Ex vivo biomechanical evaluation of an adhered fiberglass and polymethyl methacrylate sole-hoof wall cast on stabilization of type III distal phalanx fractures under simulated physiologic midstance loads

Vet Surg. 2024 Feb;53(2):224-233. doi: 10.1111/vsu.14063. Epub 2023 Dec 22.

Abstract

Objective: To evaluate the effect of the application of a novel fiberglass-glue cast (FGC) on the fracture gap width in experimentally created type III distal phalanx fractures in cadaveric specimens under simulated physiologic loads.

Study design: Ex vivo biomechanical laboratory study.

Animals: Nine unilateral adult equine cadaver forelimbs.

Methods: Type III distal phalanx fractures were created in forelimb specimens, which maintained distal components of the passive stay apparatus. The fracture gap was measured at 5%, 20%, 25%, 50%, 75%, and 95% of fracture length (palmar articular border to solar margin) using D65Pr-PaDiO radiographs. The limb was axially loaded (700, 3600, 4600, and 6700 N) before, during, and after removal of a woven fiberglass cloth and polymethyl methacrylate cast that encompassed the sole and distal portion of the hoof wall (FGC). Fracture gap widths were compared among loads and treatments using a mixed model ANOVA.

Results: On average, under simulated physiological midstance loads, the fracture gap width was 0.2 mm smaller after FGC application, with the greatest decrease (0.5 mm) near the articular surface. On average, it was 0.3 mm smaller than after FGC removal. Fracture gap width was 0.1 mm greater when midstance loads transitioned from standing load to walking, trotting, and gallop loads. The fracture gap width increased by 1.3 mm with increasing distance from the articular surface.

Conclusion: The FGC reduced the fracture gap width and prevented the fracture gap widening that occurred after FGC removal.

Clinical significance: The findings support consideration of FGC use in the treatment of horses with type III distal phalangeal fractures.

MeSH terms

  • Animals
  • Biomechanical Phenomena
  • Forelimb
  • Fractures, Bone* / therapy
  • Fractures, Bone* / veterinary
  • Glass*
  • Hoof and Claw*
  • Horse Diseases* / therapy
  • Horses
  • Humans
  • Polymethyl Methacrylate
  • Upper Extremity

Substances

  • fiberglass
  • Polymethyl Methacrylate