A novel method for quality consistency evaluation of Yankening Tablet by multi-wavelength fusion profiling combined with overall components dissolution method and antioxidant activity analysis

Abstract

Yankening Tablet (YKNT) is an anti-inflammatory Chinese medicine, which has the effect of heat-clearing and purging pathogenic fire. In this paper, a novel method for quality consistency evaluation of YKNT by multi-wavelength fusion profiling combined with multi-component quantification, overall components dissolution method and antioxidant activity analysis was established. The five-wavelength fusion fingerprint (FWFFP) of 19 batches of YKNT was established, which was evaluated qualitatively and quantitatively by systematic quantified fingerprint method (SQFM), and the quality of YKNTs was divided into different grades successfully. Three active components, Berberine (BBR), baicalin (BCL) and chrysophanol (CRP) in YKNT, were quantitatively determined by quantitative analysis of multi-components by single marker (QAMS). Principal component analysis divided the 19 batches of samples into two categories according to the content difference, which was consistent with the SQFM evaluation results. The combination of SQFM and QAMS successfully achieved the quantitative determination of YKNT from the whole to accurate. Partial least squares (PLS) model was developed to explore the relationship between the antioxidant ability and fingerprint of YKNT. Further overall dissolution UV fingerprints (ODUV-FP) were successfully established, in which the ultraviolet fingerprint (UV-FP) quantitative method was applied to determine the dissolution of the whole chemical substance of traditional Chinese medicine (TCM) preparation. HPLC fingerprints (HPLC-FP) and ODUV-FP were combined to realize the dual control of the quality and efficacy of YKNT, providing a new method for consistency evaluation of TCM.