3D-Printing of Capsule Devices as Compartmentalization Tools for Supported Reagents in the Search of Antiproliferative Isatins

Abstract: The application of high throughput synthesis methodologies in the generation of active pharmaceutical ingredients (APIs) currently requires the use of automated and easily scalable systems, easy dispensing of supported reagents in solution phase organic synthesis (SPOS), and elimination of purification and extraction steps. The recyclability and recoverability of supported reagents and/or catalysts in a rapid and individualized manner is a challenge in the pharmaceutical industry. This objective can be achieve… Show more

“…In another study, FDM 3DP was employed to generate customised multi-compartmental capsules that could be used for high-throughput synthesis with the ability to recover key catalysts [13]. This will be important for the pharmaceutical industry to reduce the cost of the drug development process for identifying hit or lead constructs.…”

Special Issue for “3D Printing of Drug Formulations”

“…In another study, FDM 3DP was employed to generate customised multi-compartmental capsules that could be used for high-throughput synthesis with the ability to recover key catalysts [13]. This will be important for the pharmaceutical industry to reduce the cost of the drug development process for identifying hit or lead constructs.…”

Special Issue for “3D Printing of Drug Formulations”

Schizocommunin-inspired heterocyclic hybrid molecules

Additive Manufacturing Processes: A Systematic Literature Review