Jacob Richard E, Chang Yulin V, Choong Cliff K, Bierhals Andy, Zheng Hu Ding, Zheng Jie, Yablonskiy Dmitriy A, Woods Jason C, Gierada David S, Conradi Mark S
Department of Physics, Washington University in St. Louis, St. Louis, MO 63130-4899, USA.
Magn Reson Med. 2005 Sep;54(3):577-85. doi: 10.1002/mrm.20632.
Perfluorinated gases, particularly C2F6, are potentially suitable alternatives to hyperpolarized noble gases for pulmonary airspace spin density and diffusion MRI. This work focuses mainly on 19F imaging of C2F6 gas in healthy and emphysematous explanted lungs, avoiding regulatory issues of human in vivo measurements. Three-dimensional gradient echo and spin echo spin density images of human lungs can be made in 10 s with adequate signal-to-noise, demonstrating the feasibility for breathing dynamics to be captured during a succession of short breath holds. As expected, the spin echo images have much smaller susceptibility artifacts than the gradient echo images. 19F and 3He images of the same lungs are compared. The apparent diffusion coefficient (ADC) of C2F6 is sensitive to restrictions imposed by the lung microstructure: the average ADC is measured to be 0.018 cm2/s in healthy lungs versus 0.031 cm2/s in emphysematous lungs at a diffusion time Delta=2.2 ms. The low free diffusivity of pure C2F6 (D0=0.033 cm2/s) places it in a regime where the ADC measurement allows the surface-to-volume ratio to be determined in each voxel, a potentially valuable quantitative characterization of regional lung tissue destruction in emphysema.
全氟化气体,尤其是C2F6,对于肺部气腔自旋密度和扩散磁共振成像而言,有可能是超极化惰性气体的合适替代物。这项工作主要聚焦于对健康和肺气肿离体肺中C2F6气体的19F成像,避免了人体活体测量中的监管问题。利用充足的信噪比,可在10秒内获取人肺的三维梯度回波和自旋回波自旋密度图像,这证明了在一系列短时间屏气过程中捕捉呼吸动态的可行性。正如预期的那样,自旋回波图像的磁化率伪影比梯度回波图像小得多。对同一肺部的19F和3He图像进行了比较。C2F6的表观扩散系数(ADC)对肺部微观结构所施加的限制很敏感:在扩散时间Δ = 2.2毫秒时,健康肺中的平均ADC测得为0.018平方厘米/秒,而肺气肿肺中的平均ADC为0.031平方厘米/秒。纯C2F6的低自由扩散率(D0 = 0.033平方厘米/秒)使其处于一种状态,即ADC测量能够确定每个体素中的表面积与体积比,这是对肺气肿中局部肺组织破坏的一种潜在有价值的定量表征。
