Mercy Health St. Mary's, Michigan State University, 220 Cherry St SE, Grand Rapids, MI, 49503, USA.
Barrow Neurological Institute, 222 W. Thomas Road, Suite 315, Phoenix, AZ, 85013, USA.
Brain Imaging Behav. 2018 Aug;12(4):962-973. doi: 10.1007/s11682-017-9752-5.
Diffusion tensor imaging (DTI) has demonstrated its utility in detecting microscopic post-concussion cerebral white matter structural changes, which are not routinely evident on conventional neuroimaging modalities. In this study, we compared 10 adolescents with sports concussion (SC) to 12 orthopedically-injured (OI) individuals within 96 h and three months post injury to 12 typically-developing (TD) participants using DTI and volumetric analyses. In terms of volume, no group differences were noted between SC, OI and TD groups at both 96 h and three months post concussion. Results did not show significant differences between SC, OI, and TD groups for both fractional anisotropy (FA) and apparent diffusion coefficient (ADC) in all regions of interest within 96 h post concussion. However, at three months post-injury, the SC group exhibited significantly lower FA than the TD group in various regions of interest. In terms of ADC, significant group differences between SC and TD groups were found in some regions, with SC group having higher ADC than TD. No group differences for FA and ADC were noted between SC and OI groups at three months post-injury. However, several moderate effect sizes on between-group analyses were noted such that FA was lower and ADC was higher in SC relative to OI. Longitudinally, the SC group demonstrated decreased FA and increased ADC in some areas. The findings highlight the fact that the brain continues to change during the post-injury recovery period, and raises the possibility that adverse changes may result from the neurometabolic cascade that purportedly ensues following SC. DTI may potentially be used to characterize the nature of brain changes that occur following sports-related concussions.
弥散张量成像(DTI)已经证明了其在检测微小的脑外伤后白质结构变化方面的作用,而这些变化在常规神经影像学检查中通常并不明显。在这项研究中,我们在伤后 96 小时和三个月内将 10 名青少年运动性脑震荡(SC)患者与 12 名骨科损伤(OI)患者以及 12 名正常发育(TD)参与者进行了比较,使用了 DTI 和容积分析。在体积方面,在伤后 96 小时和三个月时,SC、OI 和 TD 组之间在所有感兴趣区均未观察到组间差异。然而,在伤后 96 小时内,SC、OI 和 TD 组之间的各向异性分数(FA)和表观扩散系数(ADC)均无显著差异。然而,在损伤后三个月时,SC 组在多个感兴趣区的 FA 明显低于 TD 组。在 ADC 方面,在一些区域,SC 组与 TD 组之间存在显著的组间差异,SC 组的 ADC 高于 TD 组。在损伤后三个月时,SC 和 OI 组之间在 FA 和 ADC 方面未观察到组间差异。然而,在一些区域,SC 相对于 OI,FA 和 ADC 存在一些中等的组间差异,表明 SC 组的 FA 较低,ADC 较高。纵向研究显示,SC 组在一些区域的 FA 降低,ADC 升高。这些发现强调了这样一个事实,即在受伤后的恢复期间,大脑仍在不断变化,并提出了这样一种可能性,即不良变化可能是由于据报道在 SC 后发生的神经代谢级联反应所致。DTI 可能具有用于描述与运动相关的脑震荡后发生的脑变化的性质。
