摘要
目的研究金元时期治疗消渴方剂的组方配伍规律。方法通过搜集金元时期代表文献中治疗消渴方剂,利用中医传承辅助系统进行用药频次、关联度、关联规则分析,并利用复杂系统熵聚类方法分析其核心组合,并形成新处方。结果共搜集处方156首,共含中药176味,药物频次1188次。分析药物出现的频次,演化得到核心组合57个,形成新处方6首。金元时期治疗消渴用药以甘寒、苦寒为主,核心组合和新处方中均有配伍升麻、柴胡以升阳透热的特点。结论金元时期治疗消渴方剂配伍规律有一定时代特色,与其对消渴的认识有关。中医传承辅助系统对挖掘古代消渴方剂治疗规律有一定价值。
Objective To study the compatibility law of wasting-thirst prescription in Jinyuan period.Methods By collecting prescriptions for treating wasting-thirst from representative literature in Jinyuan period,the traditional Chinese medicine inheritance assistance system was used to analyze the frequency,association and association rules.The complex system entropy clustering method was used to analyze the core combination and form a new prescription.Results A total of 156 prescriptions were collected,containing a total of 176 Chinese materia medica and 1188 times of drug frequency.By analyzing the frequency of drugs,57 core combinations were evolved and 6 new prescriptions were formed.The herbs used to treat wasting-thirst in Jinyuan period were mainly sweet cold and bitter cold.The core combination and the new prescription had the characteristics of compatibility with Rhizoma Cimicifugae and Radix Bupleuri to promote Yang and clear heat.Conclusion The compatibility rule of wasting-thirst prescription in Jinyuan period has certain characteristics of the times,which is related to its understanding of wasting-thirst.The traditional Chinese medicine inheritance assisting system has certain value to excavate the treatment rules of ancient wasting-thirst prescription.
作者
李敏
曹淼
彭娜
邓奕辉
何清湖
LI Min;CAO Miao;PENG Na;DENG Yihui;HE Qinghu(Hunan University of Chinese Medicine,Changsha,Hunan 410208,China;Hunan College of Traditional Chinese Medicine,Zhuzhou,Hunan 412000,China;Hunan Want Want Hospital,Changsha,Hunan 410016,China)
出处
《湖南中医药大学学报》
CAS
2020年第8期1013-1017,共5页
Journal of Hunan University of Chinese Medicine
基金
湖南省中医药管理局重点科研项目(201526)。
关键词
消渴
糖尿病
金元时期
滋阴清热
升阳透热
wasting-thirst
diabetes
Jinyuan period
nourishing Yin and clearing heat
promoting Yang and clearing heat