Your search keyword '"pediatric formulation"' showing total 69 results

51. Use of calcium caseinate in association with lecithin for masking the bitterness of acetaminophen—Comparative study with sodium caseinate.

Author

Hoang Thi, Thanh Huong, Lemdani, Mohamed, and Flament, Marie-Pierre

Subjects

*CALCIUM caseinate, *LECITHIN, *ACETAMINOPHEN, *SODIUM caseinate, *PHARMACEUTICAL technology, *DRUG design, *COMPARATIVE studies, *MOLECULAR structure

Abstract

Abstract: Owing to a variety of structural and functional properties, milk proteins are steadily studied for food and pharmaceutical applications. In the present study, calcium caseinate in association with lecithin was firstly investigated in order to encapsulate the acetaminophen through spray-drying for taste-masking purpose for pediatric medicines. A 24-full factorial design revealed that the spray flow, the calcium caseinate amount and the lecithin amount had significant effects on the release of drug during the first 2min. Indeed, increasing the spray flow and/or the calcium caseinate amount led to increase the released amount, whereas increasing the lecithin amount decreased the released amount. The “interaction” between the calcium caseinate amount and the lecithin amount was also shown to be statistically significant. The second objective was to compare the efficiency of two caseinate-based formulations, i.e. sodium caseinate and calcium caseinate, on the taste-masking effect. The characteristics of spray-dried powders determined by SEM and DSC were shown to depend on the caseinate/lecithin proportion rather than the type of caseinate. Interestingly, calcium caseinate-based formulations were found to lower the released amount of drug during the early time to a higher extent than sodium caseinate-based formulations, which indicates better taste-masking efficiency. [Copyright &y& Elsevier]

Published

2013

52. Optimizing the taste-masked formulation of acetaminophen using sodium caseinate and lecithin by experimental design.

Author

Hoang Thi, Thanh Huong, Lemdani, Mohamed, and Flament, Marie-Pierre

Subjects

*ACETAMINOPHEN, *SODIUM caseinate, *LECITHIN, *EXPERIMENTAL design, *DRUG development, *MASKING (Psychology), *MICROENCAPSULATION

Abstract

Abstract: In a previous study of ours, the association of sodium caseinate and lecithin was demonstrated to be promising for masking the bitterness of acetaminophen via drug encapsulation. The encapsulating mechanisms were suggested to be based on the segregation of multicomponent droplets occurring during spray-drying. The spray-dried particles delayed the drug release within the mouth during the early time upon administration and hence masked the bitterness. Indeed, taste-masking is achieved if, within the frame of 1–2min, drug substance is either not released or the released amount is below the human threshold for identifying its bad taste. The aim of this work was (i) to evaluate the effect of various processing and formulation parameters on the taste-masking efficiency and (ii) to determine the optimal formulation for optimal taste-masking effect. Four investigated input variables included inlet temperature (X 1), spray flow (X 2), sodium caseinate amount (X 3) and lecithin amount (X 4). The percentage of drug release amount during the first 2min was considered as the response variable (Y). A 24-full factorial design was applied and allowed screening for the most influential variables i.e. sodium caseinate amount and lecithin amount. Optimizing these two variables was therefore conducted by a simplex approach. The SEM and DSC results of spray-dried powder prepared under optimal conditions showed that drug seemed to be well encapsulated. The drug release during the first 2min significantly decreased, 7-fold less than the unmasked drug particles. Therefore, the optimal formulation that performed the best taste-masking effect was successfully achieved. [Copyright &y& Elsevier]

Published

2013

53. Physicochemical and microbiological stability studies of extemporaneous antihypertensive pediatric suspensions for hospital use.

Author

Mendes, Cassiana, Costa, Ana Paula, Oliveira, Paulo Renato, Tagliari, Monika Piazzon, and Silva, Marcos Antônio Segatto

Subjects

ANTIHYPERTENSIVE agents, SUSPENSIONS (Chemistry), HOSPITAL utilization, HIGH performance liquid chromatography, CHEMICAL stability, HYDROCHLOROTHIAZIDE, THERAPEUTICS

Abstract

Extemporaneous suspensions of the antihypertensive agents furosemide, spironolactone and hydrochlorothiazide for pediatric use have been prepared at University Hospital (Federal University of Santa Catarina - Brazil). The aim of this work was to investigate the physicochemical and microbiological stability of these suspensions over the estimated shelf-life period of seven days and, if necessary, to optimize the formulations by improving the chemical stability. The pediatric suspensions were prepared using drug raw material and were stored at 25 ± 2°C and 5 ± 3°C. Chemical stability was evaluated by HPLC assay of the suspensions for drug content. Physical stability was evaluated by sedimentation volume, redispersibility, particle size, and zeta potential. Viable bacterial and fungal contaminations were assessed according to the official compendium. Furosemide and spironolactone suspensions as prepared herein can be stored for 7 days. However, the hydrochlorothiazide suspension formulation at pH 6.5 demonstrated poor chemical stability and was optimized by adjusting the pH to 3.3 where the drug exhibited acceptable stability. The optimized formulation demonstrated to be stable over the required period of 7 days. [ABSTRACT FROM AUTHOR]

Published

2013

54. Building Process Understanding of Fluid Bed Taste Mask Coating of Microspheres

Author

Silva, Barbara Santos, Santangelo, Matthew, Colbert, Marie-Josée, Fauteux-Lefebvre, Clémence, Bartlett, Jeremy A., Lapointe-Garant, Pierre-Philippe, and Gosselin, Ryan

Published

2019

55. Quinine sulphate pellets for flexible pediatric drug dosing: Formulation development and evaluation of taste-masking efficiency using the electronic tongue

Author

Kayumba, P.C., Huyghebaert, N., Cordella, C., Ntawukuliryayo, J.D., Vervaet, C., and Remon, J.P.

Subjects

*QUININE sulfate, *SULFATES, *PELLETIZING, *FATTY acids

Abstract

Abstract: The purpose of this study was to develop a taste-masked quinine sulphate dosage form as a flexible pediatric formulation tool. Pellets were produced as they offer more flexibility to body weight dose adaptation and therefore represent an alternative to tablet breaking in pediatrics. Quinine sulphate pellets were produced via extrusion-spheronisation. Next pellets were coated using Eudragit® E PO to obtain a taste-masked formulation. Using 15% dibutyl sebacate (based on polymer weight) as a plasticizer in the formulation caused rapid pellet agglomeration during storage at 40°C and 75% relative humidity. Using stearic acid (15% based on polymer weight) as plasticizer yielded pellets which were less sensitive to sticking. Quinine sulphate release in water within the first 5min of dissolution testing: 9.2%, 5.9% and 2.1% of the drug dose was released from pellets coated with 10%, 20% and 30% (w/w) Eudragit® E PO, respectively. These observations correlated well with the bitterness score of the formulations determined via the Astree electronic tongue and its Bitterness Prediction Module, showing that 20% (w/w) Eudragit® E PO was required to obtain a homogeneous film and to delay quinine sulphate release sufficiently to mask the bitterness after drug administration. In acid medium immediate quinine sulphate release was obtained. [Copyright &y& Elsevier]

Published

2007

56. Preformulation of a liquid dosage formulation of captopril for pediatric use: drug-excipient compatibility and stability studies

Author

Fátima Duarte Freire, Túlio Flávio Accioly de Lima e Moura, Fernanda Nervo Raffin, Cícero Flávio Soares Aragão, and Janaina da Silva Goes

Subjects

Thermal Analysis, Sucralose, 030226 pharmacology & pharmacy, 01 natural sciences, High-performance liquid chromatography, Dosage form, Pediatric Formulation, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Differential scanning calorimetry, Degradation Kinetics, Pharmacy and materia medica, Drug Stability, Excipients/ pharmacokinetics, medicine, Drug Dosage Calculations, Dosage Forms, Chromatography, Enzyme Stability/drug effects, Drug Compounding/ utilization, Captopril, Factorial experiment, Drug Utilization, 0104 chemical sciences, RS1-441, 010404 medicinal & biomolecular chemistry, Kinetics, chemistry, Buffering agent, Captopril/ pharmacokinetics, Citric acid, medicine.drug

Abstract

Currently, medications used in children are typically modified from pharmaceutical dosage forms designed for adults. Captopril is widely adapted to liquid formulations for use in hospitals. Its stability in the aqueous medium is reduced since it undergoes oxidation producing captopril disulfide (its main metabolite). The aim of this formulation study was to suggest favorable conditions for the development of a stable captopril formulation. The compatibility between the drug and excipients was evaluated by differential scanning calorimetry analysis (DSC). For studies in solution, different formulations were prepared according to a factorial design varying EDTA concentration, water purity and pH. The resultant formulations were stored at 60°C and analyzed over a twelve-day period using HPLC. The DSC curves obtained suggested, although not conclusive to elucidation, interactions of captopril with citric acid and sucralose. The stability study of these solutions revealed that the variables significantly influenced captopril content, which degraded at zero order kinetics and rates differing by a factor of up to 7 times, where pH proved the most influential factor. Interactions between variables were observed. Therefore, development of a stable captopril formulation is feasible provided EDTA and a buffering agent is used at suitable concentrations (0.08% and pH 3.85).

Published

2019

57. Opportunities for enteral drug delivery for neonates, infants, and toddlers: a critical exploration.

Author

Kaneria NS, Tuleu C, and Ernest T

Subjects

Adolescent, Child, Preschool, Drug Development, European Union, Humans, Infant, Infant, Newborn, Pharmaceutical Preparations, Chemistry, Pharmaceutical, Drug Delivery Systems

Abstract

Introduction: The field of neonatal, infant and toddler pharmaceutical development is constantly improving, however a lag still remains in comparison to older children and adults. Their rapid anatomical, physiological and behavioral developmental rates pose extra challenges in diagnosing, treating, or preventing their disease. In turn, this brings complexity in formulating truly age-appropriate medicinal products that suit this heterogeneous pediatric subset. Progress in the availability of such products has ensued following the introduction of the 2007 European Union Pediatric Regulation, and in recent years, oral multiparticulate and dispersible solid formulations have gained interest alongside liquid formulations. However, the need is still great for dosage forms that do not compromise on pharmaceutical efficacy, safety and global accessibility in those aged under 2., Areas Covered: This article highlights some of the formulation challenges correlated with this age group and critically explores recent solid age-appropriate formulations and their administration devices for enteral drug delivery., Expert Opinion: There are many formulation requirements to consider when formulating drug products for children aged under 2. Efforts are required into understanding acceptability in this age group and of their carers, and whether innovation or optimization is required, to help guide formulators toward optimal approaches without impacting access.

Published

2022

58. Recent trends in praziquantel nanoformulations for helminthiasis treatment.

Author

Mengarda AC, Iles B, F Longo JP, and de Moraes J

Subjects

Biological Availability, Humans, Praziquantel pharmacology, Praziquantel therapeutic use, Solubility, Anthelmintics chemistry, Anthelmintics therapeutic use, Helminthiasis drug therapy

Abstract

Introduction: Infections caused by parasitic flatworms impose a considerable worldwide health burden. Recently, World Health Organization launched its roadmap for neglected diseases for the period 2021 to 2030 and oral treatment with praziquantel (PZQ) in tablet form is the main drug therapy for combating these diseases, but its use is limited by many drawbacks, including the high therapeutic dose due to the drug's low solubility and bioavailability. Among the strategies to improve PZQ performance, the use of drug nanocarriers has been cited as an interesting approach to overcome these pharmacological issues., Areas Covered: This review focuses on the various types of nanomaterials (polymeric, lipidic, inorganic nanoparticles, and nanocrystals) which have been recently used to improve PZQ therapy. In addition, recent advances in PZQ nanoformulations, developed to overcome the barriers of the conventional drug are described., Expert Opinion: Considering the poor rate of discovery in the anthelmintic segment observed in recent decades, the effective management of existing drugs has become essential. The application of new strategies based on nanotechnology can extend the useful life of PZQ in new and more effective formulations. Pharmaceutical nanotechnology can solve the pharmacokinetic challenges characteristic of PZQ and improve its solubility and bioavailability.

Published

2022

59. [Introduction of "Access to Health" Initiatives for Neglected Tropical Diseases (NTDs)～R&D of NTD Medicines～].

Author

Domoto F, Kojima H, and Tasaki H

Subjects

Child, Drug Discovery, Humans, Neglected Diseases drug therapy, Praziquantel therapeutic use, Tropical Medicine

Abstract

Astellas regards the situation where there still remain barriers for many people who have difficulty accessing the healthcare they need due to the lack of available treatments, poverty, healthcare system challenges and insufficient healthcare information. Astellas recognizes this problem as the Access to Health issue. To improve Access to Health, Astellas has identified four areas where we can leverage our strengths and technologies, and is working to solve issues, making full use of external partnerships. These areas are "creating innovation", "enhancing availability", "strengthening healthcare system" and "improving health literacy". In March 2018, Astellas participated in the Neglected Tropical Diseases Drug Discovery Booster, a consortium whose purpose is to identify lead compounds for leishmaniasis and Chagas disease, both of which are neglected tropical diseases (NTDs). Moreover, within the pediatric praziquantel consortium, involving pharmaceutical companies, research institutions and international non-profit organizations, Astellas has developed a pediatric formulation of praziquantel for the treatment of schistosomiasis. In this report, we will introduce concretely how Astellas has promoted new drug development projects for NTDs in collaboration with various external partners, giving the projects as examples.

Published

2022

60. Stability of Hydrocortisone in Oral Powder Form Compounded for Pediatric Patients in Japan.

Author

Saito, Jumpei, Yoshikawa, Nozomi, Hanawa, Takehisa, Ozawa, Ayuna, Matsumoto, Takahiro, Harada, Tsutomu, Iwahashi, Kana, Nakamura, Hidefumi, and Yamatani, Akimasa

Subjects

*CHILD patients, *HYDROCORTISONE, *DRUG solubility, *X-ray powder diffraction, *POWDERS, *ADRENAL insufficiency

Abstract

Hydrocortisone has been utilized in the management of adrenal insufficiency. For pediatric patients, the commercially available enteral form of hydrocortisone tablets (Cortoril®) is administered in powder form after being compounded by a pharmacist. However, the stability and quality of compounded hydrocortisone powder have not been verified. In this study, we formulated a 20 mg/g oral hydrocortisone powder by adding lactose monohydrate to crushed and filtered hydrocortisone tablets and assessed the stability and physical properties of this compounded product in polycarbonate amber bottles or coated paper packages laminated with cellophane and polyethylene. Stability was examined over 120 days in three storage conditions: closed bottle, in-use bottle, and laminated paper. Drug dissolution and powder X-ray diffraction analysis were conducted to assess its physicochemical stabilities. Validated liquid chromatography-diode array detection was used to detect and quantify hydrocortisone and its degradation products. Although impurity B (cortisone) and G (hydrocortisone-21-aldehyde) were found after 120 days of storage, no crystallographic and dissolution changes were noted. Hydrocortisone content was maintained between 90% and 110% of initial contents for 120 days at 25 ± 2 °C and 60 ± 5% relative humidity in all packaging conditions. [ABSTRACT FROM AUTHOR]

Published

2021

61. Increased Water-Solubility and Maintained Antioxidant Power of Resveratrol by Its Encapsulation in Vitamin E TPGS Micelles: A Potential Nutritional Supplement for Chronic Liver Disease.

Author

Zuccari, Guendalina, Alfei, Silvana, Zorzoli, Alessia, Marimpietri, Danilo, Turrini, Federica, Baldassari, Sara, Marchitto, Leonardo, and Caviglioli, Gabriele

Subjects

*DIETARY supplements, *VITAMIN E, *LIVER diseases, *MICELLES, *MALNUTRITION, *RESVERATROL, *PROGNOSIS

Abstract

Children affected by chronic liver disease exhibit impaired neurocognitive development and growth due to the low absorption and digestion of nutrients. Furthermore, malnutrition is an adverse prognostic factor in liver transplantation as it is associated with an increase in morbidity and mortality. D-α-tocopheryl-polyethylene-glycol-succinate (TPGS) is currently administered per os as a vitamin E source to improve children's survival and well-being; however, TPGS alone does not reverse spinocerebellar degeneration and lipid peroxidation. To potentiate the effects of TPGS, we loaded micelles with resveratrol (RES), a natural polyphenol, with antioxidant and antiinflammatory activities, which has demonstrated protective action in the liver. Firstly, we investigated the suitability of TPGS to encapsulate RES in micelles by means of a phase-solubility study, then RES-TPGS formulations were prepared via solvent casting and solvent diffusion evaporation methods. RES-TPGS colloidal dispersions showed small mean diameters (12 nm), low polydispersity, and quite neutral Zeta potentials. The formulations showed a sustained drug release and a good drug loading capacity, further confirmed by infrared spectroscopy and differential scanning calorimetry. RES-TPGSs exhibited unaltered antioxidant activity compared to pristine RES via the DPPH assay and a significant reduction in toxicity compared to empty TPGS on HaCaT cells. Thus, RES-TPGS micelles may overcome the challenges of current liver disease therapy by providing more protective effects thanks to the antioxidant activity of RES and by reducing the surfactant toxicity on normal cells. [ABSTRACT FROM AUTHOR]

Published

2021

62. Cold Chain-Free Storable Hydrogel for Infant-Friendly Oral Delivery of Amoxicillin for the Treatment of Pneumococcal Pneumonia

Author

Keming, Xu, Liang, Li, Mingyue, Cui, Yiyuan, Han, H Enis, Karahan, Vincent T K, Chow, and Chenjie, Xu

Subjects

amoxicillin, pediatric formulation, Infant, Hydrogels, Pneumonia, Pneumococcal, Anti-Bacterial Agents, Mice, Refrigeration, shear-thinning hydrogel, metolose, Animals, Humans, pneumonia, Research Article

Abstract

Pneumonia is the major cause of death in children under five, particularly in developing countries. Antibiotics such as amoxicillin greatly help in mitigating this problem. However, there is a lack of an infant/toddler-friendly formulation for countries with limited clean water orr electricity. Here, we report the development of a shear-thinning hydrogel system for the oral delivery of amoxicillin to infant/toddler patients, without the need of clean water and refrigeration. The hydrogel formulation consists of metolose (hydroxypropyl methylcellulose) and amoxicillin. It preserves the structural integrity of antibiotics and their antibacterial activity over 12 weeks at room temperature. Pharmacokinetic profiling of mice reveals that the hydrogel formulation increases the bioavailability of drugs by ∼18% compared to that with aqueous amoxicillin formulation. More importantly, oral gavage of this formulation in a mouse model of secondary pneumococcal pneumonia significantly ameliorates inflammatory infiltration and tissue damage in lungs, with a 10-fold reduction in bacterial counts compared to those in untreated ones. Given the remarkable antibacterial efficacy as well as the use of FDA-regulated ingredients (metolose and amoxicillin), the hydrogel formulation holds great promise for rapid clinical translation.

Published

2017

63. Development and evaluation of controlled release pellets in orodispersible tablets for pediatric use

Author

Martinez Teran, Maria Esther, Médicaments et biomatériaux à libération contrôlée: mécanismes et optimisation - Advanced Drug Delivery Systems - U 1008 (MBLC - ADDS), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Lille-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille), Université du Droit et de la Santé - Lille II, Marie-Pierre Flament, STAR, ABES, and Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille)-Université de Lille

Subjects

Mini-granules, [SDV.MHEP] Life Sciences [q-bio]/Human health and pathology, Multiple-unit orodispersible tablets, Comprimé multiple-unit orodispersible, Masquage de goût, Pellets, Pediatric formulation, Controlled release, Libération contrôlée, Taste masking, Formulation pédiatrique, [SDV.MHEP]Life Sciences [q-bio]/Human health and pathology

Abstract

In the last decade, medical agencies have promoted a pediatric regulatory focusing on the development and availability of age-appropriate formulations suitable for age, size, physiological condition and treatment requirements for the pediatric population. In general, oral drug delivery is still preferred over the other drug delivery routes since it is convenient, economical and user friendly. In recent years, a number of new solid oral drug delivery platforms such as orodispersible tablets have been developed as they are easy to administer, do not require additional water and, as long as dispersion is rapid, the bioavailability of the drug can be significantly greater than those observed in conventional tablet dosage forms offering a potential alternative for pediatric patients. In parallel, multiparticulate products present many advantages compared to single-unit dosage forms as they distribute fast through the gastrointestinal tract, thus reducing local irritation caused by the active ingredient, enhancing drug absorption and decreasing fluctuation of plasma peaks. Moreover, it is possible to control the drug release rate, resulting in fewer adverse effects. Only few studies have dealt with the compaction of uncoated pellets, which potentially could provide fewer problems during compaction than coated pellets, in particular by reducing damages on the coating.The overall objective of this study was to develop a Multiple-Unit Pellet Orodispersible Tablet (MUP-ODT) allowing for the controlled release of acetaminophen (APAP), used as a model drug, which is contained in the pellets of the orodispersible tablets.The first part determined the mechanical properties of APAP pellets produced by the extrusion-spheronization technique containing different types of excipients and different drug load percentages to produce a controlled release matrix system.The second part of this study examined the feasibility to compress uncoated free drug MCC pellets with different orodispersible formulations to assess the influence of the percentage of pellets, type of disintegrants and compression force.The third part was dedicated to produce MUP-ODTs which allowing for controlled-release of APAP using different percentages of Eudragit® to create the matrix system without significant changes in the release profile after compression.Finally, a design of experiments was carried out to determinate the optimal parameters to produce MUP-ODTs.Taste-masking evaluation was realized using the electronic tongue. Dissolution test was performed using a syringe pump and small volumes of aqueous medium at low flow rates to mimic the behavior in the mouth of the child.Different polymers were successfully used to produce APAP matrix pellets with different drug loadings. MUP-ODTs were successfully obtained demonstrating their feasible production with good mechanical properties. They enable very fast disintegration and modified release properties, but also offer easy swallowing for children and dose flexibility., Dans la dernière décennie, les autorités de santé ont promulgué une réglementation pédiatrique orientée sur le développement et la disponibilité des formulations adaptées à l'âge, la taille, l'état physiologique et les besoins de la population pédiatrique. Généralement, l'administration de médicaments par la voie orale est toujours préférée aux autres voies d'administration car elle est pratique, économique et bien acceptée. Au cours des dernières années, de nouvelles formulations solides ont été développés comme par exemple les comprimés orodispersibles car ils sont faciles à administrer, ne nécessitent pas d'eau et, dès lors que la dispersion est rapide, la biodisponibilité du médicament peut être significativement supérieure à celle observée avec les comprimés classiques offrant ainsi des solutions alternatives pour les enfants. D’autre part, les mini-granules présentent de nombreux avantages par rapport aux formes galéniques solides unitaires car ils se dispersent à travers le tractus gastro-intestinal, réduisant ainsi l'irritation locale du principe actif, et permettent l'amélioration de l'absorption du médicament ainsi que la diminution des fluctuations de concentration plasmatique. De plus, avec ces formes multiparticulaires, il est possible de contrôler la vitesse de libération du médicament, ce qui réduit les effets indésirables. Quelques études ont porté sur la compression des mini-granules non enrobés, ce qui pourraient limiter les problèmes pendant la compression comparativement aux mini-granules enrobés pour lesquels l’enrobage pourrait être détruit.L'objectif global de ce travail était de développer un comprimé multiparticulaire orodispersible (MUP-ODT) qui permet la libération contrôlée d'acétaminophène (APAP), utilisé comme principe actif modèle, contenue dans les mini-granules des comprimés orodispersibles.La première partie a déterminé les propriétés mécaniques des mini-granules d’APAP obtenus par la technique d’extrusion-sphéronisation en contenant différents types d'excipients et différents pourcentages de principe actif pour produire un système matriciel à libération contrôlée.La seconde partie de cette étude a examiné la faisabilité de comprimer des mini-granules non enrobés à base de cellulose microcristalline (MCC) dans différentes formulations orodispersibles et d’étudier l'influence du pourcentage de mini-granules, le type de désagrégant et la force de compression.La troisième partie a été dédiée à la production des MUP-ODTs qui permettent la libération contrôlée d’APAP en utilisant différents pourcentages d’Eudragit® pour créer un système matriciel sans changement significatif dans le profil de libération après la compression.Enfin, dans la dernière partie, un plan d'expérience a été effectué pour déterminer les paramètres optimaux pour produire les MUP-ODTs. L'évaluation du masquage de goût a été réalisée par la langue électronique et la méthode de dissolution à l'aide d'une pompe à seringues qui utilise de fiables volumes de milieu afin de simuler le comportement dans la bouche d’un enfant. Plusieurs polymères ont été utilisés avec succès pour produire des mini-granules d’APAP de type matriciel avec différents pourcentages de principe actif. Les MUP-ODTs ont été obtenus en montrant la faisabilité de leur production et l’obtention de bonnes propriétés mécaniques. Ils permettent la désagrégation très rapide et la possibilité de libération modifiée, tout en offrant une déglutition facile pour un enfant et une flexibilité de posologie.

Published

2016

64. Novel in situ self-assembly nanoparticles for formulating a poorly water-soluble drug in oral solid granules, improving stability, palatability, and bioavailability

Author

Diana Li, Scott R. Penzak, Shujie Guo, Xiaowei Dong, and Kevin Pham

Subjects

Male, Materials science, Time Factors, pediatric formulation, Biophysics, Pharmaceutical Science, Nanoparticle, Administration, Oral, Biological Availability, Bioengineering, 02 engineering and technology, Pharmacology, 030226 pharmacology & pharmacy, Rats sprague dawley, Biomaterials, Rats, Sprague-Dawley, taste, 03 medical and health sciences, 0302 clinical medicine, Water soluble drug, International Journal of Nanomedicine, Drug Discovery, Animals, Palatability, Particle Size, drug loading, Chromatography, High Pressure Liquid, Original Research, Principal Component Analysis, Ritonavir, Calorimetry, Differential Scanning, Organic Chemistry, Water, General Medicine, 021001 nanoscience & nanotechnology, Bioavailability, Body Fluids, Chemical engineering, Solubility, lipid formulation, Nanoparticles, Self-assembly, 0210 nano-technology, pharmacokinetics, Biological availability

Abstract

Shujie Guo,1 Kevin Pham,2 Diana Li,2 Scott R Penzak,3 Xiaowei Dong2 1State Key Laboratory of Medical Genomics, Shanghai Key Laboratory of Hypertension, Ruijin Hospital, Shanghai Jiao Tong University School of Medicine, Shanghai, People’s Republic of China; 2Department of Pharmaceutical Sciences, 3Department of Pharmacotherapy, University of North Texas Health Science Center, Fort Worth, TX, USA Purpose: The purpose of this study was to develop a novel lipid-based nanotechnology to formulate poorly water-soluble drugs in oral solid granules to improve stability, palatability, and bioavailability. Materials and methods: In one method, we prepared ritonavir (RTV) nanoparticles (NPs) by a microemulsion-precursor method and then converted the RTV NPs to solid granules by wet granulation to produce RTV NP-containing granules. In the other innovative method, we did not use water in the formulation preparation, and discovered novel in situ self-assembly nanoparticles (ISNPs). We prepared RTV ISNP granules that did not initially contain NPs, but spontaneously produced RTV ISNPs when the granules were introduced to water with gentle agitation. We fully characterized these RTV nanoformulations. We also used rats to test the bioavailability of RTV ISNP granules. Finally, an Astree electronic tongue was used to assess the taste of the RTV ISNP granules. Results: RTV NP-containing granules only had about 1% drug loading of RTV in the solid granules. In contrast, RTV ISNP granules achieved over 16% drug loading and were stable at room temperature over 24 weeks. RTV ISNPs had particle size between 160 nm and 300 nm with narrow size distribution. RTV ISNPs were stable in simulated gastric fluid for 2 hours and in simulated intestinal fluid for another 6 hours. The data from the electronic tongue showed that the RTV ISNP granules were similar in taste to blank ISNP granules, but were much different from RTV solution. RTV ISNP granules increased RTV bioavailability over 2.5-fold compared to RTV solution. Conclusion: We successfully discovered and developed novel ISNPs to manufacture RTV ISNP granules that were reconstitutable, stable, and palatable, and improved RTV bioavailability. The novel ISNP nanotechnology is a platform to manufacture oral solid dosage forms for poorly water-soluble drugs, especially for pediatric formulation development. Keywords: ritonavir, pediatric formulation, taste, pharmacokinetics, lipid formulation, drug loading

Published

2016

65. Développement et évaluation des minigranules à libération contrôlée dans les comprimés orodispersibles à usage pédiatrique

Author

Martinez Teran, Maria Esther, STAR, ABES, Médicaments et biomatériaux à libération contrôlée: mécanismes et optimisation - Advanced Drug Delivery Systems - U 1008 (MBLC - ADDS), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Lille-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille), Université du Droit et de la Santé - Lille II, and Marie-Pierre Flament

Subjects

Mini-granules, Multiple-unit orodispersible tablets, Comprimé multiple-unit orodispersible, [SDV.MHEP] Life Sciences [q-bio]/Human health and pathology, Masquage de goût, Pellets, Pediatric formulation, Controlled release, Libération contrôlée, Taste masking, Formulation pédiatrique, [SDV.MHEP]Life Sciences [q-bio]/Human health and pathology

Abstract

In the last decade, medical agencies have promoted a pediatric regulatory focusing on the development and availability of age-appropriate formulations suitable for age, size, physiological condition and treatment requirements for the pediatric population. In general, oral drug delivery is still preferred over the other drug delivery routes since it is convenient, economical and user friendly. In recent years, a number of new solid oral drug delivery platforms such as orodispersible tablets have been developed as they are easy to administer, do not require additional water and, as long as dispersion is rapid, the bioavailability of the drug can be significantly greater than those observed in conventional tablet dosage forms offering a potential alternative for pediatric patients. In parallel, multiparticulate products present many advantages compared to single-unit dosage forms as they distribute fast through the gastrointestinal tract, thus reducing local irritation caused by the active ingredient, enhancing drug absorption and decreasing fluctuation of plasma peaks. Moreover, it is possible to control the drug release rate, resulting in fewer adverse effects. Only few studies have dealt with the compaction of uncoated pellets, which potentially could provide fewer problems during compaction than coated pellets, in particular by reducing damages on the coating.The overall objective of this study was to develop a Multiple-Unit Pellet Orodispersible Tablet (MUP-ODT) allowing for the controlled release of acetaminophen (APAP), used as a model drug, which is contained in the pellets of the orodispersible tablets.The first part determined the mechanical properties of APAP pellets produced by the extrusion-spheronization technique containing different types of excipients and different drug load percentages to produce a controlled release matrix system.The second part of this study examined the feasibility to compress uncoated free drug MCC pellets with different orodispersible formulations to assess the influence of the percentage of pellets, type of disintegrants and compression force.The third part was dedicated to produce MUP-ODTs which allowing for controlled-release of APAP using different percentages of Eudragit® to create the matrix system without significant changes in the release profile after compression.Finally, a design of experiments was carried out to determinate the optimal parameters to produce MUP-ODTs.Taste-masking evaluation was realized using the electronic tongue. Dissolution test was performed using a syringe pump and small volumes of aqueous medium at low flow rates to mimic the behavior in the mouth of the child.Different polymers were successfully used to produce APAP matrix pellets with different drug loadings. MUP-ODTs were successfully obtained demonstrating their feasible production with good mechanical properties. They enable very fast disintegration and modified release properties, but also offer easy swallowing for children and dose flexibility., Dans la dernière décennie, les autorités de santé ont promulgué une réglementation pédiatrique orientée sur le développement et la disponibilité des formulations adaptées à l'âge, la taille, l'état physiologique et les besoins de la population pédiatrique. Généralement, l'administration de médicaments par la voie orale est toujours préférée aux autres voies d'administration car elle est pratique, économique et bien acceptée. Au cours des dernières années, de nouvelles formulations solides ont été développés comme par exemple les comprimés orodispersibles car ils sont faciles à administrer, ne nécessitent pas d'eau et, dès lors que la dispersion est rapide, la biodisponibilité du médicament peut être significativement supérieure à celle observée avec les comprimés classiques offrant ainsi des solutions alternatives pour les enfants. D’autre part, les mini-granules présentent de nombreux avantages par rapport aux formes galéniques solides unitaires car ils se dispersent à travers le tractus gastro-intestinal, réduisant ainsi l'irritation locale du principe actif, et permettent l'amélioration de l'absorption du médicament ainsi que la diminution des fluctuations de concentration plasmatique. De plus, avec ces formes multiparticulaires, il est possible de contrôler la vitesse de libération du médicament, ce qui réduit les effets indésirables. Quelques études ont porté sur la compression des mini-granules non enrobés, ce qui pourraient limiter les problèmes pendant la compression comparativement aux mini-granules enrobés pour lesquels l’enrobage pourrait être détruit.L'objectif global de ce travail était de développer un comprimé multiparticulaire orodispersible (MUP-ODT) qui permet la libération contrôlée d'acétaminophène (APAP), utilisé comme principe actif modèle, contenue dans les mini-granules des comprimés orodispersibles.La première partie a déterminé les propriétés mécaniques des mini-granules d’APAP obtenus par la technique d’extrusion-sphéronisation en contenant différents types d'excipients et différents pourcentages de principe actif pour produire un système matriciel à libération contrôlée.La seconde partie de cette étude a examiné la faisabilité de comprimer des mini-granules non enrobés à base de cellulose microcristalline (MCC) dans différentes formulations orodispersibles et d’étudier l'influence du pourcentage de mini-granules, le type de désagrégant et la force de compression.La troisième partie a été dédiée à la production des MUP-ODTs qui permettent la libération contrôlée d’APAP en utilisant différents pourcentages d’Eudragit® pour créer un système matriciel sans changement significatif dans le profil de libération après la compression.Enfin, dans la dernière partie, un plan d'expérience a été effectué pour déterminer les paramètres optimaux pour produire les MUP-ODTs. L'évaluation du masquage de goût a été réalisée par la langue électronique et la méthode de dissolution à l'aide d'une pompe à seringues qui utilise de fiables volumes de milieu afin de simuler le comportement dans la bouche d’un enfant. Plusieurs polymères ont été utilisés avec succès pour produire des mini-granules d’APAP de type matriciel avec différents pourcentages de principe actif. Les MUP-ODTs ont été obtenus en montrant la faisabilité de leur production et l’obtention de bonnes propriétés mécaniques. Ils permettent la désagrégation très rapide et la possibilité de libération modifiée, tout en offrant une déglutition facile pour un enfant et une flexibilité de posologie.

Published

2016

66. Development of a safe and versatile suspension vehicle for pediatric use: Formulation development.

Author

Alarie, Hugo, Roullin, V. Gaëlle, and Leclair, Grégoire

Subjects

*AUTOMOBILE springs & suspension, *ACETAMINOPHEN, *PROPIONIC acid, *COMMERCIAL vehicles, *VISCOSITY, *EXCIPIENTS

Abstract

This project aimed to develop a suspension vehicle specifically designed for pediatric use. Excipients were selected according to their safety and recorded use in pediatrics. Two suspension vehicles were formulated at neutral and acidic pH. A few compositions were defined, and their physicochemical properties assessed and compared to readily-available commercial vehicles. As required for a multidose oral formulation, an antimicrobial effectiveness test was conducted according to the USP. Different microbial strains were inoculated individually in each formulation and their concentrations monitored for 28 days. Propionic acid proved to be an effective preservative against all tested strains at pH 4.5. All tested preservative failed the test at pH 7.5. The final version of the novel vehicle presented a pH of 4.5 and a viscosity of 85 cP at 25 °C. A clear shear-thinning behaviour could be observed. These properties warranted an adequate physical stability and resuspendability, when tested with prednisolone and acetaminophen tablets. A slight reduction of the viscosity was reported when stored at room temperature, but the pH remained constant for 180 days in refrigerated conditions and at room temperature. The final result is a ready-to-use compounding vehicle, containing minimal excipients, safe for children's use and stable for 6 months. [ABSTRACT FROM AUTHOR]

Published

2019

67. Quinine sulphate pellets for flexible pediatric drug dosing: formulation development and evaluation of taste-masking efficiency using the electronic tongue

Author

Jean Paul Remon, Nathalie Huyghebaert, Pierre Claver Kayumba, Jd Ntawukuliryayo, Christophe B.Y. Cordella, Chris Vervaet, National University of Rwanda, Partenaires INRAE, Laboratory of Pharmaceutical Technology, Universiteit Gent = Ghent University [Belgium] (UGENT), and Alpha MOS France

Subjects

pediatric formulation, Chemistry, Pharmaceutical, Pellets, Pharmaceutical Science, 02 engineering and technology, Biosensing Techniques, electronic tongue, Pharmacology, 030226 pharmacology & pharmacy, Dosage form, Dibutyl sebacate, taste-masking, Pellet Dosage Form, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Polymethacrylic Acids, Tongue, quinine sulphate, medicine, Humans, Technology, Pharmaceutical, Dissolution testing, Particle Size, Child, Quinine, Chromatography, Chemistry, Plasticizer, General Medicine, Eudragit EPO, 021001 nanoscience & nanotechnology, pellets, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Taste, extrusion-spheronisation, [SDV.SPEE]Life Sciences [q-bio]/Santé publique et épidémiologie, Stearic acid, [SDV.IMM.VAC]Life Sciences [q-bio]/Immunology/Vaccinology, 0210 nano-technology, Biotechnology, medicine.drug

Abstract

International audience; The purpose of this study was to develop a taste-masked quinine sulphate dosage form as a flexible pediatric formulation tool. Pellets were produced as they offer more flexibility to body weight dose adaptation and therefore represent an alternative to tablet breaking in pediatrics. Quinine sulphate pellets were produced via extrusion-spheronisation. Next pellets were coated using Eudragit E PO to obtain a taste-masked formulation. Using 15% dibutyl sebacate (based on polymer weight) as a plasticizer in the formulation caused rapid pellet agglomeration during storage at 40 degrees C and 75% relative humidity. Using stearic acid (15% based on polymer weight) as plasticizer yielded pellets which were less sensitive to sticking. Quinine sulphate release in water within the first 5 min of dissolution testing: 9.2%, 5.9% and 2.1% of the drug dose was released from pellets coated with 10%, 20% and 30% (w/w) Eudragit E PO, respectively. These observations correlated well with the bitterness score of the formulations determined via the Astree electronic tongue and its Bitterness Prediction Module, showing that 20% (w/w) Eudragit E PO was required to obtain a homogeneous film and to delay quinine sulphate release sufficiently to mask the bitterness after drug administration. In acid medium immediate quinine sulphate release was obtained.

Published

2007

68. Cold Chain-Free Storable Hydrogel for Infant-Friendly Oral Delivery of Amoxicillin for the Treatment of Pneumococcal Pneumonia.

Author

Xu K, Li L, Cui M, Han Y, Karahan HE, Chow VTK, and Xu C

Subjects

Animals, Humans, Hydrogels, Infant, Mice, Pneumonia, Pneumococcal, Refrigeration, Amoxicillin chemistry, Anti-Bacterial Agents chemistry

Abstract

Pneumonia is the major cause of death in children under five, particularly in developing countries. Antibiotics such as amoxicillin greatly help in mitigating this problem. However, there is a lack of an infant/toddler-friendly formulation for countries with limited clean water orr electricity. Here, we report the development of a shear-thinning hydrogel system for the oral delivery of amoxicillin to infant/toddler patients, without the need of clean water and refrigeration. The hydrogel formulation consists of metolose (hydroxypropyl methylcellulose) and amoxicillin. It preserves the structural integrity of antibiotics and their antibacterial activity over 12 weeks at room temperature. Pharmacokinetic profiling of mice reveals that the hydrogel formulation increases the bioavailability of drugs by ∼18% compared to that with aqueous amoxicillin formulation. More importantly, oral gavage of this formulation in a mouse model of secondary pneumococcal pneumonia significantly ameliorates inflammatory infiltration and tissue damage in lungs, with a 10-fold reduction in bacterial counts compared to those in untreated ones. Given the remarkable antibacterial efficacy as well as the use of FDA-regulated ingredients (metolose and amoxicillin), the hydrogel formulation holds great promise for rapid clinical translation.

Published

2017

69. Schistosomiasis therapeutics: whats in the pipeline?

Author

Trainor-Moss S and Mutapi F

Subjects

Animals, Female, Humans, Neglected Diseases drug therapy, Neglected Diseases parasitology, Praziquantel therapeutic use, Schistosoma drug effects, Tropical Climate, Drug Design, Schistosomiasis drug therapy, Schistosomicides therapeutic use

Abstract

Schistosomiasis is a debilitating neglected tropical disease caused by schistosome worms. Global efforts to control schistosomiasis rely predominantly on mass drug administration of the drug praziquantel to populations at risk of infection. We review the history of schistosome drug development and the current position of schistosome drug research. We conclude that with no additional candidates currently in the anti-schistosome drug clinical trial pipeline, a practical and necessary approach is to optimise the health benefits from praziquantel. We offer suggestions of where and how this can be achieved. We also highlight knowledge gaps in the utility of praziquantel particularly in the treatment of chronic schistosomiasis, which includes fibrosis, organomegaly and cervical lesions associated with female genital schistosomiasis.

Published

2016