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Peer-reviewed veterinary case report

How elbow arthritis changes paw pressure in dogs

By Braun, L et al.·Published in Veterinary journal (London, England : 1997)·2019·Department of Companion Animals and Horses·View original on PubMed

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Original publication title: Comparison of vertical force redistribution in the pads of dogs with elbow osteoarthritis and healthy dogs.

Species:
dog

Plain-English summary

A group of dogs with elbow osteoarthritis walked over a pressure plate to measure how their weight was distributed across their paw pads. The study found that the dogs with elbow pain put less weight on their affected front leg and shifted more weight to other legs to compensate. This change in weight distribution could help veterinarians understand how to better diagnose and treat dogs with joint issues. Understanding these patterns may lead to improved treatments and management for dogs suffering from osteoarthritis.

People also search for: dog elbow arthritis symptoms · how to help dog with joint pain · weight distribution in dogs with arthritis

Abstract

Kinetic analyses are becoming increasingly important for biomechanical research in veterinary medicine and as a diagnostic tool for orthopaedic examinations in dogs. Such analysis enables accurate evaluation of the vertical force distribution (VFD) in canine paw pads. The aim of this study was to assess peak vertical force (PFz) as a percent of total force (%TF), vertical impulse (IFz, %TF) and time of occurrence of PFz (TPFz) as a percent of the stance phase (%SP) in the pads of all four limbs in 23 dogs with osteoarthritis in the elbow joint and 22 healthy dogs. Dogs walked over a pressure plate, and the pads were divided into four quadrants for VFD analysis. For statistical analysis, a general linear model was used to examine the difference in VFD between both groups, between fore- and hindlimbs, between body sides, and between medial/lateral and cranial/caudal quadrants. Lame dogs had lower PFz in the lame forelimb than in other limbs and transferred their weight to the caudal quadrants of the contralateral forelimb and the caudomedial quadrant of both hindlimbs. IFz was also lower in the affected forelimb and was compensated through higher loading of the caudal quadrants of the contralateral forelimb, the caudomedial quadrants of both hindlimbs and the caudolateral quadrant of the contralateral hindlimb. TPFz (%SP) occurred later in both forelimbs of the lame dogs than in those of healthy dogs. The analysis of force distribution over the paw quadrants can be used for further biomechanical studies of dogs with orthopaedic and neurological diseases.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/31383424/