Development of BOLD signal hemodynamic responses in the human brain

Tomoki Arichi; Gianlorenzo Fagiolo; Marta Varela; Alejandro Melendez-Calderon; Alessandro Allievi; Nazakat Merchant; Nora Tusor; Serena J Counsell; Etienne Burdet; Christian F Beckmann; A David Edwards

doi:10.1016/j.neuroimage.2012.06.054

Development of BOLD signal hemodynamic responses in the human brain

Tomoki Arichi, Gianlorenzo Fagiolo, Marta Varela, Alejandro Melendez-Calderon, Alessandro Allievi, Nazakat Merchant, Nora Tusor, Serena J Counsell, Etienne Burdet, Christian F Beckmann, A David Edwards

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Abstract

In the rodent brain the hemodynamic response to a brief external stimulus changes significantly during development. Analogous changes in human infants would complicate the determination and use of the hemodynamic response function (HRF) for functional magnetic resonance imaging (fMRI) in developing populations. We aimed to characterize HRF in human infants before and after the normal time of birth using rapid sampling of the Blood Oxygen Level Dependent (BOLD) signal. A somatosensory stimulus and an event related experimental design were used to collect data from 10 healthy adults, 15 sedated infants at term corrected post menstrual age (PMA) (median 41 + 1 weeks), and 10 preterm infants (median PMA 34 + 4 weeks). A positive amplitude HRF waveform was identified across all subject groups, with a systematic maturational trend in terms of decreasing time-to-peak and increasing positive peak amplitude associated with increasing age. Application of the age-appropriate HRF models to fMRI data significantly improved the precision of the fMRI analysis. These findings support the notion of a structured development in the brain's response to stimuli across the last trimester of gestation and beyond.

Original language	English
Article number	N/A
Pages (from-to)	663-673
Number of pages	11
Journal	NeuroImage
Volume	63
Issue number	2
DOIs	https://doi.org/10.1016/j.neuroimage.2012.06.054
Publication status	Published - 1 Nov 2012

Keywords

Magnetic Resonance Imaging
Young Adult
Image Interpretation, Computer-Assisted
Humans
Brain
Infant, Newborn
Hemodynamics
Infant, Premature
Infant
Oxygen
Adult
Middle Aged
Female
Male

UN SDGs

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10.1016/j.neuroimage.2012.06.054

TArichi HRFinNeonates 2012Final published version, 1.12 MB

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title = "Development of BOLD signal hemodynamic responses in the human brain",

abstract = "In the rodent brain the hemodynamic response to a brief external stimulus changes significantly during development. Analogous changes in human infants would complicate the determination and use of the hemodynamic response function (HRF) for functional magnetic resonance imaging (fMRI) in developing populations. We aimed to characterize HRF in human infants before and after the normal time of birth using rapid sampling of the Blood Oxygen Level Dependent (BOLD) signal. A somatosensory stimulus and an event related experimental design were used to collect data from 10 healthy adults, 15 sedated infants at term corrected post menstrual age (PMA) (median 41 + 1 weeks), and 10 preterm infants (median PMA 34 + 4 weeks). A positive amplitude HRF waveform was identified across all subject groups, with a systematic maturational trend in terms of decreasing time-to-peak and increasing positive peak amplitude associated with increasing age. Application of the age-appropriate HRF models to fMRI data significantly improved the precision of the fMRI analysis. These findings support the notion of a structured development in the brain's response to stimuli across the last trimester of gestation and beyond.",

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AU - Fagiolo, Gianlorenzo

AU - Varela, Marta

AU - Melendez-Calderon, Alejandro

AU - Allievi, Alessandro

AU - Merchant, Nazakat

AU - Tusor, Nora

AU - Counsell, Serena J

AU - Burdet, Etienne

AU - Beckmann, Christian F

AU - Edwards, A David

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N2 - In the rodent brain the hemodynamic response to a brief external stimulus changes significantly during development. Analogous changes in human infants would complicate the determination and use of the hemodynamic response function (HRF) for functional magnetic resonance imaging (fMRI) in developing populations. We aimed to characterize HRF in human infants before and after the normal time of birth using rapid sampling of the Blood Oxygen Level Dependent (BOLD) signal. A somatosensory stimulus and an event related experimental design were used to collect data from 10 healthy adults, 15 sedated infants at term corrected post menstrual age (PMA) (median 41 + 1 weeks), and 10 preterm infants (median PMA 34 + 4 weeks). A positive amplitude HRF waveform was identified across all subject groups, with a systematic maturational trend in terms of decreasing time-to-peak and increasing positive peak amplitude associated with increasing age. Application of the age-appropriate HRF models to fMRI data significantly improved the precision of the fMRI analysis. These findings support the notion of a structured development in the brain's response to stimuli across the last trimester of gestation and beyond.

AB - In the rodent brain the hemodynamic response to a brief external stimulus changes significantly during development. Analogous changes in human infants would complicate the determination and use of the hemodynamic response function (HRF) for functional magnetic resonance imaging (fMRI) in developing populations. We aimed to characterize HRF in human infants before and after the normal time of birth using rapid sampling of the Blood Oxygen Level Dependent (BOLD) signal. A somatosensory stimulus and an event related experimental design were used to collect data from 10 healthy adults, 15 sedated infants at term corrected post menstrual age (PMA) (median 41 + 1 weeks), and 10 preterm infants (median PMA 34 + 4 weeks). A positive amplitude HRF waveform was identified across all subject groups, with a systematic maturational trend in terms of decreasing time-to-peak and increasing positive peak amplitude associated with increasing age. Application of the age-appropriate HRF models to fMRI data significantly improved the precision of the fMRI analysis. These findings support the notion of a structured development in the brain's response to stimuli across the last trimester of gestation and beyond.

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KW - Image Interpretation, Computer-Assisted

KW - Humans

KW - Brain

KW - Infant, Newborn

KW - Hemodynamics

KW - Infant, Premature

KW - Infant

KW - Oxygen

KW - Adult

KW - Middle Aged

KW - Female

KW - Male

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JO - NeuroImage

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Development of BOLD signal hemodynamic responses in the human brain

Abstract

Keywords

UN SDGs

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