Fuente: Polymers Polymers, Vol. 18, Pages 380: Additive Manufacturing of Shape-Changing Printlets via Powder-Based Extrusion 3D Printing of Natural Cellulose and Polyvinyl Alcohol
Polymers doi: 10.3390/polym18030380
Authors:
Kasidit Dokhom
Pensak Jantrawut
Pattaraporn Panraksa
Suruk Udomsom
Wirongrong Tongdeesoontorn
Baramee Chanabodeechalermrung
Pornchai Rachtanapun
Tanpong Chaiwarit

Powder melt extrusion (PME) represents an alternative approach for personalized oral dosage forms. Furthermore, the utilization of agricultural waste has gained increasing attention because it helps reduce pollution from waste. This study investigated cellulose powders and short fibers from agricultural waste as supporting materials for the PME-based production of shape-changing levodopa printlets. Formulations containing cellulose powder (CP), cassava short fiber (CSF), and pineapple short fiber (PSF) demonstrated successful printing. The selected formulations were characterized for morphology, thermal transitions, crystallinity, shape-changing behavior, and drug release. CSF demonstrated superior printability, enhanced shape recovery, and the greatest reduction in crystallinity, supporting amorphous solid dispersion formation. Levodopa-loaded printlets showed uniform and high drug content. The formulation containing 5% CSF and levodopa exhibited the fastest initial release, attributed to its low crystallinity and Super Case II transport mechanism. Overall, this study highlights the feasibility of using natural cellulose as an additive in PME to develop sustainable, shape-changing drug delivery systems and advances PME knowledge by integrating agricultural waste derived cellulose fibers with levodopa processing that provide new insight into the material–process–performance relationship in PME systems.