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1.
Int J Neurosci ; 131(6): 571-579, 2021 Jun.
Article in English | MEDLINE | ID: mdl-32241216

ABSTRACT

PURPOSE: Clinical research suggests that transcranial direct current stimulation (tDCS) at bilateral supraorbital foramen and inferior orbital rim and nose intersections may facilitate rehabilitation after stroke. However, the underlying neurobiological mechanisms of tDCS remain poorly understood, impeding its clinical application. Here, we investigated the effect of tDCS applied after stroke on neural cells. MATERIALS AND METHODS: Middle cerebral arterial occlusion (MCAO) reperfusion was induced in rats. Animals with comparable infarcts were randomly divided into MCAO group and MCAO + tDCS group. Recovery of neurological function was assessed behaviorally by modified neurological severity score (mNSS). Ischemic tissue damage verified histologically by TTC and HE staining. Immunohistochemical staining, real-time qPCR, and western blot were applied to determine the changes of neural cells in ischemic brains. RESULTS: The results reveal that tDCS treated by multilead brain reflex instrument can promote the recovery of neurological function, remarkably reduce cerebral infarct volume, promote brain tissue rehabilitation, and can effectively inhibit astrocytosis and enhance neuronal survival and synaptic function in ischemic brains. CONCULSIONS: Our study suggests that tDCS treated by multilead brain reflex instrument could be prospectively developed into a clinical treatment modality.


Subject(s)
Gliosis/therapy , Infarction, Middle Cerebral Artery/rehabilitation , Ischemic Stroke/rehabilitation , Neurons , Recovery of Function , Stroke Rehabilitation , Transcranial Direct Current Stimulation , Animals , Cell Survival/physiology , Disease Models, Animal , Infarction, Middle Cerebral Artery/pathology , Infarction, Middle Cerebral Artery/physiopathology , Ischemic Stroke/etiology , Ischemic Stroke/pathology , Ischemic Stroke/physiopathology , Male , Neurons/metabolism , Neurons/pathology , Rats , Rats, Sprague-Dawley , Recovery of Function/physiology , Severity of Illness Index
2.
Neural Plast ; 2017: 6303512, 2017.
Article in English | MEDLINE | ID: mdl-28194282

ABSTRACT

Aim. We report the dynamic anatomical sequence of human cortical gray matter development from late childhood to young adults using VBM and ROI-based methods. Method. The structural MRI of 91 normal individuals ranging in age from 6 to 26 years was obtained and the GMV for each region was measured. Results. Our results showed that the earliest loss of GMV occurred in left olfactory, right precuneus, caudate, left putamen, pallidum, and left middle temporal gyrus. In addition, the trajectory of maturational and aging showed a linear decline in GMV on both cortical lobes and subcortical regions. The most loss of gray matter was observed in the parietal lobe and basal ganglia, whereas the less loss occurred in the temporal lobe and hippocampus, especially in the left middle temporal pole, which showed no decline until 26 years old. Moreover, the volumes of GM, WM, and CSF were also assessed for linear age effects, showing a significant linear decline in GM with age and a significant linear increase in both WM and CSF with age. Interpretation. Overall, our findings lend support to previous findings of the normal brain development of regional cortex, and they may help in understanding of neurodevelopmental disorders.


Subject(s)
Brain Mapping/methods , Magnetic Resonance Imaging/methods , Visual Cortex/cytology , Visual Cortex/physiology , Adult , Age Factors , Female , Gray Matter/cytology , Gray Matter/physiology , Humans , Image Processing, Computer-Assisted , Male , Photic Stimulation , Young Adult
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