Understanding the Impact of Scale Height on the Kinetics and Kinematics of Dogs in Working Trials

Carter, Anne; Boyd, Jacqueline; Williams, Ellen

doi:10.3389/fvets.2021.742068

Cited by 4 publications

(1 citation statement)

References 23 publications

(40 reference statements)

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“…dysfunction in both thoracic and pelvic limbs), and we also find clear evidence for a differential gait response in other parameters according to the location of the mobility impairment. All non-mobility impaired had statistically higher thoracic than pelvic limb PVFs, which is consistent with most previous studies [80][81][82][83][84][85]. In dogs with only thoracic limb impairments, there was some tendency to redistribute load away from the affected limb.…”

Section: Plos Onesupporting

confidence: 90%

GenPup-M: A novel validated owner-reported clinical metrology instrument for detecting early mobility changes in dogs

Clark,

Bates,

Harris

et al. 2023

PLoS ONE

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Objective To use a previously validated veterinary clinical examination sheet, Liverpool Osteoarthritis in Dogs (LOAD) questionnaire, combined with kinetic and kinematic gait analysis in dogs with/without mobility problems to demonstrate the capacity of a novel clinical metrology instrument (“GenPup-M”) to detect canine mobility impairments. Design Quantitative study. Animals 62 dogs (31 with mobility impairments and 31 without mobility impairments). Procedure The dogs’ clinical history was obtained from owners and all dogs underwent a validated orthopaedic clinical examination. Mobility impairments were diagnosed in the mobility impaired group based on clinical history and orthopaedic examination. Owners were asked to complete GenPup-M along with a previously validated mobility questionnaire (Liverpool Osteoarthritis in Dogs (LOAD)) to identify construct validity. As a test of criterion validity, the correlation between instrument scores and the overall clinical examination scores, along with force-platform obtained peak vertical forces (PVF) were calculated. GenPup-M underwent internal consistency and factor analysis. Spatiotemporal parameters were calculated for dogs with/without mobility impairments to define the gait differences between these two groups. Results Principal Component Analysis identified GenPup-M had two components with Eigenvalues >1 (“stiffness/ease of movement” and “willingness to be active/exercise”). Cronbach’s α was used to test internal consistency of GenPup-M and was found to be “good” (0.87). There was a strong, positive correlation between GenPup-M and LOAD responses (r2 = 0.69, p<0.001) highlighting construct validity. Criterion validity was also shown when comparing GenPup-M to clinical examination scores (r2 = 0.74, p<0.001) and PVF (r2 = 0.43, p<0.001). Quantitative canine gait analysis showed that there were statistically significant differences between peak vertical forces (PVF) of mobility impaired and non-mobility impaired dogs (p<0.05). Analyses of PVF showed that non-mobility impaired dogs more evenly distributed their weight across all thoracic and pelvic limbs when compared to mobility impaired dogs. There were also consistent findings that mobility impaired dogs moved slower than non-mobility impaired dogs. Conclusion and clinical relevance GenPup-M is a clinical metrology instrument (CMI) that can be completed by dog owners to detect all mobility impairments, including those that are early in onset, indicating the versatility of GenPup-M to assess dogs with and without mobility impairments. Results of the study found that GenPup-M positively correlated with all three objective measures of canine mobility and consequently showed criterion and construct validity. Owner-reported CMIs such as GenPup-M allow non-invasive scoring systems which veterinary surgeons and owners can use to allow communication and longitudinal assessment of a dog’s mobility. It is anticipated that GenPup-M will be used by owners at yearly vaccinations/health checks, allowing identification of any subtle mobility changes, and enabling early intervention.

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Section: Plos Onesupporting

confidence: 90%

GenPup-M: A novel validated owner-reported clinical metrology instrument for detecting early mobility changes in dogs

Clark,

Bates,

Harris

et al. 2023

PLoS ONE

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3D limb dynamics of flyball dogs turning on different box angles

Blake,

Blake

2024

Sci Rep

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There are no regulations for the flyball box angulation, which ranges from 45° to 89°. As such at present, the box turn is deemed to represent the greatest injury risk to competitors. The aim of this study was to understand the influence of box angle on kinematic variables during a flyball turn, by comparing dogs turning on three different angulations of flyball box (45°, 60° and 83°) to allow for recommendations to be made regarding the most appropriate box design in terms of limiting risk of injury across the sport, to increase both wellbeing and safety for competitors. Turning on a 45° box generates significantly more flexion in the forelimbs and carpus, whereas turning on an 83° box generates greater degrees of extension in the elbow, shoulder, hock and stifle. What our 3D analysis has shown is that the relationship between box angle and the physical demands placed on the dog are complex, and related mainly to asymmetrical nature of the sport, and as such no one angle may be more or less suitable for training and competition, but the 60° seems to be a mid-ground, whereas direction of turn may be fundamental in generating the potential for injury.

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Effect of harness design on the biomechanics of domestic dogs ( Canis lupus familiaris )

Williams,

Hunton,

Boyd

et al. 2023

Journal of Applied Animal Welfare Science

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Understanding the Impact of Scale Height on the Kinetics and Kinematics of Dogs in Working Trials

Cited by 4 publications

References 23 publications

GenPup-M: A novel validated owner-reported clinical metrology instrument for detecting early mobility changes in dogs

GenPup-M: A novel validated owner-reported clinical metrology instrument for detecting early mobility changes in dogs

3D limb dynamics of flyball dogs turning on different box angles

Effect of harness design on the biomechanics of domestic dogs ( Canis lupus familiaris )

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