An evidence-based assessment of the biomechanical effects of the common shoeing and farriery techniques.
Abstract: The first aim of this article is to review the progress made in the field of distal limb biomechanics. By understanding limb biomechanics, it is then possible to review the rationale behind a few of the more common techniques that veterinarians routinely use when treating their patients and to evaluate the evidence in support of them.
Publication Date: 2007-07-10 PubMed ID: 17616321DOI: 10.1016/j.cveq.2007.03.010Google Scholar: Lookup
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Summary
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The research article provides a comprehensive review of developments in distal limb biomechanics and evaluates the scientific evidence supporting common shoeing and farriery techniques applied by veterinarians.
Understanding Distal Limb Biomechanics
- The article begins by outlining the importance of understanding distal limb biomechanics in veterinary practice. The authors describe distal limb biomechanics as a critical part of animal locomotion and underlines its application in diagnosing various limb and foot diseases in animals. By better understanding the intricate biomechanical processes, veterinarians can provide more efficient and effective treatments.
Review of Progress Made in Distal Limb Biomechanics
- Next, the article presents an extensive review of the advancements made in the field of distal limb biomechanics. This involves discussing the latest research studies, methodologies, innovations in treatment strategies, and various technological developments in the area. This review is essential as it provides an insight into the current standing and future directions of this field.
Common Techniques for Treating Animals
- The authors then delves into a few of the most common techniques used by veterinarians when treating their patients. This could encompass various shoeing and farriery practices, which are key techniques applied to protect the animal’s feet, improve their locomotion, and manage or prevent limb and footpathologies.
Evaluating Evidence in Support of These Techniques
- In the final section, the article evaluates the scientific evidence behind these common techniques. The authors critically examine current research literature, analyse the effectiveness of these techniques and assess their validity in light of the established biomechanical principles.
- Furthermore, they highlight areas where further research is needed, encouraging future investigations to continue advancing and improving these techniques. These assessments give practitioners further insights that assist in determining the most appropriate and effective treatment strategies for their patients.
Cite This Article
APA
Eliashar E.
(2007).
An evidence-based assessment of the biomechanical effects of the common shoeing and farriery techniques.
Vet Clin North Am Equine Pract, 23(2), 425-442.
https://doi.org/10.1016/j.cveq.2007.03.010 Publication
Researcher Affiliations
- Department of Veterinary Clinical Sciences, The Royal Veterinary College, North Mymms, Hatfield, United Kingdom. eeliashar@rvc.ac.uk
MeSH Terms
- Animals
- Biomechanical Phenomena
- Evidence-Based Medicine
- Hoof and Claw / physiology
- Horses
Citations
This article has been cited 5 times.- Aoun R, Charles I, DeRouen A, Takawira C, Lopez MJ. Shoe configuration effects on third phalanx and capsule motion of unaffected and laminitic equine hooves in-situ.. PLoS One 2023;18(5):e0285475.
- Seck M, Jobling R, Brown AF. Trialling Locally Made, Low-Cost Bits to Improve Bit-Related Welfare Problems in Cart Horses: Findings from a Study in Senegal.. Animals (Basel) 2022 Dec 20;13(1).
- Horan K, Coburn J, Kourdache K, Day P, Harborne D, Brinkley L, Carnall H, Hammond L, Peterson M, Millard S, Pfau T. Influence of Speed, Ground Surface and Shoeing Condition on Hoof Breakover Duration in Galloping Thoroughbred Racehorses.. Animals (Basel) 2021 Sep 3;11(9).
- Stutz JC, Vidondo B, Ramseyer A, Maninchedda UE, Cruz AM. Effect of three types of horseshoes and unshod feet on selected non-podal forelimb kinematic variables measured by an extremity mounted inertial measurement unit sensor system in sound horses at the trot under conditions of treadmill and soft geotextile surface exercise.. Vet Rec Open 2018;5(1):e000237.
- Faramarzi B, Nguyen A, Dong F. Changes in hoof kinetics and kinematics at walk in response to hoof trimming: pressure plate assessment.. J Vet Sci 2018 Jul 31;19(4):557-562.
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