Inflow versus deoxyhemoglobin effects in bold functional MRI using gradient echoes at 1.5 T

Modified gradient‐echo MR techniques were applied to study the effects of inflow on functional brain imaging studies using visual and motor cortex stimulation. The results demonstrate that the large signal changes, seen in previously reported gradient‐echo studies at 1.5–2.0 T, are dominated by dire...

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Veröffentlicht in:	NMR in biomedicine 1994-03, Vol.7 (1-2), p.83-88
Hauptverfasser:	Duyn, Jeff H., Moonen, Chrit T. W., van Yperen, Gert H., de Boer, Ruud W., Luyten, Peter R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Angiography - methods Hemoglobins - analysis Humans Image Enhancement - methods Magnetic Resonance Imaging - methods Motor Cortex - anatomy & histology Motor Cortex - blood supply Motor Cortex - physiology Oxygen - blood Visual Cortex - anatomy & histology Visual Cortex - blood supply Visual Cortex - physiology
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container_title	NMR in biomedicine
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creator	Duyn, Jeff H. Moonen, Chrit T. W. van Yperen, Gert H. de Boer, Ruud W. Luyten, Peter R.
description	Modified gradient‐echo MR techniques were applied to study the effects of inflow on functional brain imaging studies using visual and motor cortex stimulation. The results demonstrate that the large signal changes, seen in previously reported gradient‐echo studies at 1.5–2.0 T, are dominated by direct inflow effects, in particular when using a large flip angle and a thin slice. The findings suggest that inflow‐based functional imaging, along with Blood Oxygenation Level Dependent (BOLD) functional MRI, may play an important role in future research towards the functional organization of the human brain.
doi_str_mv	10.1002/nbm.1940070113
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subjects	Angiography - methods Hemoglobins - analysis Humans Image Enhancement - methods Magnetic Resonance Imaging - methods Motor Cortex - anatomy & histology Motor Cortex - blood supply Motor Cortex - physiology Oxygen - blood Visual Cortex - anatomy & histology Visual Cortex - blood supply Visual Cortex - physiology
title	Inflow versus deoxyhemoglobin effects in bold functional MRI using gradient echoes at 1.5 T
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