著者
Miyako Yoshida Honami Kojima Atsushi Uda Tamami Haraguchi Minoru Ozeki Ikuo Kawasaki Kazuhiro Yamamoto Ikuko Yano Midori Hirai Takahiro Uchida
出版者
The Pharmaceutical Society of Japan
雑誌
Chemical and Pharmaceutical Bulletin (ISSN:00092363)
巻号頁・発行日
vol.67, no.5, pp.404-409, 2019-05-01 (Released:2019-05-01)
参考文献数
30
被引用文献数
9 9

The purpose of the study was to evaluate the ability of different beverages to mask the bitterness of zopiclone and eszopiclone in tablet formulations using the artificial taste sensor and human gustatory sensation testing. The beverages tested for bitterness-masking effects were: Mugicha, Sports beverage, Lactic acid drink, Orange juice and a diluted simple syrup (an 8.5% sucrose solution). The bitterness intensities estimated by the taste sensor of zopiclone or eszopiclone one-tablet solutions mixed with the various beverages, corresponded well with the observed bitterness intensities measured by gustatory sensation testing. The Sports beverage, Lactic acid drink and Orange juice significantly suppressed the bitterness intensity of both zopiclone and eszopiclone 1-tablet solutions compared with water when tested in the artificial taste sensor. Sports beverage, Lactic acid drink and Orange juice all contain citric acid as acidifier, so it was postulated that citric acid was involved in the mechanism of bitterness intensity suppression of zopiclone and eszopiclone 1-tablet solutions by these three beverages. It was then shown that citric acid suppressed the bitterness intensity of a zopiclone one-tablet sample solution in a dose-dependent manner. 1H-NMR spectroscopic analysis of mixtures of citric acid with zopiclone suggested that the carboxyl groups of citric acid interact with the amine group on zopiclone. This study therefore showed that the bitterness intensities of zopiclone and eszopiclone can be suppressed by citric-acid-contained beverages and suggests that this bitterness suppression is due to a direct electrostatic interaction between citric acid and the two drugs.
著者
Sayuko Shiraishi Tamami Haraguchi Saki Nakamura Honami Kojima Ikuo Kawasaki Miyako Yoshida Takahiro Uchida
出版者
公益社団法人日本薬学会
雑誌
Chemical and Pharmaceutical Bulletin (ISSN:00092363)
巻号頁・発行日
vol.65, no.2, pp.151-156, 2017-02-01 (Released:2017-02-01)
参考文献数
31
被引用文献数
9

The purpose of the study was to evaluate suppression of the bitterness intensity of bitter basic drugs by chlorogenic acid (CGA) using the artificial taste sensor and human gustatory sensation testing and to investigate the mechanism underlying bitterness suppression using 1H-NMR. Diphenhydramine hydrocholoride (DPH) was the bitter basic drug used in the study. Quinic acid (QNA) and caffeic acid (CFA) together form CGA. Although all three acids suppressed the bitterness intensity of DPH in a dose-dependent manner as determined by the taste sensor and in gustatory sensation tests, CFA was less effective than either CGA or QNA. Data from 1H-NMR spectroscopic analysis of mixtures of the three acids with DPH suggest that the carboxyl group, which is present in both QNA and CGA but not CFA, interact with the amine group of DPH. This study showed that the bitterness intensity of DPH was suppressed by QNA and CGA through a direct electrostatic interaction with DPH as confirmed in 1H-NMR spectroscopic analysis. CGA and QNA may therefore be useful bitterness-masking agents for the basic drug DPH.
著者
Rio Uno Kyoko Ohkawa Honami Kojima Tamami Haraguchi Minoru Ozeki Ikuo Kawasaki Miyako Yoshida Masaaki Habara Hidekazu Ikezaki Takahiro Uchida
出版者
The Pharmaceutical Society of Japan
雑誌
Chemical and Pharmaceutical Bulletin (ISSN:00092363)
巻号頁・発行日
vol.71, no.2, pp.148-153, 2023-02-01 (Released:2023-02-01)
参考文献数
23
被引用文献数
2

This study aimed to evaluate the bitterness of famotidine (FAM) combined with each of three non-steroidal anti-inflammatory drugs (NSAIDs): ibuprofen (IBU), flurbiprofen (FLU), and naproxen (NAP), which have potential as fixed-dose combination (FDC) drugs. We evaluated the bitterness of FAM and each NSAID by taste sensor AN0 and C00, respectively. FAM showed high sensor output representing sensitivity to bitterness, whereas three NSAIDs did not show large sensor output, suggesting that the bitterness intensities of three NSAIDs were lower than that of FAM. The bitterness of FAM on sensor AN0 was suppressed in a concentration-dependent manner when mixed with IBU, FLU, or NAP. Among three NSAIDs, IBU most effectively inhibited bitterness on sensor output, and the gustatory sensation test confirmed that adding IBU to FAM reduced the bitterness of FAM in a concentration-dependent manner. MarvinSketch confirmed that the drugs were mostly present in an ionic solution when FAM was mixed with NSAIDs. The 1H-NMR spectroscopy analysis also revealed the presence of electrostatic interactions between FAM and NSAIDs, suggesting that the electrostatic interaction between FAM and NSAIDs might inhibit the adsorption of FAM on the bitter taste sensor membrane, thereby masking the bitter taste.
著者
Mio Tange Akino Matsumoto Miyako Yoshida Honami Kojima Tamami Haraguchi Takahiro Uchida
出版者
公益社団法人日本薬学会
雑誌
Chemical and Pharmaceutical Bulletin (ISSN:00092363)
巻号頁・発行日
vol.65, no.1, pp.36-41, 2017-01-01 (Released:2017-01-01)
参考文献数
28
被引用文献数
2

The purpose of the study was to evaluate the adsorption of filgrastim on infusion sets (comprising infusion bag, line and filter) and to compare the adsorption of the original filgrastim preparation with biosimilar preparations using HPLC. The inhibitory effect of polysorbate 80 on this adsorption was also evaluated. Filgrastim was mixed with isotonic sodium chloride solution or 5% (w/v) glucose solution in the infusion fluid. Filgrastim adsorption on infusion sets was observed with all preparations and with both types of infusion solution. The adsorption ratio was about 30% in all circumstances. Filgrastim adsorption on all parts of the infusion set (bag, line and filter) was dramatically decreased by the addition of polysorbate 80 solution at concentrations at or over its critical micelle concentration (CMC). The filgrastim adsorption ratio was highest at a solution pH of 5.65, which is the isoelectric point (pI) of filgrastim. This study showed that the degree of filgrastim adsorption on infusion sets is similar for original and biosimilar preparations, but that the addition of polysorbate 80 to the infusion solution at concentrations at or above its CMC is effective in preventing filgrastim adsorption. The addition of a total-vitamin preparation with a polysorbate 80 concentration over its CMC may be an effective way of preventing filgrastim adsorption on infusion sets.