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Unraveling the Brain-Heart Axis: More Than Inflammation

医学 炎症 血脂异常 疾病 生物信息学 全身炎症 神经科学 神经炎症 内皮功能障碍 冲程(发动机) 心肌病 观察研究 癌症 心源性猝死 冠状动脉疾病 因果关系(物理学) 死因 心脏功能不全 重症监护医学 内科学 心力衰竭
作者
Ramtin Hakimjavadi,Yoshito Kadoya,Peter Liu,Katey J. Rayner,R S Beanlands,Ahmed Tawakol,Kevin E. Boczar
出处
期刊:Canadian Journal of Cardiology [Elsevier BV]
卷期号:42 (5): S80-S88 被引量:1
标识
DOI:10.1016/j.cjca.2025.12.027
摘要

Cardiovascular disease remains the leading cause of death worldwide, with a rising burden projected over the coming decades. Although traditional risk factors such as diabetes, hypertension, and dyslipidemia form the main targets of prevention strategies, many individuals carry a "residual" risk secondary to systemic inflammation which remains underrecognized. Landmark trials have established inflammation as a causal and modifiable driver of atherosclerotic cardiovascular disease. This review focuses on how inflammation can modulate interconnected diseases of the brain and heart. Growing evidence suggests that inflammation mediates a "brain-heart" axis, linking psychological stress, neuroinflammation, and cardiovascular pathology. Observational and mechanistic studies demonstrate that stress-induced neural activity, particularly within the amygdala, is associated with hematopoietic activation, arterial inflammation, and increased cardiovascular events. Models such as Takotsubo's cardiomyopathy and stroke-heart syndrome illustrate how acute brain injury can precipitate cardiovascular dysfunction via autonomic and inflammatory pathways. More recently, molecular imaging studies have provided direct evidence of stress-associated amygdalar activity being associated with both cardiovascular outcomes and cancer prognosis. This emerging framework reframes the brain and heart as interdependent organs connected through inflammatory and neurobiological processes, highlighting the potential for novel therapeutic targets, including modulation of stress-related neural pathways, alongside established anti-inflammatory strategies. Future directions include refinement of targeted therapies, use of advanced molecular imaging, and mechanistic studies to better delineate the pathways linking stress, inflammation, and cardiovascular disease.
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