Masahisa Sugihara scite author profile

In this study, the data of 113 human bioequivalence (BE) studies of immediate release (IR) formulations of 74 active pharmaceutical ingredients (APIs) conducted at Sawai Pharmaceutical Co., Ltd., was analyzed to understand the factors affecting intra- and intersubject variabilities in oral drug absorption. The ANOVA CV (%) calculated from area under the time-concentration curve (AUC) in each BE study was used as an index of intrasubject variability (Vintra), and the relative standard deviation (%) in AUC was used as that of intersubject variability (Vinter). Although no significant correlation was observed between Vintra and Vinter of all drugs, Vintra of class 3 drugs was found to increase in association with a decrease in drug permeability (P(eff)). Since the absorption of class 3 drugs was rate-limited by the permeability, it was suggested that, for such drugs, the low P(eff) might be a risk factor to cause a large intrasubject variability. To consider the impact of poor water solubility on the variability in BE study, a parameter of P(eff)/Do (Do; dose number) was defined to discriminate the solubility-limited and dissolution-rate-limited absorption of class 2 drugs. It was found that the class 2 drugs with a solubility-limited absorption (P(eff)/Do < 0.149 × 10(-4) cm/s) showed high intrasubject variability. Furthermore, as a reason for high intra- or intersubject variability in AUC for class 1 drugs, effects of drug metabolizing enzymes were investigated. It was demonstrated that intrasubject variability was high for drugs metabolized by CYP3A4 while intersubject variability was high for drugs metabolized by CYP2D6. For CYP3A4 substrate drugs, the Km value showed the significant relation with Vintra, indicating that the affinity to the enzyme can be a parameter to predict the risk of high intrasubject variability. In conclusion, by analyzing the in house data of human BE study, low permeability, solubility-limited absorption, and high affinity to CYP3A4 are identified as risk factors for high intrasubject variability in oral drug absorption. This information is of importance to design the human BE study for oral drug products containing APIs with a risk of large intrasubject variability in oral absorption.

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Amlodipine Passage into Breast Milk in Lactating Women with Pregnancy-Induced Hypertension and Its Estimation of Infant Risk for Breastfeeding

Naito

Kubono

Deguchi³

et al. 2014

J Hum Lact

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The Provisional No-Effect Threshold of Sugar Alcohols on Oral Drug Absorption Estimated by Physiologically Based Biopharmaceutics Model

Yamane¹,

Matsui²,

Sugihara³

et al. 2021

Journal of Pharmaceutical Sciences

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Effect of Excipients on the Particle Size of Precipitated Pioglitazone in the Gastrointestinal Tract: Impact on Bioequivalence

Sugita¹,

Kataoka

Sugihara³

et al. 2014

AAPS J

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This study sought to understand the reasons for the bioinequivalence of a newly developed generic product of pioglitazone hydrochloride and to improve its formulation so that it is equivalent to that of the reference listed drug (RLD). In this clinical study, despite a similar in vitro dissolution profile, the new oral product exhibited a lower plasma concentration of pioglitazone compared to the RLD. The strong pH-dependency of pioglitazone solubility as a weak base indicates that pioglitazone would precipitate in the small intestine after being dissolved in the stomach. Thus, in vitro experiments were performed to investigate the effect of excipients on the particle size distribution of precipitated pioglitazone. Then, the impact of particle size on in vivo absorption was discussed. The precipitated pioglitazone from the RLD showed a peak for small particles (less than 1 μm), which was not observed in the precipitate from the new product. As an excipient, hydroxypropyl cellulose (HPC) influenced the particle size of precipitated pioglitazone, and the amount of HPC in the formulation was increased to the same level as that in the RLD. The precipitate from this improved product showed approximately the same particle size distribution as that of the RLD and successfully demonstrated bioequivalence in the clinical study. In conclusion, for drugs with low solubility, this type of analysis of the particle size distribution of precipitated drugs, in addition to the dissolution test, may help to obtain a better in vitro-in vivo correlation for oral absorption and to develop a bioequivalent product.

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CYP3A activity based on plasma 4β-hydroxycholesterol during the early postpartum period has an effect on the plasma disposition of amlodipine

Naito

Kubono

Ishida

et al. 2015

Drug Metabolism and Pharmacokinetics

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