Witschey Walter R T, Borthakur Arijitt, Elliott Mark A, Mellon Eric, Niyogi Sampreet, Wallman Daniel J, Wang Chenyang, Reddy Ravinder
Graduate Group in Biochemistry and Molecular Biophysics and MMRRCC, University of Pennsylvania, B1 Stellar-Chance Laboratories, 422 Curie Boulevard, Philadelphia, PA 19104-6100, USA.
J Magn Reson. 2007 May;186(1):75-85. doi: 10.1016/j.jmr.2007.01.015. Epub 2007 Jan 26.
The origin of spin locking image artifacts in the presence of B(0) and B(1) magnetic field imperfections is shown theoretically using the Bloch equations and experimentally at low (omega(1) << Delta omega(0)), intermediate (omega(1) approximately Delta omega(0)) and high (omega(1) >> Delta omega(0)) spin locking field strengths. At low spin locking fields, the magnetization is shown to oscillate about an effective field in the rotating frame causing signature banding artifacts in the image. At high spin lock fields, the effect of the resonance offset Deltao mega(0) is quenched, but imperfections in the flip angle cause oscillations about the omega(1) field. A new pulse sequence is presented that consists of an integrated spin echo and spin lock experiment followed by magnetization storage along the -z-axis. It is shown that this sequence almost entirely eliminates banding artifacts from both types of field inhomogeneities at all spin locking field strengths. The sequence was used to obtain artifact free images of agarose in inhomogeneous B(0) and B(1) fields, off-resonance spins in fat and in vivo human brain images at 3 T. The new pulse sequence can be used to probe very low frequency (0-400 Hz) dynamic and static interactions in tissues without contaminating B(0) and B(1) field artifacts.
利用布洛赫方程从理论上说明了在存在B(0)和B(1)磁场缺陷的情况下自旋锁定图像伪影的起源,并在低(ω(1) << Δω(0))、中(ω(1) ≈ Δω(0))和高(ω(1) >> Δω(0))自旋锁定场强下进行了实验验证。在低自旋锁定场中,磁化强度在旋转坐标系中围绕一个有效场振荡,从而在图像中产生特征性的带状伪影。在高自旋锁定场中,共振偏移量Δω(0)的影响被消除,但翻转角的缺陷会导致围绕ω(1)场的振荡。本文提出了一种新的脉冲序列,它由一个集成的自旋回波和自旋锁定实验组成,随后是沿 -z 轴的磁化存储。结果表明,该序列在所有自旋锁定场强下几乎完全消除了两种类型场不均匀性产生的带状伪影。该序列用于在不均匀的B(0)和B(1)场中获取琼脂糖的无伪影图像、脂肪中失谐自旋的图像以及3T场强下的活体人脑图像。这种新的脉冲序列可用于探测组织中非常低频(0 - 400Hz)的动态和静态相互作用,而不会受到B(0)和B(1)场伪影的干扰。