磁共振弥散成像
神经影像学
创伤性脑损伤
神经认知
医学
神经病理学
白质
磁共振成像
成像生物标志物
神经科学
纤维束成像
脑震荡
体素
生物标志物
认知
物理医学与康复
心理学
毒物控制
放射科
病理
精神科
伤害预防
生物化学
疾病
化学
环境卫生
作者
Sumit N. Niogi,Pratik Mukherjee
标识
DOI:10.1097/htr.0b013e3181e52c2a
摘要
Mild traumatic brain injury (mTBI) remains a challenge to accurately assess with conventional neuroimaging. Recent research holds out the promise that diffusion tensor imaging (DTI) can be used to predict recovery in mTBI patients. Unlike computed tomography or conventional magnetic resonance imaging, DTI is sensitive to microstructural axonal injury, the neuropathology that is thought to be most responsible for the persistent cognitive and behavioral impairments that often occur after mTBI. Through the use of newer DTI analysis techniques such as automated region of interest analysis, tract-based voxel-wise analysis, and quantitative tractography, researchers have shown that frontal and temporal association white matter pathways are most frequently damaged in mTBI and that the microstructural integrity of these tracts correlates with behavioral and cognitive measures. Future longitudinal DTI studies are needed to elucidate how symptoms and the microstructural pathology evolve over time. Moving forward, large-scale investigations will ascertain whether DTI can serve as a predictive imaging biomarker for long-term neurocognitive deficits after mTBI that would be of value for triaging patients to clinical trials of experimental cognitive enhancement therapies and rehabilitation methods, as well as for monitoring their response to these interventions.
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