Spatially Resolved Measurements of Hyperpolarized Gas Properties in the Lung in Vivo. Part II: T *(2)

Overview

Journal Magn Reson Med

Publisher Wiley

Specialty Radiology

Date 1999 Sep 30

PMID 10502762

Citations 14

Authors

X J Chen

H E Moller

M S Chawla

G P Cofer

B Driehuys

L W Hedlund

J R MacFall

G A Johnson

Affiliations

Soon will be listed here.

Abstract

The transverse relaxation time, T *(2), of hyperpolarized (HP) gas in the lung in vivo is an important parameter for pulse sequence optimization and image contrast. We obtained T *(2) maps of HP (3)He and (129)Xe in guinea pig lungs (n = 17) and in human lungs. Eight different sets of (3)He guinea pig studies were acquired, with variation of slice selection, tidal volume, and oxygen level. For example, for a (3)He tidal volume of 3 cm(3) and no slice selection, the average T *(2) in the trachea was 14.7 ms and 8.0 ms in the intrapulmonary airspaces. The equivalent (129)Xe experiment yielded an average T *(2) of 40.8 ms in the trachea and 18.5 ms in the intrapulmonary airspaces. The average (3)He T *(2) in the human intrapulmonary airspaces was 9.4 ms. The relaxation behavior was predicted by treating the lung as a porous medium, resulting in good agreement between estimated and measured T *(2) values in the intrapulmonary airspaces. Magn Reson Med 42:729-737, 1999.

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