MAGNETIZATION-TRANSFER AND T-2 RELAXATION COMPONENTS IN TISSUE

被引:132
作者
HARRISON, R
BRONSKILL, MJ
HENKELMAN, RM
机构
[1] SUNNYBROOK HLTH SCI CTR,TORONTO,ON M4N 3M5,CANADA
[2] UNIV TORONTO,DEPT MED BIOPHYS,TORONTO,ON,CANADA
[3] UNIV TORONTO,DEPT MED IMAGING,TORONTO,ON,CANADA
关键词
MULTICOMPONENT T-2 RELAXATION; MAGNETIZATION TRANSFER; MUSCLE; WHITE MATTER;
D O I
10.1002/mrm.1910330406
中图分类号
R8 [特种医学]; R445 [影像诊断学];
学科分类号
1002 ; 100207 ; 1009 ;
摘要
T-2 relaxation makes an important contribution to tissue contrast in magnetic resonance (MR) imaging. Many tissues are known to exhibit multicomponent T-2 relaxation that suggests some compartmental segregation of mobile protons on a T-2 timescale. Magnetization transfer (MT) is another relaxation mechanism that can be used to produce tissue contrast in MR imaging. The MT process depends strongly on water-macromolecular interactions. To investigate the relationship between multicomponent T-2 relaxation and the MT process, multiecho T-2 measurements have been combined with MT measurements for freshly excised samples of cardiac muscle, striated muscle, and white matter. For muscle, short T-2 components show greater MT than long T-2 components, consistent with the belief that they represent distinct water environments. For white matter, quantitative MT measurements were identical for the two major T-2 components, apparently because of exchange between the T-2 compartments on a timescale characteristic of the MT experiment. Implications for accurate modeling of MT in tissue and the use of MT for MR image contrast are discussed.
引用
收藏
页码:490 / 496
页数:7
相关论文
共 35 条
[1]   INVIVO DETERMINATION OF MULTIEXPONENTIAL T2 RELAXATION IN THE BRAIN OF PATIENTS WITH MULTIPLE-SCLEROSIS [J].
ARMSPACH, JP ;
GOUNOT, D ;
RUMBACH, L ;
CHAMBRON, J .
MAGNETIC RESONANCE IMAGING, 1991, 9 (01) :107-113
[2]   DYNAMIC AND CHEMICAL FACTORS AFFECTING WATER PROTON RELAXATION BY MACROMOLECULES [J].
CECKLER, TL ;
WOLFF, SD ;
YIP, V ;
SIMON, SA ;
BALABAN, RS .
JOURNAL OF MAGNETIC RESONANCE, 1992, 98 (03) :637-645
[3]   THE ORIGIN OF BIEXPONENTIAL T2 RELAXATION IN MUSCLE WATER [J].
COLE, WC ;
LEBLANC, AD ;
JHINGRAN, SG .
MAGNETIC RESONANCE IN MEDICINE, 1993, 29 (01) :19-24
[4]  
EDZES HT, 1978, J MAGN RESON, V31, P207, DOI 10.1016/0022-2364(78)90185-3
[5]   QUANTITATIVE H-1 MAGNETIZATION TRANSFER IMAGING INVIVO [J].
ENG, J ;
CECKLER, TL ;
BALABAN, RS .
MAGNETIC RESONANCE IN MEDICINE, 1991, 17 (02) :304-314
[6]   QUANTITATIVE 2-DIMENSIONAL TIME CORRELATION RELAXOMETRY [J].
ENGLISH, AE ;
WHITTALL, KP ;
JOY, MLG ;
HENKELMAN, RM .
MAGNETIC RESONANCE IN MEDICINE, 1991, 22 (02) :425-434
[7]  
ENGLISH AE, 1989, THESIS U TORONTO
[8]   STUDY OF MODERATELY RAPID CHEMICAL EXCHANGE REACTIONS BY MEANS OF NUCLEAR MAGNETIC DOUBLE RESONANCE [J].
FORSEN, S ;
HOFFMAN, RA .
JOURNAL OF CHEMICAL PHYSICS, 1963, 39 (11) :2892-&
[9]  
GRAD J, 1900, J MAGN RESON, V90, P1
[10]   NUCLEAR MAGNETIC-RESONANCE TRANSVERSE RELAXATION-TIMES OF WATER PROTONS IN SKELETAL-MUSCLE [J].
HAZLEWOOD, CF ;
CHANG, DC ;
NICHOLS, BL ;
WOESSNER, DE .
BIOPHYSICAL JOURNAL, 1974, 14 (08) :583-606