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Titolo:
Concurrent optical imaging spectroscopy and laser-Doppler Flowmetry: The relationship between blood flow, oxygenation, and volume in rodent barrel cortex
Autore:
Jones, M; Berwick, J; Johnston, D; Mayhew, J;
Indirizzi:
Univ Sheffield, Artificial Intelligence Vis Res Unit, Sheffield S10 2TP, SYorkshire, England Univ Sheffield Sheffield S Yorkshire England S10 2TP SYorkshire, England Univ Sheffield, Dept Psychol, Sheffield S10 2TP, S Yorkshire, England UnivSheffield Sheffield S Yorkshire England S10 2TP S Yorkshire, England
Titolo Testata:
NEUROIMAGE
fascicolo: 6, volume: 13, anno: 2001,
parte:, 1
pagine: 1002 - 1015
SICI:
1053-8119(200106)13:6<1002:COISAL>2.0.ZU;2-V
Fonte:
ISI
Lingua:
ENG
Soggetto:
RAT FOREPAW STIMULATION; OXIDATIVE-METABOLISM; SENSORY STIMULATION; NEURAL ACTIVITY; SOMATOSENSORY STIMULATION; FUNCTIONAL MRI; BRAIN; CONSUMPTION; MODEL; ACTIVATION;
Tipo documento:
Article
Natura:
Periodico
Settore Disciplinare:
Life Sciences
Citazioni:
38
Recensione:
Indirizzi per estratti:
Indirizzo: Jones, M Univ Sheffield, Artificial Intelligence Vis Res Unit, Sheffield S10 2TP, SYorkshire, England Univ Sheffield Sheffield S Yorkshire England S10 2TP re, England
Citazione:
M. Jones et al., "Concurrent optical imaging spectroscopy and laser-Doppler Flowmetry: The relationship between blood flow, oxygenation, and volume in rodent barrel cortex", NEUROIMAGE, 13(6), 2001, pp. 1002-1015

Abstract

Functional magnetic resonance imaging (fMRI) is based on the coupling between neural activity and changes in the concentration of the endogenous paramagnetic contrast agent deoxygenated hemoglobin. Changes in the blood oxygen level-dependent (BOLD) signal result from a complex interplay of blood volume, flow, and oxygen consumption Optical imaging spectroscopy (OIS) has been used to measure changes in blood volume and saturation in response to increased neural activity, while laser Doppler Flowmetry (LDF) can be used to measure flow changes and is now commonplace in neurovascular research. Here, we use concurrent OIS and LDF to examine the hemodynamic response in rodent barrel cortex using electrical stimulation of the whisker pad at varying intensities. Spectroscopic analysis showed that stimulation produced a biphasic early increase in deoxygenated hemoglobin (Hbr), followed by a decrease below baseline, reaching minima at similar to3.7 s. There was no evidence for a corresponding early decrease in oxygenated hemoglobin (HbO(2)), which simply increased after stimulation, reaching maximum at similar to3.2 s. The time courses of changes in blood volume (CBV) and blood flow (CBF) were similar. Both increased within a second of stimulation onset and peakedat similar to2.7 s, after which CBV returned to baseline at a slower rate than CBF, The changes in Hbr, Hbt, and CBF were used to estimate changes inoxygen consumption (CIMRO2), which increased within a second of stimulation and peaked similar to2.2 s after stimulus onset. Analysis of the relativemagnitudes of CBV and CBF indicates that the fractional changes of CBV could be simply scaled to match those of CBF, We found the relationship to be well approximated by CBV = CBF0.29. A similar relationship was found using the response to elevated fraction of inspired carbon dioxide (FICO2). (C) 2001 Academic Press.

ASDD Area Sistemi Dipartimentali e Documentali, Università di Bologna, Catalogo delle riviste ed altri periodici
Documento generato il 18/01/20 alle ore 07:46:16