Development of an Oral Liquid Formulation of Nicardipine Hydrochloride Compounded with Simple Excipients for the Treatment of Pediatric Hypertension

Development of Personalised Immediate-Release Gel-Based Formulations Using Semi-Solid Extrusion

Precision in dosing is crucial for optimizing therapeutic outcomes and preventing overdosing, especially in preterm infants. Traditional manual adjustments to adapt the dose often lead to inaccuracies, contamination risks, and reduced precision. To overcome these challenges, semi-solid extrusion 3D printing was used to create personalised gel-based caffeine dosage forms. The hydrogels, made from agar and hydroxypropyl methylcellulose, demonstrated excellent rheological properties, ensuring uniform extrusion and accurate shape retention during and after printing. This gel formulation allowed for precise adjustments of caffeine volume and content tailored to a neonate weighing 1.36 kg, achieving a recovery of 103.46%, well within acceptable limits. Additionally, three production batches confirmed the process's reproducibility with minimal variability. Forced degradation studies showed that both pure caffeine and caffeine in the gel matrix exhibited similar stability profiles, confirming the drug's chemical integrity. The printed gel dosage forms also displayed immediate-release characteristics, with over 80% of caffeine released within 45 min, highlighting their suitability for rapid therapeutic action. These findings emphasise the potential of SSE 3DP and gel-based formulations to produce personalised drug delivery systems with high precision, reproducibility, and reliability.

Devices for securing and administering pediatric compounded oral liquids: survey results from French university hospitals

Oral liquid forms, either commercial or compounded, are preferred in pediatrics due to their suitability for weight-based dosing and acceptability for children. The choice of dosing delivery devices associated with oral liquid forms is important to ensure accurate dosing, ease of administration, and patient safety. Given the prevalence of compounding in pediatric settings, this study aimed to investigate the practices among French university hospitals concerning the selection of dosing delivery devices associated with compounding oral liquid forms for children. An online survey was distributed to pharmacists involved in compounding in French university hospitals. The survey covered aspects such as the presence of child-resistant caps, types of dosing devices, the presence of bottle adapters, and the type of bottle adapters used. Among the 36 hospital pharmacies contacted, 24 responded to the survey. One pharmacy employed child-resistant caps for compounded liquid forms. Enteral syringes emerged as the primary dosing device (71%), with a minority using luer/luer-lock syringes (21%). Spoon and measuring cup usage was reported by none. Approximately two-thirds of the pharmacies (67%) used a bottle adapter in conjunction with the sampling device.   Conclusion: The study highlighted diversity in the practices of French university hospitals regarding dosing delivery devices associated with compounding oral liquid forms for pediatric patients. The findings underscored the need for standardized guidelines to streamline practices and enhance safety and precision in compounded medication administration for children. What is Known: • Administration devices are important to ensure the correct administration of the required dose of oral liquids in pediatrics. • For compounded oral liquid forms, the selection and supply of administration devices are managed by compounding pharmacies from those available on the market. What is New: • The study highlighted the variability of administration devices associated with compounded liquids for oral use in French hospital pharmacies.