Abstract
Current research on gait analysis mostly involves horses and dogs. Feline kinetics and kinematics are being investigated and receiving more clinical interest at present. Ground reaction forces measured on pressure-sensitive mattresses have been established in healthy Domestic Shorthair cats (DSH). Currently, no further information exists on either breed-specific measured gait reaction forces or comparisons among breeds. Because Maine Coon (MC) cats appear to be over-represented with orthopaedic diseases of the hind limb (hip dysplasia, patellar luxation), we evaluated ground reaction force GRF measurements in MC cats and compared them with those of DSH cats. Pre-evaluation radiological and clinical exams determined that the cats were not lame. The parameters evaluated were peak vertical force (PFz), vertical impulse (IFz), time to PFz (TPFz), step length (SL), paw contact area (PCA), stance phase duration (SPD) and symmetry index (SI) for the fore- and hind limbs. In both breeds, PFz and IFz were greater in forelimbs than in hind limbs. The PFz and IFz in Newtons were higher in the MC cats compared to the DSH cats, but not after normalisation for total force (%TF) and body mass (%BM). Furthermore, due to their body conformation, MC cats have a longer SL, larger PCA, and higher body weight than DSH cats. No other parameters differed significantly, except that the TPFz displayed an earlier value in the MC hind limbs. Measured symmetry indices were similar to those reported in dogs and did not differ between breeds. This is the first study to report GRF values and temporospatial parameters in a healthy MC cat population. However, our results could not confirm differences between normalized PFz and IFz and temporospatial parameters between the breeds. The authors therefore conclude that genetic or other causes may be involved in orthopaedic hind limb pathogenesis seen in MC cats more often than in other breeds.
Highlights
Compared with other species, little has been published on feline kinetics and kinematic biomechanics [1, 2]
Domestic Shorthair cats (DSH) body mass ranged from 3.8 kg to 6.6 kg, while Maine Coon (MC) body mass ranged from 3.1 kg to 8.5 kg
Gait velocity ranged from 0.52 m/s to 0.83 m/s in DSH cats, while MC cats’ gait velocity ranged from 0.52 m/s to 1.1 m/s
Summary
Compared with other species (canines and equines), little has been published on feline kinetics and kinematic biomechanics [1, 2]. More studies have been conducted to investigate normal and abnormal gait in cats [2,3,4,5,6,7,8,9,10], as cats are receiving more attention than as orthopaedic patients, and pressure-sensitive walkways (PSWs) make these measurements easier. Parameters most commonly evaluated include orthogonal GRFs (Peak Vertical Force and Vertical Impulse, a function of force and time), that result from contact between the paw and the ground during gait [1, 13]. Additional parameters that we evaluated include loading rate, temporal gait characteristics, and paw pressure distribution [8]
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