Angular limb deformities due to distal radial physeal osteochondrosis in farmed deer stags in New Zealand

N Z Vet J. 2023 Jan;71(1):42-48. doi: 10.1080/00480169.2022.2091678. Epub 2022 Jul 10.

Abstract

Case history: Three different farms reported cases of angular limb deformities (ALD) in rising 2-year-old velvet, mostly red deer (Cervus elaphus), stags with the earliest recorded cases occurring in 2010. Farm 1 reported a prevalence of 10-35%, farm 2, 5-11.5%, and farm 3, 2-5%. Farms 1, 2, and 3 are located in South Canterbury, northern Southland, and the Waikato, respectively.

Clinical findings: Affected animals developed ALD, with predominantly varus forelimb (bowed) deformities. On all farms serum calcium and phosphorus concentrations in affected animals were normal. Serum and liver copper concentrations were variable across the period of the study and between farms. Although some measurements were below the reference ranges, there was no evidence for a statistical association with the prevalence of abnormalities.

Pathological findings: The distal radius from 25 affected and four control red and red-wapiti (Cervus canadensis) cross deer from Farm 1 in 2010/2011, two affected red deer from Farm 2 in 2016, and one affected red deer from Farm 3 in 2021, were examined. The most consistent lesions were present in the distal radial physis, most commonly the lateral edge. There was mild-to-severe segmental thickening of the physis and, in some animals, physeal cartilage was duplicated with both sections of physis varying in thickness. Microscopically, in severely affected animals there was massive segmental thickening of physeal cartilage which often contained large cystic cavities. The cartilage matrix was eosinophilic and showed a loss of metachromatic staining with toluidine blue. In less severe cases, necrotic physeal vessels were present, consistent with vascular failure. In more chronic cases, there was duplication of the physis, the two layers being separated by a combination of normal trabecular bone and dense fibrous connective tissue.

Diagnosis: Physeal osteochondrosis.

Clinical relevance: Osteochondrosis has a multifactorial aetiology and we propose that an increased requirement for nutrients for velvet production and increased weight-bearing stress (behaviour and rapid weight gain) may lead to progression of osteochondrosis and ALD in these deer. The involvement of periods of copper deficiency is unclear at this time.

Keywords: Deer; angular limb deformity; copper deficiency; osteochondrosis; physis.

MeSH terms

  • Animals
  • Copper
  • Deer*
  • Farms
  • New Zealand / epidemiology
  • Osteochondrosis* / epidemiology
  • Osteochondrosis* / etiology
  • Osteochondrosis* / veterinary
  • Radius / pathology

Substances

  • Copper