Age-related changes of the human brain: Insight from double-wave vector imaging

Marco Lawrenz; Jürgen Finsterbusch; Stefanie Brassen

Age-related changes of the human brain: Insight from double-wave vector imaging

Standard

ISMRM 23rd Annual Meeting & Exhibition: Toronto. 2015. p. 0724.

Research output: SCORING: Contribution to book/anthology › Conference contribution - Article for conference › Research › peer-review

Harvard

Lawrenz, M, Finsterbusch, J & Brassen, S 2015, Age-related changes of the human brain: Insight from double-wave vector imaging. in ISMRM 23rd Annual Meeting & Exhibition: Toronto. pp. 0724, ISMRM 23rd Annual Meeting & Exhibition, Toronto, Canada, 01.01.00.

APA

Lawrenz, M., Finsterbusch, J., & Brassen, S. (2015). Age-related changes of the human brain: Insight from double-wave vector imaging. In ISMRM 23rd Annual Meeting & Exhibition: Toronto (pp. 0724)

Vancouver

Lawrenz M, Finsterbusch J , Brassen S. Age-related changes of the human brain: Insight from double-wave vector imaging. In ISMRM 23rd Annual Meeting & Exhibition: Toronto. 2015. p. 0724

Bibtex

@inbook{37e24364bfbd481591ed69d489752935,

title = "Age-related changes of the human brain: Insight from double-wave vector imaging",

abstract = "Double wave-vector (DWV) or d-PFG experiments with two diffusion weighting periods applied successively in a single acquisition offer access to microscopic tissue properties. With a short mixing time τm between the two diffusion weightings, the experiment can be used to determine cell or compartment sizes, for a long τm diffusion anisotropy present on a microscopic scale can be investigated. For instance, even in a white matter (WM) region-of-interest (ROI) that appeared isotropic in a DTI experiment, i.e. has a fractional anisotropy (FA) equal to 0, anisotropic diffusion could be detected demonstrating the additional information that DWV can provide compared to DTI. Recent studies showed that a measure of the microscopic diffusion anisotropy, the MA index, can be determined in the living human brain, and normal values and their variation in a group of young (< 33 y), healthy volunteers have been reported. In this study, DWV and DTI measurements were performed in a group of old (> 60 y), healthy volunteers. Their MA and FA values were determined and compared to those reported for young volunteers in order to investigate age-related changes of the diffusion anisotropy. ",

author = "Marco Lawrenz and J{\"u}rgen Finsterbusch and Stefanie Brassen",

year = "2015",

language = "English",

pages = " 0724",

booktitle = "ISMRM 23rd Annual Meeting & Exhibition",

note = "ISMRM 23rd Annual Meeting & Exhibition ; Conference date: 01-01-1800",

}

RIS

TY - CHAP

T1 - Age-related changes of the human brain: Insight from double-wave vector imaging

AU - Lawrenz, Marco

AU - Finsterbusch, Jürgen

AU - Brassen, Stefanie

PY - 2015

Y1 - 2015

N2 - Double wave-vector (DWV) or d-PFG experiments with two diffusion weighting periods applied successively in a single acquisition offer access to microscopic tissue properties. With a short mixing time τm between the two diffusion weightings, the experiment can be used to determine cell or compartment sizes, for a long τm diffusion anisotropy present on a microscopic scale can be investigated. For instance, even in a white matter (WM) region-of-interest (ROI) that appeared isotropic in a DTI experiment, i.e. has a fractional anisotropy (FA) equal to 0, anisotropic diffusion could be detected demonstrating the additional information that DWV can provide compared to DTI. Recent studies showed that a measure of the microscopic diffusion anisotropy, the MA index, can be determined in the living human brain, and normal values and their variation in a group of young (< 33 y), healthy volunteers have been reported. In this study, DWV and DTI measurements were performed in a group of old (> 60 y), healthy volunteers. Their MA and FA values were determined and compared to those reported for young volunteers in order to investigate age-related changes of the diffusion anisotropy.

AB - Double wave-vector (DWV) or d-PFG experiments with two diffusion weighting periods applied successively in a single acquisition offer access to microscopic tissue properties. With a short mixing time τm between the two diffusion weightings, the experiment can be used to determine cell or compartment sizes, for a long τm diffusion anisotropy present on a microscopic scale can be investigated. For instance, even in a white matter (WM) region-of-interest (ROI) that appeared isotropic in a DTI experiment, i.e. has a fractional anisotropy (FA) equal to 0, anisotropic diffusion could be detected demonstrating the additional information that DWV can provide compared to DTI. Recent studies showed that a measure of the microscopic diffusion anisotropy, the MA index, can be determined in the living human brain, and normal values and their variation in a group of young (< 33 y), healthy volunteers have been reported. In this study, DWV and DTI measurements were performed in a group of old (> 60 y), healthy volunteers. Their MA and FA values were determined and compared to those reported for young volunteers in order to investigate age-related changes of the diffusion anisotropy.

M3 - Conference contribution - Article for conference

SP - 0724

BT - ISMRM 23rd Annual Meeting & Exhibition

T2 - ISMRM 23rd Annual Meeting & Exhibition

Y2 - 1 January 1800

ER -