Metabolism and Mass Balance of the Novel Nonsteroidal Androgen Receptor Inhibitor Darolutamide in Humans.

The biotransformation and excretion of darolutamide were investigated in a phase I study. Six healthy male volunteers received a single dose of 300 mg 14C-darolutamide as an oral solution in the fasted state. Plasma, urine, and feces samples were analyzed for mass balance evaluation by liquid scintillation counting (LSC). Metabolite profiling and identification were determined using liquid chromatography mass-spectrometry with off-line radioactivity detection using LSC. Complete mass balance was achieved, with mean radioactivity recovery of 95.9% within 168 hours (63.4% in urine, 32.4% in feces). The administered 1:1 ratio of (S,R)- and (S,S)-darolutamide changed to approximately 1:5, respectively, in plasma. Darolutamide and the oxidation product, keto-darolutamide, were the only components quantifiable by LSC in plasma, accounting for 87.4% of total radioactivity, with a 2.1-fold higher plasma exposure for keto-darolutamide. Aside from darolutamide, the most prominent metabolites in urine were O-glucoronide (M-7a/b) and N-glucuronide (M-15a/b), as well as pyrazole sulfates (M-29, M-24) and glucuronides (M-21, M-22) resulting from oxidative cleavage of the parent. The darolutamide diastereomers were mainly detected in feces. In vitro assays showed that darolutamide metabolism involves a complex interplay between oxidation and reduction, as well as glucuronidation. Interconversion of the diastereomers involves oxidation to keto-darolutamide, primarily mediated by CYP3A4, followed by reduction predominantly catalyzed by cytosolic reductase(s), with aldo-keto reductase 1C3 playing the major role. The latter reaction showed stereoselectivity with preferential formation of (S,S)-darolutamide. SIGNIFICANCE STATEMENT: The metabolism and excretion of darolutamide in humans revealed that oxidation (CYP3A4) and glucuronidation (UGT1A9, UGT1A1) were the main metabolic routes of elimination. Direct excretion also contributed to overall clearance. The two pharmacologically equipotent diastereomers of darolutamide interconvert primarily via oxidation to the active metabolite keto-darolutamide, followed by reduction predominantly by cytosolic reductase(s). The latter reaction showed stereoselectivity with preferential formation of (S,S)-darolutamide. Data indicate a low drug-drug interaction potential of darolutamide with inducers or inhibitors of metabolizing enzymes.

An UPLC-MS/MS Method for Simultaneous Quantification of the Components of Shenyanyihao Oral Solution in Rat Plasma.

OBJECTIVES: To study the quantification of the components in rat plasma after oral administration of Shenyanyihao oral solution. METHODS: Shenyanyihao oral solution has been traditionally used for the treatments of chronic nephritis in clinics. Stachydrine, Danshensu, chlorogenic acid, protocatechuic acid, plantamajoside, aesculetin, isoquercitrin, ferulic acid, baicalin, and baicalein are regarded as the main compounds in Shenyanyihao oral solution. A sensitive, efficient, and precise UPLC-MS/MS method was established and validated for the quantification of the components in rat plasma after oral administration of Shenyanyihao oral solution. RESULTS: The main pharmacokinetic parameters of the components were acquired based on the analysis of the plasma sample by a noncompartmental method using the WinNonlin7.0 pharmacokinetic program. Danshensu, protocatechuic acid, isoquercitrin, and ferulic acid from Shenyanyihao oral solution were quickly absorbed, and their peak concentration occurred at less than 0.5 h. The pharmacokinetic parameter of the average t 1/2 from Danshensu was 3.91 h in rats, and it was the most rapid distribution and elimination among the components. In addition, the C max of stachydrine and baicalin were revealed as the higher plasma concentrations in rats. CONCLUSIONS: This pharmacokinetic study seems to be useful for a further clinical study of Shenyanyihao oral solution in the treatments of chronic nephritis.

Pharmacokinetics of lopinavir/ritonavir oral solution to treat COVID-19 in mechanically ventilated ICU patients.

BACKGROUND: The combination lopinavir/ritonavir is recommended to treat HIV-infected patients at the dose regimen of 400/100 mg q12h, oral route. The usual lopinavir trough plasma concentrations are 3000-8000 ng/mL. A trend towards a 28 day mortality reduction was observed in COVID-19-infected patients treated with lopinavir/ritonavir. OBJECTIVES: To assess the plasma concentrations of lopinavir and ritonavir in patients with severe COVID-19 infection and receiving lopinavir/ritonavir. PATIENTS AND METHODS: Mechanically ventilated patients with COVID-19 infection included in the French COVID-19 cohort and treated with lopinavir/ritonavir were included. Lopinavir/ritonavir combination was administered using the usual adult HIV dose regimen (400/100 mg q12h, oral solution through a nasogastric tube). A half-dose reduction to 400/100 mg q24h was proposed if lopinavir Ctrough was >8000 ng/mL, the upper limit considered as toxic and reported in HIV-infected patients. Lopinavir and ritonavir pharmacokinetic parameters were determined after an intensive pharmacokinetic analysis. Biological markers of inflammation and liver/kidney function were monitored. RESULTS: Plasma concentrations of lopinavir and ritonavir were first assessed in eight patients treated with lopinavir/ritonavir. Median (IQR) lopinavir Ctrough reached 27 908 ng/mL (15 928-32 627). After the dose reduction to 400/100 mg q24h, lopinavir/ritonavir pharmacokinetic parameters were assessed in nine patients. Lopinavir Ctrough decreased to 22 974 ng/mL (21 394-32 735). CONCLUSIONS: In mechanically ventilated patients with severe COVID-19 infections, the oral administration of lopinavir/ritonavir elicited plasma exposure of lopinavir more than 6-fold the upper usual expected range. However, it remains difficult to safely recommend its dose reduction without compromising the benefit of the antiviral strategy, and careful pharmacokinetic and toxicity monitoring are needed.

Impacts of Polymeric Additives on Nucleation and Crystal Growth of Indomethacin from Supersaturated Solutions.

Three polymers, polyvinylpyrrolidone (PVP K30), hydroxypropyl methyl cellulose (HPMC E5), and Kollidone VA64 (PVP-VA64), have been assessed for their impact on the nucleation and crystal growth of indomethacin (IND) from supersaturation solutions. PVP was the most effective inhibitor on IND nucleation among three polymers, but the effect of three polymers on inhibiting nucleation is quite limited when the degree of supersaturation S is higher than about 9. Analysis of the nucleation data by classical nucleation theory model generally afforded good data fitting with the model and showed that addition of polymers may affect the crystal/solution interfacial free energy γ and also the pre-exponential kinetic factor. PVP-VA showed better inhibitory effects on crystal growth of IND when the polymer concentration is high (0.1%, w/w) as reflected by the crystal growth inhibition factor R, and PVP exhibited relatively stronger effects on inhibiting crystal growth at low polymer concentrations (0.005%, w/w). The crystal growth inhibitory effect of polymers should be attributable to the retardation of the surface integration of the drug, and such effect should also be polymer and drug dependent. The enhancement of supersaturation level of IND should be attributable to both nucleation and crystal growth inhibition by polymers. The nucleation and crystal growth rate of α-polymorph IND is higher than that of γ-polymorph, and α-polymorph is the predominant form appeared in supersaturated solutions. A rational selection of the appropriate polymer for specific drug is critical for developing supersaturated drug delivery formulations.

Clinical Bioavailability of the Novel BACE1 Inhibitor Lanabecestat (AZD3293): Assessment of Tablet Formulations Versus an Oral Solution and the Impact of Gastric pH on Pharmacokinetics.

The relative bioavailability of lanabecestat administered as 2 tablet formulations versus an oral solution was investigated. This phase 1 single-center, open-label, randomized, 3-period crossover study involved healthy male and nonfertile female subjects aged 18-55 years (NCT02039180). Subjects received a single 50-mg lanabecestat dose as solution, tablet A, or tablet B on day 1 of each crossover period; 14 of 16 subjects completed the study. Relative bioavailability based on plasma lanabecestat AUC0-∞ (area under the plasma drug concentration-time curve from zero to infinity) geometric mean ratio versus oral solution (primary variable) was: tablet A, 1.052 (90% confidence interval [CI], 1.001-1.106); tablet B, 1.040 (0.989-1.093). These 90%CIs for geometric mean ratios are within accepted standard bioequivalence boundaries for all other pharmacokinetic (PK) parameters for both lanabecestat and metabolite (AZ13569724). All 3 formulations had similar plasma lanabecestat concentration-time profiles. Six adverse events were reported by 6 subjects (37.5%, all mild). GastroPlus modeling predicted a negligible impact of gastric pH changes on systemic PK (up to pH 7.4). Both tablet formulations fall within standard accepted bioequivalence criteria versus the oral solution. A single 50-mg lanabecestat dose was well tolerated as a solution or tablet formulation in this population.

Population pharmacokinetic evaluation of ADV6209, an innovative oral solution of midazolam containing cyclodextrin.

INTRODUCTION: In the absence of a licensed formulation in many countries worldwide, ADV6209, an innovative 2mg/ml oral solution of midazolam containing cyclodextrin, has been developed for moderate sedation in paediatric patients. Population pharmacokinetics for ADV6209 is reported. METHODS: Plasma concentration data were collected from 37 paediatric patients and 12 healthy adults recruited in a single dose, open-label phase II pharmacokinetic study and in a single dose, randomised, open-label two-period crossover bioavailability study, respectively. Data were analysed using non-linear mixed effect modelling. Plasma concentrations of midazolam were described by a two-compartment model. An additional one-compartment model was added for α- hydroxymidazolam. RESULTS: The body weight covariate was found to have a significant impact on midazolam and α-hydroxymidazolam clearance, and on midazolam volume of distribution. The population pharmacokinetic model indicated that 77% of the midazolam dose was absorbed within 30min after oral administration. Parameter estimations for a subject of 34kg indicated values of midazolam clearance of 34.7l·h-1, a central volume of distribution of 27.9l and a peripheral volume of distribution of 413l. A higher metabolic ratio and a higher midazolam clearance per body weight were observed in the youngest group of subjects, in accordance with literature data. The clearance per body weight of α-hydroxymidazolam remained constant over the different age groups. CONCLUSION: Pharmacokinetic parameters were close to those reported in the literature with midazolam extemporaneous oral solutions or syrups, demonstrating that cyclodextrin had no significant effect on measured parameters.

Inhibition of the solid state transformation of carbamazepine in aqueous solution: impact of polymeric properties.

The effects of polymers on the anhydrate-to-hydrate transformation of carbamazepine (CBZ) was investigated. The three types of polymers studied were polyvinylpyrrolidone (PVP), polyvinyl alcohol (PVA) and substituted celluloses which included hydroxypropyl methylcellulose (HPMC) and methylcellulose (MC). Anhydrous CBZ was added to dilute aqueous polymer solutions and Raman spectroscopy measurements were collected to monitor the kinetics of the solution-mediated transformation to CBZ dihydrate. Polymers exhibiting the greatest inhibition were able to reduce the growth phase of the solution-mediated transformation and change the habit of the hydrate crystal indicating polymer adsorption to the hydrate crystal surface as the mechanism of inhibition. The results of the various polymers showed that short chain substituted celluloses (HPMC and MC) inhibited the CBZ transformation to a much greater extent than longer chains. The same trend was observed for PVP and PVA, but to a lesser extent. These chain length effects were attributed to changes in polymer confirmation when adsorbed on the crystal surface. Additionally, decreasing the percentage of hydroxyl groups on the PVA polymer backbone reduced the ability of the polymer to inhibit the transformation and changing the degree of substitutions of methyl and hydroxypropyl groups on the cellulosic polymer backbone had no effect on the transformation.

Preparation and evaluation of HPMC-based pirfenidone solution in vivo.

CONTEXT: Pirfenidone (PFD) has exhibited therapeutic potential in the treatment of cell proliferative disorders. The previously developed 0.5% water-based PFD eye drops by our team exhibited antiscarring effectiveness and ocular safety but with a limit of short half-life and poor bioavailability. OBJECTIVE: To increase bioavailability of the water-based PFD eye drops, we prepared a viscous solution by adding hydroxypropyl methylcellulose (HPMC, F4M), which acted as a viscosity-enhancer. Subsequently, we compared the HPMC-based PFD solution with the water-based PFD eye drops. MATERIALS AND METHODS: PFD solution with 1% HPMC (w/v) was prepared, and the viscosities at different shear rates were measured to investigate its rheology. PFD concentrations in the tear, aqueous humor, conjunctiva, cornea, and sclerae of New Zealand rabbits were detected at different time points with high-performance liquid chromatography (HPLC) following single instillation of the 0.5% PFD (w/v) water-based eye drops or HPMC-based solution. RESULTS: Compared with the 0.5% water-based PFD eye drops, the HPMC-based solution increased the PFD levels in tears and prolonged the residence time from 10 to more than 20 min (p < .01). Consequently, the concentrations of PFD in aqueous humor, conjunctiva, cornea, and sclera were elevated to varying degrees until 90 min after topical administration. CONCLUSIONS: The developed formulation possesses a same readily administration and simple preparation as the PFD eye drops; however, the HPMC-based solution exhibited the higher bioavailability.

Pharmacokinetics, safety and tolerability of the novel, selective mineralocorticoid receptor antagonist finerenone - results from first-in-man and relative bioavailability studies.

The safety, tolerability and pharmacokinetics of the selective nonsteroidal mineralocorticoid receptor antagonist finerenone were evaluated in healthy male volunteers in two randomized, single-centre studies. Study 1 was a first-in-man, single-blinded, placebo-controlled, parallel-group, dose-escalation study. Fasted participants (n = 45) received single oral doses of finerenone 1-40 mg polyethylene glycol (PEG) solution or placebo. Study 2 was a relative bioavailability study comparing a finerenone 10 mg immediate-release (IR) tablet with finerenone 10 mg PEG solution in the fasted state, investigating the effect of a high-fat/high-calorie meal on the pharmacokinetics of the IR tablet and assessing a further dose escalation to finerenone 80 mg (eight × finerenone 10 mg IR tablets), in an open-label, fourfold crossover design (n = 15). Finerenone was rapidly absorbed from PEG solution (median time to maximum plasma concentration [tmax ]: 0.500-1.00 h), exhibited dose-linear pharmacokinetics and was rapidly eliminated from plasma (geometric mean terminal half-life [t½ ]: 1.70-2.83 h). Finerenone IR tablets demonstrated similar pharmacokinetics (median tmax : 0.750-2.50 h; geometric mean t½ : 1.89-4.29 h) with, however, enhanced bioavailability versus PEG solution (least-squares mean tablet/solution ratio of 187% for area under the plasma-concentration curve [AUC] and maximum plasma concentration [Cmax ]). High-fat/high-calorie food affected the rate but not the extent of finerenone absorption. Finerenone was well tolerated and did not influence clinical laboratory parameters, blood pressure, heart rate, urinary electrolytes or neurohormones, including serum aldosterone and angiotensin II. In conclusion, finerenone has favourable pharmacokinetics and tolerability in healthy men, and is suitable for dosing independent of food intake.

In vitro and in vivo evaluation of thermosensitive chitosan hydrogel for sustained release of insulin.

Injectable In situ gel-forming chitosan/ß-glycerol phosphate (CS/ß-Gp) solution can be introduced into the body in a minimally invasive manner prior to solidifying within the target tissue. This hydrogel is a good candidate for achieving a prolonged drug delivery system for insulin considering its high molecular weight. In addition to the physicochemical characterization of this hydrogel, in vitro and in vivo applications were studied as a sustained insulin delivery system. In the in vitro release studies, 19-63% of total insulin was released from the CS/ß-Gp hydrogel within 150 h at different ß-Gp and insulin concentrations. The best formulation was selected for in vivo experimentation to control the plasma glucose of diabetic mice models. The hypoglycemic effect of this formulation following subcutaneous injection in diabetic mice lasted 5 d, significantly longer than that of free insulin solution which lasted several hours.

Gas-saturated solution process to obtain microcomposite particles of alpha lipoic acid/hydrogenated colza oil in supercritical carbon dioxide.

Alpha lipoic acid (ALA), an active substance in anti-aging products and dietary supplements, need to be masked with an edible polymer to obscure its unpleasant taste. However, the high viscosity of the ALA molecules prevents them from forming microcomposites with masking materials even in supercritical carbon dioxide (scCO2). Therefore, the purpose of this study was to investigate and develop a novel production method for microcomposite particles for ALA in hydrogenated colza oil (HCO). Microcomposite particles of ALA/HCO were prepared by using a novel gas-saturated solution (PGSS) process in which the solid-dispersion method is used along with stepwise temperature control (PGSS-STC). Its high viscosity prevents the formation of microcomposites in the conventional PGSS process even under strong agitation. Here, we disperse the solid particles of ALA and HCO in scCO2 at low temperatures and change the temperature stepwise in order to mix the melted ALA and HCO in scCO2. As a result, a homogeneous dispersion of the droplets of ALA in melted HCO saturated with CO2 is obtained at high temperatures. After the rapid expansion of the saturated solution through a nozzle, microcomposite particles of ALA/HCO several micrometers in diameter are obtained.

Pharmacokinetics and tissue distribution study of 16-dehydropregnenolone liposome in female mice after intravenous administration.

OBJECTIVE: 16-Dehydropregnenolone (16-DHP) is a potential antitumor compound with poor solubility. A liposome entrapped 16-DHP (16-DHP-LM) formulation was developed to surmount its solubility obstacle. The aim of this study is to investigate the pharmacokinetics of 16-DHP-LM and 16-DHP solution in female mice and tissue distribution of 16-DHP-LM in female tumor-bearing nude mice. METHODS: Rotary-evaporated film method was used to prepare 16-DHP-LM. The comparison of pharmacokinetics between 16-DHP-LM and 16-DHP solution in female mice was investigated after intravenous administration at a single dose of 15 mg/kg. The dose proportionality of 16-DHP-LM was also evaluated after intravenous administration of 16-DHP-LM at the doses of 7.5, 15.0 and 30.0 mg/kg. The tissue distribution of 16-DHP-LM in female tumor-bearing nude mice was evaluated after intravenous administration of 16-DHP-LM at a single dose of 30.0 mg/kg. RESULTS: The pharmacokinetic study indicated that the 16-DHP-LM group had higher area under the plasma concentration-time curve (AUC), lower apparent volume of distribution (Vz) and smaller systemic clearance (CL) than the 16-DHP solution group. For dose proportionality, good linearity of the pharmacokinetics of 16-DHP after intravenous administration of 16-DHP-LM was observed in the regression analysis of the AUC-dose plot (r = 0.99) and the Cmax-dose plot (r = 0.98). The tissue distribution study showed that the main tissue depots for 16-DHP in tumor-bearing nude mice were plasma, liver, spleen and tumor, which was benefit to anti-tumor effect. All these results provided a significant basis for the design of clinical trial of 16-DHP-LM.

Pharmacokinetics and Pharmacodynamics of NPH Insulin in Type 1 Diabetes: The Importance of Appropriate Resuspension Before Subcutaneous Injection.

OBJECTIVE: Crystalline NPH insulin comes in a two-phase solution with either a solvent or a rapid-acting insulin (in premixed formulations) and needs adequate mixing for complete resuspension before injection. The aim of this study was to establish pharmacokinetics (PK) and pharmacodynamics (PD) after injection of appropriately resuspended versus nonresuspended NPH insulin. RESEARCH DESIGN AND METHODS: PK and PD were assessed after subcutaneous injection of NPH insulin 0.35 units/kg at steady state by pen either resuspended (R+, tipping of insulin pen 20 times) or nonresuspended (pen maintained in fixed position either horizontally [R- horizontal] or vertically with tip up [R- up] or tip down [R- down]). Eleven subjects with type 1 diabetes (age 31.5 ± 12 years, diabetes duration 17.5 ± 7.7 years, BMI 22.9 ± 1.5 kg/m2, A1C 7.2 ± 0.4% [55.2 ± 4.4 mmol/mol]) were studied (euglycemic clamp) with a randomized crossover design. RESULTS: Compared with resuspended NPH insulin (R+), nonresuspended NPH insulin resulted in profound PK/PD differences with either reduced (R- horizontal and R- up) or increased (R- down) plasma insulin concentrations [FIRI_AUC(0-end of study) (free immunoreactive insulin area under the concentration-time curve between 0 and end of study)] and PD activity [glucose infusion rate (GIR)_AUC(0-end of study)] (all P < 0.05). Duration of NPH insulin action was shorter in R- up (9.4 ± 1.7 h) but longer in R- down (15.4 ± 2.3 h) compared with R+ (11.8 ± 2.6 h) (P < 0.05). Within-subject variability (percent coefficient of variation) among studies was as high as 23% for PK [FIRI_AUC(0-end of study)] and 62% for PD [GIR_AUC(0-end of study)]. CONCLUSIONS: Compared with resuspended NPH insulin, lack of resuspension profoundly alters PK/PD and may importantly contribute to day-to-day glycemic variability of type 1 diabetes.

A novel, stable, aqueous glucagon formulation using ferulic acid as an excipient.

Commercial glucagon is unstable due to aggregation and degradation. In closed-loop studies, it must be reconstituted frequently. For use in a portable pump for 3 days, a more stable preparation is required. At alkaline pH, curcumin inhibited glucagon aggregation. However, curcumin is not sufficiently stable for long-term use. Here, we evaluated ferulic acid, a stable breakdown product of curcumin, for its ability to stabilize glucagon. Ferulic acid-formulated glucagon (FAFG), composed of ferulic acid, glucagon, L-methionine, polysorbate-80, and human serum albumin in glycine buffer at pH 9, was aged for 7 days at 37°C. Glucagon aggregation was assessed by transmission electron microscopy (TEM) and degradation by high-performance liquid chromatography (HPLC). A cell-based protein kinase A (PKA) assay was used to assess in vitro bioactivity. Pharmacodynamics (PD) of unaged FAFG, 7-day aged FAFG, and unaged synthetic glucagon was determined in octreotide-treated swine. No fibrils were observed in TEM images of fresh or aged FAFG. Aged FAFG was 94% intact based on HPLC analysis and there was no loss of bioactivity. In the PD swine analysis, the rise over baseline of glucose with unaged FAFG, aged FAFG, and synthetic native glucagon (unmodified human sequence) was similar. After 7 days of aging at 37°C, an alkaline ferulic acid formulation of glucagon exhibited significantly less aggregation and degradation than that seen with native glucagon and was bioactive in vitro and in vivo. Thus, this formulation may be stable for 3-7 days in a portable pump for bihormonal closed-loop treatment of T1D.

Cytochrome P450 2D6*10 genotype affects the pharmacokinetics of dimemorfan in healthy Chinese subjects.

This study aimed to investigate the effects of cytochrome P450 2D6*10 (100C > T, rs1065852) genotype on the pharmacokinetics of dimemorfan in healthy Chinese subjects. Data were evaluated from 24 subjects in two pharmacokinetic studies who received an oral dose of 40 mg of dimemorfan syrup (n = 12) or dimemorfan tablet (n = 12) after providing written informed consent and being divided into three groups: subjects with CYP2D6*10 CC (n = 5), CYP2D6*10 CT (n = 11) and CYP2D6*10 TT (n = 8). CC homozygotes and CT heterozygotes were defined to be C allele carriers. The CYP2D6*10 was genotyped by polymerase chain reaction-restriction fragment length polymorphism. Dimemorfan was measured by LC-MS/MS. There was significant difference in C max, AUC0-t , AUC0-inf, V z , and CL values of dimemorfan observed among the three CYP2D6*10 genotype groups (GLM, (a) P < 0.05, co-dominant model). CYP2D6*10 under the recessive model (CC + TC vs TT) was significantly associated with pharmacokinetics of dimemorfan ((c) P < 0.05). The C max values were significantly higher in subjects with CYP2D6*10 TT (8.06 ± 4.43 ng/mL) than CYP2D6*10 CC (3.41 ± 2.79 ng/mL), CYP2D6*10 CT (3.11 ± 2.47 ng/mL), so was AUC0-inf. V z /F and CL/F of subjects with CYP2D6*10 TT homozygotes were the lowest. We demonstrated that cytochrome P450 2D6*10 (100C > T, rs1065852) polymorphism can affect the pharmacokinetics of dimemorfan in humans, not dosage forms.

Pretreatment with skin permeability enhancers: importance of duration and composition on the delivery of diclofenac sodium.

The use of chemical penetration enhancers (CPEs) is one of the most common approaches to improve the dermal and transdermal delivery of drugs. However, often, incorporation of CPEs in the formulation poses compatibility and stability challenges. Moreover, incorporation of enhancers in the formulation leads to prolonged exposure to skin increasing the concern of causing skin reactions. This study was undertaken to assess whether pretreatment with CPEs is a rational approach to enhance the permeation of diclofenac sodium. In vitro experiments were performed across porcine epidermis pretreated with propylene glycol or oleic acid or their combinations for 0.5, 2, and 4 h, respectively. Pretreatment with combination of oleic acid in propylene glycol was found to enhance the permeation of diclofenac sodium significantly only at 10% and 20% (v/v) level, and only when the pretreatment duration was 0.5 h. Longer durations of pretreatment and higher concentration of oleic acid in propylene glycol did not enhance the permeation of diclofenac sodium. In vivo dermatokinetic studies were carried out on Sprague-Dawley rats. A twofold increase in AUC and Cmax was observed in case of rats pretreated with enhancers over the group that was pretreated with buffer. In conclusion, this study showed that composition of the enhancers and duration of pretreatment are crucial in determining the efficacy of CPEs.

Enhanced brain targeting of curcumin by intranasal administration of a thermosensitive poloxamer hydrogel.

OBJECTIVES: The aim of this study was to develop a curcumin intranasal thermosensitive hydrogel and to improve its brain targeting efficiency. METHODS: The hydrogel gelation temperature, gelation time, drug release and mucociliary toxicity characteristics as well as the nose-to-brain transport in the rat model were evaluated. KEY FINDINGS: The developed nasal hydrogel, composed of Pluronic F127 and Poloxamer 188, had shorter gelation time, longer mucociliary transport time and produced prolonged curcumin retention in the rat nasal cavity at body temperature. The hydrogel release mechanism was diffusion-controlled drug release, evaluated by the dialysis membrane method, but dissolution-controlled release when evaluated by the membraneless method. A mucociliary toxicity study revealed that the hydrogel maintained nasal mucosal integrity until 14 days after application. The drug-targeting efficiencies for the drug in the cerebrum, cerebellum, hippocampus and olfactory bulb after intranasal administration of the curcumin hydrogel were 1.82, 2.05, 2.07 and 1.51 times that after intravenous administration of the curcumin solution injection, respectively, indicating that the hydrogel significantly increased the distribution of curcumin into the rat brain tissue, especially into the cerebellum and hippocampus. CONCLUSIONS: A thermosensitive curcumin nasal gel was developed with favourable gelation, release properties, biological safety and enhanced brain-uptake efficiency.

Safety and tolerability of luliconazole solution 10-percent in patients with moderate to severe distal subungual onychomycosis.

The study objective was to evaluate the safety, tolerability, systemic exposure, and pharmacokinetics (PK) of 10% luliconazole solution (luliconazole) when topically applied once daily to all 10 toenails and periungual areas in patients with moderate to severe distal subungual onychomycosis. In this single-center, open-label study, 24 patients applied 20 mg/ml of luliconazole (twice the clinical dose) for 29 days with a 7-day follow-up. Complete PK profiles were determined on days 1, 8, 15, and 29. Safety/tolerability assessments included application site reactions, adverse events, vital signs, clinical laboratory findings, and electrocardiograms. Mean luliconazole plasma concentrations remained around the lower limit of quantitation (0.05 ng/ml) and were comparable on days 8, 15, and 29 (range, 0.063 to 0.090 ng/ml), suggesting steady state occurred by day 8. Every patient had undetectable plasma luliconazole levels for at least 11% of the time points, and 12 of the 24 patients had undetectable levels for at least 70% of the time points. The maximum plasma concentration of luliconazole (C(max)) observed in any patient was 0.314 ng/ml and the maximum area under the concentration-time curve from 0 to 24 h (AUC0-24) was 4.34 ng · h/ml. Five patients (21%) had measureable luliconazole levels in the plasma 7 days after the last dose. The median concentration of luliconazole in the nail at this time point was 34.65 mg/g (from 42 of 48 collected toenail samples). There was one mild incidence of skin erythema on day 5 that resolved on day 8, there were no reports of drug-induced systemic side effects, and there was no evidence of QT prolongation. Luliconazole, when applied once daily to all 10 fungus-infected toenails for 29 days, is generally safe and well tolerated and results in significant accumulation of drug in the nail. Systemic exposure is very low, with no evidence of drug accumulation.

Polyamidomine dendrimers: an excellent drug carrier for improving the solubility and bioavailability of puerarin.

The potential of polyamidoamine (PAMAM) dendrimers as solubility enhancers and oral drug delivery system was well known. Herein, we investigated the possibility of PAMAM dendrimers for promoting the solubility and oral bioavailability of puerarin. In the present study, the effect of PAMAM dendrimers with different generations (G1.5, G2, G2.5, and G3) on the solubility of puerarin was evaluated at different concentrations and pH conditions. Further more, the puerarin-G2 dendrimer complex was conducted for the in vitro hemolytic toxicity studies and pharmacokinetics studies in rats. The solubility of puerarin was significantly higher in the presence of the full generation dendrimers (e.g. G2 and G3). No significant hemolysis was observed on erythrocytes (G2, 0-2.5 mg/mL) in the hemolytic toxicity studies. The pharmacokinetics parameters Tmax, Cmax, and AUC0-8 h of puerarin suspension solution and puerarin-G2 dendrimer complex solution were 0.76 h, 1.50 µg/mL, 7.33 µg·h/mL and 0.33 h, 6.49 µg/mL, 14.02 µg·h/mL, respectively. These studies demonstrate that PAMAM dendrimers may be a promising strategy for peroral delivery of puerarin.