Summary
Kinematic data of the equine hind limb are presented graphically and related to functional aspects of the hind limb in locomotion. The trot of 24 two‐year‐old Dutch Warmblood horses was recorded at 4 m/s on a high‐speed treadmill using kinematic analysis equipment. Joint angle‐time, angle‐angle, stick and marker diagrams were used to present graphically the data following standardised procedures. As the kinematic data were expressed with reference to the joint angles of the horse standing squarely and were time‐standardised to the duration of the stride cycle, mean joint curves for the total group could be calculated and therefore describe the function of the different segments of the equine hind limb. The motion of the hind limb in the sagittal plane appeared to be pendular around a rotation point in the acetabulum. During the stance phase the extension of the fetlock joint and stance flexion of the stifle, tarsal and coffin joints illustrate the shock absorption of the hind limb. In the swing phase the reciprocal apparatus, which forms the coupling mechanism between stifle and tarsal joint, also influences the fetlock joint because synchronous flexion and extension between these 3 joints were demonstrated. By graphically presenting hind limb motion we were able to illustrate the relation between kinematics and function. This graphic analysis can be used in clinical studies involving quantification of equine hind limb coordination in the sagittal plane.
After intravenous (1 mg/kg body weight), intramuscular (1 mg/kg body weight) and oral (1 and 50 mg/kg body weight) administration of folic acid (FA) to pigs, plasma levels of FA, tetrahydrofolic acid (THF), 5-methyltetrahydrofolic acid (5MF) were determined by using high-performance liquid chromatography. The pharmacokinetic profile of plasma FA after oral administration indicated an absorption rate-limited elimination, i.e., so called 'flip-flop' phenomenon. The bioavailability of FA was quite low after a high oral dose (F = 0.01), in contrast to a high value after intramuscular administration (F = 0.95). The plasma levels of biologically active, reduced forms of folates (THF and 5MF) were significantly increased over their basal levels after IV and IM administration to FA. The levels of these active folates were not increased after oral administration of a similar dose of FA. A 50 times higher dose was required to increase the active folates to the levels observed after IV and IM administration.
For centuries humans have been fascinated by the natural beauty of horses in motion and their different gaits. Gait classification (GC) is commonly performed through visual assessment and reliable, automated methods for real-time objective GC in horses are warranted. In this study, we used a full body network of wireless, high sampling-rate sensors combined with machine learning to fully automatically classify gait. Using data from 120 horses of four different domestic breeds, equipped with seven motion sensors, we included 7576 strides from eight different gaits. GC was trained using several machine-learning approaches, both from feature-extracted data and from raw sensor data. Our best GC model achieved 97% accuracy. Our technique facilitated accurate, GC that enables in-depth biomechanical studies and allows for highly accurate phenotyping of gait for genetic research and breeding. Our approach lends itself for potential use in other quadrupedal species without the need for developing gait/animal specific algorithms.
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