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Benchaporn Aneksan Montawan Sawatdipan Sunee Bovonsunthonchai Jarugool Tretriluxana Roongtiwa Vachalathiti Paradee Auvichayapat Anuchai Pheungphrarattanatrai Pagamas Piriyaprasarth Wanalee Klomjai 《Neuromodulation》2022,25(4):558-568
ObjectiveTo determine the effect of five-session dual-transcranial direct current stimulation (dual-tDCS) combined with task-specific training on gait and lower limb motor performance in individuals with subacute stroke.Materials and MethodsTwenty-five participants who had a stroke in the subacute phase with mild motor impairment were recruited, randomized, and allocated into two groups. The active group (n = 13) received dual-tDCS with anodal over the lesioned hemisphere M1 and cathodal over the nonlesioned hemisphere, at 2 mA for 20 min before training for five consecutive days, while the sham group (n = 12) received sham mode before training. Gait speed as a primary outcome, temporospatial gait variables, lower-limb functional tasks (sit-to-stand and walking mobility), and muscle strength as secondary outcomes were collected at preintervention and postintervention (day 5), one-week follow-up, and one-month follow-up.ResultsThe primary outcome and most of the secondary outcomes were improved in both groups, with no significant difference between the two groups, and most of the results indicated small to moderate effect sizes of active tDCS compared to sham tDCS.ConclusionThe combined intervention showed no benefit over training alone in improving gait variables and lower-limb performance. However, some performances were saturated at some point, as moderate to high function participants were recruited in the present study. Future studies should consider recruiting participants with more varied motor impairment levels and may need to determine the optimal stimulation protocols and parameters to improve gait and lower-limb performance. 相似文献
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Wanalee Klomjai Benchaporn Aneksan Anuchai Pheungphrarattanatrai Thanwarat Chantanachai Nattha Choowong Soontaree Bunleukhet Paradee Auvichayapat Yongchai Nilanon Vimonwan Hiengkaew 《Annals of physical and rehabilitation medicine》2018,61(5):286-291
Anodal stimulation increases cortical excitably, whereas cathodal stimulation decreases cortical excitability. Dual transcranial direct current stimulation (tDCS; anodal over the lesioned hemisphere, cathodal over the non-lesioned hemisphere) was found to enhance motor learning. The corresponding tDCS-induced changes were reported to reduce the inhibition exerted by the unaffected hemisphere on the affected hemisphere and restore the normal balance of the interhemispheric inhibition. Most studies were devoted to the possible modification of upper-limb motor function after tDCS; however, almost no study has demonstrated its effects on lower-limb function and gait, which are also commonly disordered in stroke patients with motor deficits. In this randomized sham-controlled crossover study, we included 19 patients with sub-acute stroke. Participants were randomly allocated to receive real or sham dual-tDCS followed by conventional physical therapy with an intervention interval of at least 1 week. Dual-tDCS was applied over the lower-limb M1 at 2-mA intensity for 20 min. Lower-limb performance was assessed by the Timed Up and Go (TUG) and Five-Times-Sit-To-Stand (FTSTS) tests and muscle strength was assessed by peak knee torque of extension. We found a significant increase in time to perform the FTSST for the real group, with improvements significantly greater than for the sham group; the TUG score was significantly increased but not higher than for the sham group. An after-effect on FTSTS was found at approximately 1 week after the real intervention. Muscle strength was unchanged in both limbs for both real and sham groups. Our results suggest that a single session of dual-tDCS before conventional physical therapy could improve sit-to-stand performance, which appeared to be improved over conventional physical therapy alone. However, strength performance was not increased after the combination treatment. 相似文献
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Dopamine transporters are dephosphorylated in striatal homogenates and in vitro by protein phosphatase 1 总被引:1,自引:0,他引:1
Foster JD Pananusorn B Cervinski MA Holden HE Vaughan RA 《Brain research. Molecular brain research》2003,110(1):100-108
Dopamine transporters (DATs) undergo increased phosphorylation upon treatment of striatal tissue or cultured cells with protein kinase C activators and protein phosphatase inhibitors. Phosphorylation conditions also lead to reductions in dopamine transport activity, which may function to regulate synaptic dopamine levels and control the extent and duration of dopaminergic signaling. Treatment of rat striatal tissue with okadaic acid (OA), a broad-spectrum protein phosphatase inhibitor, produces apparent maximal increases in DAT phosphorylation, suggesting that dephosphorylation is a crucial regulator of the DAT phosphorylation state. We used a combination of endogenous and in vitro approaches to identify the phosphatase(s) responsible for this activity. In homogenates prepared from (32)PO(4)-labeled rat striatal slices, OA inhibited DAT dephosphorylation with an IC(50) of 40 nM, a dose most compatible with inhibition of protein phosphatase 1 (PP1). Dephosphorylation of DAT in striatal homogenates was also inhibited by PP1 inhibitor 2, while little effect was produced by protein phosphatase 2A inhibitor 1. In vitro dephosphorylation assays showed substantial removal of (32)PO(4) from DATs by PP1 but not by protein phosphatase 2A, protein phosphatase 2B, or protein tyrosine phosphatase, and this effect was blocked by OA, verifying that the (32)PO(4) loss from DAT was due to dephosphorylation. These results demonstrate that DAT is a direct substrate for PP1 in vitro and suggest that PP1 is a major DAT phosphatase in rat striatum. 相似文献
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Kaveevivitchai C Chuengkriankrai B Luecha Y Thanooruk R Panijpan B Ruenwongsa P 《Nurse education today》2009,29(1):65-72
Due to constraints of increasing number of nursing students and a disproportionate shortfall of faculty members in nursing schools, it was necessary to supplement traditional lecture or lecture-demonstration with on-line multimedia materials and/or multimedia compact discs for enhancing learning. The authors have developed a computer-assisted learning (CAL) multimedia on vital signs with animation and audio features for teaching in the classroom based on the 5Es inquiry cycle. When the CAL was tried on second-year undergraduates in two comparable schools, all groups of students gained significantly higher performance skills regardless of whether the groups were subjected to CAL/lecture or CAL/lecture/demonstration. However, they did not gain in factual knowledge. 相似文献
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