Understanding mechanisms of negative food effect for voclosporin using physiologically based pharmacokinetic modeling.

Negative food effect refers to a reduction in bioavailability, when a drug is taken with food. Voclosporin, a highly lipophilic cyclic peptide drug for treatment of active lupus nephritis, has shown negative food effect in clinical trials. Here, the cause of the negative food effect of voclosporin was investigated using physiologically based pharmacokinetic (PBPK) modeling to understand the mechanism responsible for oral absorption of voclosporin. Voclosporin is a substrate for P-glycoprotein and CYP3A4, and it has been evaluated for intestinal membrane permeability in human induced pluripotent stem cell-derived intestinal epithelial cells (hiPSC-IECs). The membrane permeability in hiPSC-IECs is integrated into the PBPK model for simulating permeability accurately. The PBPK model simulated the systemic PK profile in fasted state in human. Then, the PBPK model with in vitro adsorption of voclosporin onto food simulated the systemic PK profile in fed state for food effect. In addition, the PBPK model for rats also simulated the plasma profile of voclosporin for the food effect. These results suggest that a possible cause of the negative food effect of voclosporin is the adsorption of voclosporin to food in gastrointestinal tract. These approaches could facilitate understanding of the mechanisms responsible for oral absorption of cyclic peptides.

Key Factors for Improving Predictive Accuracy and Avoiding Overparameterization of the PBPK Absorption Model in Food Effect Studies of Weakly Basic Water-Insoluble Compounds in Immediate Release Formulations.

Background/Objectives: Physiologically based pharmacokinetic (PBPK) absorption models are instrumental for assessing drug absorption prior to clinical food effect studies, though discrepancies in predictive and actual outcomes are observed. This study focused on immediate release formulations of weakly basic water-insoluble compounds, namely rivaroxaban, ticagrelor, and PB-201, to investigate factors that could improve the predictive accuracy of PBPK models regarding food effects. Methods: Comprehensive in vitro experimental results provided the basis for the development of mechanistic absorption models, which were then combined with mechanistic disposition models to predict the systemic exposure of the model drugs in both fasted and fed states. Results: The developed PBPK models showed moderate to high predictive accuracy for food effects in Caucasian populations. For the Chinese population, the ticagrelor model's initial overestimation of fed-state absorption was addressed by updating the permeability parameters from Caco-2 cell assays to those derived from parallel artificial membrane permeability assays in FaSSIF and FeSSIF media. This refinement was also applied to the rivaroxaban and ticagrelor models, leading to a more accurate representation of absorption in Caucasians. Conclusions: This study highlights the importance of apparent permeability in enhancing the predictive accuracy of PBPK absorption models for weakly basic water-insoluble compounds. Furthermore, the precipitation of PB-201 in the two-stage transfer experiments suggests that precipitation may not be a universal phenomenon for such compounds in vivo. Consequently, the precipitation rate constant, a theoretically essential parameter, should be determined based on experimental evidence to avoid overparameterization and ensure robust predictive accuracy of PBPK models.

Drug Nanocrystals in Oral Absorption: Factors That Influence Pharmacokinetics.

Despite the safety and convenience of oral administration, poorly water-soluble drugs compromise absorption and bioavailability. These drugs can exhibit low dissolution rates, variability between fed and fasted states, difficulty permeating the mucus layer, and P-glycoprotein efflux. Drug nanocrystals offer a promising strategy to address these challenges. This review focuses on the opportunities to develop orally administered nanocrystals based on pharmacokinetic outcomes. The impacts of the drug particle size, morphology, dissolution rate, crystalline state on oral bioavailability are discussed. The potential of the improved dissolution rate to eliminate food effects during absorption is also addressed. This review also explores whether permeation or dissolution drives nanocrystal absorption. Additionally, it addresses the functional roles of stabilizers. Drug nanocrystals may result in prolonged concentrations in the bloodstream in some cases. Therefore, nanocrystals represent a promising strategy to overcome the challenges of poorly water-soluble drugs, thus encouraging further investigation into unclear mechanisms during oral administration.

Effect of Food on the Pharmacokinetics, Safety, and Tolerability of Budesonide Oral Suspension in Healthy Adult Participants: A Randomized Phase 1 Study.

Budesonide oral suspension (BOS) is a swallowed corticosteroid indicated for 12-week therapy in eosinophilic esophagitis with minimal systemic exposure following administration. We aimed to assess the relative bioavailability of a single dose of BOS administered under fasting and fed (high-fat/high-calorie meal) conditions. Healthy adult volunteers (N = 20) were enrolled in an open-label, single-center, crossover study and were randomized (1:1) to receive a single oral dose of BOS 2.0 mg under fasting or fed conditions, with a 48-h washout period before crossover to the alternative conditions. Serial plasma samples were collected before and up to 24 h after dosing. Pharmacokinetic (PK) parameters were calculated from plasma budesonide concentration-time profiles by noncompartmental analysis. The mean peak budesonide concentration (Cmax) was ∼13% lower under fed than under fasting conditions (604.1 vs 692.9 pg/mL). Areas under the concentration-time curves from dosing to the last measurable budesonide concentration and from dosing to infinity were ∼26% higher and ∼27% higher under fed than fasting conditions (3529 vs 2811 pg h/mL and 3892 vs 3075 pg h/mL, respectively). The median time to peak plasma budesonide concentration was significantly longer (∼1 h) under fed than fasting conditions (2.516 vs 1.286 h, P < .001). Safety and tolerability were also assessed throughout the study; all adverse events were mild or moderate in severity. Despite slight differences in budesonide PK parameters between fed and fasting conditions, the effect of food on systemic exposure to budesonide (BOS formulation) is not expected to be clinically meaningful.

The Particle Drifting Effect: A Combined Function of Colloidal and Drug Properties.

The particle drifting effect, where nanosized colloidal drug particles overcome the diffusional resistance of the aqueous boundary layer adjacent to the intestinal wall and increase drug absorption rates, is drawing increasing attention in pharmaceutical research. However, mechanistic understanding and accurate prediction of the particle drifting effect remain lacking. In this study, we systematically evaluated the extent of the particle drifting effect affected by drug and colloidal properties, including the size, number, and type of the moving species using biphasic diffusion experiments combined with computational fluid dynamics simulations and mass transport analyses. The results showed that the particle drifting effect is a sequential reaction of particle dissolution/dissociation in the diffusional boundary layer, followed by absorption of the free drug. Therefore, factors affecting the rate-limiting step, which can be either process or both under different circumstances, alter the particle drifting effect. Experimental results also agree with the theory that the particle dissolution rate is dependent on particle size, concentration, and drug solubility. In addition, rapid bile micelle dissociation and bile salt absorption facilitated drug absorption by the particle drifting effect. Our findings explain the highly dynamic nature of the particle drifting effect and will contribute to rational formulation development and better bioavailability prediction for formulations containing colloidal particles.

Effects of Food, Gastric Acid Reduction, and Strong CYP3A Induction on the Pharmacokinetics of Tasurgratinib, a Novel Selective Fibroblast Growth Factor Receptor Inhibitor.

We conducted this three-part study in healthy subjects to investigate the pharmacokinetics of tasurgratinib (orally available selective inhibitor of fibroblast growth factor receptor 1-3) and M2 (its major metabolite) under different conditions. In Part A, subjects received tasurgratinib 35 mg either fed with a high-fat meal or fasted. In Parts B and C, subjects received tasurgratinib 35 mg alone or with either rabeprazole (acid-reducing agent) 20 mg (Part B) or rifampin (strong CYP3A inducer) 600 mg (Part C). Primary endpoints were maximum concentration (Cmax), and areas under the plasma concentration-time curve to time of last quantifiable concentration (AUC(0-t)) and extrapolated to infinite time (AUC(0-inf)). Forty-two subjects were enrolled, 14 each into Parts A, B, and C. In Part A, administration of tasurgratinib with a high-fat meal resulted in 33% reduction in Cmax and ∼23% reduction in AUC(0-t) and AUC(0-inf) of tasurgratinib, and 47% reduction in Cmax with ∼30% reduction in AUC(0-t) and AUC(0-inf) of M2. In Part B, co-administration of rabeprazole at steady state resulted in no/weak interaction with tasurgratinib (∼8% increase in AUC(0-t) and AUC(0-inf) without an effect on Cmax) and M2 (∼18% increase in AUC(0-t) and AUC(0-inf) without an effect on Cmax). In Part C, co-administration of rifampin at steady state resulted in a weak interaction with tasurgratinib (∼16% reduction in AUC(0-t) and AUC(0-inf)) and M2 (∼12% reduction in AUC(0-t) and AUC(0-inf)). Administration of tasurgratinib with a high-fat meal appeared to reduce systemic exposure of tasurgratinib, however co-administration with an acid-reducing agent or a CYP3A inducer had a minimal impact on pharmacokinetics.

Relative bioavailability and food effect of the galectin-3 inhibitor selvigaltin (GB1211) administered as a tablet in healthy participants (GALBA-1).

PURPOSE: Overexpression of galectin-3, a ß-galactoside-binding lectin, is associated with fibrotic diseases and cancer. Selvigaltin is an oral galectin-3 inhibitor, previously administered as a 50 mg capsule. This study aimed to evaluate the relative bioavailability and food effect of selvigaltin as a 100 mg tablet in healthy volunteers. METHODS: In this single-dose, randomized, three-period, crossover study (GALBA-1; NCT05747573), participants received selvigaltin as a 100 mg tablet (under fasted and fed conditions) or as two 50 mg capsules (under fasted conditions). Primary endpoints included plasma and urine pharmacokinetic (PK) parameters. Secondary endpoints were safety and tolerability. RESULTS: Of the 13 enrolled participants, 12 completed the study. Under fasted conditions, geometric mean maximum observed plasma concentration (Cmax) and systemic exposure (AUC0─inf) of selvigaltin were 161.0% and 84.0% higher, respectively, after administration of a tablet vs. capsules. Under fed vs. fasted conditions, geometric mean Cmax of the selvigaltin tablet was 20.0% lower, whereas AUC0─inf was unaffected. Geometric mean percentage of total dose of selvigaltin excreted in urine over 0─96 h was 30.3% and 35.9% for the tablet under fasted and fed conditions, respectively, and 14.5% for the capsules. No treatment-emergent severe or serious adverse events or study discontinuations due to a treatment-emergent adverse event were reported. CONCLUSION: The tablet formulation of selvigaltin displayed higher bioavailability vs. the capsule formulation, with minimal effect of food on PK. Selvigaltin was well-tolerated during all treatments. These findings warrant further clinical development of the tablet formulation of selvigaltin without specific food restrictions. CLINICAL TRIAL REGISTRATION: NCT05747573; February 28, 2023.

Bioavailability of dronedarone tablets administered with or without food in healthy participants.

Study objective: There is inadequate awareness of the effect of food on the bioavailability of dronedarone. We report results from two phase 1 studies assessing the effect of food on dronedarone's bioavailability. Design setting and participants: Study 1; single-center, open-label, randomized study in healthy adults (males and females). Study 2; single-center, open-label, randomized study in healthy males. Interventions: Study 1; a single 400-mg oral dose of dronedarone (marketed formulation) in fed (high-fat [47.4 g] meal) and fasted states. Study 2; a single 800-mg oral dose of dronedarone (two 400-mg tablets) after fat-rich (37.3 g) and low-fat (5.3 g) meals, and after fasting. Main outcome measures: Pharmacokinetic parameters including maximum plasma concentration (Cmax) and area under the curve from time 0 to last measurable time (AUClast) were assessed for dronedarone and its active N-debutyl metabolite. Results: Twenty-six participants were included in Study 1 and nine in Study 2. In Study 1, administration of 400 mg dronedarone with a high-fat meal vs. fasted state resulted in 2.8-fold and 2.0-fold increases in Cmax and AUClast, respectively. In Study 2, administration of 800 mg dronedarone with a fat-rich or low-fat meal vs. fasted state resulted in 4.6-fold and 3.2-fold increases in Cmax, respectively, and 3.1-fold and 2.3-fold increases, respectively, in AUClast. Results for the N-debutyl metabolite were similar to dronedarone. No adverse events were considered related to dronedarone. Conclusion: With food, the bioavailability of dronedarone is markedly increased. In clinical practice, dronedarone should be administered with a complete meal to maximize drug absorption.

Pharmacokinetics and Safety of Linezolid Tablets of 2 Different Manufacturers in Healthy Chinese Subjects in Fasting and Fed States.

This study aimed to evaluate the pharmacokinetics (PKs) and safety of a generic drug, linezolid, compared to those of a reference drug in healthy Chinese subjects under both fasting and fed conditions. This was a randomized, open-label, 2-period, 2-sequence crossover study. The subjects received a single dose of the test or reference drug, linezolid (600 mg), in each period. The PK parameters were calculated using a non-compartmental method and compared between the 2 drugs. Bioequivalence was analyzed using geometric mean ratios (GMRs) of the 2 formulations and their corresponding 90% confidence intervals (CIs). The safety of the 2 formulations was assessed under both fasting and fed conditions. Forty-eight subjects completed the study, 24 each in the fasting and feeding groups. The average plasma concentration-time patterns of linezolid were similar for both medications under both conditions. The GMR and 90% CIs of the maximum plasma concentration and the area under the plasma concentration-time curve of linezolid were ranged from 0.80 to 1.25. Both drugs were well tolerated with a similar incidence of adverse drug reactions. In conclusion, the PK and safety profiles of the 2 formulations were comparable. Food intake did not influence the PK profiles of linezolid. These results suggest that the test drug can be used as an alternative to reference drugs.

Population pharmacokinetic analysis of febuxostat with high focus on absorption kinetics and food effect.

Febuxostat is commonly used in clinic for the treatment of hyperuricemia. Multiple-peak phenomenon has been observed in human plasma concentration-time profiles of febuxostat, but has not been paid enough attention in previous research. This study takes a pivotal step forward by conducting a comprehensive population pharmacokinetic (PopPK) analysis of febuxostat in a healthy Chinese cohort, with a central focus on delineating its absorption profile under contrasting fasting and fed conditions, while concurrently assessing the influence of food alongside other potential covariates on febuxostat's PK profile. The plasma concentration data used for modeling was obtained from two bioequivalence (BE) studies. Subjects were administered febuxostat 20 mg or 80 mg under fasting or fed condition. Goodness-of-fit plots, visual predict check (VPC), and normalized prediction distribution error (NPDE) were used for model evaluation. Based on the established model, PK profiles in healthy Caucasian subjects were simulated with parameter adjustment for race difference on clearance and bioavailability. Data from 128 subjects were used in the PopPK analysis. Febuxostat concentration-time curves were described by a two-compartment model with two deposit absorption compartments and lag times (Tlag). Prandial states (Food) showed significant impact on absorption rate ka1 and ka2, as well as Tlag1, and body weight was identified as a significant covariate on the apparent distribution volume. The PopPK analysis of febuxostat in healthy Chinese volunteers, under both fasted and fed conditions, successfully characterized its PK profile and underscored the significant influence of food on absorption. The potential difference of absorption between Chinese population and Caucasian population indicated from the simulations needs further investigation.

Effect of a High-Fat Meal on the Pharmacokinetics of an Immediate Release Atogepant Tablet.

Atogepant, an oral calcitonin gene-related peptide receptor antagonist, is approved for the preventive treatment of migraine. A phase 1, open-label, single-dose, 2-period crossover study evaluated the effect of a high-fat meal on the pharmacokinetics and safety of atogepant in 20 healthy adults. Administration of atogepant 60 mg immediate-release (IR) tablets under fed conditions reduced the area under the plasma concentration-time curve (AUC) from 0 to time t and from 0 to time infinity by approximately 18% and reduced the maximum plasma concentration (Cmax) by 22%. The 90% confidence intervals for the geometric mean ratios of Cmax and AUC were not contained within the bioequivalence limits of 80%-125%. There was no change in the median time to maximum plasma concentration in the fed versus fasted state. The incidence of treatment-emergent adverse events (TEAEs) was similar between fed and fasted conditions. Four TEAEs were considered related to study intervention and were reported after participants received atogepant under fasted conditions (3 participants). A single-dose atogepant 60 mg IR tablet was safe and tolerated under both fed and fasted states. Due to the wide effective dose range of 10-60 mg/day for atogepant for the preventive treatment of migraine, the food effect on its pharmacokinetics is not considered clinically relevant.

Impact of a High-Fat Meal on the Pharmacokinetics of Sotorasib, a KRAS G12C Inhibitor.

Sotorasib is a small molecule drug that specifically and irreversibly inhibits the KRAS p.G12C mutant protein. This analysis investigated the impact of a high-calorie high-fat meal on the pharmacokinetics, safety, and tolerability of sotorasib in both healthy volunteers and patients with KRAS G12C advanced solid tumors. Each subject received a single oral dose of 360 or 960 mg of sotorasib under fasted conditions or with a high-fat meal (fed conditions). The geometric least squares means (GLSM) ratios (fed/fasted) for 360 mg of sotorasib Cmax and AUCinf were 1.03 and 1.38, respectively, in healthy volunteers (N = 14). The GLSM ratios (fed/fasted) for Cmax and AUC0-24h were 1.38 and 1.75, respectively, with 360 mg of sotorasib in cancer patients (N = 2). The GLSM ratios (fed/fasted) for Cmax and AUC0-24h were 0.660 and 1.25, respectively, with 960 mg of sotorasib in cancer patients (N = 8). Sotorasib was well tolerated in fast and fed conditions. The impact of a high-fat meal on sotorasib exposure is less than a 2-fold increase or decrease in Cmax and AUCs.

Bioequivalence and Food Effect Assessment of Eltrombopag Olamine Tablets in Healthy Chinese Subjects: An Open, Randomized, Single-Dose, and Two-Period Crossover Study.

Eltrombopag, a nonpeptide thrombopoietin receptor agonist, is primarily used for treating immune thrombocytopenic purpura. The aim of this study was to investigate the pharmacokinetic profile and food-drug interaction of test and reference eltrombopag olamine tablets among healthy Chinese volunteers. An open, randomized, single-dose, 2-period crossover design was employed, involving fasting and fed conditions with a 10-day washout period. Ninety-six healthy volunteers received a single oral dose of 25 mg of the 2 eltrombopag formulations, with 48 participants in each group: fasting volunteers and those consuming a high-fat, low-calcium meal. Plasma eltrombopag concentrations were analyzed using liquid chromatography-tandem mass spectrometry, and pharmacokinetic parameters were derived from the concentration-time profiles. The geometric mean ratios, with 90% confidence intervals, for the maximum plasma concentration, area under the concentration-time curve from time 0 to the last measurable concentration, and area under the concentration-time curve from time 0 to infinity fell within the bioequivalence acceptance criteria (80%-125%) under both fasting and fed conditions, indicating bioequivalence between the test and reference formulations. Administration of eltrombopag with a high-fat, low-calcium diet reduced the net systemic exposure by approximately 40%. Adverse events were recorded, and no serious adverse events were observed in either fasting or fed conditions. In conclusion, eltrombopag is well tolerated and exhibits a favorable safety profile in the Chinese population. The achievement of bioequivalence under fasting and fed conditions supports the demonstration of biosimilarity between the test and reference formulations.

Food Effect and Pharmacokinetic Bridging of Avacopan in Caucasian and Japanese Healthy Participants.

Avacopan 30 mg twice daily (BID) is approved for the treatment of severe active antineutrophil cytoplasmic autoantibody-associated vasculitis (granulomatosis with polyangiitis and microscopic polyangiitis). Food effect on avacopan pharmacokinetics (PKs) and PK bridging in Japanese participants were examined through 2 phase 1 studies involving healthy adult participants. In Study 1, an open-label, crossover trial, participants received oral administration of a single 30-mg dose of avacopan under fasted and fed conditions. Study 2 was a randomized, single-blind, placebo-controlled trial in Caucasian and Japanese participants: Part A investigated single doses of 10 and 30 mg of avacopan under fasted and fed conditions and Part B investigated 30 and 50 mg BID avacopan. The PKs of single-dose administrations of 10 and 30 mg in Japanese participants was compared with that in Caucasian participants under fasted conditions. Food substantially increased plasma avacopan area under the plasma concentration-time curve from time 0 to time infinity (AUC0-inf) by 1.72-fold, supporting the recommendation of taking avacopan with food. Maximum plasma concentration (Cmax) remained relatively unchanged. The median time to reach Cmax (tmax) was delayed by 3 hours. No significant food effect was observed on the active metabolite CCX168-M1 (M1) AUC. Avacopan and M1 exposures were <1.5-fold higher in Japanese participants than in Caucasian participants following multiple-dose administration of avacopan.

Pharmacokinetics and Safety of a 1:1 Mixture of Doxecitine and Doxribtimine: Open-label Phase 1 Single Ascending Dose and Food Effect Studies in Healthy Adults.

PURPOSE: Doxecitine (deoxycytidine [dC]) and doxribtimine (deoxythymidine [dT]) powder for oral solution is a 1:1 mixture consisting of equal weights 2'-deoxycytidine (dC) and 2'-deoxythymidine (dT). Doxecitine and doxribtimine (referred to as study drug) is being developed as treatment for people with thymidine kinase 2 deficiency (TK2d). TK2d is an ultra-rare mitochondrial DNA depletion and multiple deletion syndrome characterized by progressive muscle weakness and premature death. Here, we report the pharmacokinetics (PK), the effect of food, and the tolerability of 2 study drug formulations, evaluated in 2 studies (Study MT-1621-103 and Study MT-1621-105). METHODS: A sequential, ascending 1:1 dose ratio was used for both studies (n = 14 healthy volunteer adult participants/study). After a 28-day (Study MT-1621-103) or 35-day (Study MT-1621-105) screening period, participants fasted overnight and sequentially received 86.6, 173.4, and 266.6 mg/kg study drug with a 48-hour PK assessment period and 48-hour washout period between doses. After 48 additional hours, participants were fed a high-fat meal and received 266.6 mg/kg study drug. Plasma and urine were collected before dosing and throughout the 48-hour PK period. dC and dT concentrations were analyzed by validated liquid chromatography mass spectrometry methods. Safety was evaluated throughout the study and at 2-week follow-up. FINDINGS: Plasma levels of dC and dT increased rapidly and dose-dependently above endogenous levels for both formulations, with a median Tmax of 1 to 2 hours under fasting conditions. Post-dose plasma dC and dT concentrations declined to nearly pre-dose (baseline) concentrations after 8 to 12 hours, suggesting rapid elimination. Peak and extent of plasma exposure (baseline-corrected Cmax and AUC0-t) tended to increase less than dose-proportionally for plasma dC and greater than dose-proportionally for plasma dT. PK variability of dC and dT was moderate-to-high (>30%). Administration with food delayed Tmax to a median of 2 to 4 hours and increased plasma exposure: baseline-corrected plasma dC Cmax and AUC0-t increased by ∼79% to 96% and 137% to 250%, respectively, and dT Cmax and AUC0-t increased by 27% to 29% and 74% to 89%, respectively, indicating a significant food effect. Renal clearance played a minor role in the elimination of systemically available intact dC and dT (Fe<0.3%). The study drug was generally well tolerated; most frequent study-drug-related adverse events (AEs) were diarrhea (n = 4/29, 14%) and dizziness (n = 3/29, 10%). Most AEs were mild-to-moderate in severity. IMPLICATIONS: Doxecitine and doxribtimine are orally bioavailable in the intended clinical dose range. The PK profile supports a formulation consisting of equal doses of doxecitine and doxribtimine, a 3-times-daily dosing regimen, and administration with food.

Playing Hide-and-Seek with Tyrosine Kinase Inhibitors: Can We Overcome Administration Challenges?

Tyrosine kinase inhibitors (TKIs) have demonstrated significant efficacy against various types of cancers through molecular targeting mechanisms. Over the past 22 years, more than 100 TKIs have been approved for the treatment of various types of cancer indicating the significant progress achieved in this research area. Despite having significant efficacy and ability to target multiple pathways, TKIs administration is associated with challenges. There are reported inconsistencies between observed food effect and labeling administration, challenges of concomitant administration with acid-reducing agents (ARA), pill burden and dosing frequency. In this context, the objective of present review is to visit administration challenges of TKIs and effective ways to tackle them. We have gathered data of 94 TKIs approved in between 2000 and 2022 with respect to food effect, ARA impact, administration schemes (food and PPI restrictions), number of pills per day and administration frequency. Further, trend analysis has been performed to identify inconsistencies in the labeling with respect to observed food effect, molecules exhibiting ARA impact, in order to identify solutions to remove these restrictions through novel formulation approaches. Additionally, opportunities to reduce number of pills per day and dosing frequency for better patient compliance were suggested using innovative formulation interventions. Finally, utility of physiologically based pharmacokinetic modeling (PBPK) for rationale formulation development was discussed with literature reported examples. Overall, this review can act as a ready-to-use-guide for the formulation, biopharmaceutics scientists and medical oncologists to identify opportunities for innovation for TKIs.

Doses Evaluated in Clinical Pharmacology Studies Investigating the Effect of Intrinsic and Extrinsic Factors on PK and Safety: Case Examples from Approved Drug Development Programs.

Dose selection for investigations of intrinsic and extrinsic factors of pharmacokinetic variability as well as safety is a challenging question in the early clinical stage of drug development. The dose of an investigational product is chosen considering the compound information available to date, feasibility of the assessments, regulatory requirements, and the intent to maximize information for later regulatory submission. This review selected 37 programs as case examples of recently approved drugs to explore the doses selected with focus on studies of drug interaction, renal and hepatic impairment, food effect and concentration-QTc assessment.The review found that regulatory agencies may consider alternative approaches if justified and safe as illustrated in these examples. It is thus recommendable to use the first in human trial as an opportunity to assess QT-prolongation and drug interactions using probes or endogenous markers while maximizing the DDI potential, increasing sensitivity and ensuring safety. Early understanding of dose proportionality assists dose finding and simple and fast to conduct DDI study designs are advantageous. Single dose impairment studies despite non-proportional/time-dependent PK are often acceptability.Overall, the early understanding of the drug's safety profile is essential to ensure the safety of doses selected while preventing clinical trials with unnecessary exposure when using high doses or multiple doses. The information collected in this retrospective survey is a good reminder to tailor the early clinical program to the profile and needs of the molecule and consider regulatory opportunities to streamline the development path.

Impact of Food on the Oral Absorption of N-Acetyl-D-Mannosamine in Healthy Men and Women.

N-Acetyl-D-mannosamine (ManNAc) is an endogenous monosaccharide and precursor of N-acetylneuraminic acid (Neu5Ac), a critical sialic acid. ManNAc is currently under clinical development to treat GNE myopathy, a rare muscle-wasting disease. In this randomized, open-label, 2-sequence, crossover study, 16 healthy women and men were administered a single oral dose of ManNAc under fasting and fed conditions. Blood samples were collected for 48 hours after dosing for quantification of plasma ManNAc and Neu5Ac concentrations. Noncompartmental pharmacokinetic and deconvolution analyses were performed using baseline-corrected plasma concentration data. Administration of ManNAc in the fed state resulted in a 1.6-fold increase in ManNAc exposure, compared to fasting conditions. A concurrent increase in Neu5Ac exposure was observed in the presence of food. Deconvolution analysis indicated that the findings were attributed to prolonged absorption rather than an enhanced rate of absorption. The impact of food on ManNAc pharmacokinetics was greater in women than men (fed/fasted area under the concentration-time curve from time 0 to infinity mean ratio: 198% compared to 121%). It is hypothesized that the presence of food slows gastric emptying, allowing a gradual release of ManNAc into the small intestine, translating into improved ManNAc absorption. The results suggest that taking ManNAc with food may enhance its therapeutic activity and/or reduce the daily dosage requirement.

A phase I, randomized study to evaluate the safety, tolerability, and pharmacokinetics of mefunidone in healthy subjects.

Background: Mefunidone is a novel synthetic compound and is better when compared to pirfenidone for the anti-fibrotic treatment of renal fibrosis in end-stage renal disease. We conducted this first-in-human, phase I clinical trial to determine the safety, tolerability, and pharmacokinetic (PK) (including food effect) profiles of mefunidone administered orally as single and multiple ascending doses in healthy subjects. Methods: Part A assessed single ascending doses of mefunidone from 25 mg to 800 mg or placebo once daily in the fasting state. Part A also assessed the effect of food on tolerability and PK in the 100 mg cohort. Part B consisted of three treatment groups who received 100 mg, 200 mg, or 400 mg of mefunidone or placebo twice daily (BID, bis in die) on days 1-6 and once in the morning on day 7. Results: Single oral doses of mefunidone up to 800 mg and multiple doses of mefunidone up to 400 mg BID were all well-tolerated. Mefunidone behaved with ideal dose proportionality within the single-dose range of 50 mg-600 mg and the multiple-dose range of 100 mg BID to 400 mg BID by day 7. High-fat fed conditions led to a delay in Tmax by approximately 1 h and a slight reduction of approximately 20% in Cmax compared to that in fasting conditions, but it did not significantly affect systemic exposure. Conclusion: Mefunidone exhibited favorable pharmacokinetics and safety profiles. The present study informed and supported further developmental clinical studies of mefunidone. Clinical Trial Registration: clinicaltrials.gov, identifier CXHL1900206.

Bioequivalence and the food effect of macitentan/tadalafil 10/20 fixed-dose combination tablets versus the use of single-component tablets in healthy subjects.

The primary aim was to demonstrate bioequivalence between the 10/20 mg fixed-dose combination (FDC) of macitentan/tadalafil in a single tablet and the free combination of both drugs, and to evaluate the food effect on the 10/20 mg FDC in healthy participants. In this single-center, randomized, open-label, 3-way crossover, single-dose Phase 1 study in healthy adult participants, macitentan/tadalafil was administered as a 10/20 mg FDC formulation and compared with the free combination of macitentan and tadalafil. The food effect on the FDC was also evaluated. Pharmacokinetic sampling (216 h) was conducted. The 90% confidence intervals (CIs) for the geometric mean ratios of maximum observed plasma analyte concentration (Cmax) and area under the plasma analyte concentration-time curves (AUCs) for Treatment A (FDC, fasted) versus C (free combination, fasted) were within bioequivalence limits demonstrating that the FDC formulation can be considered bioequivalent to the free combination. The 90% CIs for the geometric mean ratios of Cmax and AUC for Treatment B (FDC, fed) versus A (FDC, fasted) were contained within bioequivalence limits demonstrating that there was no food effect. The administration of the 10/20 mg FDC was generally safe and well tolerated in healthy participants. This study demonstrated bioequivalence between the FDC of macitentan/tadalafil (10/20 mg) in a single tablet and the free combination of both drugs in healthy participants, and that the FDC can be taken without regard to food, similarly to the individual components. The FDC was generally safe and well tolerated.