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Rotational animal brain injury models dynamically and quantitatively detected by diffusion tensor imaging correlated with β-amyloid precursor protein expression / 中华放射学杂志
Chinese Journal of Radiology ; (12): 469-474, 2016.
Article in Chinese | WPRIM | ID: wpr-493383
ABSTRACT
Objective To investigate dynamic regulation of quantifying fractional anisotropy (FA) and apparent diffusion coefficient (ADC) values in rotational brain injury models of rabbit using diffusion tensor imaging (DTI), and its correlation with β?amyloid precursor protein (β-APP). Methods Forty-two 6-month-old New Zealand rabbits were randomly divided into three groups, including control group (n=6), mild injured group (n=18) and severe injured group (n=18), and preformed on autonomous rapidly rotational brain injury device. The rotational angles of 45° for mild injured group and 90° for severe injured group were condemned, and MRI and pathology were conducted at 6 h, 12 h, 24 h, 48 h, 72 h and 1 week after injury (3 rabbits per subgroup). Routine sequences and DTI technique were performed on 3.0 T MRI. FA and ADC values in subcortical white matter, corpus callosum and brain stem were measured. Independent t?test was performed to evaluate the significance of the intergroup difference in FA and ADC values in mild and severe injured groups of verious brain regions by timing, one?way ANOVA was performed to evaluate its timing variation and its correlation with the number of the β-APP positive axons was analyzed by Pearson correlation analysis. Results FA and ADC values of the severe injured group were lower than that of the mild in most brain regions(P<0.05), and the difference in mild injured group was smaller than that in severe injured group. Both FA and ADC values in brain stem of the severe injured group were lower at 6 h after injury compared to mild injured group, which were sensitive to injury. Furthermore, FA and ADC values in each brain regions of mild and severe injured groups showed similar dynamic trends, namely gradually decreasing by time, and FA values were more sensitive to injury than ADC values. FA values in subcortical white matter and brain stem reduced in severe injured group at 6 h after injury compared with that before injury(P<0.05), and decreased in various brain area of both injured groups at 12 h after injury(P<0.05). Meanwhile, ADC values in all regions were declined in the severe injured group at 12 h after injury(P<0.05), and decreased in various regions in both injured groups at 24—48 h after injury(P<0.05)except for subcortical white matter in mild injured group. There were statistically negative correlations between FA and ADC values and the number of β-APP positive axons in 12—48 h after injury in most regions(P<0.05). Conclusions DTI can quantitatively detect and assess the pathological process in white matter and axons of TBI in earlier stage of the brain injury, and can be applied in evaluation and quantitative diagnose in these patients.

Full text: Available Index: WPRIM (Western Pacific) Language: Chinese Journal: Chinese Journal of Radiology Year: 2016 Type: Article

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Full text: Available Index: WPRIM (Western Pacific) Language: Chinese Journal: Chinese Journal of Radiology Year: 2016 Type: Article