ABSTRACT
The rat model of dysmenorrhea, pelvic inflammation disease (PID), and uterine myoma were established to observe the effect ofGui-Zhi Fu-Ling Capsule (GZFLC) with the changes of main components. The molecular imprinted technology was used to quantitatively knock out main components in GZFLC (the knocked-out ratios were 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%). And the observation was made on the writhing times, latency, and effects on ET-1 and PGF2α of uterine tissues in the pitocin-induced dysmenorrhea rat model. Effects on TNF-α and IL-2 were observed in PID rat model induced by mixed bacteria plus mechanical damages. Effects on the weight and index of uterus, levels of E2 and P in serum were detected on the uterine myoma rat model induced by estrogen-burden. The results showed that the GZFLC efficacy was decreased with gradient knockout of 15 main components. When 10%-40% was knocked out, there was still significant difference compared to the model group (P 0.05). Meanwhile, the GZFLC efficacy was decreased significantly compared to the GZFLC group (P <0.05, orP < 0.01). It was concluded that 15 chemical compounds, which included gallic acid, paeoniflorin, paeonol, and etc., may be the main material basis of GZFLC. Meanwhile, it provided a useful reference for the quality control of main components in GZFLC.
ABSTRACT
Paeoniflorin and its derivatives are main active compounds inGui-Zhi Fu-Ling Capsule (GZFLC). In this study, molecular imprinted polymer (MIP) was prepared by sol-gel process to obtain paeoniflorin and its derivatives in GZFLC. The static adsorption capacity of MIP was measured by scatchard equation. The results showed that the maximum apparent absorbing capacity of MIP was 52.28 mg·g-1. One-step separation of paeoniflorin from 4 g methanol samples of GZFLC was 197 mg with the purity of 89.3%. It was concluded that paeoniflorin MIP can be used to separate phaoniforin and its analogues from GZFLC.