Neuroscience
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The neurodevelopmental hypothesis states that schizophrenia is a brain disease. Exploring abnormal brain activities can improve understanding of the neural pathologic mechanism of clinical characteristics and determine subjective biomarkers to differentiate patients with schizophrenia from healthy controls. We collected clinical characteristics (i.e., demographics, positive and negative syndrome scale (PANSS) scores, and cognitive scores) and magnetic resonance imaging (MRI) data from 57 first-diagnosed drug-naïve patients with schizophrenia and 50 healthy controls. ⋯ However, the related patterns of cognition of patients were different from those of healthy controls. Additionally, the combination of fALFF values in the bilateral paracentral lobule and right postcentral gyrus might distinguish patients with schizophrenia from healthy controls with high accuracy (98.13%), specificity (98.00%), and sensitivity (98.25%). Our study suggests that reduced local activities in the default mode network and sensorimotor network may be regarded as neural underpinnings of clinical characteristics and may discriminate patients with schizophrenia from healthy controls.
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Responses in the rostral (gustatory) nucleus of the solitary tract (rNST) are modified by synaptic interactions within the nucleus and the constitutive membrane properties of the neurons themselves. The potassium current IA is one potential source of modulation. In the caudal NST, projection neurons with IA show lower fidelity to afferent stimulation compared to cells without. ⋯ Because IA reduced excitability and is hyperpolarization-sensitive, we examined whether IA contributed to the inhibition resulting from optogenetic release of GABA. Although blocking IA decreased the percent suppression induced by GABA, this effect was attributable to the increased responsiveness resulting from AmmTX3, not to a change in the absolute magnitude of suppression. We conclude that rNST responses to afferent input are regulated independently by IA and GABA.
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A single pulse of high intensity electrical current delivered to the digits of the hand during voluntary contractions produces a period of decreased electromyographic (EMG) activity, known as a cutaneous silent period (CSP) (Caccia and Violini, 1973; Inghilleri et al., 1997; Uncini et al., 1991). Pairing transcranial magnetic stimulation (TMS) with digit stimulation results in motor evoked potentials (MEPs) with reduced amplitudes in a thenar muscle (Kofler, 2008). It is not known if similar behavior can be observed in more proximal upper-limb muscles. ⋯ The opposite relationship was seen within the PD (p < 0.047) muscle. An ANOVA test of normalized MEP values (TMS+/TMS) showed significant differences in APB vs TRI (p = 0.004) and PD (p = 0.003), and in FCR vs TRI (p = 0.046) and PD (p = 0.037) muscles. The results suggest that the CSP modulates descending drive differentially across upper-limb muscles.
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Sleep dysfunctions in epilepsy increase the burden of seizures and cognitive impairments. Seizures and certain anti-seizure drugs (ASDs) can affect sleep quality, leading to excessive daytime sleepiness and poor cognitive performance. Therefore, it is imperative to develop non-pharmacological strategies to curb epilepsy and related sleep dysfunction. ⋯ Exposure to EE restored REM sleep duration and latency without altering WASO in epileptic rats. EE also restored delta power during non-rapid eye movement (NREM) and theta, gamma power during wake, PFC-CA1 coherence, and PV+ interneurons density. These results further strengthen the role of EE's positive effects on brain plasticity and aid in developing non-pharmacological strategies to mitigate epilepsy-associated comorbidities.
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The negative emotions caused by persistent pain, called affective pain, are known to seriously affect human physical and mental health. The anterior cingulate cortex (ACC), especially the rostral ACC (rACC) plays a key role in the development of this affective pain. N-methyl-d-aspartate (NMDA) receptors, which are widely distributed in the ACC, are involved in the regulation of emotional behavior. ⋯ Then, western blot was used to determine levels of phosphorylated NMDA receptor subunits GluN1, GluN2 and GluN3 as affected by the δ-opioid receptor activation. The results showed that activation of δ-opioid receptors down-regulates the phosphorylation of NMDA receptor subunits, thereby inhibiting NMDA currents, decreasing the discharge frequency of rACC pyramidal neurons, and reversing the CPA response. Thus, δ-opioid receptor activation in the rACC region can alleviate affective pain.