Neuroreport
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Gamma-aminobutyric acid (GABA) ergic neurons are important for controlling sleep and wakefulness but are difficult to identify, limiting their study. Knock-in mice with GABAergic neurons labeled by expression of green fluorescent protein (GFP) under control of the glutamate decarboxylase 67 (GAD67) promoter are now extensively used in neuroscience. ⋯ Compared with wild-type control mice, GAD67-GFP knock-in mice had the same amount of non-rapid eye movement (NREM) sleep and rapid-eye movement (REM) sleep, a similar diurnal distribution of sleep, no NREM or REM sleep differences in electroencephalogram power, and normal sleep rebound following 6-h sleep deprivation. Our results suggest GAD67-GFP knock-in mice are an excellent tool for study of GABAergic neurons involved in sleep-wake regulation.
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We studied somatosensory-evoked fields elicited by mechanical versus electrical stimuli to index finger of healthy participants. Mechanical stimulation was index pulp compression and decompression by using nonmagnetic mechanical stimulator. Electrical stimulation was three times of sensory threshold and delivered to index pulp by using ball-shaped electrodes. ⋯ Compressive stimuli evoked ipsilateral primary sensorimotor cortical responses in all respective participants, with dipole strengths less than contralateral primary somatosensory cortical responses of compressive stimuli. Mechanical/electrical stimuli evoked secondary somatosensory (SII) cortical responses bilaterally; electrical-stimuli SII dipole strengths were relatively stronger than compressive-stimuli SII responses. It is concluded that the use of mechanical stimulation may improve our understanding of functional sensory cortical responses compared with electrical stimulation.
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It has been proposed that high-frequency oscillations (HFOs) and underlying conventional somatosensory-evoked potentials (SEPs) have different brain origins. To further explore the neural mechanism of HFOs, we recorded the SEPs responding to high-intensity electrical stimulation applied to the hind paw of conscious, freely moving rats. ⋯ The amplitude of HFOs was significantly decreased by systemic morphine, whereas the primary conventional SEP components remained unaffected. The different changes in HFOs and primary SEP components after systemic morphine administration provided further evidence for the hypothesis that HFOs and underlying conventional SEP components have different origins.
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The uptake of [14C]lactate was measured in the brains of mice anesthetized with pentobarbital or chloral hydrate. The results showed significant increase of the [14C]lactate uptake in the brain under both anesthesia. Despite energy metabolism in the brain being suppressed by both pentobarbital and chloral hydrate, the [14C]lactate uptake was unexpectedly increased under anesthesia. [14C]Lactate uptake in rat brain injured by infusion of quinolic acid was significantly decreased, and the reduction of [14C]lactate uptake was parallel to neural cell death, suggesting that exogenous lactate might be selectively taken up by neuron. These results indicated that lactate rather than glucose might serve as an energy substrate for neuron in intact brain under anesthesia.
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Deep brain stimulation on the subthalamic nucleus has been used to relieve Parkinsonian motor symptoms. However, the underlying physiological mechanism has not been fully understood. Beta-band cortico-muscular coherence increases when healthy humans perform isometric contraction. ⋯ We then compared the coherence values for stimulator on-state and off-state. We found that when the stimulator is on, the beta cortico-muscular coherence elevates significantly for the tremorous hand compared with that when the stimulator is off. This suggests that deep brain stimulation resulted in better cortico-muscular coordination.