摘要
心肌纤维化是多种心血管疾病发展至终末阶段的共同病理改变。各种原因导致的冠脉微循环障碍以及由此引发的缺血、炎症、内皮间质转分化等是心肌纤维化的重要诱因。脉络学说认为各种原因所致的络脉瘀阻是心肌纤维化病变的中心环节,通络代表方药通心络胶囊可以显著改善心脏微循环,对于糖尿病、心肌梗死、心肌炎等引起的心肌纤维化具有显著抑制作用,有效改善心功能。微循环障碍同样可以引起肺纤维化、肝硬化和系统性硬化等多种疾病,通心络胶囊可能通过改善组织微循环发挥抑制肺纤维、肝硬化和系统性硬化的作用。
Myocardial fibrosis is a common pathological change from the development of many cardiovascular diseases to the terminal stage.Coronary microcirculation disturbance caused by various causes,as well as the ischemia,inflammation,endothelial interstitial transdifferentiation and so on,are the important inducements of myocardial fibrosis.The Vessel-Collateral theory holds that choroid stasis caused by various causes is the central link of myocardial fibrosis.Tongluo representative prescription Tongxinluo Capsule has the protective effect of blood,blood vessels and heart,and can significantly improve coronary microcirculation.It can significantly inhibit myocardial fibrosis caused by diabetes mellitus,myocardial infarction,myocarditis and so on,and can effectively improve cardiac function.Microcirculation disorder can also cause pulmonary fibrosis cirrhosis and systemic sclerosis and other diseases.Tongxinluo Capsule may play a role in inhibiting pulmonary fiber cirrhosis and systemic sclerosis by improving tissue microcirculation.
作者
李红蓉
赵齐飞
尹玉洁
常丽萍
贾振华
LI Hongrong;ZHAO Qifei;YIN Yujie;CHANG Liping;JIA Zhenhua(Hebei Yiling Hospital,State Administration of Traditional Chinese Medicine,Traditional Chinese Medicine Collaterology Key Discipline,Shijiazhuang 050091,China;Hebei Yiling Medical Research Institute,Key Laboratory of State Administration of Traditional Chinese Medicine,Shijiazhuang 050035,China;State Key Laboratory of Collateral Disease Research and Innovation of Traditional Chinese Medicine,Shijiazhuang 050091,China)
出处
《天津中医药》
CAS
2020年第5期590-594,共5页
Tianjin Journal of Traditional Chinese Medicine
基金
“中医药现代化研究”重点专项(2017YFC1700500)
河北省中医药管理局科研计划项目(2018195)。
关键词
通心络胶囊
脉络学说
心肌纤维化
内皮-间质转分化
微循环
Tongxinluo Capsule
vessel-collateral theory
myocardial fibrosis
endothelial to mesenchymal transition
microcirculation
