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Peer-reviewed veterinary case report

Cooling one horse hoof stops laminitis damage from high insulin

By Stokes, S M et al.·Published in Equine veterinary journal·2019·School of Veterinary Science, Australia·View original on PubMed

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Original publication title: Continuous digital hypothermia prevents lamellar failure in the euglycaemic hyperinsulinaemic clamp model of equine laminitis.

Species:
horse

Plain-English summary

A group of eight healthy Standardbred horses developed laminitis, a painful hoof condition, after being given insulin to induce the disease. One front leg of each horse was kept cool while the other was at normal temperature. The results showed that the cooled legs had significantly less damage to the hoof structure compared to the normal temperature legs, with no severe lesions found in the cooled limbs. This suggests that keeping the hoof cool may help prevent the progression of laminitis in horses.

People also search for: horse laminitis treatment · how to prevent laminitis in horses · cooling hooves for laminitis

Abstract

BACKGROUND: Continuous digital hypothermia can prevent the development and progression of laminitis associated with sepsis but its effects on laminitis due to hyperinsulinaemia are unknown. OBJECTIVES: To determine the effects of continuous digital hypothermia on laminitis development in the euglycaemic hyperinsulinaemic clamp model. STUDY DESIGN: Randomised, controlled (within subject), blinded, experiment. METHODS: Eight clinically normal Standardbred horses underwent laminitis induction using the euglycaemic hyperinsulinaemic clamp model (EHC). At initiation of the EHC, one forelimb was continuously cooled (ICE), with the other maintained at ambient temperature (AMB). Dorsal lamellar sections (proximal, middle, distal) were harvested 48&#xa0;h after initiation of the EHC and were analysed using histological scoring (0-3) and histomorphometry. Cellular proliferation was quantified by counting epidermal cell nuclei staining positive with an immunohistochemical proliferation marker (TPX2). RESULTS: Severe elongation and disruption of SEL with dermo-epidermal separation (score of 3) was observed in all AMB feet at one or more section locations, but was not observed in any ICE sections. Overall 92% of the AMB sections received the most severe histological score (grade 3) and 8% were grade 2, whereas ICE sections were classified as either grade 1 (50%) or grade 2 (50%). Relative to AMB feet, ICE sections were 98% less likely to exhibit grades 2 or 3 (OR: 0.02, 95% CI 0.001, 0.365; P<0.01). Histomorphometry measurements of total and nonkeratinised primary epidermal lamellar length were significantly increased (P<0.01) in AMB limbs compared with ICE. TPX2 positive cell counts were significantly increased (P<0.01) in AMB limbs compared with ICE. MAIN LIMITATIONS: Continuous digital hypothermia was initiated before recognition of laminitis and therefore the clinical applicability requires further investigation. CONCLUSIONS: Continuous digital hypothermia reduced the severity of laminitis in the EHC model and prevented histological lesions compatible with lamellar structural failure.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/30636340/