Pharmacokinetics of skin and blood of Tripterygium wilfordii and Paeonia lactiflora micro-emulsion gel based on micro-dialysis technology.

Qing DU; Jing Luo; Yong-mei Guan; Fang Xiao; Zhen-zhong Zang; Chen Jin; Li-hua Chen

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Pharmacokinetics of skin and blood of Tripterygium wilfordii and Paeonia lactiflora micro-emulsion gel based on micro-dialysis technology.

Author: Qing DU ¹ ; Jing LUO ¹ ; Yong-Mei GUAN ¹ ; Fang XIAO ² ; Zhen-Zhong ZANG ¹ ; Chen JIN ¹ ; Li-Hua CHEN ¹
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1. Key Laboratory of Modern Preparation of Traditional Chinese Medicine,Ministry of Education,Jiangxi University of Traditional Chinese Medicine Nanchang 330004,China.
2. the Fourth Affiliated Hospital of Nanchang University Nanchang 330003,China.
Publication Type:Journal Article
Keywords: paeoniflorin; recovery; skin and blood microdialysis; triptolide
MeSH: Blood; metabolism; Chromatography, Liquid; Drugs, Chinese Herbal; pharmacokinetics; Emulsions; Gels; Humans; Paeonia; chemistry; Skin; metabolism; Tandem Mass Spectrometry; Tripterygium; chemistry
From: China Journal of Chinese Materia Medica 2019;44(16):3569-3575
CountryChina
Language:Chinese
Abstract: To further investigate the metabolism of Tripterygium wilfordii and Paeonia lactiflora micro-emulsion gel in vivo,an LCMS/MS method was established for the determination of triptolide and paeoniflorin in T. wilfordii and P. lactiflora micro-emulsion gel.The extracorporeal recovery rate of blood probe was measured by concentration difference methods( incremental method and decremental method). Meanwhile,the skin and blood micro-dialysis methods of tripterine and paeoniflorin were established,and the pharmacokinetics of T. wilfordii microemulsion gel in skin and blood was studied by micro-dialysis combined with LC-MS/MS quantitative analysis. The results showed that the established method for the determination of triptolide and paeoniflorin in T. wilfordii microemulsion gel was well linear within the required range,and the specificity,recovery rate and degree of precision of the chromatography all conformed to the research requirements of micro-dialysis samples. The stability of freeze-thawing and the residual effect all conformed to the criteria of biological sample methodology. The probe recovery rates measured by incremental method and decremental method were almost consistent with the extracorporeal recovery rate test. The recovery rates of paeoniflorin in skin and blood micro-dialysis were( 30. 60±1. 09) % and( 28. 01± 1. 75) %,respectively. And the recovery rates of skin and blood micro-dialysis were( 26. 79 ± 2. 78) % and( 25. 39±1. 86) %,respectively. The intraday recovery rate of probes was stable within 11 h. The results of pharmacokinetic study showed that the Cmaxvalues of triptolide in skin and blood were( 148. 03±41. 51) and( 76. 77±15. 27) μg·L-1,respectively. And the Tmaxvalues were( 2. 33±0. 29) and( 3. 00± 0) h,respectively. The AUC0-11 hvalues were( 2 814. 05± 1 070. 37) and( 1 580. 63±208. 27) μg·h·L-1,respectively. The MRT0-11 hvalues were( 4. 20± 0. 33) and( 4. 54± 0. 34) h,respectively. The T1/2 values were( 4. 61±4. 11) and( 1. 07± 0. 13) h,respectively. The Cmaxvalues of paeoniflorin in skin and blood were( 991. 88 ± 152. 22) and( 407. 02±120. 06) μg·L-1,respectively. The Tmaxvalues were( 2. 00±0) h and( 2. 83±0. 29) h,respectively. The AUC0-11 hvalues were( 18 430. 27±3 289. 35) and( 6 338. 59 ± 1 659. 32) μg·h·L-1,respectively. The MRT0-11 hvalues were( 4. 29 ± 0. 16) and( 4. 00±0. 05) h,respectively. The T1/2 values were( 2. 16±0. 43) and( 1. 78±0. 48) h,respectively. The results suggested that micro-emulsion gel played a role in forming skin reservoir through percutaneous penetration. It not only could improve drug transdermal efficiency,but also control the sustained release of drug and form a long-term effect.