Search results for "calcium recordings"

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Assessing sensory versus optogenetic network activation by combining (o)fMRI with optical Ca2+ recordings

2016

Encoding of sensory inputs in the cortex is characterized by sparse neuronal network activation. Optogenetic stimulation has previously been combined with fMRI (ofMRI) to probe functional networks. However, for a quantitative optogenetic probing of sensory-driven sparse network activation, the level of similarity between sensory and optogenetic network activation needs to be explored. Here, we complement ofMRI with optic fiber-based population Ca2+ recordings for a region-specific readout of neuronal spiking activity in rat brain. Comparing Ca2+ responses to the blood oxygenation level-dependent signal upon sensory stimulation with increasing frequencies showed adaptation of Ca2+ transient…

0301 basic medicineGenetic VectorsPopulationOptogenetic fMRIChannelrhodopsinSensory systemStimulationOptogeneticsSomatosensory system03 medical and health sciences0302 clinical medicineChannelrhodopsinsTransduction GeneticBiological neural networkAnimalseducationEvoked PotentialsOptical FibersNeuronseducation.field_of_studyAniline CompoundsSensory stimulation therapyChemistrySomatosensory CortexOriginal Articlesoptical neurophysiologyFluoresceinsMagnetic Resonance ImagingRats Inbred F344calcium recordingsOptogeneticsOxygen030104 developmental biologyMicroscopy FluorescenceNeurologylight propagationCalciumFemalesparse network activationNeurology (clinical)Cardiology and Cardiovascular MedicineNeurosciencePhotic Stimulation030217 neurology & neurosurgeryJournal of Cerebral Blood Flow & Metabolism
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Cortex-wide BOLD fMRI activity reflects locally-recorded slow oscillation-associated calcium waves.

2017

When a person is in a deep non-dreaming sleep, neurons in their brain alternate slowly between periods of silence and periods of activity. This gives rise to low-frequency brain rhythms called slow waves, which are thought to help stabilize memories. Slow wave activity can be detected on multiple scales, from the pattern of electrical impulses sent by an individual neuron to the collective activity of the brain’s entire outer layer, the cortex. But does slow wave activity in an individual group of neurons in the cortex affect the activity of the rest of the brain? To find out, Schwalm, Schmid, Wachsmuth et al. took advantage of the fact that slow waves also occur under general anesthesia, a…

0301 basic medicinegenetic structuresQH301-705.5Scienceresting-state functional connectivityThalamusslow waves ; BOLD fMRI ; calcium recordingsBiologybehavioral disciplines and activitiesGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciences0302 clinical medicineRhythmslow wavesThalamusCortex (anatomy)medicineOscillation (cell signaling)Premovement neuronal activityAnimalsddc:610Calcium SignalingBOLD fMRIBiology (General)Functional MRICerebral CortexGeneral Immunology and MicrobiologyGeneral NeuroscienceQRGeneral MedicineHuman brainAnatomyMagnetic Resonance ImagingRatscalcium recordings030104 developmental biologymedicine.anatomical_structurenervous systemCerebral cortexMedicineRatNeuronInsightNeuroscience030217 neurology & neurosurgerypsychological phenomena and processesNeuroscienceeLife
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