Neuroreport
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Intracerebral hemorrhage (ICH)-induced brain injury leads to irreversible disruption of the blood-brain barrier (BBB) and fatality brain edema with massive cell death. Although secondary damage could, in principle, be preventable, no effective treatment approaches currently exist for patients with ICH. Tempol, a catalytic scavenger of peroxynitrite (ONOO)-derived free radicals, has been proven to ameliorate brain injury in several types of brain insults. ⋯ Perihematomal 3-NT increased significantly following ICH and expressed around vessels accompanied by reduced and discontinuous expression of ZO-1. Tempol treatment significantly suppressed 3-NT formation and preserved ZO-1 levels, and led to improvement in neurological outcomes and reduction of BBB leakiness, brain edema, and apoptosis. In conclusion, tempol has neuroprotective potential in experimental ICH and may help combat ICH-induced brain injury in patients.
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Randomized Controlled Trial
Optimal random frequency range in transcranial pulsed current stimulation indexed by quantitative electroencephalography.
Given the recent results provided by previous investigations on transcranial pulsed current stimulation (tPCS) demonstrating its modulatory effects on cortical connectivity; we aimed to explore the application of different random pulsed frequencies. The utility of tPCS as a neuromodulatory technique for cognition performance will come as additional frequency ranges are tested with the purpose to find optimal operational parameters for tPCS. This study was designed to analyze the effects of tPCS using the following random frequencies; 1-5, 6-10, and 11-15 Hz compared with sham on quantitative electroencephalographic changes in the spectral power and interhemispheric coherence of each electroencephalographic frequency band. ⋯ Participants were randomly allocated to four groups of random frequency stimulation and received a single session of stimulation for 20 min with a current intensity of 2 mA delivered by bilateral periauricular electrode clips. We found that a random pulsed frequency between 6-10 Hz significantly increased the power and coherence in frontal and central areas for the alpha band compared with sham stimulation, while 11-15 Hz tPCS decreased the power for the alpha and theta bandwidth. Our findings corroborate the hypothesis that a random frequency ranging into the boundaries of 6-10 Hz induces changes in the naturally occurring alpha oscillatory activity, providing additional data for further studies with tPCS.
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A novel N-acetyltransferase, Shati/Nat8l, was identified in the nucleus accumbens of mice repeatedly treated with methamphetamine (METH). Shati/Nat8l has been reported to inhibit the pharmacological action induced by METH. Shati/Nat8l produces N-acetylaspartate from aspartate and acetyl-CoA. ⋯ LY341495, a selective group II mGluRs antagonist, did not abolish this axonal growth, and N-acetylaspartylglutamate itself did not abolish axon outgrowth in the same cultured system. The cultured neurons overexpressing Shati/Nat8l contained high ATP, suggesting that axon outgrowth is dependent on energy metabolism. This study shows that Shati/Nat8l in the neuron may induce axon outgrowth by ATP synthesis and not through mGluR3 signaling.
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Brand strategy is a critical problem in new product promotion. In relation to this, producers typically have two main options, namely, brand extension and new brand creation. The current study investigated the neural basis of evaluating these brand strategies at the brain level by using event-related potentials. ⋯ Moreover, at the brain level, BB elicited lower N400 mean amplitude than the new brand product NB, whereas BH led to higher N400 amplitude than the new brand product NH. These results showed that the likelihood of accepting a product depended on the association between the brand name and product name, and that the N400 could serve as an index of brand strategy evaluation. In addition, this study also confirmed that brand extension is not always the best brand strategy; an inappropriate extension sometimes performed worse than the creation of a new brand.
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Brachial plexus injuries (BPI) are devastating events that frequently result in severe functional impairment of the upper extremity, and yet, present surgical reconstruction provides limited results. An animal model is an important tool to study peripheral nerve repair and regeneration. Here, a passive traction apparatus that allowed a multidirectional force exerted on a fixed forelimb was designed to produce a BPI rat model in a noninvasive manner. ⋯ In addition, nerve roots avulsion injury led to severe retrograde degeneration of motoneurons in the C5-C7 spinal cord segments. Nissl staining results showed that motoneurons decreased significantly in number and appeared to have irregular morphologies. These results indicated that a novel noninvasive rat model for BPI that simulates the mechanism of a human lesion could be produced using our passive traction apparatus, and it is expected to produce reliable preclinical evidence in the assessment of new therapeutic strategies for this lesion.