In Vitro In Vivo Extrapolation and Bioequivalence Prediction for Immediate-Release Capsules of Cefadroxil Based on a Physiologically-Based Pharmacokinetic ACAT Model.

Physiologically based pharmacokinetic (PBPK) modeling is a mechanistic concept, which helps to judge the effects of biopharmceutical properties of drug product such as in vitro dissolution on its pharmacokinetic and in vivo performance. With the application of virtual bioequivalence (VBE) study, the drug product development using model-based approach can help in evaluating the possibility of extending BCS-based biowaiver. Therefore, the current study was intended to develop PBPK model as well as in vitro in vivo extrapolation (IVIVE) for BCS class III drug i.e. cefadroxil. A PBPK model was created in GastroPlus™ 9.8.3 utilizing clinical data of immediate-release cefadroxil formulations. By the examination of simulated and observed plasma drug concentration profiles, the predictability of the proposed model was assessed for the prediction errors. Furthermore, mechanistic deconvolution was used to create IVIVE, and the plasma drug concentration profiles and pharmacokinetic parameters were predicted for different virtual formulations with variable cefadroxil in vitro release. Virtual bioequivalence study was also executed to assess the bioequivalence of the generic verses the reference drug product (Duricef®). The developed PBPK model satisfactorily predicted Cmax and AUC0-t after cefadroxil single and multiple oral dose administrations, with all individual prediction errors within the limits except in a few cases. Second order polynomial correlation function obtained accurately predict in vivo drug release and plasma concentration profile of cefadroxil test and reference (Duricef®) formulation. The VBE study also proved test formulation bioequivalent to reference formulation and the statistical analysis on pharmacokinetic parameters reported 90% confidence interval for Cmax and AUC0-t in the FDA acceptable limits. The analysis found that a validated and verified PBPK model with a mechanistic background is as a suitable approach to accelerate generic drug development.

Application of "spider-web" mode in discovery and identification of Q-markers from Xuefu Zhuyu capsule.

BACKGROUND: The selection of quality control indicators in a complex system is a key scientific issue for the study of Chinese materia medica (CMM), which is directly related to its safety and efficacy. In order to scientifically understand and control the quality of CMM, quality marker (Q-marker) has been recently raised as a new concept, which provided a novel research idea for the quality control and evaluation of CMM. PURPOSE: By a new and integrated "spider-web" mode, Q-markers of Xuefu Zhuyu capsule (XZC) were comprehensively uncovered, conducing to great improvement of quality control of XZC. METHODS: Mainly established by three dimensions derived from six variables including content, stability and activity, "spider-web" mode was constructed to evaluate Q-marker property of candidate compounds by taking regression area of the tested compounds into account. RESULTS: The candidate compounds with larger regression area were preferentially adopted as Q-markers, which should possess the satisfactorily integrated properties of content, stability and activity. Six compounds, naringin, isoliquiritin, paeoniflorin, protocatechuic acid, neohesperidin and ferulic acid, were identified and preferred as Q-markers of XZC. CONCLUSION: Based on "spider-web" mode, Q-markers from Xuefu Zhuyu capsule were successfully screened, which would substantially perform quality control of XZC and prove the feasibility of "spider-web" mode in solving the selection of quality control indicators from compound formulae.

Encapsulating Rifampicin into SLNs: A Viable Option for Managing its Bioavailability Issues Upon Co-Delivery with Isoniazid.

BACKGROUND: Rifampicin is known to degrade at the acidic pH of the stomach, especially in the presence of isoniazid. Although isoniazid also degrades partially, its degradation is reversible. OBJECTIVE: Presently, we provide a proof of the fact that the simultaneous oral administration of rifampicin (RIF), upon incorporation into solid lipid nanoparticles (RIF-SLNs), with isoniazid (INH) overcomes its INH-induced degradation and improves its oral bioavailability in rats. METHODS: Solid lipid nanoparticles of RIF (RIF-SLNs) were prepared using a novel and patented method. The effect of INH was investigated on in vivo bioavailability of RIF both in its free and encapsulated (RIF-SLNs) form, after oral administration to rats. RESULTS: Cmax and AUC0-∞ of RIF increased 158 % and 125 %, respectively, upon incorporation into SLNs versus free RIF when combined with INH. The Tmax decreased from 5.67 h to 3.3 h, and the plasma concentration of RIF remained above its MIC (8 µg/ml) at all the tested time points starting with 15 min, when administered as RIF-SLNs in combination with INH. CONCLUSION: The results confirm the scope of combining RIF-SLNs with INH to overcome the bioavailability of free RIF when combined with INH, especially in fixed dose combinations.

Improved solubility, dissolution, and oral bioavailability for atorvastatin-Pluronic® solid dispersions.

Despite the status of atorvastatin (AT) as one of the top selling statins for prophylaxis against primary and secondary cardiovascular diseases, its limited oral absorption limits its full therapeutic benefits. Herein, formulations of AT with amphiphilic carriers (Pluronic F127® and Pluronic F68®) were developed in the form of hard capsules to improve in vitro solubility and dissolution, as well as in vivo oral bioavailability. Prepared formulas were characterized by assessing solubility improvements in the carrier solution and examining the FTIR, DSC, and X-RPD profiles for each formula. The dissolution rate and absorption were also examined after oral administration to New Zealand rabbits. The solubility of AT was improved by the incorporation of either Pluronic F127® or Pluronic F68®. No chemical changes or interactions were detected using X-RPD, DSC, and FTIR characterization. Dissolution profiles revealed an increase in the rate and maximum amount of dissolved AT and showed that up to 93% of the AT content was dissolved within 30 min. In vivo absorption of the tested formula (Cmax = 1146 ng/ml and AUC0-12 to 9,993.4 ng.h/ml) was greater than Lipitor® (Cmax = 642.3 ng/ml and AUC0-12 = 4427.4 ng.h/ml) and AT (Cmax = 517.6 ng/ml and AUC0- 12 = 2,473.7 ng.h/ml). In conclusion, the formulation of AT with Pluronics® profoundly augments the dissolution behavior and absorption of AT and may serve as a useful approach for improving AT therapeutic and clinical efficacy.

Physical characteristics and properties of estradiol softgel vaginal inserts.

OBJECTIVE: TX-004HR is a low-dose estradiol (E2) softgel vaginal insert designed to be rapidly dissolving and mucoadhesive. This report describes the physical attributes and pharmacokinetic parameters of the softgel vaginal insert evaluated for the treatment of moderate to severe dyspareunia due to menopausal vulvar and vaginal atrophy. METHODS: In vitro dissolution studies with 25-µg E2 inserts were performed and media samples were analyzed for E2 by high-performance liquid chromatography. Effects of body position on E2 bioavailability were assessed in a phase 1, randomized trial of the 25-µg softgel capsule versus a reference product in which women remained supine after dosing (n = 16), and in a substudy (n = 16) in which women were ambulatory or seated after dosing. Estradiol C max, AUC0-24, and t max were measured by high-performance liquid chromatography-tandem mass spectroscopy. A phase 2, randomized study (n = 50) of 10-µg E2 versus placebo inserts assessed timing of capsule disintegration at days 1 and 15. RESULTS: In vitro testing detected more than 80% of E2 in the dissolution medium by 15 minutes (first time point measured). In the phase 1 studies, baseline-corrected E2 plasma levels were not significantly different regardless of supine versus ambulatory/seated position after dosing: C max, 24.1 versus 34.3 pg/mL; AUC0-24, 77.6 versus 93.7 h ·â€Špg/mL; and t max, 2.1 versus 1.9 hours, respectively. In the phase 2 study, no remnants of the softgel capsule were found at day 1 (6 hours) after dosing and day 15. Vaginal discharge was minimal (1/48 women; 2.1%). CONCLUSIONS: The presented data support rapid dissolution of the softgel capsule and similar E2 pharmacokinetic parameters regardless of body position after dosing.

Examination of a New Delivery Approach for Oral Cannabidiol in Healthy Subjects: A Randomized, Double-Blinded, Placebo-Controlled Pharmacokinetics Study.

INTRODUCTION: Therapeutic effects of cannabidiol (CBD) in specialized populations continue to emerge. Despite supra-physiological dosing being shown to be tolerable in various pathologies, optimization of CBD absorption has obvious benefits for general health and recreational usage. Our objectives were to: (1) to investigate a joint pharmacokinetic-physiological time course of multiple recreational-equivalent (< 100 mg) dosages of oral CBD in young healthy adults and (2) evaluate a newly developed technology (TurboCBD™) for the enhanced delivery of CBD. METHODS: In a double-blinded, placebo-controlled, cross-over design, 12 participants received placebo, generic 45 or 90 mg of CBD, or TurboCBD™ delivery technology capsules on five separate occasions. RESULTS: Although there were no differences in the 45 mg conditions, circulating CBD levels were higher with the TurboCBD™ 90 mg group at both 90 (+ 86%) and 120 (+ 65%) min compared with the 90 mg control (p < 0.05). Total area under the curve tended to be higher with TurboCBD™ 90 mg compared with 90 mg (10,865 ± 6322 ng ml-1 vs. 7114 ± 2978 ng ml-1; p = 0.088). Only the TurboCBD™ 90 mg dose was elevated greater than placebo at 30 min (p = 0.017) and remained elevated at 4 h (p = 0.002). CONCLUSION: Consistent with higher bioavailability, TurboCBD™ 90 mg at the peak CBD concentration was associated with an increase in cerebral perfusion and slight reduction in blood pressure compared with baseline and the 90 mg control. Further studies are needed to establish the mechanisms of action of this technology and to explore the therapeutic potential of acute and chronic dosing on more at-risk populations. FUNDING: Lexaria Bioscience Corp. TRIAL REGISTRATION: ClinicalTrials.gov identifier, NCT03295903.

Pharmacokinetics of hard micronized progesterone capsules via vaginal or oral route compared with soft micronized capsules in healthy postmenopausal women: a randomized open-label clinical study.

PURPOSE: This study aimed to evaluate the pharmacokinetics of hard micronized progesterone capsules (Yimaxin) via the vaginal or oral route compared with soft micronized progesterone capsules (Utrogestan) in a Chinese population. METHODS: A prospective single-center randomized open-label trial was conducted in 16 healthy postmenopausal women. They were randomized into two groups to receive four phases of treatment: vaginal Yimaxin, vaginal Utrogestan, oral Yimaxin, or oral Utrogestan, with different sequences. RESULTS: By the vaginal route, steady-state maximum concentration (Cmax) of Yimaxin and Utrogestan was 29.13±8.09 and 12.30±1.60 mg/L, time to Cmax 9.72±10.50 and 11.03±9.62 hours, central compartment volume of distribution 4.26±1.86 and 10.40±2.32 L, clearance rate 0.18±0.05 and 0.38±0.10 L/h, and AUC 261.42±74.36 and 116.83±19.72 h·ng/mL, respectively. By the oral route, Cmax of Yimaxin and Utrogestan was 62.97±40.59 and 169.53±130.24 mg/L, time to Cmax was 2.88±1.35 and 2.06±1.55 hours, central compartment volume of distribution 132.16±52.13 and 85.08±55.07 L, clearance rate 3.43±1.07 and 2.50±1.04 L/h, and AUC 274.86±160.28 and 472.00±250.54 h·ng/mL, respectively. By the vaginal route, Cmax, minimum concentration, AUC0-72, and AUC of Yimaxin were higher than Utrogestan, while by the oral route the Cmax, AUC0-72, and AUC of Utrogestan were higher than Yimaxin. CONCLUSION: Pharmacokinetic parameters were different between Yimaxin and Utrogestan on vaginal and oral administration. By the oral route, the metabolism and absorption of Utrogestan was superior to Yimaxin, while by the vaginal route Yimaxin was superior.

Development of Dexlansoprazole Delayed-Release Capsules, a Dual Delayed-Release Proton Pump Inhibitor.

Proton pump inhibitors (PPIs) are widely used for treating acid-related disorders. For an "ideal PPI," achieving maximal absorption and sustaining pharmacodynamic effects through the 24-h dosing cycle are critical features. Dexlansoprazole offers a relevant case study on how an improved PPI was developed capitalizing on the rational optimization of a precursor molecule-in this case, using lansoprazole as a starting point, leveraging its chemical properties on pharmacokinetics, and exploring optimized formulations. Dexlansoprazole is the R(+)-enantiomer of lansoprazole and shows stereoselective differences in absorption and metabolism compared with the racemic mixture of lansoprazole. The formulation was further refined to use pulsate-type granules with enteric coating to withstand acidic gastric conditions, while allowing prolonged absorption in the proximal and distal small intestine. As a result, the dual delayed-release formulation of dexlansoprazole has a plasma concentration-time profile characterized by 2 distinct peaks, leading to an extended duration of therapeutic plasma drug concentrations compared with the conventional delayed-release lansoprazole formulation. The dual delayed-release formulation maintains plasma drug concentrations longer than the lansoprazole delayed-release formulation at all doses.

Enhanced gastrointestinal survivability of recombinant Lactococcus lactis using a double coated mucoadhesive film approach.

Vaccine administration via the oral route is preferable to parenteral routes due to ease of administration. To date, most available oral vaccines comprises of live attenuated pathogens as oppose to peptide-based vaccines due to its low bioavailability within the gastrointestinal (GI) tract. Over the years, probiotic-based peptide delivery vehicles comprising of lactic acid bacteria such as Lactococcus lactis has emerged as an interesting alternative due to its generally recognized as safe (GRAS) status, a fully sequenced genome, transient gut colonization time, and is an efficient cellular factory for heterologous protein production. However, its survivability through the GI tract is low, thus better delivery approaches are being explored to improve its bioavailability. In this study, we employ the incorporation of a double coated mucoadhesive film consisting of sodium alginate and Lycoat RS 720 film as the inner coat. The formulated film exhibits good mechanical properties of tensile strength and percent elongation for manipulation and handling with an entrapment yield of 93.14±2.74%. The formulated mucoadhesive film is subsequently loaded into gelatin capsules with an outer enteric Eudragit L100-55 coating capable of a pH-dependent breakdown above pH 5.5 to protect against gastric digestion. The final product and unprotected controls were subjected to in vitro simulated gastrointestinal digestions to assess its survivability. The product demonstrated enhanced protection with an increase of 69.22±0.67% (gastric) and 40.61±8.23% (intestinal) survivability compared to unprotected controls after 6 hours of sequential digestion. This translates to a 3.5 fold increase in overall survivability. Owing to this, the proposed oral delivery system has shown promising potential as a live gastrointestinal vaccine delivery host. Further studies involving in vivo gastrointestinal survivability and mice immunization tests are currently being carried out to assess the efficacy of this novel oral delivery system in comparison to parenteral routes.

Systematic evaluation of the impact of solid-state polymorphism on the bioavailability of thalidomide.

Thalidomide (TLD) is used to treat erythema nodosum leprosum (ENL), multiple myeloma, aphthous ulceration and wasting syndrome in HIV patients. The API can be found in two crystalline habits known as α-TLD and ß-TLD. The saturation solubility (Cs) and the dissolution profiles under non-sink and sink conditions of both polymorphs were assessed. In addition, mini-capsules containing α-TLD or ß-TLD without excipients were orally given (10 mg/kg) to Wistar rats. An intravenous (i.v.) dose was also administrated (5 mg/kg). The Cs values for α-TLD and ß-TLD were not significantly different (α = 56.2 ±â€¯0.5 µg·mL-1; ß = 55.2 ±â€¯0.2 µg·mL-1). However, the dissolution profile of α-TLD presented the fastest rate and the largest extension of drug dissolution than that from ß-TLD (80% in 4 h versus 55% in 4 h). The α-TLD provided a more favorable pharmacokinetic than the ß-TLD (maximum plasma concentration - Cmax: 5.4 ±â€¯0.90 µg·mL-1versus 2.6 ±â€¯0.2 µg·mL-1; area under the curve of the concentration-time profile from time zero to infinity - AUC0-∞: 44.3 ±â€¯8.8 µg·h·mL-1versus 33.9 ±â€¯4.7 µg·h·mL-1; absolute bioavailability - F: 92.2 ±â€¯18.5% versus 70.5 ±â€¯9.9%, respectively). Drug suppliers and pharmaceutical companies should strictly control the technological processes involved in the TLD API synthesis as well as in the production of the pharmaceutical dosage form in order to guarantee the inter-batch homogeneity and therefore, product compliance.

Shape-Dependent Biodistribution of Biocompatible Silk Microcapsules.

Microcapsules are emerging as promising microsize drug carriers due to their remarkable deformability. Shape plays a dominant role in determining their vascular transportation. Herein, we explored the effect of the shape of the microcapsules on the in vivo biodistribution for rational design of microcapsules to achieve optimized targeting efficiency. Silk fibroin, a biocompatible, biodegradable, and abundant material, was utilized as a building block to construct biconcave discoidal and spherical microcapsules with diameter of 1.8 µm and wall thickness of 20 nm. We have compared the cytocompatibility, cellular uptake, and biodistribution of both microcapsules. Both biconcave and spherical microcapsules exhibited excellent cytocompatibility and internalization into cancer cells. During blood circulation in mice, both microcapsules showed retention in liver and kidney and most underwent renal clearance. However, we observed significantly higher accumulation of biconcave silk microcapsules in lung compared with spherical microcapsules, and the accumulation was found to be stable in lung even after 3 days. The higher concentration of biconcave discoidal microcapsules found in lung arises from pulmonary environment, margination dynamics, and enhanced deformation in bloodstream. Red blood cell (RBC)-mimicking silk microcapsules demonstrated here can potentially serve as a promising platform for delivering drugs for lung diseases.

Characterizing the Sources of Pharmacokinetic Variability for TAK-117 (Serabelisib), an Investigational Phosphoinositide 3-Kinase Alpha Inhibitor: A Clinical Biopharmaceutics Study to Inform Development Strategy.

TAK-117 (also known as MLN1117 or serabelisib) is an orally available inhibitor of phosphoinositide 3-kinase alpha being developed for treatment of solid tumors. This clinical study in healthy subjects assessed the relative bioavailability of a TAK-117 tablet compared with a capsule formulation (part 1) and the effect of food (part 2) and intragastric pH modulation (part 3) on TAK-117 pharmacokinetics. In part 1, subjects received single doses of 900 mg TAK-117 under fasting conditions as capsules and tablets on 2 different occasions in random order. In part 2, subjects received a single dose of 600 mg TAK-117 under fed (high-fat meal) or fasted conditions on 2 different occasions in random order. In part 3, subjects received a single dose of 900 mg TAK-117 alone and in combination with lansoprazole in a fixed sequence. Blood samples were collected up to 72 hours after each TAK-117 dose. The geometric mean ratios (90% confidence intervals) for the area under the TAK-117 plasma concentration-time curves were 1.53 (0.93-2.51) for tablets versus capsules, 1.50 (1.00-2.25) for fed versus fasted, and 0.02 (0.01-0.04) for TAK-117 plus lansoprazole compared with TAK-117 alone. The most common adverse event was nausea, the incidence of which was reduced when TAK-117 was administered with food despite the increased systemic exposure. The incidence of all adverse events was reduced when TAK-117 was administered with lansoprazole, which was consistent with the substantial reduction in bioavailability. Intersubject variability of TAK-117 was high. Careful management of intragastric pH-modulatory concomitant medications and food intake may be required.

Comparative phase I randomized open-label pilot clinical trial of Gynophilus® (Lcr regenerans®) immediate release capsules versus slow release muco-adhesive tablets.

Gynophilus® (Lcr regenerans®) is a live biotherapeutic product (LBP) that contains the live biotherapeutic microorganism Lactobacillus rhamnosus Lcr35®, which is indicated to restore vaginal health. The aim of the study was to compare the safety, ease of use, and compliance of two formulations (immediate release: IR capsule and slow release: SR muco-adhesive tablets) as well as the colonization of Lcr35® in healthy women. This phase I study (Comprigel) is a parallel, randomized, 4-arm, and open-label clinical trial evaluating an IR daily capsule formulation vs. a SR tablet administered every 3, 4, or 5 days for 21 days. Self-collected vaginal swabs were used to quantify Lcr35® and characterize the composition and structure of the vaginal microbiota. Both LBPs were well-tolerated, and no severe adverse effects were reported. All groups had Lcr35® vaginal concentrations over 107 colony forming unit per milliliter of vaginal secretion on each day in the study. The new Gynophilus® slow release tablets administered either every 3, 4, or 5 days provided vaginal concentrations that were not significantly different from those of classic Gynophilus® (capsule) once-a-day regimen. The LBPs and the different regimens did not adversely influence the abundance of native Lactobacillus spp. and indeed tended to favor their growth and reduce colonization by non-Lactobacillus spp. This study illustrates that the SR muco-adhesive LBP tablet (Gynophilus® SR) administered every 3 or 4 days as a safe, well-tolerated, and efficacious alternative to a more demanding IR daily capsule and could protect women's healthy vaginal microbiome by promoting endogenous Lactobacillus spp.

Pharmacokinetics of the Oral Selective CXCR2 Antagonist AZD5069: A Summary of Eight Phase I Studies in Healthy Volunteers.

OBJECTIVE: The aim of this study was to summarise the pharmacokinetic findings from eight phase I studies in healthy volunteers given oral AZD5069, a selective small-molecule CXCR2 antagonist. METHODS: 240 healthy volunteers across eight phase I studies received single (0.1-200 mg) or multiple once- or twice-daily (10-120 mg) oral AZD5069 as solution, suspension, capsules or tablets. Pharmacokinetics were evaluated using non-compartmental analysis methods. RESULTS: AZD5069 was rapidly absorbed (time to maximum concentration ~ 2 h) under fasting conditions. A high-fat, high-calorie meal delayed and reduced the peak plasma AZD5069 concentration (Cmax) by 50%, but total exposure (AUC) was unchanged (fed:fasting geometric mean ratio 90% confidence interval within 0.80-1.25). The plasma concentration of AZD5069 declined with an initial half-life of 4 h and terminal half-life of 11 h. Steady-state plasma concentrations were achieved within 2-3 days and accumulation was ~ 1.1-fold with twice-daily dosing. Systemic exposure was approximately proportional to dose. Intra- and inter-subject variability in AUC was 3-11 and 29-64%, respectively. Less than 5% of the AZD5069 dose was excreted as parent drug in the urine. Elderly subjects had 39% higher AZD5069 AUC and 21% higher Cmax than younger adults. Japanese subjects had similar or slightly higher exposure to AZD5069 than Caucasian subjects. Co-administration with ketoconazole resulted in 2.1-fold higher AUC and 1.6-fold higher Cmax. All formulations had similar bioavailability. CONCLUSIONS: AZD5069 demonstrated predictive linear pharmacokinetics with low intra- and moderate inter-subject variability and no major influences from ethnicity, age, food or formulation. Half-life data indicated suitability for twice-daily dosing. CLINICALTRIALS. GOV IDENTIFIERS: NCT00953888, NCT01051505, NCT01083238, NCT01100047, NCT01332903, NCT01480739, NCT01735240, NCT01989520.

Bioequivalence study of single-dose lenalidomide capsule vs. Revlimid® capsule in healthy Chinese males.

OBJECTIVE: Lenalidomide is a 4-amino-glutaryl derivative of thalidomide and belongs to a new generation of immunomodulatory agents for the treatment of patients with myelodysplastic syndrome and multiple myeloma. The aim of this study is to evaluate the bioequivalence and safety of a capsule containing 25 mg of a test formulation of lenalidomide and a 25 mg Revlimid® capsule in healthy, Chinese adult males for good quality anti-cancer medicine with lower costs. METHODS: This was a single-center, randomized, open-label, single-dose, two-period, crossover pharmacokinetic study. Forty-eight healthy, adult Chinese males were administered a test lenalidomide or Revlimid® capsule, 24 in a fasted and 24 in a fed state, followed by crossover to the other capsule. RESULTS: Twenty-four subjects in the fasting group and 23 in the postprandial group completed the clinical trial. Subjects administered test lenalidomide and Revlimid® capsules in the fasting state had a Cmax of 564 ± 153 and 609 ± 121 ng/mL, respectively; an AUC0-t of 1660 ± 211 and 1660 ± 235 h ng/mL, respectively; and an AUC0-∞ of 1670 ± 210 and 1670 ± 237 h ng/mL, respectively. In the fed state, the subjects had a Cmax of 389 ± 105 and 383 ± 101 ng/mL, respectively; an AUC0-t of 1770 ± 314 and 1740 ± 360 h ng/mL, respectively; and an AUC0-∞ of 1800 ± 316 and 1760 ± 362 h ng/mL, respectively. Both capsules were well tolerated, with no serious adverse events observed. CONCLUSION: According to the criteria for bioequivalence, the test formulation of lenalidomide and Revlimid® was determined to be bioequivalent.

Pharmacokinetic Comparison of Two Mycophenolate Mofetil Formulations in Kidney Transplant Recipients.

BACKGROUND: The aim of this study was to investigate and compare the pharmacokinetic (PK) characteristics of mycophenolate mofetil (MMF) capsule and MMF dispersible tablet by detecting the active metabolite of mycophenolic acid (MPA) in Chinese kidney transplant recipients. METHODS: In the prospective, randomized, open-label study, the renal transplant patients were given a multiple dose of either the MMF capsule or MMF dispersible tablet combination with tacrolimus (Tac). For each patient, 11 serial blood samples were collected over 12 hours (h). Parameters including predose concentration (C0), postdose minimum and maximum concentration (Cmin and Cmax), time to Cmax (Tmax), total body clearance (CL), and area under the concentration-time curve for the 12-hour exposure (AUC0-12h) were determined. Patient interviews were conducted to assess the occurrence of adverse events. RESULTS: Baseline characteristics were comparable between both groups. The C0, Cmin, Cmax, Tmax, CL, and AUC0-12h values were not significantly different after multiple doses of MMF capsule or MMF dispersible tablet (P > 0.05). The median values of AUC0-12h were 43.98 and 41.95 mcg·h/mL for MMF capsule and MMF dispersible tablet, respectively. Interindividual variability in Cmax, Cmin, and C0 were considerable in both groups. No serious adverse events were reported by patients or found on analysis of laboratory tests. CONCLUSIONS: PK parameters of the 2 MPA drugs were comparable in early renal transplant patients in this study. The 2 formulations were well tolerated in Chinese kidney transplant patients.

Evaluation of the physicochemical stability and digestibility of microencapsulated esterified astaxanthins using in vitro and in vivo models.

Esterified astaxanthins are used as functional nutraceuticals in many food products. Unfortunately, their utilization is currently limited owing to their poor water solubility, chemical instability, and low bioavailability. In this study, esterified astaxanthin microcapsules were fabricated through electrostatic complexation of whey protein and gum arabic by adjusting the pH to 4.0. After their encapsulation, the stability of the esterified astaxanthins was effectively better than that of the oleoresin. In vitro tests revealed a 26% rate of astaxanthin release from the microcapsules, which was significantly higher than the 14.6% rate from the oleoresin (P < 0.05). In vivo experiments showed that the AUC0-t value after oral gavage of the microcapsules (8.23 ±â€¯1.33 h·µg·mL-1) was approximately 2-fold higher than that after gavage of the oleoresin (3.72 ±â€¯0.98 h·µg·mL-1). In conclusion, the bioavailability of esterified astaxanthins can be significantly improved by microencapsulation.

Ra-224 labeling of calcium carbonate microparticles for internal α-therapy: Preparation, stability, and biodistribution in mice.

Internal therapy with α-emitters should be well suited for micrometastatic disease. Radium-224 emits multiple α-particles through its decay and has a convenient 3.6 days of half-life. Despite its attractive properties, the use of 224 Ra has been limited to bone-seeking applications because it cannot be stably bound to a targeting molecule. Alternative delivery systems for 224 Ra are therefore of considerable interest. In this study, calcium carbonate microparticles are proposed as carriers for 224 Ra, designed for local therapy of disseminated cancers in cavitary regions, such as peritoneal carcinomatosis. Calcium carbonate microparticles were radiolabeled by precipitation of 224 Ra on the particle surface, resulting in high labeling efficiencies for both 224 Ra and daughter 212 Pb and retention of more than 95% of these nuclides for up to 1 week in vitro. The biodistribution after intraperitoneal administration of the 224 Ra-labeled CaCO3 microparticles in immunodeficient mice revealed that the radioactivity mainly remained in the peritoneal cavity. In addition, the systemic distribution of 224 Ra was found to be strongly dependent on the amount of administered microparticles, with a reduced skeletal uptake of 224 Ra with increasing dose. The results altogether suggest that the 224 Ra-labeled CaCO3 microparticles have promising properties for use as a localized internal α-therapy of cavitary cancers.

Mechanistic modelling of drug release from multi-layer capsules.

We propose a novel in silico model for computing drug release from multi-layer capsules. The diffusion problem in such heterogeneous layer-by-layer composite medium is described by a system of coupled partial differential equations, which we solve analytically using separation of variables. In addition to the conventional partitioning and mass transfer interlayer conditions, we consider a surface finite mass transfer resistance, which corresponds to the case of a coated capsule. The drug concentration in the core and through all the layers, as well as in the external release medium, is given in terms of a Fourier series that we compute numerically to describe and characterize the drug release mechanism.

A Phase 1 Study to Assess the Relative Bioavailability of Two Capsule Formulations of Ixazomib, an Oral Proteasome Inhibitor, in Patients With Advanced Solid Tumors or Lymphoma.

The oral proteasome inhibitor ixazomib is approved in multiple countries in combination with lenalidomide and dexamethasone for the treatment of patients with multiple myeloma who have received at least 1 prior therapy. Two oral capsule formulations of ixazomib have been used during clinical development. This randomized, 2-period, 2-sequence crossover study (Clinicaltrials.gov identifier NCT01454076) assessed the relative bioavailability of capsule B in reference to capsule A in adult patients with advanced solid tumors or lymphoma. The study was conducted in 2 parts. In cycle 1 (pharmacokinetic cycle), patients received a 4-mg dose of ixazomib as capsule A or capsule B on day 1, followed by a 4-mg dose of the alternate capsule formulation on day 15. Pharmacokinetic samples were collected over 216 hours postdose. After the pharmacokinetic cycle, patients could continue in the study and receive ixazomib (capsule B only) on days 1, 8, and 15 of each 28-day cycle. Twenty patients were enrolled; of these, 14 were included in the pharmacokinetic-evaluable population. Systemic exposures of ixazomib were similar after administration of capsule A or capsule B. The geometric least-squares mean ratios (capsule B versus capsule A) were 1.16 for Cmax (90% confidence interval [CI], 0.84-1.61) and 1.04 for AUC0-216 (90%CI, 0.91-1.18). The most frequently reported grade 3 drug-related adverse events were fatigue (15%) and nausea (10%); there were no grade 4 drug-related adverse events. These results support the combined analysis of data from studies that used either formulation of ixazomib during development.