Implementation of Quantitative Perfusion Imaging Techniques for Functional Brain Mapping Using Pulsed Arterial Spin Labeling

Overview

Journal NMR Biomed

Publisher Wiley

Date 1997 Jun 1

PMID 9430354

Citations 212

Authors

E C Wong

R B Buxton

L R Frank

Affiliations

Soon will be listed here.

Abstract

We describe here experimental considerations in the implementation of quantitative perfusion imaging techniques for functional MRI using pulsed arterial spin labeling. Three tagging techniques: EPISTAR, PICORE, and FAIR are found to give very similar perfusion results despite large differences in static tissue contrast. Two major sources of systematic error in the perfusion measurement are identified: the transit delay from the tagging region to the imaging slice; and the inclusion of intravascular tagged signal. A modified technique called QUIPSS II is described that decreases sensitivity to these effects by explicitly controlling the time width of the tag bolus and imaging after the bolus is entirely deposited into the slice. With appropriate saturation pulses the pulse sequence can be arranged so as to allow for simultaneous collection of perfusion and BOLD data that can be cleanly separated. Such perfusion and BOLD signals reveal differences in spatial location and dynamics that may be useful both for functional brain mapping and for study of the BOLD contrast mechanism. The implementation of multislice perfusion imaging introduces additional complications, primarily in the elimination of signal from static tissue. In pulsed ASL, this appears to be related to the slice profile of the inversion tag pulse in the presence of relaxation, rather than magnetization transfer effects as in continuous arterial spin labeling, and can be alleviated with careful adjustment of inversion pulse parameters.

Citing Articles

Method for detection of cerebral blood flow in neurointensive care using longitudinal arterial spin labeling MRI.

Tapper S, Tisell A, Hillman J, Wardell K PLoS One. 2024; 19(11):e0314056.

PMID: 39561199 PMC: 11575771. DOI: 10.1371/journal.pone.0314056.

Quantitative non-contrast perfusion MRI in the body using arterial spin labeling.

Alvarez M, Madhuranthakam A, Udayakumar D MAGMA. 2024; 37(4):681-695.

PMID: 39105949 DOI: 10.1007/s10334-024-01188-1.

The effect of post-labeling delay on cerebral blood flow is influenced by age and sex: a study based on arterial spin-labeling magnetic resonance imaging.

Hu Y, Zhang K, Liu R Quant Imaging Med Surg. 2024; 14(7):4388-4402.

PMID: 39022245 PMC: 11250344. DOI: 10.21037/qims-23-1622.

Recommendations for quantitative cerebral perfusion MRI using multi-timepoint arterial spin labeling: Acquisition, quantification, and clinical applications.

Woods J, Achten E, Asllani I, Bolar D, Dai W, Detre J Magn Reson Med. 2024; 92(2):469-495.

PMID: 38594906 PMC: 11142882. DOI: 10.1002/mrm.30091.

Feasibility of high-resolution perfusion imaging using arterial spin labeling MRI at 3 Tesla.

Kashyap S, Oliveira I, Uludag K Front Physiol. 2024; 14:1271254.

PMID: 38235379 PMC: 10791866. DOI: 10.3389/fphys.2023.1271254.