Computational, Cognitive and Clinical Neuroimaging Laboratory, Imperial College London, Division of Brain Sciences, Hammersmith Hospital, London, UK.
Department of Nuclear Medicine, Charing Cross Hospital, Imperial College Healthcare NHS Trust, London, UK.
Brain. 2018 Mar 1;141(3):797-810. doi: 10.1093/brain/awx357.
Traumatic brain injury can reduce striatal dopamine levels. The cause of this is uncertain, but is likely to be related to damage to the nigrostriatal system. We investigated the pattern of striatal dopamine abnormalities using 123I-Ioflupane single-photon emission computed tomography (SPECT) scans and their relationship to nigrostriatal damage and clinical features. We studied 42 moderate-severe traumatic brain injury patients with cognitive impairments but no motor parkinsonism signs and 20 healthy controls. 123I-Ioflupane scanning was used to assess dopamine transporter levels. Clinical scan reports were compared to quantitative dopamine transporter results. Advanced MRI methods were used to assess the nigrostriatal system, including the area through which the nigrostriatal projections pass as defined from high-resolution Human Connectome data. Detailed clinical and neuropsychological assessments were performed. Around 20% of our moderate-severe patients had clear evidence of reduced specific binding ratios for the dopamine transporter in the striatum measured using 123I-Ioflupane SPECT. The caudate was affected more consistently than other striatal regions. Dopamine transporter abnormalities were associated with reduced substantia nigra volume. In addition, diffusion MRI provided evidence of damage to the regions through which the nigrostriatal tract passes, particularly the area traversed by dopaminergic projections to the caudate. Only a small percentage of patients had evidence of macroscopic lesions in the striatum and there was no relationship between presence of lesions and dopamine transporter specific binding ratio abnormalities. There was also no relationship between reduced volume in the striatal subregions and reduced dopamine transporter specific binding ratios. Patients with low caudate dopamine transporter specific binding ratios show impaired processing speed and executive dysfunction compared to patients with normal levels. Taken together, our results suggest that the dopaminergic system is affected by a moderate-severe traumatic brain injury in a significant proportion of patients, even in the absence of clinical motor parkinsonism. Reduced dopamine transporter levels are most commonly seen in the caudate and this is likely to reflect the pattern of nigrostriatal tract damage produced by axonal injury and associated midbrain damage.
创伤性脑损伤会降低纹状体多巴胺水平。其原因尚不确定,但可能与黑质纹状体系统损伤有关。我们使用 123I-碘代异丙托品单光子发射计算机断层扫描(SPECT)扫描研究了纹状体多巴胺异常的模式及其与黑质纹状体损伤和临床特征的关系。我们研究了 42 名有认知障碍但无运动性帕金森病体征的中度至重度创伤性脑损伤患者和 20 名健康对照者。123I-碘代异丙托品扫描用于评估多巴胺转运体水平。临床扫描报告与定量多巴胺转运体结果进行了比较。使用先进的 MRI 方法评估了黑质纹状体系统,包括从高分辨率人类连接组数据中定义的黑质纹状体投射通过的区域。进行了详细的临床和神经心理学评估。我们的中度至重度患者中约有 20%的患者在使用 123I-碘代异丙托品 SPECT 测量的纹状体中多巴胺转运体的特异性结合比值明显降低。尾状核比其他纹状体区域更一致地受到影响。多巴胺转运体异常与黑质体积减少有关。此外,弥散 MRI 提供了黑质纹状体束通过的区域损伤的证据,特别是多巴胺能投射到尾状核的区域。只有一小部分患者的纹状体有明显的宏观病变,并且病变的存在与多巴胺转运体特异性结合比值异常之间没有关系。纹状体亚区体积减少与多巴胺转运体特异性结合比值降低之间也没有关系。与正常水平相比,多巴胺转运体特异性结合比值低的患者尾状核的处理速度和执行功能受损。总的来说,我们的研究结果表明,即使在没有临床运动性帕金森病的情况下,多巴胺能系统也会受到中度至重度创伤性脑损伤的显著影响。多巴胺转运体水平降低最常见于尾状核,这可能反映了轴突损伤和相关中脑损伤引起的黑质纹状体束损伤模式。
