神经退行性疾病中基于 PET 的大脑分子连接。

IF 4.1 2区 医学 Q1 CLINICAL NEUROLOGY Current Opinion in Neurology Pub Date : 2024-08-01 Epub Date: 2024-05-30 DOI:10.1097/WCO.0000000000001283
Jordan U Hanania, Erik Reimers, Connor W J Bevington, Vesna Sossi
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引用次数: 0

摘要

综述的目的:传统上,分子成像主要在局部和相对静态的神经化学过程中使用和解释。对大脑功能的新认识以及新型分子成像协议和分析方法的发展,凸显了与功能和结构网络共存和相互作用的分子网络的相关性。尽管针对特定疾病的大脑代谢模式的概念和证据已经存在了一段时间,但这种方法直到最近才被应用到神经递质领域以及多示踪剂和多模态研究中。本综述简要总结了这一新方法的初步发现,并重点介绍了这一新方法的新兴应用:最近的发现:基于连接性的方法应用于分子和多模态成像,发现了与神经变性相关的分子网络,这些分子网络的新陈代谢和神经递质改变与临床发现有着独特的联系;发现了更好的疾病分层范例;加深了对神经化学和功能网络及其相关改变之间关系的理解,尽管这些关系的方向性问题仍未解决;对静息状态大脑活动中与疾病相关的改变的分子基础有了新的理解。目前,这些方法主要有助于加深对大脑功能的理解,但它们极有可能有助于确定特定的生物标志物,从而改善疾病管理和临床护理。
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PET-based brain molecular connectivity in neurodegenerative disease.

Purpose of review: Molecular imaging has traditionally been used and interpreted primarily in the context of localized and relatively static neurochemical processes. New understanding of brain function and development of novel molecular imaging protocols and analysis methods highlights the relevance of molecular networks that co-exist and interact with functional and structural networks. Although the concept and evidence of disease-specific metabolic brain patterns has existed for some time, only recently has such an approach been applied in the neurotransmitter domain and in the context of multitracer and multimodal studies. This review briefly summarizes initial findings and highlights emerging applications enabled by this new approach.

Recent findings: Connectivity based approaches applied to molecular and multimodal imaging have uncovered molecular networks with neurodegeneration-related alterations to metabolism and neurotransmission that uniquely relate to clinical findings; better disease stratification paradigms; an improved understanding of the relationships between neurochemical and functional networks and their related alterations, although the directionality of these relationships are still unresolved; and a new understanding of the molecular underpinning of disease-related alteration in resting-state brain activity.

Summary: Connectivity approaches are poised to greatly enhance the information that can be extracted from molecular imaging. While currently mostly contributing to enhancing understanding of brain function, they are highly likely to contribute to the identification of specific biomarkers that will improve disease management and clinical care.

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来源期刊
Current Opinion in Neurology
Current Opinion in Neurology 医学-临床神经学
CiteScore
8.60
自引率
0.00%
发文量
174
审稿时长
6-12 weeks
期刊介绍: ​​​​​​​​Current Opinion in Neurology is a highly regarded journal offering insightful editorials and on-the-mark invited reviews; covering key subjects such as cerebrovascular disease, developmental disorders, neuroimaging and demyelinating diseases. Published bimonthly, each issue of Current Opinion in Neurology introduces world renowned guest editors and internationally recognized academics within the neurology field, delivering a widespread selection of expert assessments on the latest developments from the most recent literature.
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