Can neutral dietary cation-anion difference (DCAD) decrease occurrence of clinical periparturient hypocalcaemia in dairy cattle?

BACKGROUND: Adjusting the dietary cation-anion difference (DCAD) is one of the most efficient ways to stimulate calcium homeostasis in periparturient dairy cattle. However, adjusting DCAD to the recommended negative values (-100 to -150 mEq/kg) is associated with decreased food intake and metabolic acidosis. The critical conditions of the animals at peripartum (i.e. drastic hormonal changes, decreased appetite and negative energy balance) can be detrimental to the health, productivity and welfare of the animals if combined with decreased feed intake caused by unpalatable acidogenic salts. METHODS: In a cross-sectional study, we analysed the ration of eight small to large dairy herds with intensive husbandry systems, including 6949 dry cows. Sodium, potassium, chlorine and sulfur concentrations in the feed were determined and DCAD was calculated. The DCAD of the ration of the farms ranged from -33.5 to +24.7 mEq/kg. Parturient paresis (PP, or milk fever) prevalence was investigated and correlated to DCAD values. RESULTS: Clinical PP occurrence in the dairies of this investigation on average declined by 87% (ranging from a 97% decline to 5% increase). This indicates that adjusting DCAD at neutral values (0 ± 30 mEq/kg range) may both lower the PP prevalence and increase ration palatability by lowering acidogenic salts in the ration. CONCLUSIONS: Further research is recommended to investigate the effects of neutral DCAD on subclinical hypocalcaemia and food intake of the cattle.

Prevalence of subchondral bone pathological changes in the distal metacarpi/metatarsi of racing Thoroughbred horses.

OBJECTIVES: To investigate the prevalence of microscopic subchondral bone injury in the distal metacarpi/tarsi of Thoroughbred racehorses and associations with recent and cumulative training history. METHODS: Metacarpi/metatarsi were obtained from postmortem examination of Thoroughbred racehorses. The severity of palmar/plantar osteochondral disease (POD) was graded in forelimbs from 38 horses and in hindlimbs from a separate cohort of 45 horses. Forelimb samples were embedded in methyl methacrylate and examined using backscattered scanning electron microscopy. Microfracture density in the condylar subchondral bone was determined. Horizontal subchondral bone fractures were identified in hindlimb samples using sections of demineralised tissue. Empty osteocyte lacunae were quantified in hindlimb samples using sections of demineralised tissue. RESULTS: The prevalence of gross POD was 65.8% (95% confidence interval (CI) 48.7-80.4%) in the forelimb and 57.8% (95% CI 42.2-72.3%) in the hindlimb cohort of horses. Microfractures occurred in the forelimbs of 97.4% (95% CI 86.2-99.9%) of horses. Microfracture density in forelimbs increased with age (rs = 0.50, P = 0.001), the number of race starts (rs = 0.47, P = 0.003) and was greater in the medial condyles of horses in training than in those not in training (n = 21, median: 3.1/mm; range: 0.8-10.0 vs n = 17, 1.4/mm; 0-4.5, P = 0.008). Empty osteocyte lacunae were observed in the subchondral bone of hindlimbs in 97.7% (95% CI 88.0-99.9%) of 44 horses. CONCLUSIONS: Subchondral bone pathology occurs with a high prevalence in Thoroughbred racehorses presented for postmortem examination. The accumulation of subchondral bone damage with longer career duration is consistent with bone fatigue.

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.