The Relationship between Bitter Taste Sensor Response and Physicochemical Properties of 47 Pediatric Medicines and Their Biopharmaceutics Classification

Haraguchi, Tamami; Okuno, Takayoshi; Nishikawa, Haruka; Kojima, Honami; Ikegami, Saeri; Yoshida, Miyako; Habara, Masaaki; Ikezaki, Hidekazu; Uchida, Takahiro

doi:10.1248/cpb.c19-00508

Cited by 14 publications

(10 citation statements)

References 30 publications

(1 reference statement)

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“…In a previous study, Uchida et al reported that acidic beverages should be avoided when taking powder formulations of macrolide antibiotics because the acidic beverage was found to produce a strongly bitter taste, as stated in the information sheet for Clarith ® dry syrup. 22,23) Because azithromycin also belongs to the macrolide antibiotic class of medicines, orange juice might increase the bitterness of azithromycin with the same mechanism. In our study, the sport drink (pH 3.5) and orange juice (pH 3.6) were mild acidic solutions, the other drinks were in a neutral range (pH = 6.0-7.5).…”

Section: Resultsmentioning

confidence: 99%

“…Previously, some studies were reported to evaluate the bitterness of some medicines quantitatively using a taste sensor. [21][22][23][24][25] The research of taste sensors has made a breakthrough by achieving high selectivity for each taste, especially bitterness. For example, Tanigake et al evaluated the bitterness intensity of clarithromycin with some beverages by a taste sensor.…”

Section: Resultsmentioning

confidence: 99%

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Combining Powder Formulations of Drugs with Food and Beverages to Improve Palatability

Tanaka

Uchida

Sotoyama

et al. 2020

Biological & Pharmaceutical Bulletin

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The taste of medicines can significantly affect patient adherence. Pediatric patients often cannot take powder medicines because of their unpleasant taste. Therefore, patients' parents and health care professionals, including pharmacists, often combine medicines with food or beverages to make them easier for pediatric patients to consume because this can reduce their unpleasant taste. The purpose of this study was to evaluate the palatability of powder formulations of azithromycin and carbocysteine and explore their combination with food or beverages to improve palatability for pediatric patients. We quantitatively evaluated the palatability of powder formulations by performing the gustatory sensation test using the visual analog scale score. The gustatory sensation tests were performed on 16 healthy adult volunteers (age 23.0 2.6 years) and indicated that some food and beverages improved the palatability of the powder formulations of azithromycin and carbocysteine. The results of this study indicate that ice cream improves the palatability of azithromycin, while yogurt improves the palatability of carbocysteine. Moreover, the subjects recommended these same combinations for pediatric patients. This study suggests that some foods and beverages improve the palatability of powder formulations, thereby decreasing the possibility that pediatric patients will refuse medications because of their unpleasant taste.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Combining Powder Formulations of Drugs with Food and Beverages to Improve Palatability

Tanaka

Uchida

Sotoyama

et al. 2020

Biological & Pharmaceutical Bulletin

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“…The field of in vitro taste assessment is continually evolving. For the Insent etongue, a new taste sensor BT0 has been introduced but was not available at the time of our study; it was designed to be more useful for evaluating the bitterness of hydrochloride salt compounds [34]. Moreover, in recent years, bioelectronic tongues (BioETs), integrating biological materials and various types of transducers, have been proposed to bridge this gap between chemical sensors and biological taste [42].…”

Section: Discussionmentioning

confidence: 99%

“…In exploring the relationship between the physicochemical properties of paediatric drugs of various Biopharmaceutical Classification System (BCS) class drugs and their bitter baste sensor response, the dose number (D0) was used by Haraguchi et al [34]. This took not only the solubility of the drug but also the highest dose taken with a 250 mL glass of water in account.…”

Section: Determination Of Taste Indexmentioning

confidence: 99%

Multi-Methodological Quantitative Taste Assessment of Anti-Tuberculosis Drugs to Support the Development of Palatable Paediatric Dosage Forms

Keating¹,

Soto²,

Forbes

et al. 2020

Pharmaceutics

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The unpalatability of antituberculosis drugs is often cited as a major cause of non-adherence in children, yet limited quantitative taste assessment data are available. The aim of this research was to quantify the bitterness of isoniazid, rifampicin, pyrazinamide, and ethambutol dihydrochloride using two in vivo (a human taste panel and a rat brief-access taste aversion (BATA) model) and one in vitro (sensor) method. The response of the Insent TS-5000Z electronic tongue was compared to the in vivo drug concentration found to elicit and suppress half the maximum taste response (EC50 in human and IC50 in rats). Using dose-relevant concentrations, an overarching rank order of bitterness was derived (rifampicin > ethambutol > pyrazinamid~isoniazid). In vitro, only ethambutol exhibited a linear response for all sensors/concentrations. Based on the EC50/IC50 generated, a ‘taste index’ was proposed to allow for anticipation of the likelihood of taste issues in practice, taking in account the saturability in the saliva and therapeutic doses; ethambutol and isoniazid were found to be the worst tasting using this measure. The study presents the first quantitative taste analysis of these life-saving drugs and has allowed for a comparison of three methods of obtaining such data. Such information allows the operator to identify and prioritise the drugs requiring taste masking to produce palatable formulations.

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“…Taste sensor SA402B (Intelligent Sensor Technology Inc., Atsugi, Japan) was used to measure the electric potential of the sample solutions (at the same con-centrations as those used in human gustatory sensation testing) in order to predict their taste. Sensor AC0, developed specifically to detect the bitterness of basic substances [14] [15] [16], was used in these experiments. The taste sensor measurements were performed to evaluate bitterness intensity for amlodipine besilate [6], solifenacin succinate [7], H 1 -receptor antagonists [9] and topiramate [17] as described in previous articles.…”

Section: Taste Sensor Measurements Of Dry Syrups Mixed With Beveragesmentioning

confidence: 99%

Evaluation of the Palatability of Dry Syrups and the Bitterness Intensities of Dry Syrups Mixed with Various Beverages

Kurihara¹,

Kojima²,

Yoshida³

et al. 2021

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The purpose of this study was to evaluate the palatability of dry syrups for pediatric use by human gustatory sensation testing and the artificial taste sensor. The bitterness intensities of dry syrups mixed with various beverages were also evaluated using the taste sensor. Twenty dry-syrup formulations of antibacterial and anti-allergic drugs containing bitter active ingredients, frequently used in pediatric medicine in Japan, were selected for testing. The main factors influencing palatability were determined by factor analysis of data from human gustatory sensation testing using the semantic differential method. It was shown that the bitterness intensity of dry syrups in water could be predicted by the artificial taste sensor. The influence of different beverages (orange juice, milk or cocoa) mixed with the dry syrups was evaluated using the artificial taste sensor. Taste and texture were found to be the principal factors influencing the palatability of dry syrups. While the bitterness intensities of some dry syrups were increased by mixing with orange juice, the bitterness intensities of most dry syrups were decreased by mixing with milk or cocoa. This suggests that one or more constituents of milk or cocoa may reduce the bitterness intensities of dry syrups.

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The Relationship between Bitter Taste Sensor Response and Physicochemical Properties of 47 Pediatric Medicines and Their Biopharmaceutics Classification

Cited by 14 publications

References 30 publications

Combining Powder Formulations of Drugs with Food and Beverages to Improve Palatability

Combining Powder Formulations of Drugs with Food and Beverages to Improve Palatability

Multi-Methodological Quantitative Taste Assessment of Anti-Tuberculosis Drugs to Support the Development of Palatable Paediatric Dosage Forms

Evaluation of the Palatability of Dry Syrups and the Bitterness Intensities of Dry Syrups Mixed with Various Beverages

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