Inverse Dynamics Analysis of the Pelvic Limbs in Labrador Retrievers With and Without Cranial Cruciate Ligament Disease

Ragetly, Chantal; Griffon, Dominique J.; Mostafa, Ayman A.; Thomas, Jason; Hsiao-Wecksler, Elizabeth T.

doi:10.1111/j.1532-950x.2010.00680.x

Cited by 53 publications

(92 citation statements)

References 28 publications

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“…During this phase of the gait, the mean flexor moment impulse of the stifle joint for the dogs in the TPLO and LFS groups was increased from that for dogs in the control group. 12 In the present study, the only variable that differed significantly among the 3 groups of dogs aside from the hip joint angle in the sagittal plane at the onset of the stance phase was the maximum concentric power of the stifle joint in the frontal plane; the maximum concentric power of the stifle joint for the dogs of the LFS group was approximately 8.6 times that for the dogs in the control group. It would be interesting to study this area of the stifle joint moment curve at various times during re- Table 1 for key.…”

Section: Discussioncontrasting

confidence: 42%

“…Although the use of inverse dynamics in veterinary medicine is relatively novel, compared with its use in ABBREVIATIONS CCL Cranial cruciate ligament LFS Lateral fabellar-tibial suture TPLO Tibial plateau leveling osteotomy human medicine, numerous studies [1][2][3][4][5][6][7][8][9][10][11][12] have been conducted to analyze the gait of various species of veterinary interest. Results of those studies [1][2][3][4][5][6][7][8][9][10][11][12] have aided in the elucidation not only of the normal movement of animals, but also possible factors associated with the pathogenesis of musculoskeletal disease and injury.…”

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confidence: 99%

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Use of an inverse dynamics method to compare the three-dimensional motion of the pelvic limb among clinically normal dogs and dogs with cranial cruciate ligament–deficient stifle joints following tibial plateau leveling osteotomy or lateral fabellar–tibial suture stabilization

Headrick¹,

Zhang²,

Millard³

et al. 2014

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Section: Discussioncontrasting

confidence: 42%

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confidence: 99%

Use of an inverse dynamics method to compare the three-dimensional motion of the pelvic limb among clinically normal dogs and dogs with cranial cruciate ligament–deficient stifle joints following tibial plateau leveling osteotomy or lateral fabellar–tibial suture stabilization

Headrick¹,

Zhang²,

Millard³

et al. 2014

ajvr

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“…However, our results suggest that the aforementioned areas were possibly responsible for a higher percentage of weight bearing and for the braking and propulsion vertical force peaks. This may be related to CCLR given the braking phase of the stride is one of the most affected by the instability of the joint due to the cranial movement of the tibia [28], as simulated during physical examination using the tibial thrust test [29]. Vertical force magnitude in metatarsal pad may thus constitute an important parameter for post-surgical follow-up of CCLR cases.…”

Section: Discussionmentioning

confidence: 99%

Evaluation of vertical forces in the pads of Pitbulls with cranial cruciate ligament rupture

2014

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BackgroundCranial cruciate ligament rupture (CCLR) is one of the most important stifle injuries and a common cause of lameness in dogs. Our objective was to measure the vertical forces in the pads of Pitbulls with cranial cruciate ligament rupture (CCLR) using a pressure sensitive walkway. A pressure sensitive walkway was used to collect vertical force data from the pads of 10 Pitbulls affected with unilateral CCLR. Ten healthy Pitbulls were included in the study as controls. Velocity varied between 1.3 and 1.6 m/s and acceleration was kept below ± 0.1 m/s2. Differences between groups and between pads in the same limb within groups were investigated using ANOVA and the Tukey test. The paired Student t-test was employed to assess gait symmetry (p < 0.05).ResultsPeak vertical forces (PVF) were lower in the affected limb, particularly in the metatarsal pad. Increased PVF values in the forelimb and the contralateral hind limb pads of affected dogs suggest a compensatory effect.ConclusionsA consistent pattern of vertical force distribution was observed in the pads of dogs with CCLR. These data are important for increased understanding of vertical force distribution in the limb of dogs with CCLR disease. Kinetic analysis using pressure sensitive walkways can be useful in follow-up assessment of surgically treated dogs regardless of the surgical technique employed.

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“…Furthermore, depending on the cause of lameness, the two phases of the fore-aft forces –braking (Fy-) and propulsion (Fy+)– may be affected differently. For example, it has been shown that in dogs with cranial cruciate ligament disease, although both phases were affected [27], the braking force was more affected than the propulsive force in order to avoid tibial thrust during early stance [30]. Dogs with a unilateral fragmented coronoid process showed more pronounced alterations in the propulsive than the braking force likely due to limited elbow extension during late stance phase [3].…”

Section: Introductionmentioning

confidence: 99%

Fore-Aft Ground Force Adaptations to Induced Forelimb Lameness in Walking and Trotting Dogs

et al. 2012

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Animals alter their locomotor mechanics to adapt to a loss of limb function. To better understand their compensatory mechanisms, this study evaluated the changes in the fore-aft ground forces to forelimb lameness and tested the hypothesis that dogs unload the affected limb by producing a nose-up pitching moment via the exertion of a net-propulsive force when the lame limb is on the ground. Seven healthy Beagles walked and trotted at steady speed on an instrumented treadmill while horizontal force data were collected before and after a moderate lameness was induced. Peak, mean and summed braking and propulsive forces as well as the duration each force was exerted and the time to reach maximum force were evaluated for both the sound and the lame condition. Compared with the sound condition, a net-propulsive force was produced by the lame diagonal limbs due to a reduced braking force in the affected forelimb and an increased propulsive force in the contralateral hindlimb when the dogs walked and trotted. To regain pitch stability and ensure steady speed for a given locomotor cycle, the dogs produced a net-braking force when the sound diagonal limbs were on the ground by exerting greater braking forces in both limbs during walking and additionally reducing the propulsive force in the hindlimb during trotting. Consistent with the proposed mechanism, dogs maximize their double support phases when walking. Likely associated with the fore-aft force adaptations to lameness are changes in muscle recruitment that potentially result in short- and long-term effects on the limb and trunk muscles.

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Inverse Dynamics Analysis of the Pelvic Limbs in Labrador Retrievers With and Without Cranial Cruciate Ligament Disease

Cited by 53 publications

References 28 publications

Use of an inverse dynamics method to compare the three-dimensional motion of the pelvic limb among clinically normal dogs and dogs with cranial cruciate ligament–deficient stifle joints following tibial plateau leveling osteotomy or lateral fabellar–tibial suture stabilization

Use of an inverse dynamics method to compare the three-dimensional motion of the pelvic limb among clinically normal dogs and dogs with cranial cruciate ligament–deficient stifle joints following tibial plateau leveling osteotomy or lateral fabellar–tibial suture stabilization

Evaluation of vertical forces in the pads of Pitbulls with cranial cruciate ligament rupture

Fore-Aft Ground Force Adaptations to Induced Forelimb Lameness in Walking and Trotting Dogs

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