Functional Magnetic Resonance Imaging Changes and Increased Muscle Pressure in Fibromyalgia: Insights from Prominent Theories of Pain and Muscle Imaging

Seth Adler, Farzan Vahedifard, Rachel Akers, Christopher Sica, Mehmet Kocak, Edwin Moore, Marc Minkus, Gianna Elias, Nikhil Aggarwal, Sharon Byrd, Mehmoodur Rasheed, Robert S. Katz
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Abstract

Fibromyalgia is a complicated and multifaceted disorder marked by widespread chronic pain, fatigue, and muscle tenderness. Current explanations for the pathophysiology of this condition include the Central Sensitization Theory, Cytokine Inflammation Theory, Muscle Hypoxia, Muscle Tender Point Theory, and Small Fiber Neuropathy Theory. The objective of this review article is to examine and explain each of these current theories and to provide a background on our current understanding of fibromyalgia. The medical literature on this disorder, as well as on the roles of functional magnetic resonance imaging (fMRI) and elastography as diagnostic tools, was reviewed from the 1970s to early 2023, primarily using the PubMed database. Five prominent theories of fibromyalgia etiology were examined: 1) Central Sensitization Theory; 2) Cytokine Inflammation Theory; 3) Muscle Hypoxia; 4) Muscle Tender Point Theory; and 5) Small Fiber Neuropathy Theory. Previous fMRI studies of FMS have revealed two key findings. First, patients with FMS show altered activation patterns in brain regions involved in pain processing. Second, the connectivity between brain structures in individuals diagnosed with FMS and healthy controls is different. Both of these findings will be expanded upon in this paper. The article also explores the potential for future research in fibromyalgia due to the advancements in fMRI and elastography techniques, such as shear wave ultrasound. Increased understanding of the underlying mechanisms contributing to fibromyalgia symptoms is necessary for improved diagnosis and treatment, and advanced imaging techniques can aid in this process.
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功能性磁共振成像改变和纤维肌痛的肌肉压力增加:来自疼痛和肌肉成像的重要理论的见解
纤维肌痛是一种复杂的、多方面的疾病,以广泛的慢性疼痛、疲劳和肌肉压痛为特征。目前对这种情况的病理生理学解释包括中枢致敏理论、细胞因子炎症理论、肌肉缺氧理论、肌肉压痛点理论和小纤维神经病理论。这篇综述文章的目的是检查和解释这些目前的理论,并提供我们目前对纤维肌痛的理解的背景。从20世纪70年代到2023年初,主要使用PubMed数据库,回顾了关于这种疾病的医学文献,以及功能性磁共振成像(fMRI)和弹性成像作为诊断工具的作用。研究了纤维肌痛病因学的五大主要理论:1)中枢致敏理论;2)细胞因子炎症理论;3)肌肉缺氧;4)肌肉压痛点理论;5)小纤维神经病理论。先前FMS的fMRI研究揭示了两个关键发现。首先,FMS患者表现出与疼痛处理有关的大脑区域的激活模式改变。其次,诊断为FMS的个体和健康对照者的大脑结构之间的连接是不同的。这两项发现都将在本文中展开。本文还探讨了由于功能磁共振成像和弹性成像技术(如剪切波超声)的进步,纤维肌痛的未来研究潜力。提高对纤维肌痛症状的潜在机制的理解对于改进诊断和治疗是必要的,而先进的成像技术可以在这一过程中提供帮助。
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