A toolbox for mimicking gastrointestinal conditions in children: Design and evaluation of biorelevant dissolution media for mimicking paediatric gastric- and small intestinal conditions.

The goal of the present work was to develop an in vitro toolbox to evaluate the oral administration of dosage forms to children of different age groups and under different administration conditions (fasted/fed). Based on current data on the gastrointestinal physiology of children, a set of new biorelevant media was designed to mimic the composition and physicochemical properties of resting gastric and resting small intestinal fluid in children of different age groups. In addition, guidelines were developed on how to generate fasted and fed state gastric and small intestinal fluids by combining these media with age-specific drinking volumes or portions of already established simulated paediatric breakfast meals, respectively. These fluids can simulate the conditions in the paediatric stomach and small intestine after administration of a dosage form in the fasting state or after a breakfast. The in vitro toolbox was evaluated using the example of pre-school children with a total of five paediatric medicines. Results from the corresponding set of in vitro studies highlight the importance of addressing patient-specific characteristics rather than downscaling existing adult in vitro models.

Vehicles for Drug Administration to Children: Results and Learnings from an In-Depth Screening of FDA-Recommended Liquids and Soft Foods for Product Quality Assessment.

PURPOSE: Mixing with liquids or soft foods is a common procedure to improve acceptability of oral medicines in children but may affect drug stability and the in vivo performance of the administered drug product. The aim of the present study was to obtain an overview of the variability of critical attributes of commonly used vehicles and to identify which vehicle characteristics need to be considered when developing in vitro methods for evaluating product quality. METHODS: One product of each vehicle listed in the FDA draft guidance "Use of Liquids and/or Soft Foods as Vehicles for Drug Administration" was analyzed with regard to composition, calorific content and physicochemical properties. RESULTS: The studied vehicles show wide variability, both in composition and physicochemical properties. No correlation was observed between vehicle composition and physicochemical properties. Comparison of results of the present study with previously published data also provided variability in physicochemical properties within individual vehicle types. CONCLUSIONS: To identify acceptable (qualified) vehicles for global drug product labeling, it is important that the vehicles selected for in vitro compatibility screening reflect the variability in composition and essential physicochemical properties of the vehicles recommended on the product label, rather than relying on results obtained with a single vehicle of each type. Future activities will focus on the development of standardized dosing vehicles that can represent key vehicle characteristics in all their variability to ensure reliable risk assessment.

A Toolbox for Mimicking Gastrointestinal Conditions in Children: Simulated Paediatric Breakfast Media (SPBM) for Addressing the Variability of Gastric Contents After Typical Paediatric Breakfasts.

Since co-administration of dosage forms with food can impact drug exposure, food effect studies became an integral part of oral drug product development. Studies are usually performed in healthy adults and the dosage form is co-administered with a high-fat high-calorie standard breakfast meal to mimic worst-case dosing conditions. A corresponding study design for children is lacking but would be essential for a proper risk-assessment in this vulnerable patient group. To protect healthy children from unnecessary in vivo studies, it would be even more desirable to predict food effects based on other than in vivo studies in the target age group. In the present study, typical children's breakfasts in different parts of the world were identified, prepared and physicochemical properties were assessed. Subsequently, Simulated Paediatric Breakfast Media (SPBM) resembling breakfast composition and properties were designed and applied in in vitro dissolution experiments mimicking the initial composition of the postprandial stomach after breakfast ingestion. Study results indicate the impact of different simulated gastric conditions on drug release. SPBM enabled to better estimate the variability of in vivo drug release in fed dosing conditions and their use will aid in better assessing food effects in children in different parts of the world.

A Biopredictive In Vitro Approach for Assessing Compatibility of a Novel Pediatric Hydrocortisone Drug Product within Common Pediatric Dosing Vehicles.

PURPOSE: The objective of the present work was to screen whether a novel pediatric hydrocortisone granule formulation can be co-administered with common food matrices and liquids. METHODS: Pediatric hydrocortisone granules were studied using a biopredictive in vitro approach. Experiments included an in situ chemical compatibility study of active ingredient and drug product with liquid dosing vehicles and soft foods commonly ingested by infants, pre-school- and school children. Drug solubility and stability experiments in the different vehicle types and, drug release/dissolution experiments mimicking age-related pediatric gastric conditions after administering the hydrocortisone granules together with the dosing vehicles and after different exposure/mixing times were performed. RESULTS: In the simulated dosing scenarios applied in dissolution experiments, in vitro dissolution in gastric conditions was rapid and complete. Results of the chemical compatibility/stability studies indicated that mixing with the different dosing vehicles studied should not be an issue regarding drug degradation products. CONCLUSIONS: A novel in vitro approach ensuring a proper risk assessment of the use of dosing vehicles in the administration of pediatric dosage forms was established and applied to a novel pediatric hydrocortisone drug product. The studied dosing vehicles were shown to not alter performance of the drug product and are thus considered suitable for administration with hydrocortisone granules. Graphical abstract.

Safe, swallowable and palatable paediatric mini-tablet formulations for a WHO model list of essential medicines for children compound - A promising starting point for future PUMA applications.

More than 10 years after the Paediatric Regulation came into place there is still a strong need for paediatric medicines for off-patent drug substances. Numerous compounds for which a paediatric formulation does not exist can be found on the WHO Model List of Essential Medicines for Children and in the EMA Inventory of the Needs for Paediatric Medicines. Many of these compounds are off patent, which offers the opportunity for obtaining marketing authorisations for paediatric use. The present study focused on the development of paediatric immediate-release mini-tablet formulations for furosemide. Essential formulation criteria included the use of excipients that are regarded as safe for children, the ease of manufacturing, a high dose flexibility, fast disintegration, a robust drug release and a good acceptability. Only excipients regarded as safe for use in children were used in formulation screening. Compressibility, tablet hardness, disintegration and palatability were the main screening parameters. Formulations with a hardness of  > 20 N, a disintegration time < 3 min (fast disintegration) and a good palatability were selected for mini-tablet production. Based on this pre-assessment two mini-tablet formulations with a furosemide drug load of 2.5 mg were developed. Both were easy to manufacture, had an appropriate hardness, a short disintegration time and met pharmacopoeial requirements with regard to content uniformity and physical testing. Biorelevant in vitro dissolution experiments mimicking different modes (with water or dosing vehicles) of administering age-appropriate furosemide doses to children of different age groups indicated a fast and robust drug release. Overall, the novel mini-tablet formulations present with an increased dose flexibility, excipient safety, swallowability and palatability and are thus a promising starting point for the development of solid oral dosage forms for drugs with paediatric therapeutic needs.

A review of GI conditions critical to oral drug absorption in malnourished children.

Accurate prediction of oral absorption of drugs relies on biorelevant methodology. Current methods are based on Western healthy adult populations. Malnourished children have many differences in their gastrointestinal anatomy and physiology compared to a healthy Western adult. These differences may affect the oral absorption of medicines and it is important to gather knowledge on these GI differences in order to develop biorelevant predictive methods for this vulnerable population. A literature search was conducted within PubMed and Scopus to identify papers that describe how gastrointestinal physiology and anatomy is altered in malnourished children. Relevant data was extracted and a narrative review generated to describe how GI differences may affect oral drug absorption. Several differences in GI anatomy and physiology were reported in the literature including: reduced saliva secretion; increased gastric pH; slower gastric emptying; increased levels of bacteria in the small intestine; reduced surface area of intestinal villi and increased intestinal permeability. Much of the data was more than 30 years old and referred to a heterogeneous malnourished population. Sufficient data has been identified that will inform basic novel biorelevant methods to predict oral drug absorption in malnourished children. Further work is required to generate additional data to improve these models and also to verify the models with appropriate pharmacokinetic data.