Badea A, Johnson G A, Williams R W
Center for In Vivo Microscopy, Box 3302 Duke University Medical Center, Durham, NC 27710, USA.
Neuroimage. 2009 May 1;45(4):1067-79. doi: 10.1016/j.neuroimage.2009.01.021. Epub 2009 Jan 24.
Magnetic resonance (MR) imaging has demonstrated that variation in brain structure is associated with differences in behavior and disease state. However, it has rarely been practical to prospectively test causal models that link anatomical and functional differences in humans. In the present study we have combined classical mouse genetics with high-field MR to systematically explore and test such structure-functional relations across multiple brain regions. We segmented 33 regions in two parental strains-C57BL/6J (B) and DBA/2J (D)-and in nine BXD recombinant inbred strains. All strains have been studied extensively for more than 20 years using a battery of genetic, functional, anatomical, and behavioral assays. We compared levels of variation within and between strains and sexes, by region, and by system. Average within-strain variation had a coefficient of variation (CV) of 1.6% for the whole brain; while the CV ranged from 2.3 to 3.6% for olfactory bulbs, cortex and cerebellum, and up to approximately 18% for septum and laterodorsal thalamic nucleus. Variation among strain averages ranged from 6.7% for cerebellum, 7.6% for whole brain, 9.0% for cortex, up to approximately 26% for the ventricles, laterodorsal thalamic nucleus, and the interpeduncular nucleus. Heritabilities averaged 0.60+/-0.18. Sex differences were not significant with the possible (and unexpected) exception of the pons ( approximately 20% larger in males). A correlation matrix of regional volumes revealed high correlations among functionally related parts of the CNS (e.g., components of the limbic system), and several high correlations between regions that are not anatomically connected, but that may nonetheless be functionally or genetically coupled.
磁共振(MR)成像已表明,脑结构的变化与行为和疾病状态的差异相关。然而,前瞻性地测试将人类解剖学和功能差异联系起来的因果模型,在实际中很少可行。在本研究中,我们将经典的小鼠遗传学与高场MR相结合,系统地探索和测试多个脑区的这种结构-功能关系。我们在两个亲本品系——C57BL/6J(B)和DBA/2J(D)以及九个BXD重组近交系中分割了33个脑区。使用一系列遗传、功能、解剖和行为分析方法,对所有品系进行了20多年的广泛研究。我们比较了品系内和品系间、性别间、脑区和系统的变异水平。全脑的平均品系内变异系数(CV)为1.6%;嗅球、皮质和小脑的CV范围为2.3%至3.6%,而隔区和外侧背侧丘脑核的CV高达约18%。品系平均值之间 的变异范围从小脑的6.7%、全脑的7.6%、皮质的9.0%,到脑室、外侧背侧丘脑核和脚间核的约26%。遗传力平均为0.60±0.18。除了脑桥(男性约大20%)这一可能(且意外)的例外情况外,性别差异不显著。区域体积的相关矩阵显示,中枢神经系统功能相关部分之间存在高度相关性(例如,边缘系统的组成部分),并且在解剖学上不相连但可能在功能或遗传上耦合的区域之间也存在一些高度相关性。