中国医药科学2025,Vol.15Issue(9):104-107,184,5.DOI:10.20116/j.issn2095-0616.2025.09.24
基于"少阴-肾玄府"理论探讨温阳降浊法治疗糖尿病肾病
Investigation on the treatment of diabetic kidney disease with warming yang and reducing turbidity method based on the theory of"Shaoyin-kidney Xuanfu"
摘要
Abstract
Diabetic kidney disease is one of the most common chronic microvascular complications of diabetes.Its onset is hidden,the disease progresses rapidly,and the overall efficacy of western medicine treatment is poor.With the change of modern lifestyle,diabetic kidney disease patients are increasing.In traditional Chinese medicine it is believed that the onset of diabetic kidney disease is caused by multiple factors,including physical weakness,prolonged thirst,damage from sugar and lipid toxins,and congenital factors such as qi and yin depletion.Over time,the spleen and kidneys become deficient,dampness,turbidity,blood stasis,and toxin stasis accumulate in the meridians,and the kidneys become stagnant due to the stagnation of the Xuanfu,blood stasis,and water retention.The syndrome belongs to the deficiency of the essence and the excess of the substance,with the disease located in the kidney.The differentiation of the six meridians belongs to the Shaoyin meridian.Modern research has pointed out that there are structural similarities between"kidney Xuanfu"and cell membranes,ion channel proteins,cytokines,glomerular filtration barriers,etc.This article uses the theory of"Shaoyin-kidney Xuanfu"to focus on warming yang and tonifying qi,and nourishing the kidneys.Simultaneously,it also takes into account the effects of promoting blood circulation through pungent herbs,removing blood stasis and reducing turbidity,and changes in lifestyle.It emphasizes holistic syndrome differentiation and treatment according to the syndrome,achieving good therapeutic efficacies every time.关键词
糖尿病肾病/少阴经/肾玄府/温阳降浊法Key words
Diabetic kidney disease/Shaoyin meridian/Kidney Xuanfu/Warming yang and reducing turbidity method分类
中医学引用本文复制引用
李玥雯,胡剑卓..基于"少阴-肾玄府"理论探讨温阳降浊法治疗糖尿病肾病[J].中国医药科学,2025,15(9):104-107,184,5.基金项目
湖南省自然科学基金项目(2022JJ70026). (2022JJ70026)
