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Objective:To observe any dependence of anticipatory postural adjustment (APA) on the difficulty of fine upper limb tasks and to document any effect of reticulospinal tract (RST) facilitation on APAs during such tasks.Methods:The study′s bivariate mixed design involved 4 different tasks and 3 different priming states. Thirteen healthy, male, right-handed subjects were recruited. They were asked to complete the 4 tasks of reaching, grasping a cup, pinching a card using the thumb or using the little finger, respectively for 10 times 1 in response to two different starting cues delivered through an earphone. Half of the trials with each task were initiated with 114dB white noise to startle and activate the reticulospinal tract (RST), while the others were activated with 80dB beeps as a control. Electromyographic signals were recorded from the bilateral sternocleidomastoid (SCM), lower trapezius (LT), latissimus dorsi (LD), lumbar erector spinae and right anterior deltoid muscles and also from the right flexor and extensor carpi radialis muscles (ECR/FCR). In the subsequent processing the electromyographic time domain and frequency domain indicators were converted into a pre-motor reaction time, a time to muscle peak contraction, an activation latency, and APA or compensatory postural adjustment (CPA) amplitude of the tested muscles. These were compared among the different tasks and stimuli. In addition, the 114dB test tasks were classified as two different priming status as SCM + and SCM - according to whether the sternocleidomastoid muscle (SCM) was activated in advance. Results:After RST activation the pre-motor reaction time and the time to peak contraction of all of the muscles were significantly shortened in all of the tasks. The deltoid muscle reaction times in the SCM + , SCM - and control states were (106.89±43.78)ms, (136.78±48.74)ms and (168.60±73.17)ms, respectively, and those differences are significant. The APA amplitudes of the contralateral LT and ipsilateral LD were significantly greater than normal, but the timing of muscle activation onset and the APA/CPA amplitudes of the ECR/FCR were not affected. The latency in the anticipatory muscle activation of the ECR in the little finger grip task was significantly shorter than that in reaching. Conclusions:The extensor carpi radialis show task-specific early activation in fine tasks of the upper limbs with different difficulties. RST activation can lead to early starting of expected actions, accelerate muscle contraction and increase APA amplitude of some trunk muscles, but it has no significant effect on APA/CPA amplitudes in the forearm muscles.
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Objective To evaluate the effect of the transcranial magnetic stimulation on upper-extremity function rehabilitation and changes in the excitability of cerebral cortex,and to evaluate from the viewpoint of electro-physiology the prognosis so as to guide the rehabilitation treatment of patients after stroke.Methods Forty-six patients in the early stage after a stroke were given TMS examinations of the ipsilateral brain region.Those with the motor evoked potentials (MEPs) amplitudes lower than 50 μV were classified into a motion-induced experimental negative group (the negative group),whiie those whose MEP amplitude reached 50 μV or more were classified as movement-induced positive (the positive group).Both groups were given the same treatment.Before and after 2,4 and 8 weeks of treatment the Fugl-Meyer movement function rating scale was used to assess their bilateral upper limb movement function.TMS technology was used to detect any change in the resting motor threshold (RMT) and the amplitude (Amp) of MEPs in the motor cortex.The incubation period of the cortex (CL) and the central motor conduction time (CMCT) in the contralateral motor cerebral cortex were also observed.Results After 4 weeks of treatment,the average score of the positive group on Fugl-Meyer upper movement function rating scale reached (54.99±2.76),significantly higher than before treatment and significantly higher than the negative group's average (P<0.05).After 8 weeks of treatment,the average score in the positive group had increased further to 73.11±2.98,still significantly higher than that of the negative group (P<0.01).After treatment,RMT decreased progressively in both groups,but that of the negative group dropped from (98.35±10.12) to (30.35±7.31) (9<0.01),with significantly greater decline in amplitude and rate than that of the positive group (P<0.05).After treatment,the Amp of both groups showed a gradual increasing trend.Amp increased earlier in the positive group,but there was no significant difference in the extent of the increase between the two groups (P>0.05).After the treatment the CL and CMCT had shortened significantly in the negative group compared to before the treatment (P<0.05),while there was no significant change in CL and CMCT after the treatment (P>0.05).Conclusions The excitability of the contralateral motor cortex changes after a stroke.TMS can be used to characterize the MEP to monitor and predict recovery.This should help clinicians prepare more scientific rehabilitation plans.
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Objective To explore the deficiency of upper limb movement in children with autism and its related factors. Methods 30 au-tism children aged 7-13 years old, and 30 healthy children aged 7-8 years from February to May, 2014 were enrolled. Their range of motion, comprehensive strength and cooperation, endurance, and muscular tension were tested. Results All the indexes of autism children lagged be-hind the healthy children (P0.05). The endurance of boys was better than girls (P=0.020), and there was no difference in other aspects between them (P>0.05). The type of autism for more upper limb movement cor-related with obstruction of Jianjing acupoint (GB21) (r=0.515, P=0.013), and was significantly different with the type of less limb move-ment (χ2=8.533, P=0.003). Conclusion Compared with healthy children, the joint motion is relatively flexible, but lack of strength, and with poor persistence and unbalance development between left and right upper limbs. Motor rehabilitation should be conducted according to their movement features and the condition of meridian.
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@#ObjectiveTo observe occupational therapy combing with physical therapy on the upper limb movement function and the activities of daily living for the old stroke patient.Methods62 stroke patients with hemiplegia were divided into the observation group (occupational therapy with physical therapy) and control group (physical therapy). All patients were evaluated with Bathel Index (BI) and Fugl-Meyer Assessment (FMA) before and 3 months after treatment.ResultsThe scores of BI and FMA increased significantly in the observation group compared with the control group after the treatment (P<0.01).ConclusionOccupational therapy combing with physical therapy can obviously improve the upper limb movement function and the activities of daily living for the old stroke patient.
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This study proposes a new method for measuring upper limb movement using a bio-impedance technique. Bio-impedance and joint angle were simultaneously measured during the wrist and elbow movements of 12 normal subjects. The joint angles of the wrist and elbow were estimated by measuring the bio-impedances of the forearm and upper arm, respectively. Although the measured bio-impedances on upper limbs varied among individuals, changes in the bio-impedances and joint angles of the wrist and elbow during their extension and flexion were very highly correlated, having correlation coefficients of 0.96 +/- 0.04 and -0.98 +/- 0.02, respectively. The reproducibilities of wrist and elbow bio-impedance changes were 2.1 +/- 1.0% and 1.8 +/- 1.0%, respectively. Since the proposed method is not restricted by size or the duration of measurements, it is expected to be useful for the analysis of athletic movement.
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Humanos , Cotovelo/fisiologia , Impedância Elétrica , Movimento , Reprodutibilidade dos Testes , Punho/fisiologiaRESUMO
A study was conducted to investigate the influence of motor learning on functional specialization of the upper and lower limbs by comparing automatized levels in upper and lower limb movements between 17 soccer (S group) and 14 basketball (B group) players at a university. They carried out transitory palmar flexion of both hands while stepping and performing alternate flexion-extension movements of both ankle joints, and transitory plantar flexion of both feet while performing alternate flexion-extension movement of both shoulder joints and both wrist joints. The automatized levels of the upper and lower limb movements were evaluated by the degree of interference between the upper and lower limb movements.<BR>It was shown that automatization of lower limb movements was more advanced than that of upper limb movements in both groups. The automatized levels of stepping in the S and B groups showed no significant difference, and were similar to those of university students in general obtained in our previous study. However, the automatized levels of ankle joint movements in both groups were higher than those for university students in general.<BR>In both groups, the insertion of transitory palmar flexion was restricted to within the phase where the degree of interference was small during the stepping and ankle joint movement. However, this tendency was not clear in the trial where transitory plantar flexion was superimposed on shoulder joint and wrist joint movements.<BR>As for the difference between the groups, the S group showed a higher automatized level of ankle joint movement than the B group. On the other hand, the B group showed higher automatized levels of both upper limb movements than the S group, and this tendency was especially evident for shoulder joint movement.<BR>These results suggest that the change in the automatized level of upper and lower limb movements by specific motor learning is added to the functional specialization of the upper and lower limbs acquired by daily basic motor learning in an upright position.