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Digit innervation of the thoracic limb of Criollo horses: Anatomical description and consequences to perineural blocks.

Bruno Belmonte SilveiraErick Candiota SouzaMatheus Damasceno Nunes Dos SantosMarcelo Lameiro PorciunculaMarcos da Silva AzevedoClaudia Acosta DuarteAmarílis Díaz de CarvalhoPaulo de Souza-Júnior
Published in: Anatomia, histologia, embryologia (2020)
Criollo horse breeding is an important economic activity in South America. Because of their athletic performance, these animals tend to show great incidence of musculoskeletal disorders, many of them diagnosed by means of perineural blocks. However, incorrect interpretation of these blocks may be due to anatomical differences in nerve distribution. The objective of this study was to describe the innervation of the digit region of thoracic limbs in Criollo horses, in order to improve the interpretation of tests for claudication diagnosis based on nerve block. Thirty thoracic limbs from Criollo horses were dissected. It could be observed that in 90% of the limbs, dorsal branches of the palmar nerve originated proximally to the proximal sesamoid bone. In 93% of the cases, the palmar digital nerve and the dorsal branches communicated; in 87% of the cases, communication between branches of the dorsal branch was observed; and in 27% (8/30) of the limbs, the palmar metacarpal nerve and the dorsal branch presented communications. None of the specimens showed complete symmetry in the distribution of nerves in contralateral limbs. The high frequency of communication between the nerves may be a particularity of the Criollo breed that may interfere with the interpretation of perineural blocks. Based on the anatomical position, it may be inferred that divergent results in Criollo horses may occur when abaxial sesamoid nerve block is used. Palmar digital nerve block may be less influenced by these variations, provided it is performed as distal as possible from the ungular cartilage.
Keyphrases
  • spinal cord
  • high frequency
  • neuropathic pain
  • peripheral nerve
  • spinal cord injury
  • transcranial magnetic stimulation
  • risk factors
  • minimally invasive
  • bone mineral density