Department of Brain Sciences, Imperial College London, London W12 0NN, UK.
UK DRI Centre for Care Research and Technology, Imperial College London, London W12 0BZ, UK.
Sci Transl Med. 2021 Sep 29;13(613):eabg9922. doi: 10.1126/scitranslmed.abg9922.
Axonal injury is a key determinant of long-term outcomes after traumatic brain injury (TBI) but has been difficult to measure clinically. Fluid biomarker assays can now sensitively quantify neuronal proteins in blood. Axonal components such as neurofilament light (NfL) potentially provide a diagnostic measure of injury. In the multicenter BIO-AX-TBI study of moderate-severe TBI, we investigated relationships between fluid biomarkers, advanced neuroimaging, and clinical outcomes. Cerebral microdialysis was used to assess biomarker concentrations in brain extracellular fluid aligned with plasma measurement. An experimental injury model was used to validate biomarkers against histopathology. Plasma NfL increased after TBI, peaking at 10 days to 6 weeks but remaining abnormal at 1 year. Concentrations were around 10 times higher early after TBI than in controls (patients with extracranial injuries). NfL concentrations correlated with diffusion MRI measures of axonal injury and predicted white matter neurodegeneration. Plasma TAU predicted early gray matter atrophy. NfL was the strongest predictor of functional outcomes at 1 year. Cerebral microdialysis showed that NfL concentrations in plasma and brain extracellular fluid were highly correlated. An experimental injury model confirmed a dose-response relationship of histopathologically defined axonal injury to plasma NfL. In conclusion, plasma NfL provides a sensitive and clinically meaningful measure of axonal injury produced by TBI. This reflects the extent of underlying damage, validated using advanced MRI, cerebral microdialysis, and an experimental model. The results support the incorporation of NfL sampling subacutely after injury into clinical practice to assist with the diagnosis of axonal injury and to improve prognostication.
轴突损伤是创伤性脑损伤(TBI)后长期预后的关键决定因素,但在临床上很难测量。液体生物标志物检测现在可以灵敏地定量血液中的神经元蛋白。轴突成分(如神经丝轻链[NfL])可能为损伤提供诊断测量。在多中心的 BIO-AX-TBI 中重度 TBI 研究中,我们研究了液体生物标志物、高级神经影像学和临床结果之间的关系。脑微透析用于评估与血浆测量一致的脑细胞外液中的生物标志物浓度。实验性损伤模型用于根据组织病理学验证生物标志物。TBI 后血浆 NfL 增加,在 10 天至 6 周时达到峰值,但在 1 年内仍异常。浓度在 TBI 后早期比对照组(有颅外损伤的患者)高约 10 倍。NfL 浓度与扩散 MRI 测量的轴突损伤相关,并预测白质神经退行性变。血浆 TAU 预测早期灰质萎缩。NfL 是 1 年后功能结果的最强预测因子。脑微透析显示,血浆和脑细胞外液中的 NfL 浓度高度相关。实验性损伤模型证实了组织病理学定义的轴突损伤与血浆 NfL 之间的剂量反应关系。总之,血浆 NfL 提供了一种敏感且具有临床意义的 TBI 轴突损伤测量方法。这反映了潜在损伤的程度,使用高级 MRI、脑微透析和实验模型进行了验证。结果支持在损伤后亚急性采集 NfL 样本纳入临床实践,以协助诊断轴突损伤并改善预后。
