Title :
SQUID-Based Microtesla MRI for In Vivo Relaxometry of the Human Brain
Author :
Zotev, Vadim S. ; Matlashov, Andrei N. ; Savukov, Igor M. ; Owens, Tuba ; Volegov, Petr L. ; Gomez, John J. ; Espy, Michelle A.
Author_Institution :
Appl. Modern Phys. Group, Los Alamos Nat. Lab., Los Alamos, NM, USA
fDate :
6/1/2009 12:00:00 AM
Abstract :
SQUID-based MRI (magnetic resonance imaging) at microtesla fields has developed significantly over the past few years. Here we describe application of this method for magnetic relaxation measurements in the living human brain. We report values of the longitudinal relaxation time T1 for brain tissues, measured in vivo for the first time at microtesla fields. The experiments were performed at 46 muT field using a seven-channel SQUID system designed for microtesla MRI and MEG. Values of T1, measured for different tissues at this field, are found to be close (within 5%) to the corresponding values of the transverse relaxation time T2 at the same field. Implications of this result for imaging contrast in microtesla MRI are discussed.
Keywords :
SQUIDs; biological tissues; biomedical MRI; biomedical measurement; brain; magnetic relaxation; magnetoencephalography; neurophysiology; SQUID-based microtesla MRI; brain tissue; human brain in vivo relaxometry; longitudinal relaxation time; magnetic flux density 46 muT; magnetic relaxation measurement; magnetoencephalography; microtesla MEG; seven-channel SQUID system design; transverse relaxation time; Brain; SQUID; low-field MRI; relaxation;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2009.2018764
