摘要
基于传统象思维理论,提出“观象、比象、意象、抽象”的象思维模式。依托现代医学对疾病微观全过程的认识,提出态靶辨治理论和络病理论规律的抽提,遵循了象思维从形而下的发现到形而上的抽提,依据态靶辨治理论和络病理论指导临床可以精准靶向用药。在中医望诊时,以生物全息论为依据,通过望面部色泽及位置分布、望目和舌的神、色、形态及相应络脉位置分布的可视化分析,有利于提高中医望诊的客观化和精准化,对于指导疾病诊断和处方用药具有重要意义。
ing xiang"is propsed.Based on the understanding of the microcosmic process of diseases in modern medicine,the theory of state-target treatment based on syndrome diff erentiation and the extraction of the laws of collateral disease theory are propsed,which follows the xiang thinking from the discovery of physics to the metaphysical extraction,and guided by the theory of state-target treatment based on syndrome differentiation and collateral disease theory,precise targeted drug delivery can be used in clinical practice.During conducting inspection in traditional Chinese medicine,based on the theory of biological holography,visual analysis of the color and location distribution of the face,eye expression and tongue morphology,and the location distribution of the corresponding collaterals in the Chinese medicine diagnosis is benefi cial for improving the objectivity and precision of the inspection in traditional Chinese medicine,and it is of great signifi cance in guiding the diagnosis of diseases and the prescription drug-used.
作者
董立硕
高佳琪
胡月
亢泽峥
孙阿茹
田传玺
李修洋
DONG Lishuo;GAO Jiaqi;HU Yue;KANG Zezheng;SUN Aru;TIAN Chuanxi;LI Xiuyang(Changchun University of Chinese Medicine,Changchun 130117,China;Guang'anmen Hospital,School of Clinical Medicine,Beijing University of Chinese Medicine,Beijing 100029,China;Qi-Huang Chinese Medicine School,Beijing University of Chinese Medicine,Beijing 100029,China;Guang'anmen Hospital,China Academy of Chinese Medical Sciences,Beijing 100053,China)
出处
《长春中医药大学学报》
2024年第9期955-958,共4页
Journal of Changchun University of Chinese Medicine
基金
中国中医科学院广安门医院临床医学研究中心建设专项(2022DXBZX008)
中国中医科学院科技创新工程重大攻关项目(CI2021A01602)
国家中医药多学科交叉创新团队项目(ZYYCXTD-D-202001)。
关键词
象思维
望诊
态靶辨治
生物全息论
xiang thinking
inspection
state-target treatment based on syndrome diff erentiation
the theory of biological holography