Respiratory insufficiency is a common cause of morbidity and mortality in patients with Duchenne muscular dystrophy(DMD). In these patients, progressive muscle weakness is a major factor in the development of respiratory insufficiency. Therefore, the physical training program to improve the strength and endurance of respiratory muscle could conceivably improve respiratory function and prevent respiratory complication in patients with DMD.

The purpose of this study is to examine the effects of inspiratory muscle training on respiratory function of DMD patients according to functional state.

Eighteen DMD patients who were registered at the Muscle clinic of Yong Dong Severance Hospital were assessed for the pulmonary function using the routine pulmonary function test and measurements of maximal static pressures at 6 weeks before the training, at the beginning of training, and after the end of 6 week-training. The first 6 weeks were used as a control period. Inspiratory muscle training consisted of breathing through Threshold inspiratory muscle trainer (IMT) at 30% of patients' maximal inspiratory pressures(MIP) for 15 minutes twice a day and the 'endurance time' was recorded weekly for an assessment of inspiratory muscle endurance.

This study showed significant improvement of MIP and endurance time after the training in both ambulatory and wheelchair-bound patients. The amounts of improvement were greater in the patients with a better functional state and greater baseline forced vital capacity.

We conclude that, in the early stages of DMD, inspiratory muscle training with pressure threshold device is more useful when the forced vital capacity is well preserved.

Respiratory failure and pulmonary infection are the major causes of death in the Duchenne muscular dystrophy patients.

The purposes of this study are to evaluate pulmonary function of Duchenne muscular dystrophy patients, to verify usefulness of the measurements of maximum static pressures and to define functional classes in Duchenne muscular dystrophy patients.

Forty two Duchenne muscular dystrophy patients were assessed for pulmonary function by a routine pulmonary function test and the measurements of maximum static pressures. This study showed significant negative correlations between the subject's functional class and the values of forced vital capacity(FVC), maximum inspiratory and expiratory pressures(MIP and MEP). Significant reduction of maximum static pressures began earlier than FVC in the course of disease. The MEP was as low as 64% of the predicted value before FVC and MIP showed demonstrable decline.

A pulmonary care program focusing on maintaining adequate respiratory pressures is suggested to start early for the childwith Duchenne muscular dystrophy.

The purpose of this study was to measure the foot pressure distribution of normal children. Static and dynamic pressure, dynamic pressure-time integral, relative impulse, static pressure distribution between forefoot and heel, and the percentage of contact time in each phase of the gait cycle were measured from 68 normal children by the in-sole pressure measurement system. The measurements were perfomed while standing and walking with their comfortable speed using the in-sole pressure measurement system.

The sites of the greatest static pressure, dynamic pressure-time integral and relative impulse were obtained from the 2nd and the 3rd metatarsal head areas. And the dynamic pressure was obtained from in the lateral heel area. The forefoot to heel load ratio was about 6 to 4 in the static state. The contact time was greatest during the push-off phase., In-sole pressure measurement system, Static pressure, Dynamic pressure,