Shadmani Ghazal, Swingle Christopher A, Coffman Chad Hunter
Mallinckrodt Institute of Radiology, Washington University School of Medicine, USA.
Neuroradiol J. 2025 Jun 25:19714009251345100. doi: 10.1177/19714009251345100.
Anatomical imaging modalities such as CT and MRI are essential for evaluating central nervous system (CNS) disorders by providing detailed visualization of structural abnormalities. Molecular and functional imaging lack detailed anatomical delineation but offer complementary insight into pathologic processes involved in a disease that is not discernable in anatomical imaging. The design of molecular and functional imaging studies for CNS disorders is driven by their underlying pathophysiology. F-FDG is used to evaluate neuronal metabolism, Tc-based radiotracers are employed to assess brain perfusion patterns, and CSF-binding tracers are used to detect cerebrospinal fluid abnormalities. Radiopharmaceuticals that target specific receptors or pathological biomarkers enable disease-specific imaging, such as amyloid and tau PET scans in dementia, somatostatin receptor imaging with DOTATATE PET in meningiomas, and dopamine transporter imaging with DaT scan in parkinsonian syndromes. This review provides a comprehensive overview of key nuclear imaging techniques and commonly utilized radiotracers for assessing CNS pathologies. It also briefly highlights emerging trends in the role of nuclear medicine within neuroimaging, including the expanding application of theranostics for specific brain tumors.
诸如CT和MRI等解剖成像方式对于评估中枢神经系统(CNS)疾病至关重要,因为它们能提供结构异常的详细可视化图像。分子成像和功能成像缺乏详细的解剖学描绘,但能对解剖成像中无法辨别的疾病相关病理过程提供补充性见解。针对CNS疾病的分子成像和功能成像研究设计是由其潜在的病理生理学驱动的。F-FDG用于评估神经元代谢,基于锝的放射性示踪剂用于评估脑灌注模式,脑脊液结合示踪剂用于检测脑脊液异常。靶向特定受体或病理生物标志物的放射性药物能够实现疾病特异性成像,例如痴呆症中的淀粉样蛋白和tau蛋白PET扫描、脑膜瘤中使用DOTATATE PET进行的生长抑素受体成像以及帕金森综合征中使用DaT扫描进行的多巴胺转运体成像。本综述全面概述了用于评估CNS病变的关键核成像技术和常用放射性示踪剂。它还简要强调了核医学在神经成像中的作用的新兴趋势,包括治疗诊断学在特定脑肿瘤中的应用不断扩大。