Atomization Characteristics of Baicalin, Ursodeoxycholic Acid and Caffeic Acid in Tanreqing Inhalation Solution
10.13422/j.cnki.syfjx.20200846
- VernacularTitle:痰热清吸入溶液中黄芩苷、熊去氧胆酸、咖啡酸3种代表性成分的雾化特性分析
- Author:
Meng-jiao LIU
1
;
Chen ZANG
1
;
Shao-yong LIU
2
;
Xiao-li ZHANG
2
;
Mu-sheng ZHANG
2
;
Guo-hua WANG
1
Author Information
1. Institute of Chinese Materia Medica, China Academy of Chinese Medical Sciences, Beijing 100700, China
2. Shanghai Kaibao Pharmaceutical Co. Ltd., Shanghai 201000, China
- Publication Type:Research Article
- Keywords:
Tanreqing inhalation solution;
delivery rate;
total delivery quantity;
respiratory pattern;
respiratory angle;
caffeic acid;
baicalin;
ursodeoxycholic acid
- From:
Chinese Journal of Experimental Traditional Medical Formulae
2020;26(15):137-141
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To investigate the effect of different angles of atomizer on the delivery rates and total delivery quantities of Tanreqing inhalation solution, so as to provide reference for the clinical use of this preparation. Method:Taking baicalin, ursodeoxycholic acid, caffeic acid as indexes, PARI Boy SX compression atomization inhaler (equipped with red core atomizing cup) and BRS2000 respiratory simulator were used, the effects of different angles of the atomizer (upper 15 degree, lower 15 degree, upper 30 degree, lower 30 degree, partial 15 degree, partial 30 degree, vertical) on the delivery rates and total delivery quantities of Tanreqing inhalation solution were investigated. The respiratory patterns of adults, children, infants and young children were selected to determine the delivery rates and total delivery quantities of three components in Tanreqing inhalation solution. Result:In the same atomization time, the delivery rates and the total delivery quantities of caffeic acid and ursodeoxycholic acid in Tanreqing inhalation solution were not significantly affected by the atomizer from different angles, but significantly affected baicalin. At the vertical angle, the delivery rate and total delivery quantity of baicalin were higher than the other angles. Under different respiratory modes, there were significant differences in the delivery rates and total delivery quantities of these three components in the inhalation solution. Compared with other respiratory modes, the delivery rates and total delivery quantities of baicalin, ursodeoxycholic acid and caffeic acid were the highest in the adult respiratory mode, with delivery rates of (555.5±16.61), (226.3±6.54), (26.1±0.32) μg·min-1 and total delivery quantities of (4 001.1±82.97), (1 754.9±63.73), (167.6±1.42) μg, respectively. Conclusion:The use angle of atomizer has a certain effect on the delivery rate and total delivery quantity of Tanreqing inhalation solution, so it is suggested that the vertical angle should be kept as far as possible in clinical use. Under the four respiratory patterns, the delivery rate and total delivery quantity of Tanreqing inhalation solution are different, suggesting that the atomization dose or atomization time should be adjusted according to the respiratory characteristics of the patients to ensure the safety and effectiveness of clinical medication.