Three-Dimensional Screen Printing Technology Enables Sequential Release of Carbidopa and Levodopa—A New Approach Improving Levodopa Delivery for Treating Parkinson’s Disease
Title (eng)
Three-Dimensional Screen Printing Technology Enables Sequential Release of Carbidopa and Levodopa—A New Approach Improving Levodopa Delivery for Treating Parkinson’s Disease
Author
Marcel Enke
Emily Aedtner
Stephan Kastner
Franka Gruschwitz
Klaus Kühne
Dominika Czernik-Schulz
David R. Greeley
Dieter Volc
Achim Schneeberger
Abstract (eng)
Introduction: Levodopa (LD) is the most efficacious antiparkinsonian drug. However, long-term conventional LD treatment of Parkinson’s disease (PD) is frequently associated with motor complications. This can be attributed to pulsatile dopaminergic stimulation given the short LD half-life of conventional dosage forms. Tablets capable of delivering more stable and sustained dopaminergic stimulation would better mimic the brain’s natural dopamine activity. Methods: In this study, 3D screen printing technology was used to manufacture oral dosage forms characterized by the sequential release of Carbidopa and Levodopa. This was achieved by separating the two compounds into different compartments within the same dosage form, which were arranged (LXM.5-1) or formulated (LXM.5-2) in a specific way. Both novel dosage forms were compared to conventional immediate release forms such as Sinemet®. The physicochemical properties of the resulting tablets, LXM.5-1 and LXM.5-2, were assessed in accordance with the USP. Their pharmacokinetic profiles were defined in pigs. Results: The physicochemical properties of LXM.5-1 and LXM.5-2 complied with regulatory requirements. Dissolution studies revealed sequential CD and LD release for both novel dosage forms. They differed regarding the interval between CD and LD release which was shorter for LXM.5-1. PK studies demonstrated that both novel dosage forms exhibited higher LD bioavailability in comparison to Sinemet®, which was 211.36% and 383.64% for LXM.5-1 and LXM.5-2, respectively. Furthermore, blood levels were more stable and sustained, particularly for LXM.5-2. Conclusions: We conclude that 3D screen-printed LXM.5-1 and LXM.5-2 and variations thereof have the potential to transform the pharmacotherapy of Parkinson’s disease.
Keywords (eng)
3D PrintingAdditive ManufacturingLevodopaParkinson’s DiseaseOral Dosage FormsDrug Delivery Systems
Type (eng)
Language
[eng]
Persistent identifier
Is in series
Title (eng)
Pharmaceutics
Volume
17
Issue
12
ISSN
1999-4923
Issued
2025
Number of pages
17
Publication
MDPI
Version type (eng)
Date issued
2025
Access rights (eng)
License
Rights statement (eng)
© 2025 by the authors
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https://phaidra.vetmeduni.ac.at/o:5172 - Other links and identifiers
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- RightsLicenseRights statement© 2025 by the authors
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