CORRELATION OF MAGNETIZATION-TRANSFER RATIO WITH CLINICAL DISABILITY IN MULTIPLE-SCLEROSIS

被引:339
作者
GASS, A [1 ]
BARKER, GJ [1 ]
KIDD, D [1 ]
THORPE, JW [1 ]
MACMANUS, D [1 ]
BRENNAN, A [1 ]
TOFTS, PS [1 ]
THOMPSON, AJ [1 ]
MCDONALD, WI [1 ]
MILLER, DH [1 ]
机构
[1] UCL INST NEUROL, NATL HOSP, NMR RES GRP, LONDON WC1N 3BG, ENGLAND
关键词
D O I
10.1002/ana.410360113
中图分类号
R74 [神经病学与精神病学];
学科分类号
摘要
We performed spin echo magnetic resonance imaging with and without application of an off-resonance saturation pulse in 43 patients with multiple sclerosis (MS), 10 age-matched controls, and 4 elderly asymptomatic patients with the radiological diagnosis of small-vessel disease. Magnetization transfer (MT) ratio images were obtained from these. All MS subgroups (primary progressive, secondary progressive, benign, early relapsing-remitting) showed significantly lower average lesion MT ratios than small-vessel disease patients. Secondary progressive MS patients showed significantly lower lesion MT ratios than those with benign disease, and there was an inverse correlation of disability with average lesion MT ratio. The degree of reduction of MT ratios is an indicator of the extent of tissue destruction. Thus, reduced MT ratios in MS may provide an indication of the degree of demyelination and axonal loss, both of which are likely to cause functional deficits in MS. We conclude that MT measurement is (1) a robust quantitative method that may increase the pathological specificity of magnetic resonance imaging, (2) has the potential to differentiate demyelination in MS from less destructive pathological changes, and (3) may be useful in monitoring modifications in tissue structure brought about by treatment.
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页码:62 / 67
页数:6
相关论文
共 31 条
[1]  
ADANS CWM, 1989, MULTIPLE SCLEROSIS O, P130
[2]  
Allen IV., 1984, GREENFIELDS NEUROPAT, P338
[3]   INCIDENTAL SUBCORTICAL LESIONS IDENTIFIED ON MAGNETIC-RESONANCE-IMAGING IN THE ELDERLY .2. POSTMORTEM PATHOLOGICAL CORRELATIONS [J].
AWAD, IA ;
JOHNSON, PC ;
SPETZLER, RF ;
HODAK, JA .
STROKE, 1986, 17 (06) :1090-1097
[4]  
BALABAN R S, 1992, Magnetic Resonance Quarterly, V8, P116
[5]  
BLACK JA, 1991, BRAIN RES, V87, P6777
[6]   INTERNODAL AXON MEMBRANE - ELECTRICAL EXCITABILITY AND CONTINUOUS CONDUCTION IN SEGMENTAL DEMYELINATION [J].
BOSTOCK, H ;
SEARS, TA .
JOURNAL OF PHYSIOLOGY-LONDON, 1978, 280 (JUL) :273-301
[7]   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
[8]   SERIAL PROTON MAGNETIC-RESONANCE SPECTROSCOPY IN ACUTE MULTIPLE-SCLEROSIS LESIONS [J].
DAVIE, CA ;
HAWKINS, CP ;
BARKER, GJ ;
BRENNAN, A ;
TOFTS, PS ;
MILLER, DH ;
MCDONALD, WI .
BRAIN, 1994, 117 :49-58
[9]   EXPERIMENTAL ALLERGIC ENCEPHALOMYELITIS AND MULTIPLE-SCLEROSIS - LESION CHARACTERIZATION WITH MAGNETIZATION TRANSFER IMAGING [J].
DOUSSET, V ;
GROSSMAN, RI ;
RAMER, KN ;
SCHNALL, MD ;
YOUNG, LH ;
GONZALEZSCARANO, F ;
LAVI, E ;
COHEN, JA .
RADIOLOGY, 1992, 182 (02) :483-491
[10]   CROSS RELAXATION AND SPIN DIFFUSION IN PROTON NMR OF HYDRATED COLLAGEN [J].
EDZES, HT ;
SAMULSKI, ET .
NATURE, 1977, 265 (5594) :521-523