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Background and Objective: Critical illness diaphragmatic neuromyopathy are significant  causes of weakness, morbidity and prolong mechanical ventilation among critically ill patients under mechanical ventilation. It is important determine the true initial time of neuromyopathic changes associated with critically ventilated patients. Based on new electrodiagnostic studies, electrophysiological studies of diaphragm and phrenic nerve, as an important muscle and nerve in ventilation, compared with other evaluating methods, have specific importance. This study was done to evaluate of the diaphragmatic myopathy onset time among mechanically ventilated patients using electrophysiological method.

Materials and Methods: This descripvtive study was performed on 56 mechanically ventilated patients in intensive care unit without primary neuromuscular disease in Tabriz Imam Khomeini hospital in West of Iran between 2004-06 years. Electromyography (EMG) and nerve conduction velocity test were performed in the 4^th and then in 4 days intervals.

Results: In 56 patients EMG and NCV performed at 4 and 8 days after mechanical ventilation, none of them had any evidence in favor of diaphragmatic myopathy. During the course of study, EMG were done on 24 patients in 12^th days , that in three of them (12.5%), mild myopathy were reported. From 18 patients, considered in 16^th days, only five (31.25%) of them showed mild myopathy. From 10 (100%) reminder patients, in 20^th day, all of them had mild to moderate myopathy.

Conclusion: According to these results, minimum duration of the diaphragmatic weakness onset time in mechanically ventilated patients with diverse causes in general critical care ward were 12 days and increased with prolonged time of mechanical ventilation.

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Background and Objective: Repair of peripheral nerve is one of main challenge in surgery and despite improvement in this field less than 50% of cases have functional improvment. This study was done to evaluate the comparison of epineural and peripheral methods in ulnar nerve repair. Method: In this clinical trial study, 28 patients with ulnar nerve injury in distal of forearm were randomly divided equly into epineural and peripheral surgery methods. After 4 months of surgery, the subjects were examined using with EMG, nerve conduction velocity (NCV) and sensorimotor examination on the first dorsal interosos muscle (FDIM) and abductor digiti minim muscle (ADM). Results: The mean of domain nerve activity, latency nerve activity and NCV in affected upper limb and non affected side had significant differences in epineural and peripheral methods (P<0.05). Latency nerve activity and NCV were similar in both methods. The mean of motor unit potential (MUP) was determined in 71% and 64% of patiants in epineural and peripheral methods, respectively. Muscle activity of FDIM was observed in 64% and 57% of patients in epineural and peripheral methods, respectively. Light touch was determined in 35.7% and 28.5% of patients in epineural and peripheral methods, respectively. Pain was reported in 78.5% and 57% of patients in epineural and peripheral methods, respectively. Conclusion: There was no difference between nerve repair by epineurium and prineurium methods using EMG, NCV and motorosensorial examination.

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Background and Objective: Multiple sclerosis (MS) is the most common disabling neurological disease which leads to nerve conduction velocity (NCV) reduction and finally reduction of functional abilities. This study was executed to determine the effect of six weeks resistance training on NCV, strength, balance and walking speed in Multiple Sclerosis patients.
Methods: In this quasi-experimental study, 23 MS patients were nonrandomly divided to control (n=10) and resistance training (n=13) groups. Two days before and after training program, NCV, strength, balance and 25 foot walking tests was executed. Resistance training protocol was included tree sessions per week for six weeks and intensity of training was 55% of 1RM.
Results: Six weeks of lower body resistance training significantly increased nerve conduction velocity (NCV) (P<0.05), strength (P<0.05), balance (P<0.05) and walking speed (P<0.05) in MS patients.
Conclusion: Controlled resistance training can improve Multiple Sclerosis patient’s nerve conduction velocity which finally can lead to improve functional abilities, such as strength, balance and walking speed.