Kinetic and temporospatial gait parameters in a heterogeneous group of dogs

Kano, Washington Takashi; Rahal, Sheila Canevese; Agostinho, Felipe Stéfan; Mesquita, Luciane dos Reis; Santos, Rogério R.; Monteiro, Frederico Ozanan Barros; Castilho, Maíra Sales; Melchert, Alessandra

doi:10.1186/s12917-015-0631-2

Cited by 46 publications

(57 citation statements)

References 22 publications

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“…Body mass distribution in pigs (Meijer et al, 2014) and other animals is approximately 30% on each front limb and 20% on each hind limb (Besancon et al, 2004;Budsberg et al, 1987;Kim and Breur, 2008;Kano et al, 2016). In line with this, Thorup et al (2007) showed 54% of body mass is carried by the pig's forelimbs, which demonstrates that the centre of gravity is relatively close to the forelimbs.…”

Section: Does Intralimb Coordination Differ As a Function Of Body Build?supporting

confidence: 49%

How innate is locomotion in precocial animals? A study on the early development of spatio-temporal gait variables and gait symmetry in piglets

Hole

Goyens

Prims

et al. 2017

Journal of Experimental Biology

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Locomotion is one of the most important ecological functions in animals. Precocial animals, such as pigs, are capable of independent locomotion shortly after birth. This raises the question whether coordinated movement patterns and the underlying muscular control in these animals is fully innate or whether there still exists a rapid maturation. We addressed this question by studying gait development in neonatal pigs through the analysis of spatio-temporal gait characteristics during locomotion at self-selected speed. To this end, we made video recordings of piglets walking along a corridor at several time points (from 0 h to 96 h). After digitization of the footfalls, we analysed self-selected speed and spatio-temporal characteristics (e.g. stride and step lengths, stride frequency and duty factor) to study dynamic similarity, intralimb coordination and interlimb coordination. To assess the variability of the gait pattern, left-right asymmetry was studied. To distinguish neuromotor maturation from effects caused by growth, both absolute and normalized data (according to the dynamic similarity concept) were included in the analysis. All normalized spatiotemporal variables reached stable values within 4 h of birth, with most of them showing little change after the age of 2 h. Most asymmetry indices showed stable values, hovering around 10%, within 8 h of birth. These results indicate that coordinated movement patterns are not entirely innate, but that a rapid neuromotor maturation, potentially also the result of the rearrangement or recombination of existing motor modules, takes place in these precocial animals.

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Section: Does Intralimb Coordination Differ As a Function Of Body Build?supporting

confidence: 49%

How innate is locomotion in precocial animals? A study on the early development of spatio-temporal gait variables and gait symmetry in piglets

Hole

Goyens

Prims

et al. 2017

Journal of Experimental Biology

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“…The percentages of stance and swing phases in our study are comparable to those previously reported . However, the relative duration of stance and swing phases can vary slightly between studies.…”

Section: Discussionsupporting

confidence: 90%

“…In this study, a 3D kinematic camera system and a retroreflective toe marker were used to document the initiation and termination of the stance and swing phases, and produce temporospatial variables . This design differs from previous studies, where treadmill embedded force plates, pressure walkways, and high‐speed optical video recordings have been utilized.…”

Section: Discussionmentioning

confidence: 99%

Pelvic limb kinematics in the dog with and without a stifle orthosis

Torres

Sandberg

et al. 2017

Veterinary Surgery

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The restrictive motion of the stifle orthosis is not fully translated to the underlying joint, based on the limited differences between the motion of braced and unbraced stifles. This effect varies with plane of motion and phase of the gait cycle, with most changes in stifle motion being detected during the stance phase. The stifle orthosis had an equal or greater effect on the motion of adjacent joints, especially the tarsus.

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“…Recently, functional assessments started to be considered in many different animal models like rats, for stroke model [7], for peripheral nerve injury [8,11] and others [54], dogs [53,55] and minipigs [56].…”

Section: Discussionmentioning

confidence: 99%

Sheep Gait Biomechanics and the Assessment of Musculoskeletal Conditions: A Systematic Review

Silva

Dimas

Fernandez

et al. 2019

AMM

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In recent years, sheep have been reported as the ideal animal model to study osteoporosis, hence it is important to identify instruments, tools and ideal parameters needed to assess the effects of different treatments. In previous studies conducted in other animal models with osteoporosis, the most common parameters used for evaluation concerned primarily bone properties, such as the dual X-ray absorptiometry. However, biomechanical gait analysis as an integrative functional parameter and a non-invasive method, will be an important tool in research and clinical applications. This research review was performed using the PubMed database and included studies related to sheep with outcome measures concerning functional performance assessed during gait in vivo; and excluded studies related with cardiovascular disease and sperm properties, which include other animal species, with outcomes not related with functional locomotor evaluation. Only studies related with bone properties were analyzed. The most frequent and relevant included parameters were the following: mean peak vertical ground force reaction, gait cycle and stance/swing phase duration, percentage of stance/swing phase in a gait cycle, stride length and the stifle joint angles during a gait cycle. Gait biomechanical parameters have been established for the assessment of some clinical orthopedic condition using sheep models but not currently for osteoporosis.

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Kinetic and temporospatial gait parameters in a heterogeneous group of dogs

Cited by 46 publications

References 22 publications

How innate is locomotion in precocial animals? A study on the early development of spatio-temporal gait variables and gait symmetry in piglets

How innate is locomotion in precocial animals? A study on the early development of spatio-temporal gait variables and gait symmetry in piglets

Pelvic limb kinematics in the dog with and without a stifle orthosis

Sheep Gait Biomechanics and the Assessment of Musculoskeletal Conditions: A Systematic Review

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