Our data suggest that the higher susceptibility of D2 compared with B6 mice to the effects of ethanol on motor function may be attributed to less stable basal gait characteristics that are perturbed by ethanol. The ability of this method to quantify step sequence patterns and gait indices of forelimb and hind limbs could provide new data regarding ethanol-induced motor incoordination.
Walking is a fundamental motor skill that significantly affects the level of independence in older adults. The amount of variability present in a walking pattern reflects the quality of neuromuscular control. It is well established that a large proportion of falls in older people occurs when walking. The prevention of falls is vital for minimizing disability, preventing injury, and impeding the development of frailty and subsequent deterioration in quality of life. The present literature review focuses on dynamic stability. In dynamic stability, both the base of support and the center of mass are in motion, and effective balance function is required. In general, older adults are expected to have different movement patterns from younger adults, expressed by differences in limb kinematics and kinetics. A better understanding of the biomechanical variables involved can help anticipate and prevent potential falls.
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