The effect of weightbearing and limb load cycling on equine lamellar perfusion and energy metabolism measured using tissue microdialysis.
Abstract: Lamellar perfusion is thought to be affected by weightbearing and limb load cycling; this may be critical in the development of supporting limb laminitis. Objective: To document the effects of unilateral weightbearing and altered limb load cycling on lamellar energy metabolism and perfusion. Methods: Randomised, controlled (within subject), experimental trial. Methods: Nine Standardbred horses were instrumented with microdialysis probes in the foot lamellar tissue and skin (over the tail base). Urea (20 mmol/l) was added to the perfusate. Samples were collected every 15 min for a 1 h control period, then during periods of unilateral weightbearing (opposite limb held off the ground for 1 h); enhanced static limb load cycling (instrumented limb lifted every 10 s for 30 min); reduced limb load cycling activity (i.v. detomidine sedation) and continuous walking (30 min). Dialysate concentrations of glucose, lactate, pyruvate and urea were measured and lactate:glucose (L:G) and lactate:pyruvate (L:P) ratios were calculated. For each intervention, values were compared with baseline using nonparametric statistical testing. Results: Lamellar dialysate glucose increased and L:G decreased significantly during enhanced static limb load cycling. Glucose and pyruvate increased, and L:G, L:P and urea decreased significantly during walking. Simultaneous skin dialysate values did not change significantly. There were no significant dialysate changes during unilateral weightbearing or after detomidine administration, but only the latter resulted in a significant decrease in limb load cycling frequency. Conclusions: Increases in limb load cycling frequency (particularly walking) caused dialysate changes consistent with increased lamellar perfusion. Unilateral weightbearing (1 h) and a sedation-induced reduction in limb load cycling frequency did not have a detectable effect on lamellar perfusion. More research is needed to confirm the role of hypoperfusion in supporting limb laminitis, but strategies to increase limb load cycling may be important for prevention.
© 2014 EVJ Ltd.
Publication Date: 2014-12-18 PubMed ID: 25303010DOI: 10.1111/evj.12377Google Scholar: Lookup
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- Journal Article
- Research Support
- Non-U.S. Gov't
Summary
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This research explores how weight bearing and limb load cycling (changes in weight distribution on the limbs) impact blood flow (perfusion) and energy metabolism in the lamellar tissue of a horse’s foot. It also examines their role in supporting limb laminitis, a painful condition in equines.
Methodology
- The study was a randomised, within-subject, experimental trial involving nine Standardbred horses.
- Microdialysis probes were used to monitor changes in the foot lamellar tissue and skin of the horses.
- Different scenarios were then induced: unilateral weightbearing, enhanced static limb load cycling, reduced limb load cycling due to sedation, and continuous walking.
- Samples were collected every fifteen minutes over several periods and tested for glucose, lactate, pyruvate and urea concentrations. Based on these readings, lactate-to-glucose and lactate-to-pyruvate ratios were calculated.
Results
- Increased static limb load cycling led to higher lamellar dialysate glucose and lower lactate-to-glucose ratios.
- Continuous walking resulted in increased glucose and pyruvate, and decreased lactate-to-glucose, lactate-to-pyruvate and urea ratios.
- There weren’t any significant dialysate changes observed during unilateral weightbearing or after administering sedatives to the horses which reduced limb load cycling.
- Only the administration of sedation resulted in a significant decrease in limb load cycling frequency.
Conclusions
- The study concludes that increases in limb load cycling frequency, especially walking, caused changes consistent with increased lamellar perfusion, thus suggesting that variations in weight bearing can influence blood flow and metabolism in the horse’s foot.
- More research is needed to further understand the role of insufficient blood flow (hypoperfusion) in supporting limb laminitis, a condition that can lead to severe lameness in affected horses.
- The research raises the importance of strategies to increase limb load cycling as potentially crucial for the prevention of equine laminitis.
Cite This Article
APA
Medina-Torres CE, Underwood C, Pollitt CC, Castro-Olivera EM, Hodson MP, Richardson DW, van Eps AW.
(2014).
The effect of weightbearing and limb load cycling on equine lamellar perfusion and energy metabolism measured using tissue microdialysis.
Equine Vet J, 48(1), 114-119.
https://doi.org/10.1111/evj.12377 Publication
Researcher Affiliations
- Australian Equine Laminitis Research Unit, School of Veterinary Science, The University of Queensland, Gatton, Australia.
- Australian Equine Laminitis Research Unit, School of Veterinary Science, The University of Queensland, Gatton, Australia.
- Australian Equine Laminitis Research Unit, School of Veterinary Science, The University of Queensland, Gatton, Australia.
- Australian Equine Laminitis Research Unit, School of Veterinary Science, The University of Queensland, Gatton, Australia.
- Metabolomics Australia, Queensland Node, Australian Institute for Bioengineering and Nanotechnology, The University of Queensland, St Lucia, Australia.
- Department of Clinical Studies, New Bolton Center, School of Veterinary Medicine, University of Pennsylvania, Kennett Square, USA.
- Australian Equine Laminitis Research Unit, School of Veterinary Science, The University of Queensland, Gatton, Australia.
MeSH Terms
- Animals
- Biomechanical Phenomena
- Foot / physiology
- Horses / physiology
- Microdialysis / instrumentation
- Microdialysis / methods
- Microdialysis / veterinary
- Monitoring, Physiologic / instrumentation
- Monitoring, Physiologic / methods
- Monitoring, Physiologic / veterinary
- Walking
Citations
This article has been cited 3 times.- Burns TA, Watts MR, Belknap JK, van Eps AW. Digital lamellar inflammatory signaling in an experimental model of equine preferential weight bearing. J Vet Intern Med 2023 Mar;37(2):681-688.
- Montgomery JB, Klein M, Boire JR, Beck C, Häusermann D, Maksimenko A, Hall CJ. Synchrotron CT of an equine digit at the Australian Synchrotron Imaging and Medical Beamline. J Synchrotron Radiat 2021 Nov 1;28(Pt 6):1769-1777.
- Reisinger N, Schaumberger S, Nagl V, Hessenberger S, Schatzmayr G. Concentration Dependent Influence of Lipopolysaccharides on Separation of Hoof Explants and Supernatant Lactic Acid Concentration in an Ex Vivo/In Vitro Laminitis Model. PLoS One 2015;10(11):e0143754.
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