Sharief Anjum Ali, Johnson G Allan
Center for In Vivo Microscopy, Duke University Medical Center, Durham, North Carolina 27710, USA.
Magn Reson Med. 2006 Oct;56(4):717-25. doi: 10.1002/mrm.21026.
A 3D Carr-Purcell-Meiboom-Gill (CPMG) sequence was implemented to obtain enhanced T(2) contrast in actively stained (perfusion with fixative and contrast agent) mouse brains at 9.4 T. Short interecho spacing was used to minimize diffusion and susceptibility losses. The sequence produced 16 3D volumes with an interecho spacing of 7 ms for isotropic 43-mu-resolution images of the mouse brains in a scan time of 4 hr. To enhance the signal-to-noise ratio (SNR) and contrast, the multiecho frequency domain image contrast (MEFIC) method was applied, resulting in a composite image with T(2)-weighted contrast. The high SNR and contrast thus achieved revealed aspects of mouse brain morphology, such as multiple cortical layers, groups of thalamic nuclei, layers of the inferior and superior colliculus, and molecular and granular layers of the cerebellum, with a high degree of definition and contrast that was not previously achieved in T(2)-weighted acquisitions at high fields.
采用三维 Carr-Purcell-Meiboom-Gill(CPMG)序列,在 9.4 T 磁场下对经活性染色(灌注固定剂和造影剂)的小鼠大脑获取增强的 T(2) 对比度。采用短回波间隔以尽量减少扩散和磁化率损失。该序列在 4 小时的扫描时间内生成了 16 个三维容积,回波间隔为 7 ms,用于小鼠大脑各向同性 43-μm 分辨率图像。为提高信噪比(SNR)和对比度,应用了多回波频域图像对比度(MEFIC)方法,得到具有 T(2) 加权对比度的合成图像。由此获得的高 SNR 和对比度清晰显示了小鼠脑形态的各个方面,如多个皮质层、丘脑核团、上丘和下丘层以及小脑的分子层和颗粒层,其清晰度和对比度在高场 T(2) 加权采集中前所未及。