Cost Utility Analysis of Fixed Dose and Free Dose Combinations of Oral Medications in Type 2 Diabetes Patients

Anupindi, Vamshi Ruthwik

24 May 2016

No description available.

Pharmacy Sciences

Health Care

Economics

3D Printing of a Multi-Layered Polypill Containing Six Drugs Using a Novel Stereolithographic Method

Robles-Martinez, P., Xu, X., Trenfield, S.J., Awad, A., Goyanes, A., Telford, Richard, Basit, A.W., Gaisford, S.

15 October 2019

Yes / Three-dimensional printing (3DP) has demonstrated great potential for multi-material fabrication because of its capability for printing bespoke and spatially separated material conformations. Such a concept could revolutionise the pharmaceutical industry, enabling the production of personalised, multi-layered drug products on demand. Here, we developed a novel stereolithographic (SLA) 3D printing method that, for the first time, can be used to fabricate multi-layer constructs (polypills) with variable drug content and/or shape. Using this technique, six drugs, including paracetamol, cffeine, naproxen, chloramphenicol, prednisolone and aspirin, were printed with dfferent geometries and material compositions. Drug distribution was visualised using Raman microscopy, which showed that whilst separate layers were successfully printed, several of the drugs diffused across the layers depending on their amorphous or crystalline phase. The printed constructs demonstrated excellent physical properties and the different material inclusions enabled distinct drug release profiles of the six actives within dissolution tests. For the first time, this paper demonstrates the feasibility of SLA printing as an innovative platform for multi-drug therapy production, facilitating a new era of personalised polypills.

Three-dimensional printing

3D printing

Fixed-dose combinations

Additive manufacturing

3D printed drug products

Printlets

Tablets

Personalized medicines

Multiple-layer dosage forms

Stereolithography

Vat polymerisation