Taste Sensor Assessment of Bitterness in Medicines: Overview and Recent Topics

In recent decades, taste sensors have been increasingly utilized to assess the taste of oral medicines, particularly focusing on bitterness, a major obstacle to patient acceptance and adherence. This objective and safe method holds promise for enhancing the development of patient-friendly medicines in pharmaceutical companies. This review article introduces its application in measuring the intensity of bitterness in medicine, confirming the achievement of taste masking, distinguishing taste differences between branded and generic medicines, and identifying substances to suppress bitterness in target medicines. Another application of the sensor is to predict a significant increase in bitterness when medicine is taken with certain foods/beverages or concomitant medication. Additionally, to verify the sensor's predictability, a significant correlation has been demonstrated between the output of a bitter-sensitive sensor designed for drug bitterness (BT0) and the bitterness responses of the human taste receptor hT2R14 from BitterDB (huji.ac.il). As a recent advancement, a novel taste sensor equipped with lipid/polymer membranes modified by 3-Br-2,6-dihydroxybenzoic acid (2,6-DHBA), based on the concept of allostery, is introduced. This sensor successfully predicts the bitterness of non-charged pharmaceuticals with xanthine skeletons, such as caffeine or related compounds. Finally, the future prospects of taste sensors are discussed.

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

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.

Bitterness evaluation of intact and crushed Vesicare orally disintegrating tablets using taste sensors

Objective

Vesicare tablets, whose main component is solifenacin succinate, are known to be extremely bitter. The purpose of this study was to evaluate the effect of crushing on the bitterness of the Vesicare orally disintegrating tablets (ODTs).

Method

Vesicare ODTs and conventional Vesicare tablets (CTs) were crushed either heavily or lightly. The bitterness scores and release rates of sample solutions obtained 5, 10, 30, 60, 90 or 120 s after placing a crushed CT or ODT containing 5 mg solifenacin in 40 ml of water were predicted using two taste sensors (SA402B and a-ASTREE) and HPLC, respectively. The particle size and the surfaces of the crushed tablets were observed microscopically.

Key findings

The predicted bitterness scores and the drug release rates of CTs were high, irrespective of the degree of crushing. The lightly crushed ODT was predicted to be less bitter than the heavily crushed ODT. In lightly crushed ODTs, spherical particles were observed, about 200 mm in diameter.

Conclusions

The degree of crushing was a critical factor in determining the expression of bitterness by crushed ODTs. When intact tablets of Vesicare must be crushed to adjust the dosage, it is strongly recommended that ODTs be crushed gently.

Effects of sulfur dioxide on formation of fishy off-odor and undesirable taste in wine consumed with seafood

In order to evaluate sensory compatibility of alcoholic beverages with food, beverages and dried squid, namely, "surume", a common Japanese accompaniment, were consumed together. White wine and dried squid pairings had a more undesirable taste and more fishy off-odor than sake and dried squid pairings. The undesirable taste and fishy off-odor appeared to be caused by degradation of unsaturated fatty acids (e.g., docosahexaenoic acid (DHA)), which are found in fish and squid. Upon addition of DHA to the beverage, bitterness intensity, measured by instrumental taste sensor analysis, and the concentration of certain aldehydes reported to contribute to fishy flavors, increased in white wines, whereas they remained largely the same in sake. Among the major chemical constituents that distinguish wine from sake, only wine-specific sulfite markedly increased bitterness intensity and aldehyde levels upon addition of DHA. These results suggest that sulfur dioxide in wine participated in degradation of unsaturated fatty acids, causing an increase in undesirable taste and fishy off-odor in wine and seafood pairings.

Advanced taste sensors based on artificial lipids with global selectivity to basic taste qualities and high correlation to sensory scores

Effective R&D and strict quality control of a broad range of foods, beverages, and pharmaceutical products require objective taste evaluation. Advanced taste sensors using artificial-lipid membranes have been developed based on concepts of global selectivity and high correlation with human sensory score. These sensors respond similarly to similar basic tastes, which they quantify with high correlations to sensory score. Using these unique properties, these sensors can quantify the basic tastes of saltiness, sourness, bitterness, umami, astringency and richness without multivariate analysis or artificial neural networks. This review describes all aspects of these taste sensors based on artificial lipid, ranging from the response principle and optimal design methods to applications in the food, beverage, and pharmaceutical markets.

Suppression of bitterness and improvement of palatability of commercial prednisolone powder

The aim of the study was to suppress the bitterness and improve the palatability of pediatric prednisolone powder (PP) by the addition of simple sucrose syrup (SS) and various beverages and foods. Bitterness suppression was evaluated using the human gustatory sensory test. The suppression of the bitterness and improvement of palatability of PP by addition of SS solutions was investigated using standard taste substances: sucrose for sweetness, tartaric acid for sourness, and sodium chloride as saltiness. Dilution with SS solutions of up to 50% (w/w) was successful in bitterness-suppression and improvement of palatability, but at 80% (w/w) SS, the palatability of the diluted solution was reduced. The kinematic viscosities of SS solutions were therefore evaluated using the Uberorde viscosity meter, to see whether the high viscosity of the more concentrated solutions was responsible for the reduced palatability. The kinematic viscosity of the 80% SS was 16.60 mm(2)/s. Judging from above information, the palatability might become worse when the kinematic viscosity of syrup exceeded 15 mm(2)/s. Finally, the ability of various beverages and foods with low viscosity to suppress the bitterness and improve the palatability of PP were examined. The additions of orange juice or a carbonated lemon drink to simple syrup solution were most effective in suppressing bitterness and improving palatability of PP.

Quality of twelve clarithromycin dry syrup formulations-bitterness, grittiness and uniformity of drug loading

The objective of the study was to evaluate the bitterness, grittiness and uniformity of drug loading as measures of the quality of 12 formulations of clarithromycin dry syrup (CAMDS), comprising one branded and 11 generic products. Some of the generic CAMDS formulations were more bitter than the branded product while others had similar bitterness when tested as aqueous suspensions. Only one generic product was less bitter than the branded product when tested as a suspension in acidic sports drink. The usual dissolution test described in JP XV could not be used to evaluate the bitterness of the products. A brief dissolution test using only 12.5 ml of water was used to evaluate the bitterness of the products in aqueous suspensions. There were considerable variances in the grittiness of the various products, which were independent of particle size. Changes in grittiness level seemed to be correlated with changes in the intensity of bitterness due to the disintegration of the formulation. Finally, there was less variation in the uniformity of drug loading for the branded product than for the generic products. These data may be useful when selecting which CAMDS formulation to prescribe.