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Locomotive syndrome presents a risk for falls and fractures in the elderly Japanese population

"Locomotive syndrome" is used to designate the condition of individuals with musculoskeletal disease who are highly likely to require nursing care. This article reviews screening, prevalence, causal and related factors, and the relationship between locomotive syndrome and falls and fractures in older adults with this syndrome. A few self-administered questionnaire tools are available to assess individuals for locomotive syndrome. Additionally, screening methods, including a physical functioning assessment, are appropriate for detailed discrimination of locomotive syndrome. The prevalence of locomotive syndrome is significantly higher in women than in men, and tends to increase markedly from 70 years of age. More severe locomotive syndrome is related to knee pain, osteoporosis, sarcopenia, and lumbar disease. The incidence of falling in locomotive syndrome is higher than the incidence for the older population in general. Locomotive training including squats and a unipedal standing exercise has been recommending to prevent locomotive syndrome. This training improves muscle strength and balance function for older people who have a risk for locomotive syndrome.

The electromyographic analysis during cutting of female basketball players / 体力科学

The purpose of this study was to determine the muscle activity during cutting in female basketball player. Eight female basketball players participated in this study. Each subject was instructed to do two steps of approach run, and change direction to the right laterally. Cutting motion is divided two into a phase: knee joint <i>flexion phase</i> and <i>extension phase</i>. Bipolar surface EMG electrodes, spaced 30 mm apart and oriented parallel to the muscle fascicles were secured over the muscle bellies of the Vastus Medialis (VM), Vastus Lateralis (VL), Biceps Femoris (BF), and Semimembrasosus (SM) musculature. EMG recordings were employed to measure the ratio of activation between the medial-to-lateral Hamstring and Quadriceps, and Hamstring and Quadriceps. All the subject had 10-15 degrees knee angle during cutting. In <i>flexion phase</i>, Quadriceps acted more significantly than Hamstring (p<0.05). Moreover, VM activity acted larger than VL, and BF activity acted larger than SM in each phases (p<0.05) All the subject reveal a similar pattern: Quadriceps act largely in <i>flexion phase</i>, which may increase anterior tibial shear forces, strain on the anterior cruciate ligament. Moreover, medial muscle activity acted larger than lateral muscle in Quadriceps, and lateral muscle activity acted larger than medial muscle in Hamstring in each phase. All the subject had 10-15 degree knee angle during cutting, therefore, a variation in lateral and medial muscle may trigger knee valgus.