A clear unmet medical need exists for pediatric-centered drug formulations. Currently, it is often still necessary to either manipulate a marketed drug before it can be administered to a child, or to prepare an extemporaneous preparation by the pharmacist. As a highly flexible production technique, 3D printing can provide in this unmet need.
In this presentation, the product development of two active pharmaceutical ingredients, namely furosemide and sildenafil, will be presented.
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The treatment goal for patients with adrenal insufficiency (AI) is to mimic physiological cortisol plasma concentrations. The current cortisol replacement therapies are suboptimal due to their drug release profile, fixed-dose character and the inability to cover nocturnal cortisol plasma concentrations. There is a high inter-individual variability in the cortisol need within this patient group, which comes with the unmet need for personalized cortisol formulations. 3D printing is a suitable technology for manufacturing oral dosage forms which allows us to easily adjust the drug dose and release profile based on patient needs. The aim of this research is to develop novel tailor-made 3D printed hydrocortisone formulations covering the daily as well as nocturnal physiological cortisol plasma concentrations.
Continue reading “Stress-relieving: printing personalized cortisol for patients with adrenal insufficiency.”
Interview with Beatriz Pereira, University of Central Lancashire, for JakajimaTV hosted by Pieter Hermans. Current healthcare follows an ‘one size fits all’ approach, and it is associated with high variations in treatment outcomes, due to the high interindividual variability.
Continue reading “3D printing of modular ‘polypills’ for personalised therapy”