By Ulrike Keller
In the near future, orodispersible films could replace pills: scientists at the Research Center Pharmaceutical Engineering are developing printing technologies to create personalized dosage forms for individual patient needs on demand.
"Would you print out this prescription?" In the future, pharmacists could hear this question more frequently and could react in a different way than we would expect today. Instead of handing the patient a pack of tablets over the counter, the pharmacist could load a cartridge filled with a drug solution into an inkjet printer. Patterns of the medication would be carefully printed on a paper-like film made of starch or other digestible materials, which dissolves in the mouth and releases the active substance.
Tailored drug therapies
According to experts at the Research Center Pharmaceutical Engineering (RCPE), this drug printing technology is not that far removed from reality. In the research project "MediPrint", researchers in Graz have laid the foundation for the first commercial drug substance printing system with a companion chemical imaging system to assess identity, quantity and distribution of the printed drug substances. Together with researchers at TU Graz and the University of Graz, they were able to dispense an extensive range of fluids, from aqueous drug solutions to viscous polymer coating materials, and have demonstrated printing of a wide range of formulations for patient-ready, orodispersible drug dosage forms."The printing technology allows us to dispense low volumes of drug materials with precise spatial control. Using a strobe imaging system to measure the ejected drop volume at-line and combining that to the known drug solution concentration, the actual drug content of every single printed film can be estimated to a high level of accuracy," says Wen-Kai Hsiao, current leader of a follow-up project aiming to develop the technology for rapid and flexible clinical drug supply for a major international pharmaceutical company. "Depending on the inkjet system used, a single drop of drug solution can be as small as 7 picolitres (7 x 10-12 liter). Therefore, the inkjet process is capable of printing and tailoring precise, minute doses." As part of the first fully industrially funded inkjet drug printing project, the team at RCPE has a state-of-the-art functional inkjet printer which is able to scale up the printing throughput significantly at industrial-level reliability. Sven Stegemann, in charge of the Patient-Centred Drug Development and Production Technology research group at the Institute of Process and Particle Engineering
at TU Graz, is a key researcher in the current project and responsible for the patientcentric aspects of the drug printing applications.