精密医学
个性化医疗
心脏纤维化
纳米医学
纤维化
表观遗传学
计算机科学
医学
仿形(计算机编程)
心肌纤维化
神经科学
生物信息学
计算生物学
路径(计算)
过程(计算)
人的心脏
生命银行
再生医学
基因调控网络
转化医学
深度学习
遗传增强
系统生物学
领域(数学)
基因表达谱
转化研究
人类健康
生物
作者
Mohammad Hamouz,Raneem Y. Hammouz,Christine Caruana,Denise Micallef,Andrzej K. Bednarek,Philip Dingli
标识
DOI:10.1007/s12195-026-00896-z
摘要
Cardiac fibrosis represents a complex pathological process driven by persistent fibroblast activation, dysregulated cardiomyocyte-ECM crosstalk, and maladaptive mechanotransduction, ultimately resulting in myocardial stiffening and progressive heart failure. This review integrates insights from single-cell and spatial transcriptomics, biomechanical studies, and epigenetic profiling to illuminate the cellular heterogeneity and molecular circuits underlying fibrotic remodelling. We highlight emerging therapies including CRISPR-based gene editing, FAP-targeted CAR-T immunotherapy, nanomedicine for selective RNA delivery, and patient-derived cardiac organoids; that collectively position fibrosis as a reversible and actionable target. Finally, we discuss precision medicine strategies leveraging genomics, circulating biomarkers, artificial intelligence, and environmental risk assessment to deliver personalized anti-fibrotic interventions. By uniting mechanobiology, molecular engineering, and clinical innovation, this review charts a translational roadmap toward durable reversal of cardiac fibrosis.
科研通智能强力驱动
Strongly Powered by AbleSci AI