The investigation on the effect of simple and complex models of motor learning on the upper limb performance in facioscapulohumeral muscular dystrophy patients during the activities of daily living

authors:

avatar Amir Hoshang Bakhtiari , * , avatar Javan Phinniks , avatar Saymon Ferastik , avatar Richard Edvard


how to cite: Bakhtiari A H, Phinniks J, Ferastik S, Edvard R. The investigation on the effect of simple and complex models of motor learning on the upper limb performance in facioscapulohumeral muscular dystrophy patients during the activities of daily living. koomesh. 2000;1(3):e153101. 

Abstract

Introduction. Disease progression in muscular dystrophy (MD) patient s results in the gradual loss of ability to produce an appropriate contra ction and consequen tly th e loss of necessary force for completing the activities of daily living (ADL). As there is no any recognised treatment for MD and the certain benefit of exercise has not proved yet for these patients. On the other hand, it has been shown that motor lea rni ng (ML) may improve the performance, we decided to examine the effect of ML on the upper limb performance in MD pa tients. Materials and Methods. Upper limb function and the effect of ML on upper limb performance was investigated in two experiments. In the first experiment, the performance of 7 facioscapulohumeral muscula r dystrophy (FSHD) patients and 7 age and sex matched healthy volunteers was investigat ed during a simulated drinking task. Performance was assessed by measurement of electromyographic (EMG) activity of biceps brachii and brachioradialis muscles elbow joint flexion shoulde r joint flexion and abdu ction maximum accelera tion at the onset of movement (MAM) movement time (MT) and reaction time (RT), both before and afte r a 30 min novel complex ML task. In the secon d experiment, the complex ML task was re placed by a novel simple ML task for another 6 FSHD patients and their age and sex matched healthy subjects. Except that the EMG activity of triceps and deltoid muscles (anterior part) were measured instead of brachior adialis EMG, the other measurements were same as the first study. Results. In both studies, the FSHD patients showed significantly larger values for all parameters except the flexion of shoulder joint aad RT compared with controls. While the complex ML resulted in decreases in the brachiorad ialis EMG activity (P < O.Ol) and RT (P< O.Ol) in the FSHD group, the simple ML model resulted in significant changes towards the normal value in all parameters measured except flexion of shoulder. Conclusion. The change in the measured variables towards normal values indicates that motor learning may help to improve performance in FSHD and its effects are more impressive if a simple ML model is used in a therapeutic protocol