence of integration of the grafts with maintenance of subchondral bone surface architecture. Subjective assessment of follow-up MRI in 1 stifle revealed evidence for incorporation of grafts with restoration of articular surface contour. Second-look arthroscopy 6-30 weeks after surgery revealed maintenance of articular cartilage at the graft site. Dogs were significantly (P<.001) less lame at follow-up compared with preoperative scores. Based on follow-up owner surveys, only 2 dogs had no pain or lameness; the other dogs were judged to have mild pain and/or lameness. All owners noticed improvement in the dogs' quality of life after surgery. CONCLUSION: Osteochondral autografting deserves consideration and further evaluation as a primary treatment option for stifle OC in dogs. CLINICAL RELEVANCE: Osteochondral autografting for treatment of lateral femoral condylar OC lesions in dogs using OATS instrumentation is safe and results in improved function and quality of life based on owners' perception 6-15 months after treatment.

Micro-computed tomography of early lesions of osteochondrosis in the tarsus of foals.

INTRODUCTION: Osteochondrosis (OC) is an important developmental orthopedic disease of human and equine patients. The disease is defined as a focal disturbance in enchondral ossification. In horses, the disturbance can occur secondary to failure of the blood supply to growth cartilage. Diagnosis of the early, subclinical stages that can clarify the etiology is currently confined to cross-sectional histological examination. The potential for micro-computed tomography (micro-CT) with angiography to detect early lesions of OC has not yet been investigated. MATERIALS AND METHODS: Nine Standardbred foals bred from parents with OC of the tarso-crural joint were sacrificed at weekly intervals from birth to 7 weeks of age. Permanent barium angiograms were created within one hind limb post mortem, and samples collected from two predilection sites for OC within the tarso-crural joint of the perfused hind limb. The resulting 18 sample blocks were scanned with a custom-built micro-CT equipment set-up, and analyzed as 2D slices and 3D volume rendered models before sectioning for conventional histological examination. RESULTS: Histological examination identified eight early lesions in seven locations within six joints from the nine foals. Micro-CT with angiography was able to detect seven lesions in the same sites as histological examination. Lesions consisted of non-perfused foci within growth cartilage. No perfused vessels exited from subchondral bone deep to any lesion. Six of the seven lesions were associated with focal defects in the subchondral bone plate. Evidence of ongoing ossification was seen in three out of the seven lesions and included one separate center of ossification. CONCLUSION: Micro-CT was a useful technique for examination of early lesions of OC. The results of micro-CT were compatible with failure of cartilage canal vessels at the point where they cross the ossification front. Resultant areas of ischemic chondronecrosis were associated with focal delay in enchondral ossification as visualized in 3D volume rendered models. Micro-CT combined with histology clarified the role of different forms of ossification in the secondary repair responses to lesions.

Cartilage matrix changes in the developing epiphysis: early events on the pathway to equine osteochondrosis?

REASONS FOR PERFORMING STUDY: The earliest osteochondrosis (OC) microscopic lesion reported in the literature was present in the femorotibial joint of a 2-day-old foal suggesting that OC lesions and factors initiating them may arise prior to birth. OBJECTIVE: To examine the developing equine epiphysis to detect histological changes that could be precursors to OC lesions. METHODS: Osteochondral samples from 21 equine fetuses and 13 foals were harvested from selected sites in the scapulohumeral, humeroradial, metacarpophalangeal, femoropatellar, femorotibial, tarsocrural and metatarsophalangeal joints. Sections were stained with safranin O and picrosiruis red to assess cartilage changes and structural arrangement of the collagen matrix. RESULTS: Extracellular matrix changes observed included perivascular areas of paleness of the proteoglycan matrix associated with hypocellularity and, sometimes, necrotic chondrocytes. These changes were most abundant in the youngest fetuses and in the femoropatellar/femorotibial (FP/FT) joints. Indentations of the ossification front were also observed in most specimens, but, most frequently, in scapulohumeral and FP/FT joints. A cartilage canal was almost always present in these indentations. The vascular density of the cartilage was higher in the youngest fetuses. In these fetuses, the most vascularised joints were the metacarpo- and metatarsophalangeal joints but their cartilage canals regressed quickly. After birth, the most vascularised cartilage was present in the FP/FT joint. Articular cartilage differentiated into 4 zones early in fetal life and the epiphyseal cartilage also had a distinct zonal cartilage structure. A striking difference was observed in the collagen structure at the junction of the proliferative and hypertrophic zones where OCD lesions occur. CONCLUSION: Matrix and ossification front changes were frequently observed and significantly associated with cartilage canals suggesting that they may be physiological changes associated with matrix remodelling and development. The collagen structure was variable through the growing epiphysis and a differential in biomechanical properties at focal sites may predispose them to injury.

Epiphyseal cartilage canal blood supply to the distal femur of foals.

REASONS FOR PERFORMING STUDY: The developmental pattern of the cartilage canal blood supply to epiphyseal growth cartilage has been linked to osteochondrosis (OC) in the tarsus of foals. This pattern has not yet been described in the distal femur, another site frequently affected by OC. OBJECTIVE: To describe the developmental pattern of the blood supply to the distal femoral epiphyseal growth cartilage in 8 Standardbred foals age 0-7 weeks. METHODS: One foal was sacrificed weekly from birth to age 7 weeks (n=8) to undergo a barium perfusion procedure to demonstrate vessels within cartilage canals of one hindlimb. The distal end of the femur was cleared in methyl salicylate and perfused vessels were studied in the intact bones. Each distal femur was then sawed into 5 mm thick slabs in the transverse plane, and the slabs decalcified and radiographed. Finally, the lateral trochlear ridge was separated from each slab and examined histologically. RESULTS: The cartilage canal blood supply regressed with increasing age, but several regions remained vascularised in the oldest foal at age 7 weeks. Vessels arose from perichondrial and subchondral arterial sources, and coursed perpendicular or parallel to the ossification front. The midsection of parallel vessels became incorporated into the ossification front during growth. Anastomoses formed and vessels within the distal portion of canals with an original perichondrial source shifted to use subchondral vessels as their arterial source. Both parallel and perpendicular vessels therefore traversed the ossification front to enter cartilage canals. No histological lesions were observed in sections from any of the foals. CONCLUSION: The same anatomical feature (traversing the ossification front to enter cartilage canals) reported to render vessels vulnerable to failure in the tarsus was also present in the distal femur of foals. POTENTIAL RELEVANCE: OC may occur by the same pathogenetic mechanism in the distal femur as in the tarsus of foals.

Effect of dietary nutrients on osteochondrosis lesions and cartilage properties in pigs.

OBJECTIVE: To evaluate dietary ingredients involved in cartilage and bone metabolism and their influence on osteochondrosis lesions in swine. ANIMALS: 80 crossbred gilts (mean initial weight, 39 kg). PROCEDURES: Pigs (10 pigs/treatment) were fed a corn-soybean meal basal (control) diet or the basal diet supplemented with additional minerals (copper and manganese or silicon), amino acids (proline and glycine; a combination of leucine, isoleucine, and valine; or methionine and threonine), or fatty acids (provided by fish oil) for 84 days. Pigs were then slaughtered and the distal portion of the left femur was collected for determination of osteochondrosis lesions at the femoral condyle. After evaluation of external joint surfaces, the distal portion of the femur was sectioned to evaluate lesions in the growth plate and articular cartilage. Additionally, a cartilage specimen was obtained from the patella for analysis. RESULTS: Pigs fed diets containing high amounts of methionine and threonine or the diet containing all additional ingredients had significantly lower total severity scores, compared with scores for pigs fed the control diet or a diet supplemented with fish oil. Pigs fed diets containing additional proline and glycine, copper and manganese, methionine and threonine, or all additional ingredients had significantly lower overall scores, compared with scores for pigs fed the control diet or a diet supplemented with fish oil. CONCLUSIONS AND CLINICAL RELEVANCE: Dietary manipulation decreased the severity of osteochondrosis lesions, compared with results for pigs fed a control diet. However, additional research on optimal concentrations and combinations of dietary components is needed.

MT3-MMP (MMP-16) is downregulated by in vitro cytokine stimulation of cartilage, but unaltered in naturally occurring equine osteoarthritis and osteochondrosis.

Matrix degradation by metalloproteinases is considered a key feature in the loss of articular cartilage seen in many joint diseases. Membrane-type matrix metalloproteinase-3 (MT3-MMP) expression is elevated in human cartilage in end-stage osteoarthritis. We investigated whether MT3-MMP is similarly regulated in cartilage in two naturally occurring arthropathies in vivo and whether proinflammatory cytokines regulate its expression in vitro. MT3-MMP expression was evaluated in cartilage from horses with osteoarthritis and osteochondrosis and compared with age- and site-matched normal cartilage. MT3-MMP also was measured in normal cartilage stimulated with proinflammatory cytokines. MT3-MMP expression was not significantly altered in either osteoarthritis or osteochondrosis cartilage. However, gene expression was significantly downregulated by the addition of recombinant human interleukin-1beta, oncostatin M, or tumor necrosis factor-alpha to normal cartilage explants. The results suggest that MT3-MMP may not have a role in matrix destruction in equine cartilage diseases. Further work is required to characterize its regulation and function.