Hetherington H P, Avison M J, Shulman R G
Proc Natl Acad Sci U S A. 1985 May;82(10):3115-8. doi: 10.1073/pnas.82.10.3115.
We have used a semiselective Hahn spin-echo sequence of the form (1331)-tau-(2662)-tau-AQ, delivered by a surface coil to obtain high-resolution 1H NMR spectra from the brains of intact dead rats. This sequence gave suppression of the tissue water resonance by a factor of 80,000 when tau = 68 ms. Delivery of a frequency-selective Dante pulse train to the alpha-CH resonance of lactate at 4.11 ppm, simultaneously with the 2662 refocusing pulse, altered the j-modulation in the spin-coupled beta-CH3 protons. Subtraction of this spectrum from one in which the Dante was ineffective gave an edited spectrum containing only the beta-CH3 resonance of lactate at 1.31 ppm. When the position of the Dante was shifted to 3.78 ppm to selectively invert the alpha-CH protons of alanine, an edited spectrum of alanine was obtained.
我们使用了一种由表面线圈发出的(1331)-τ-(2662)-τ-AQ形式的半选择性哈恩自旋回波序列,从完整的死鼠大脑中获取高分辨率的1H NMR谱。当τ = 68 ms时,该序列将组织水共振抑制了80,000倍。在2662重聚焦脉冲的同时,向4.11 ppm处乳酸的α-CH共振发送频率选择性但丁脉冲串,改变了自旋耦合的β-CH3质子中的j调制。从但丁无效的谱中减去该谱,得到仅包含1.31 ppm处乳酸β-CH3共振的编辑谱。当但丁的位置移至3.78 ppm以选择性地反转丙氨酸的α-CH质子时,获得了丙氨酸的编辑谱。