by Michael Hanke, Florian J. Baumgartner, Pierre Ibe, Falko R. Kaule, Stefan Pollmann, Oliver Speck, Wolf Zinke, Jorg Stadler
Abstract:
Here we present a high-resolution functional magnetic resonance (fMRI) dataset - 20 participants recorded at high field strength (7 Tesla) during prolonged stimulation with an auditory feature film ("Forrest Gump"). In addition, a comprehensive set of auxiliary data (T1w, T2w, DTI, susceptibility-weighted image, angiography) as well as measurements to assess technical and physiological noise components have been acquired. An initial analysis confirms that these data can be used to study common and idiosyncratic brain response patterns to complex auditory stimulation. Among the potential uses of this dataset are the study of auditory attention and cognition, language and music perception, and social perception. The auxiliary measurements enable a large variety of additional analysis strategies that relate functional response patterns to structural properties of the brain. Alongside the acquired data, we provide source code and detailed information on all employed procedures - from stimulus creation to data analysis. In order to facilitate replicative and derived works, only free and open-source software was utilized.
Reference:
A high-resolution 7-Tesla fMRI dataset from complex natural stimulation with an audio movie. (Michael Hanke, Florian J. Baumgartner, Pierre Ibe, Falko R. Kaule, Stefan Pollmann, Oliver Speck, Wolf Zinke, Jorg Stadler), In Scientific data, volume 1, 2014.
Bibtex Entry:
@article{hanke_high-resolution_2014,
	title = {A high-resolution 7-{Tesla} {fMRI} dataset from complex natural stimulation with an audio movie.},
	volume = {1},
	issn = {2052-4463 2052-4463},
	doi = {10.1038/sdata.2014.3},
	abstract = {Here we present a high-resolution functional magnetic resonance (fMRI) dataset - 20 participants recorded at high field strength (7 Tesla) during prolonged stimulation with an auditory feature film ("Forrest Gump"). In addition, a comprehensive set of auxiliary data (T1w, T2w, DTI, susceptibility-weighted image, angiography) as well as measurements to assess technical and physiological noise components have been acquired. An initial analysis confirms that these data can be used to study common and idiosyncratic brain response patterns to complex auditory stimulation. Among the potential uses of this dataset are the study of auditory attention and cognition, language and music perception, and social perception. The auxiliary measurements enable a large variety of additional analysis strategies that relate functional response patterns to structural properties of the brain. Alongside the acquired data, we provide source code and detailed information on all employed procedures - from stimulus creation to data analysis. In order to facilitate replicative and derived works, only free and open-source software was utilized.},
	language = {eng},
	journal = {Scientific data},
	author = {Hanke, Michael and Baumgartner, Florian J. and Ibe, Pierre and Kaule, Falko R. and Pollmann, Stefan and Speck, Oliver and Zinke, Wolf and Stadler, Jorg},
	year = {2014},
	pmid = {25977761},
	pmcid = {PMC4322572},
	keywords = {*Auditory Cortex/diagnostic imaging/physiology, *Magnetic Resonance Imaging, Acoustic Stimulation, Auditory Perception, Brain/diagnostic imaging/physiology, Cognition, Humans, Radiography, Social Perception},
	pages = {140003}
}