Prediction of physicochemical and pharmacokinetic properties of botanical constituents by computational models.

Botanicals contain complex mixtures of chemicals most of which lack pharmacokinetic data in humans. Since physicochemical and pharmacokinetic properties dictate the in vivo exposure of botanical constituents, these parameters greatly impact the pharmacological and toxicological effects of botanicals in consumer products. This study sought to use computational (i.e., in silico) models, including quantitative structure-activity relationships (QSAR) and physiologically based pharmacokinetic (PBPK) modeling, to predict properties of botanical constituents. One hundred and three major constituents (e.g., withanolides, mitragynine, and yohimbine) in 13 botanicals (e.g., ashwagandha, kratom, and yohimbe) were investigated. The predicted properties included biopharmaceutical classification system (BCS) classes based on aqueous solubility and permeability, oral absorption, liver microsomal clearance, oral bioavailability, and others. Over half of these constituents fell into BCS classes I and II at dose levels no greater than 100 mg per day, indicating high permeability and absorption (%Fa > 75%) in the gastrointestinal tract. However, some constituents such as glycosides in ashwagandha and Asian ginseng showed low bioavailability after oral administration due to poor absorption (BCS classes III and IV, %Fa < 40%). These in silico results fill data gaps for botanical constituents and could guide future safety studies. For example, the predicted human plasma concentrations may help select concentrations for in vitro toxicity testing. Additionally, the in silico data could be used in tiered or batteries of assays to assess the safety of botanical products. For example, highly absorbed botanical constituents indicate potential high exposure in the body, which could lead to toxic effects.

Overcoming Solubility Challenges: Self-emulsifying Systems for Enhancing the Delivery of Poorly Water-Soluble Antiviral Drugs.

The primary goal of drug formulation is to improve a drug's bioavailability in the body. However, poorly water-soluble drugs present challenging issues related to their solubility and bioavailability factors. Emerging technologies, such as lipid-based drug delivery systems, including micro- or nanoemulsifying drug delivery systems, have become increasingly relevant to address the above challenges. This review presents a thorough overview of self-emulsifying drug delivery systems (SEDDS). It covers the properties, principles, self-emulsification mechanism, formulation strategies, and characterization methods of SEDDS. This review also addresses the delivery of antiviral agents through SEDDS. Moreover, it summarizes the marketed formulations of SEDDS consisting of antiviral agents. This review offers a comprehensive and valuable resource for future perspectives on SEDDS and their potential applications in antiviral drug delivery.

Development and in-vitro evaluation of chitosan and glyceryl monostearate based matrix lipid polymer hybrid nanoparticles (LPHNPs) for oral delivery of itraconazole.

Itraconazole (ICZ) is a broad spectrum antifungal drug, but used as second or third line therapy due to its low and erratic oral bioavailability. This work was carried out to prepare and characterize matrix type lipid-polymer hybrid nanoparticles (LPHNPs) for dissolution enhancement of ICZ. LPHNPs were prepared using solvent diffusion/emulsification technique. Matrix LPHNPs were composed of chitosan (polymer), glyceryl monostearate (lipid) and poloxamer 188 (stabilizer). LPHNPs loaded with ICZ (LPHNPs-1, LPHNPs-2, LPHNPs-3 and LPHNPs-4) were developed using varying concentration of chitosan whereas LPHNPs (LPHNPs-5, LPHNPs-6, LPHNPs-7 and LPHNPs-8) were prepared using varying concentrations of poloxamer 188. LPHNPs loaded with ICZ were further evaluated for entrapment efficiency, particle size, polydispersity index (PDI), zeta potential and dissolution profiles at biorelevant pH conditions. The particle size (LPHNPs-1 to LPHNPs-4) was found to be in range of 421-588 nm with PDI values 0.34-0.41. The particles size of LPHNPs-5 to LPHNPs-8 was found to be in range of 489-725 nm with PDI 0.34-0.74. The entrapment efficiency of LPHNPs-1 to LPHNPs-4 was found to be in range of 85.21%-91.34%. The entrapment efficiency of LPHNPs-5 to LPHNPs-8 was found to be in range 78.32%-90.44%. . The scanning electron microscopy of optimized formulations LPHNPs-1 and LPHNPs-5 indicated formation of oval shaped nanoparticles. DSC thermogram of ICZ loaded LPHNPs also depicted the conversion of crystalline form of ICZ into amorphous form demonstrating the internalization and dissolution enhancement of drug in the hybrid matrix. The cumulative drug dissolved at acidic pH 1.2 was found to be 23.3% and 19.8% for LPHNPs-1 and LPHNPs-5 respectively. Similarly at basic pH values 7.4, cumulative amount of drug dissolved was 90.2% and 83.4% for LPHNPs-1 and LPHNPs-5 respectively. Drug dissolution kinetics exhibited fickian diffusion best described by Korse-meyer Peppas model. The results suggested that chitosan and glyceryl monostearate based matrix LPHNPs could be used as promising approach for dissolution enhancement of ICZ which could further increase its bioavailability.

Development of thermosensitive hydrogel of Amphotericin-B and Lactoferrin combination-loaded PLGA-PEG-PEI nanoparticles for potential eradication of ocular fungal infections: In-vitro, ex-vivo and in-vivo studies.

The most prevalent conditions among ocular surgery and COVID-19 patients are fungal eye infections, which may cause inflammation and dry eye, and may cause ocular morbidity. Amphotericin-B eye drops are commonly used in the treatment of ocular fungal infections. Lactoferrin is an iron-binding glycoprotein with broad-spectrum antimicrobial activity and is used for the treatment of dry eye, conjunctivitis, and ocular inflammation. However, poor aqueous stability and excessive nasolacrimal duct draining impede these agens' efficiency. The aim of this study was to examine the effect of Amphotericin-B, as an antifungal against Candida albicans, Fusarium, and Aspergillus flavus, and Lactoferrin, as an anti-inflammatory and anti-dry eye, when co-loaded in triblock polymers PLGA-PEG-PEI nanoparticles embedded in P188-P407 ophthalmic thermosensitive gel. The nanoparticles were prepared by a double emulsion solvent evaporation method. The optimized formula showed particle size (177.0 ± 0.3 nm), poly-dispersity index (0.011 ± 0.01), zeta-potential (31.9 ± 0.3 mV), and entrapment% (90.9 ± 0.5) with improved ex-vivo pharmacokinetic parameters and ex-vivo trans-corneal penetrability, compared with drug solution. Confocal laser scanning revealed valuable penetration of fluoro-labeled nanoparticles. Irritation tests (Draize Test), Atomic force microscopy, cell culture and animal tests including histopathological analysis revealed superiority of the nanoparticles in reducing signs of inflammation and eradication of fungal infection in rabbits, without causing any damage to rabbit eyeballs. The nanoparticles exhibited favorable pharmacodynamic features with sustained release profile, and is neither cytotoxic nor irritating in-vitro or in-vivo. The developed formulation might provide a new and safe nanotechnology for treating eye problems, like inflammation and fungal infections.

Solid Lipid Nanoparticles: A Potential Option for Enhancing Oral Bioavailability of Highly Soluble and Poorly Permeable (BCS Class III) Drugs.

Oral administration of drug is the most preferred one among the other routes for the majority of clinical applications. As compared to the parenteral method of administration, it has potential benefits such as increased patient compliance, fewer problems, and reduced treatment costs. Regardless of these factors, inadequate bioavailability owing to poor solubility or permeability limits the therapeutic effectiveness of orally given drugs. Though most current research focuses on BCS II (drugs with low solubility and high permeability), BCS III (drugs with high solubility and low permeability) also has poor oral bioavailability due to their limited permeability across lipid membranes and is usually administered through the parenteral route. The need for an oral alternative to parenteral administration has prompted a renewed focus on the development of innovative dosage forms that support the absorption of medicines that are poorly permeable through the intestinal epithelium. Because of their unique sizedependent feature in enhancing transmembrane permeability, ability to incorporate both lipophilic and hydrophilic drugs and biocompatible nature of components, the use of nanoparticles for improving drug bioavailability has been a focus of current study in the field of drug delivery in recent years. The lipidbased nanoparticle method presents a potential new avenue for manufacturing BCS Class III medicines with enhanced bioavailability, as poor permeability is the main issue for these agents. This research aims to assess the potential of lipid nanoparticles for improving the oral bioavailability of medicines with permeability-restricted oral absorption, such as pharmaceuticals in Biopharmaceutical Classification System (BCS) class III.

Emerging Role of Biopharmaceutical Classification and Biopharmaceutical Drug Disposition System in Dosage form Development: A Systematic Review.

Biopharmaceutical classification system (BCS) is an advanced tool used for classifying medicines based on dissolution, water solubility, and intestinal permeability, which affect the absorption of active pharmaceutical ingredients (API) from immediate-release solid oral forms. It is useful to the formulation researchers to develop novel dosage forms based on modernistic rather than experimental approaches. The current review focuses on the fundamentals, objectives, guidance of BCS, characteristics of BCS drugs, their importance and applications of BCS. This review explains the challenges in drug development in terms of solubility and in vivo disposition. In the current review, new strategies for improving BCS II drug solubility as well as biopharmaceutical drug disposition properties which are utilized throughout the early stages of drug development and commercialization are mainly discussed.

Estudo da permeabilidade de fármacos por meio do modelo de saco intestinal de ratos / Study of drug permeability through the rat gut sac model

Os parâmetros de permeabilidade e solubilidade são fundamentais à absorção oral de fármacos e a partir dessas características, foi criado o Sistema de Classificação Biofarmacêutica, através do qual os fármacos são divididos em quatro classes. Atualmente, para a determinação da solubilidade de um fármaco, existem diversos métodos padronizados por agências regulatórias, no entanto, para a determinação da permeabilidade, os ensaios são passíveis de diversas variações em sua execução, diminuindo a confiabilidade dos resultados obtidos e impossibilitando a comparação dos mesmos quando realizados com técnicas diferentes umas das outras. O objetivo do presente trabalho é avaliar as variáveis experimentais do modelo do saco intestinal que podem influenciar nos resultados de permeabilidade aparente de fármacos e na viabilidade do tecido. O presente estudo foi aprovado pelo Comitê de Ética no Uso de Animais da FCF-USP (109.2018-P574). Foram utilizados 33 Rattus norvegicus da linhagem Wistar, machos, jovens adultos, com peso entre 200 g e 300 g. Para realização do procedimento, cada animal permaneceu em jejum por cerca de quatro horas e após adequada anestesia a porção do jejuno do intestino delgado foi retirada e dividida em seis segmentos de aproximadamente 8,5cm cada. Foram realizados experimentos com e sem inversão do saco intestinal, submetidos a diferentes tempos de banho de gelo após sua ressecção, na presença ou ausência de inibidor da glicoproteína-P (verapamil). Os fármacos naproxeno e famotidina foram empregados como marcadores de alta e baixa permeabilidade, respectivamente. A losartana foi utilizada como substrato da glicoproteína P. Cada um dos sacos intestinais foi colocado em um tubo de ensaio contendo tampão Krebs, a 37°C, saturado com gás carbogênio. Para avaliação da integridade e viabilidade dos segmentos intestinais, observou-se a presença de movimentos peristálticos e coletaram-se amostras do meio de incubação nos tempos 0, 30, 45, 60, 90 e 120 minutos para quantificação dos fármacos e de glicose, uma vez que esta é ativamente transportada para a serosa do intestino delgado. Determinou-se a permeabilidade aparente de cada fármaco e as concentrações de glicose nas diferentes condições experimentais, realizou-se planejamento fatorial multinível e os resultados foram analisados por análise variância (ANOVA), seguida de pós-teste de Tukey. Observou-se que as variáveis experimentais interferiram de forma significativa na viabilidade tecidual e na permeabilidade aparente dos fármacos. Não foram observadas diferenças significativas da permeabilidade de fármacos nos diferentes segmentos do jejuno. A glicose mostrou-se um bom marcador de viabilidade tecidual e foi constatado que a presença ou ausência de movimentos peristálticos não está relacionada diretamente com a viabilidade do tecido. Uma vez que foram constatadas tantas interferências nos resultados, é imprescindível que os procedimentos experimentais sejam padronizados, para que os resultados apresentem menor variabilidade e possam ser comparados entre si

The permeability and solubility parameters are fundamental to the oral absorption of drugs and from these characteristics, the Biopharmaceutical Classification System was created, through which drugs are divided into four classes. Currently, for the determination of the solubility of a drug, there are several methods standardized by regulatory agencies, however, for the determination of permeability, the tests are subject to several variations in their execution, reducing the reliability of the results obtained and making it impossible to compare the results obtained. same when performed with different techniques. The aim of this study is to evaluate if different experimental conditions can influence the results of apparent drug permeability and tissue viability on gut sac model. The present study was approved by the Ethics Committee for the Use of Animals of FCF-USP (109.2018-P574). Thirty-three male, young adult Rattus norvegicus were used, weighing between 200 g and 300 g. To perform the procedure, each animal fasted for about four hours and after adequate anesthesia, the portion of the jejunum of the small intestine was removed and divided into six segments of approximately 8.5 cm each. Experiments were performed with and without inversion of the gut sac, submitted to different times of ice bath after its resection, in the presence or absence of a P-glycoprotein inhibitor (verapamil). The drugs naproxen and famotidine were used as markers of high and low permeability, respectively. Losartan was used as a substrate for P-glycoprotein. Each of the gut sacs was placed in a test tube containing Krebs buffer, at 37°C, saturated with carbogen gas. To evaluate the integrity and viability of the intestinal segments, the presence of peristaltic movements was observed and samples of the incubation medium were collected at 0, 30, 45, 60, 90 and 120 minutes for quantification of drugs and glucose, as it is actively transported to the serosa of the small intestine. The apparent permeability of each drug and the glucose concentrations were determined under different experimental conditions, multilevel factorial design was performed and the results were analyzed by analysis of variance (ANOVA), followed by Tukey's post-test. It was observed that the experimental variables significantly interfered in the tissue viability and in the apparent permeability of the drugs. No significant differences in drug permeability were observed in the different segments of the jejunum. Glucose proved to be a good marker of tissue viability and it was found that the presence or absence of peristaltic movements is not directly related to tissue viability. Since so many interferences were found in the results, it is essential that the experimental procedures be standardized, so that the results show less variability and can be compared between different authors

[Biopharmaceutical classification and transport mechanism of 4 alkaloids in Mongolian herbal medicine Sophorae Flavescentis Radix].

In this study, we studied the solubility and permeability of matrine, oxymatrine, sophoridine, and oxysophocarpine, four alkaloids in the Mongolian herbal medicine Sophorae Flavescentis Radix, and evaluated the absorption mechanism with the Caco-2 cell model, so as to provide a basis for the new drug development and efficacy evaluation of Sophorae Flavescentis Radix. The results showed that all the four alkaloids had high solubility and high permeability and can be well absorbed, belonging to the class-I drugs of Biopharmaceutical Classification System(BCS). The absorption(AP→BL) and excretion(BL→AP) of matrine and oxymatrine were not affected by the concentration while the absorption depended on P-gp protein. The absorption(AP→BL) and excretion(BL→AP) of sophoridine and oxysophocarpine were positively related to the concentration and time, and the absorption process was independent from P-gp protein. The results provide scientific reference and an experimental basis for the development of Mongolian medical prescriptions containing Sophorae Flavescentis Radix.

An Overview on Dietary Polyphenols and Their Biopharmaceutical Classification System (BCS).

Polyphenols are natural organic compounds produced by plants, acting as antioxidants by reacting with ROS. These compounds are widely consumed in daily diet and many studies report several benefits to human health thanks to their bioavailability in humans. However, the digestion process of phenolic compounds is still not completely clear. Moreover, bioavailability is dependent on the metabolic phase of these compounds. The LogP value can be managed as a simplified measure of the lipophilicity of a substance ingested within the human body, which affects resultant absorption. The biopharmaceutical classification system (BCS), a method used to classify drugs intended for gastrointestinal absorption, correlates the solubility and permeability of the drug with both the rate and extent of oral absorption. BCS may be helpful to measure the bioactive constituents of foods, such as polyphenols, in order to understand their nutraceutical potential. There are many literature studies that focus on permeability, absorption, and bioavailability of polyphenols and their resultant metabolic byproducts, but there is still confusion about their respective LogP values and BCS classification. This review will provide an overview of the information regarding 10 dietarypolyphenols (ferulic acid, chlorogenic acid, rutin, quercetin, apigenin, cirsimaritin, daidzein, resveratrol, ellagic acid, and curcumin) and their association with the BCS classification.

In vitro and in vivo assessment of hydroxypropyl cellulose as functional additive for enabling formulations containing itraconazole.

Using polymers as additives to formulate ternary amorphous solid dispersions (ASDs) has successfully been established to increase the bioavailability of poorly soluble drugs, when one polymer is not able to provide both, stabilizing the drug in the matrix and the supersaturated solution. Therefore, we investigated the influence of low-viscosity hydroxypropyl cellulose (HPC) polymers as an additive in HPMC based ternary ASD formulations made by hot-melt extrusion (HME) on the bioavailability of itraconazole (ITZ). The partitioning potential of the different HPC grades was screened in biphasic supersaturation assays. Solid-state analytics were performed using differential scanning calorimetry (DSC), X-ray powder diffraction (XRPD). The addition of HPCs, especially HPC-UL, resulted in a superior partitioned amount of ITZ in biphasic supersaturation assays. Moreover, the approach in using HPCs as an additive in HPMC based ASDs led to an increase in partitioned ITZ compared to Sporanox® in biorelevant biphasic dissolution studies. The results from the biphasic dissolution experiments correlated well with the in vivo studies, which revealed the highest oral bioavailability for the ternary ASD comprising HPC-UL and HPMC.

Requisitos de bioisenção com base no Sistema de Classificação Biofarmacêutica no Brasil e no mundo / Biowaiver requirements based on the Biopharmaceutical Classification System in Brazil and worldwide

O acesso a medicamentos pode ser facilitado por programas globais de desenvolvimento farmacêutico, mas há necessidade de que as agencias regulatórias e as indústrias farmoquímicas e farmacêuticas interajam e haja um consenso quanto as exigências para o registro de medicamentos. Este artigo examinou a legislação especifica sobre bi isenção com base no Sistema de Classificação Biofarmacêutica, comparando os cenários do Brasil e do mundo. A partir dessa análise, identificou os entraves a aplicação dos critérios internacionais na realidade regulatória nacional, identificando algumas fragilidades da legislação, como no caso de pro-fármacos. Analisaram-se os critérios de cinco organismos regulatórios (Agência Europeia de Medicamentos, Food and Drug Administration, Health Canada, Conselho Internacional para Harmonização de Requisitos Técnicos para Medicamentos de Uso Humano e Organização Mundial da Saúde) frente aos requisitos da Agência Nacional de Vigilância Sanitária, pontuando as diferenças e o que já se encontra pacificado no tocante a classe do Sistema de Classificação Biofarmacêutica aceita, a comparabilidade entre formulação teste e de referência, solubilidade, permeabilidade intestinal e perfil de dissolução in vitro. Concluiu--se que a Agência Nacional de Vigilância Sanitária deve internalizar os preceitos e critérios da bioisenção com base no Sistema de Classificação Biofarmacêutica por meio de um novo marco regulatório. Além disso, para que esse marco regulatório seja bem-sucedido e produza resultados palpáveis, em especial na área de saúde publica e vigilância sanitária, a agência brasileira deve estar aberta ao diálogo com o setor regulado e as inovações e orientações da academia, sem desviar o foco de sua missão institucional.

Access to medicines can be facilitated by global pharmaceutical development programs, but there is a need for regulatory agencies and the pharmochemical and pharmaceutical industries to interact and to have a consensus on the requirements for drug registration. This article examined the specific legislation concerning to biowaiver based on the Biopharmaceutical Classification System, comparing the scenario in Brazil and worldwide. Based on this analysis, it identified the obstacles to the application of international criteria in the national regulatory reality, identifying some weaknesses of the legislation, as in the case of prodrugs. The criteria of five regulatory bodies (European Medicines Agency, Food and Drug Administration, Health Canada, International Council for Harmonization of Technical Requirements for Pharmaceuticals for Human Use and World Health Organization) were analyzed in relation to the requirements of the Brazilian Health Regulatory Agency (Anvisa), pointing out the differences and what has already been settled regarding the accepted class of the Biopharmaceutical Classification System, the comparability between test and reference formulations, solubility, intestinal permeability and in vitro dissolution profile. It was concluded that Anvisa should internalize the percepts and criteria of the biowaiver based on Biopharmaceutical Classification System, through a new regulatory framework. Moreover, for this regulatory framework to be successful and produce tangible results, especially in the area of public health and health surveillance, Anvisa must be open to dialogue with the regulated sector and to innovations and guidance from academia, without losing focus of its institutional mission.

Effect of excipients on oral absorption process according to the different gastrointestinal segments.

INTRODUCTION: Excipients are necessary to develop oral dosage forms of any Active Pharmaceutical Ingredient (API). Traditionally, excipients have been considered inactive and inert substances, but, over the years, numerous studies have contradicted this belief. This review focuses on the effect of excipients on the physiological variables affecting oral absorption along the different segments of the gastrointestinal tract. The effect of excipients on the segmental absorption variables are illustrated with examples to help understand the complexity of predicting their in vivo effects. AREAS COVERED: The effects of excipients on disintegration, solubility and dissolution, transit time, and absorption are analyzed in the context of the different gastrointestinal segments and the physiological factors affecting release and membrane permeation. The experimental techniques used to study excipient effects and their human predictive ability are reviewed. EXPERT OPINION: The observed effects of excipient in oral absorption process have been characterized in the past, mainly in vitro (i.e. in dissolution studies, in vitro cell culture methods or in situ animal studies). Unfortunately, a clear link with their effects in vivo, i.e. their impact on Cmax or AUC, which need a mechanistic approach is still missing. The information compiled in this review leads to the conclusion that the effect of excipients in API oral absorption and bioavailability is undeniable and shows the need of implementing standardized and reproducible preclinical tools coupled with mechanistic and predictive physiological-based models to improve the current empirical retrospective approach.

Biopharmaceutical classification and transport mechanism of 4 alkaloids in Mongolian herbal medicine Sophorae Flavescentis Radix / 中国中药杂志

In this study, we studied the solubility and permeability of matrine, oxymatrine, sophoridine, and oxysophocarpine, four alkaloids in the Mongolian herbal medicine Sophorae Flavescentis Radix, and evaluated the absorption mechanism with the Caco-2 cell model, so as to provide a basis for the new drug development and efficacy evaluation of Sophorae Flavescentis Radix. The results showed that all the four alkaloids had high solubility and high permeability and can be well absorbed, belonging to the class-I drugs of Biopharmaceutical Classification System(BCS). The absorption(AP→BL) and excretion(BL→AP) of matrine and oxymatrine were not affected by the concentration while the absorption depended on P-gp protein. The absorption(AP→BL) and excretion(BL→AP) of sophoridine and oxysophocarpine were positively related to the concentration and time, and the absorption process was independent from P-gp protein. The results provide scientific reference and an experimental basis for the development of Mongolian medical prescriptions containing Sophorae Flavescentis Radix.

Biopharmaceutics classification evaluation for paris saponin VII.

To study the biopharmaceutics characteristics of paris saponin VII (PSVII). The solubility of PSVII was evaluated by measurement of the equilibrium solubility in different solvents and media. The permeability of PSVII was evaluated by measuring the oil/water partition coefficient (lgPapp) and determining the apparent permeability coefficient (PCapp) on a mono-layer Caco-2 cell model. The effects of p-glycoprotein and multidrug resistance related protein 2 on PSVII transport in mono-layer Caco-2 cell model were further investigated. Finally, the small intestinal absorption of PSVII was investigated in rat. In solvents of different pH, the equilibrium solubility of PSVII was quite low, and the dose number of PSVII was larger than 1. The lgPapp of PSVII was less than 0. The apparent permeability coefficient [PCapp(AP-BL)] of PSVII in mono-layer Caco-2 cell model was less than 14.96 × 10-6 cm·s-1, and the efflux ratio of PSVII in mono-layer Caco-2 cell model was less than 1. The transport rate of PSVII in mono-layer Caco-2 cell model was not affected by the inhibitors of p-glycoprotein and multidrug resistance related protein 2. After oral administration, PSVII could be detected in rat intestinal contents, but could not be detected in the small intestinal mucosa. PSVII showed low solubility and permeability, which would result in low oral bioavailability in clinic. PSVII belonged to Class IV compound in biopharmaceutics classification system.

Biorelevant Two-Stage In Vitro Testing for rDCS Classification and in PBPK Modeling-Case Example Ritonavir.

Biorelevant two-stage in vitro testing is increasingly used as a tool for various applications in drug development. Three important applications of two-stage in vitro testing are the classification of weakly basic drug compounds as part of the refined Developability Classification System, the prediction of intraluminal drug concentrations in the gastrointestinal tract and the prediction of plasma concentration profiles using physiologically based pharmacokinetic modeling. For the weakly basic, antiretroviral drug ritonavir, two-stage testing is triggered as a customized investigation in the refined Developability Classification System classification process to assess whether the drug could supersaturate and precipitate when exposed to the steep change in pH that occurs during drug transfer from the stomach into the small intestine. It was shown that for 2 Norvir® formulations, a tablet and an oral powder formulation, the two-stage test yielded similar results to the more complex "transfer" model with regard to the supersaturation and precipitation behavior of these amorphous solid dispersion formulations. Furthermore, solubility and two-stage data were mechanistically modeled in the in vitro data Analysis Toolkit and the results used as input parameters for a physiologically based pharmacokinetic model built in the Simcyp Simulator.

Nanonization techniques to overcome poor water-solubility with drugs.

INTRODUCTION: Most drugs used in therapy have low water-solubility, a factor that could reduce their dissolution rate and oral bioavailability, representing a challenge in pharmaceutical development. Nanonization of drugs is the reduction of particles to nanoscale, increasing the surface area and consequently the saturation solubility and dissolution rate and resulting in higher bioavailability. AREAS COVERED: This review provides an overview of the consequences of the poor water-solubility and the main strategies applied to increase the solubility of poorly water-soluble drugs. The relationship between the biopharmaceutical classification system and the solubilization process of the drug is also considered. Finally, it includes how drug nanoparticles and nanocarriers, especially lipid-based nanosystems, can overcome these challenges and which of these approaches are already available on the market. EXPERT OPINION: Due to the growing importance of nanomedicines, especially for applications in poorly water-soluble drugs, it is important to clearly establish the specifications and quality criteria for nanonized drugs to ensure the quality and safety of nanoparticles.

A comparative ex vivo permeation evaluation of a novel 5-Fluorocuracil nanoemulsion-gel by topically applied in the different excised rat, goat, and cow skin.

AIM OF THE STUDY: 5-Fluorouracil (5-FU) can't be given orally because of very low bioavailability and produces serious adverse effects. Therefore, the main objective of this research is to develop, evaluate, and comparative effects by different nanoformulations of topical application on chemoprevention of skin cancer in different types of skin. MATERIAL AND METHODS: Castor oil (oil), Transcutol HP (surfactant), and Polyethylene glycol (PEG)-400 (co-surfactant) have taken on the basis of nonionic property and highest nanoemulsion (NE)-region. Aqueous micro titration method with ultra-sonication method (based on high energy) was used for the preparation of 5-FU-NE. Optimized-5-FU-NE was stable thermodynamically, and their characterizations was performed on the basis of globule size, zeta potential, refractive index, and viscosity. Optimized-NE has been converted into 5-FU-NE-Gel with the help of Carbopol® 934 and also performed their permeation studies in the different skins (cow, goat, and rat, ex vivo) using Logan transdermal diffusion cell (DHC-6T). Optimized-5-FU-NE and 5-FU-NE-Gel were evaluated cytotoxic studies (in vitro) on the melanoma cell lines. RESULTS: The permeation of 5-FU from 5-FU-NE-Gel nanoformulation for rat skin model was 1.56 times higher than the 5-FU-NE and 12.51 times higher than the 5-FU-S for the cow and goat skin model. The values of steady state flux and permeability coefficient for 5-FU-NE-Gel of rat skin were higher i.e. 12.0244 ±â€¯1.12 µgcm-2h-1 and 1.2024 ±â€¯0.073 × 10-2 µg cm-2h-1, respectively. Optimized-5-FU-NE and 5-FU-NE-Gel nanoformulation were found to be physically stable. SK-MEL-5 cancer cells have showed the results based on cytotoxicity studies (in vitro) that 5-FU as Optimized-5-FU-NE-Gel is much more efficacious than 5-FU-NE followed by free 5-FU. Localization of 5-FU from 5-FU-NE-Gel was higher with higher permeation in rat skin. CONCLUSION: 5-FU-NE-Gel is found to be for the better to treatment of cutaneous malignancies. It can be developed 5-FU-NE-Gel could be a promising vehicle for the skin cancer chemoprevention.

Considerations for application of biopharmaceutics classification system in chicken: Exemplified by seven drugs classification.

Biopharmaceutics Classification System (BCS) has gained broad acceptance in promoting the development of human drugs. To date, the applicability of existing human BCS criteria has not been evaluated in chickens. The objective of this study was to discuss the feasibility of BCS extrapolation between species and establish a preliminary chicken BCS by classifying seven veterinary commonly used drugs including metronidazole, amoxicillin, sulfamethoxazole, sulfadiazine, ciprofloxacin hydrochloride, doxycycline hydrochloride, and trimethoprim. Firstly, we finished the determination of physiological parameters affecting solubility in chickens, including body temperature, gastrointestinal pH, and the fluid volume in the gastrointestinal tract (GI), and the drug is considered highly soluble in chicken BCS when the highest dose strength is soluble in 20.40 ml (fed) or 6.73 ml (fasted) over the pH range of 1-8 at 41°C. Drug solubility classification was based on dose number calculation. Metronidazol and amoxicillin were classed differently under fed and fasted conditions. Secondly, we discussed the effect of ABC transporters (MDCK vs. MDCK-chAbcb1/Abcg2) and pH (5.5 vs. 7.4) on drug permeability and classification. The drug is classified as highly permeable when its permeability is equal to or greater than metoprolol tartrate. Though ABC transporters and pH significantly affected the permeability values of drugs (p < .05), the permeability classification of the drugs has not been changed except for sulfamethoxazole. This work highlights some of the significant challenges that would be encountered in order to develop a chicken BCS, this valuable information could serve as a helpful tool during chicken drugs development and to minimize the potential risks when developing formulations.

Small scale design of experiment investigation of equilibrium solubility in simulated fasted and fed intestinal fluid.

It is widely recognised that drug solubility within the gastrointestinal tract (GIT) differs from values determined in a simple aqueous buffer and to circumvent this problem measurement in biorelevant fluids is determined. Biorelevant fluids are complex mixtures of components (sodium taurocholate, lecithin, sodium phosphate, sodium chloride, pancreatin and sodium oleate) at various concentrations and pH levels to provide systems simulating fasted (FaSSIF) or fed (FeSSIF) intestinal media. Design of Experiment (DoE) studies have been applied to investigate FaSSIF and FeSSIF and indicate that a drug's equilibrium solubility varies over orders of magnitude, is influenced by the drug type and individual or combinations of media components, with some of these interactions being drug specific. Although providing great detail on the drug media interactions these studies are resource intensive requiring up to ninety individual experiments for FeSSIF. In this paper a low sample number or reduced DoE system has been investigated by restricting components with minimal solubility impact to a single value and only investigating variations in the concentrations of sodium taurocholate, lecithin, sodium oleate, pH and additionally in the case of fed media, monoglyceride. This reduces the experiments required to ten (FaSSIF) and nine (FeSSIF). Twelve poorly soluble drugs (Ibuprofen, Valsartan, Zafirlukast, Indomethacin, Fenofibrate, Felodipine, Probucol, Tadalafil, Carvedilol, Aprepitant, Bromocriptine and Itraconazole) were investigated and the results compared to published DoE studies and literature solubility values in human intestinal fluid (HIF), FaSSIF or FeSSIF. The solubility range determined by the reduced DoE is statistically equivalent to the larger scale published DoE results in over eighty five percent of the cases. The reduced DoE range also covers HIF, FaSSIF or FeSSIF literature solubility values. In addition the reduced DoE provides lowest measured solubility values that agree with the published DoE values in ninety percent of the cases. However, the reduced DoE only identified single and in some cases none of the major components influencing solubility in contrast to the larger published DoE studies which identified multiple individual components and component interactions. The identification of significant components within the reduced DoE was also dependent upon the drug and system under investigation. The study demonstrates that the lower experimental number reduces statistical power of the DoE to resolve the impact of media components on solubility. However, in a situation where only the solubility range is required the reduced DoE can provide the desired information, which will be of benefit during in vitro development studies. Further refinements are possible to extend the reduced DoE protocol to improve biorelevance and application into areas such as PBPK modelling.