Thayer School of Engineering, Dartmouth College, Hanover, NH 03755, USA.
J Biomech. 2010 Oct 19;43(14):2747-52. doi: 10.1016/j.jbiomech.2010.06.008. Epub 2010 Jul 23.
Imaging of the mechanical properties of in vivo brain tissue could eventually lead to non-invasive diagnosis of hydrocephalus, Alzheimer's disease and other pathologies known to alter the intracranial environment. The purpose of this work is to (1) use time-harmonic magnetic resonance elastography (MRE) to estimate the mechanical property distribution of cerebral tissue in the normal feline brain and (2) compare the recovered properties of grey and white matter. Various in vivo and ex vivo brain tissue property measurement strategies have led to the highly variable results that have been reported in the literature. MR elastography is an imaging technique that can estimate mechanical properties of tissue non-invasively and in vivo. Data was acquired in 14 felines and elastic parameters were estimated using a globo-regional nonlinear image reconstruction algorithm. Results fell within the range of values reported in the literature and showed a mean shear modulus across the subject group of 7-8 kPa with all but one animal falling within 5-15 kPa. White matter was statistically stiffer (p<0.01) than grey matter by about 1 kPa on a per subject basis. To the best of our knowledge, the results reported represent the most extensive set of estimates in the in vivo brain which have been based on MRE acquisition of the three-dimensional displacement field coupled to volumetric shear modulus image reconstruction achieved through nonlinear parameter estimation. However, the inter-subject variation in mean shear modulus indicates the need for further study, including the possibility of applying more advanced models to estimate the relevant tissue mechanical properties from the data.
对活体脑组织力学特性的成像最终可能导致对脑积水、阿尔茨海默病和其他已知改变颅内环境的病变的非侵入性诊断。这项工作的目的是:(1) 使用时谐磁共振弹性成像 (MRE) 来估计正常猫脑内脑组织的力学特性分布;(2) 比较灰质和白质的恢复特性。各种活体和离体脑组织特性测量策略导致了文献中报道的高度可变的结果。磁共振弹性成像是一种可以非侵入性和活体估计组织力学特性的成像技术。在 14 只猫中采集数据,并使用全局区域非线性图像重建算法估计弹性参数。结果落在文献报道的范围内,在所研究的组中,平均剪切模量为 7-8kPa,除了一个动物之外,所有动物都在 5-15kPa 范围内。基于每个受试者的基础,白质的硬度比灰质统计上硬 (p<0.01) 约 1kPa。据我们所知,报告的结果代表了基于三维位移场的 MRE 采集以及通过非线性参数估计实现的体积剪切模量图像重建的活体脑内最广泛的估计集。然而,平均剪切模量的受试者间变异性表明需要进一步研究,包括可能应用更先进的模型从数据中估计相关的组织力学特性。