Neurovascular impulse response function (IRF) during spontaneous activity differentially reflects intrinsic neuromodulation across cortical regions
DOI:
10.48324/dandi.001543/0.260130.1715
10.48324/dandi.001543/0.260130.1715
ID: 001543
0.260130.1715
0.260130.1715
Contact Rauscher, Bradley
File Count 196
Size 6.2 TiB
Created January 30, 2026
Last update January 30, 2026
Licenses: spdx:CC-BY-4.0
Access Information: dandi:OpenAccess
Ascending neuromodulatory projections from deep brain nuclei generate internal brain states that differentially engage specific neuronal cell types. Because neurovascular coupling is cell-type specific and neuromodulatory transmitters have vasoactive properties, we hypothesized that the impulse response function (IRF) linking spontaneous neuronal activity with hemodynamics would depend on...
Keywords:
Neurovascular coupling
Norepinephrine
Acetylcholine
Hemodynamics
Functional connectivity
Funding information
No funding information available.
Assets Summary
Approach
behavioral approach
microscopy approach; cell population imaging
Data StandardRRID:SCR_015242
Neurodata Without Borders (NWB)
Number Of Subjects
19
Variable Measured
ProcessingModule
ImagingPlane
OnePhotonSeries
OpticalChannel
PlaneSegmentation
BehavioralTimeSeries
Measurement Technique
analytical technique
surgical technique
one-photon microscopy technique
behavioral technique