The purpose of this study was to evaluate the effectiveness of water exercise, including functional mobility in water, performed either once or twice a week in elderly who require nursing care. Twenty-one subjects were assigned to two groups. Ten subjects trained once a week for 6 months. Eleven subjects trained twice a week for 6 months. Water exercise consisted of warming up on land and walking,ADL exercise,resistance training, stretching and relaxation in water. Functional mobility was evaluated by FIM during pre-exercise,after 3 months and 6 months. There were significant improvements in functional mobility after 6 months compared to pre-exercise in both groups. Functional mobility in the group who trained once a week did not improve at 3 months compared to pre-exercise. Although the group who trained twice a week showed a dramatic improvement in functional mobility after 3 months compared to pre-exercise, and no change after 3 months compared to after 6 months. These results indicate that water exercise once or twice a week for 6 months, including functional mobility in elderly who require nursing care, can improve functional mobility, especially, exercise twice a week could improve it within 3 months.

The purpose of this study was to investigate differences between underwater and land-based exercise in leg muscle activity. Nine healthy males (mean age : 21.7±0.5 years, mean height : 173.4±2.2 cm) had electrodes placed on their left leg muscles (Tibialis Anterior ; TA, Medial Gastrocnemius ; MG, Soleus ; SOL, Rectus Femoris ; RF, and Biceps Femoris ; BF), and their muscle activity was measured during various exercises. The subjects performed six types of exercise such as the forward walk, backward walk, squat, calf raise, leg range, and one leg wave, both in the water (waist level) and on land. These exercises were categorized as 3 types of leg movement according to direction ; horizontal, vertical, and mixed movement.
In the forward walk and backward walk, categorized as horizontal movements, the integrated electromyogram (IEMG) significantly increased during underwater exercise compared with on land. In the squat, as a vertical movement, the IEMG showed a similar change under both conditions. In the calf raise, as a vertical movement, and leg range and one leg wave, as mixed movements, the IEMG significantly decreased during underwater exercise compared with on land. These results suggest that leg muscle activity during underwater exercise is different based on the movement direction of the legs. In a word, it was apparent that movement in a horizontal direction underwater provides greater activity for leg muscles than on land; but movement in a vertical and/or mixed direction underwater provides less activity for leg muscles than on land. In prescribing an exercise program, it may be helpful to understand the differences between underwater and land-based exercise in leg muscle activity.