ABSTRACT
Objective: To study the spectrum-effect relationship of angiogenesis activity and protective effect of heart injury of water-soluble components of Salvia miltiorrhiza to reveal the pharmacodynamics material basis. Methods: The HPLC fingerprints of water-soluble components of S. miltiorrhiza were established to evaluate the angiogenesis activity and protective effect of heart injury of water-soluble components of S. miltiorrhiza by establishing different models of zebrafish. The spectrum-effect relationship of angiogenesis activity and protective effect of heart injury of water-soluble components of S. miltiorrhiza was established by grey correlation degree analysis. Results: Nine water-soluble components in the fingerprints were positively correlated with efficacy of medicine, the association trend of common peaks and efficacy was consistent, and peak 5 (alkannic acid) played the most significant role among nine components. Conclusion: Elucidation of the material basis of angiogenesis activity and protective effect of heart injury of water-soluble components of S. miltiorrhiza by researching on the spectrum-effect relationship will provide the basis for the deep research of S. miltiorrhiza.