Combining Materials Obtained by 3D-Printing and Electrospinning from Commercial Polylactide Filament to Produce Biocompatible Composites

Romero-Araya, Pablo; Pino, Victor López del; Nenen, Ariel; Cárdenas, Verena Torres; Pavicic, Francisca; Ehrenfeld, Pamela; Sérandour, Guillaume; Lisoni, J. G.; Moreno‐Villoslada, Ignacio; Flores, Mario E.

doi:10.3390/polym13213806

Cited by 11 publications

(1 citation statement)

References 63 publications

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“…These examples focus more broadly on improving scaffold characteristics, including cell attachment, by combining different fabrication techniques. One such study combined 3D-printing and electrospinning to produce PLA-based composites for multi-textured biological tissues [ 229 ]. A composite was fabricated by blending two layers of 3D-printed material with a central layer of PLA fibers to mimic bone tissue.…”

Section: Combined Scaffold Fabrication Techniquesmentioning

confidence: 99%

Current Concepts and Methods in Tissue Interface Scaffold Fabrication

2022

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Damage caused by disease or trauma often leads to multi-tissue damage which is both painful and expensive for the patient. Despite the common occurrence of such injuries, reconstruction can be incredibly challenging and often may focus on a single tissue, which has been damaged to a greater extent, rather than the environment as a whole. Tissue engineering offers an approach to encourage repair, replacement, and regeneration using scaffolds, biomaterials and bioactive factors. However, there are many advantages to creating a combined scaffold fabrication method approach that incorporates the treatment and regeneration of multiple tissue types simultaneously. This review provides a guide to combining multiple tissue-engineered scaffold fabrication methods to span several tissue types concurrently. Briefly, a background in the healing and composition of typical tissues targeted in scaffold fabrication is provided. Then, common tissue-engineered scaffold fabrication methods are highlighted, specifically focusing on porosity, mechanical integrity, and practicality for clinical application. Finally, an overview of commonly used scaffold biomaterials and additives is provided, and current research in combining multiple scaffold fabrication techniques is discussed. Overall, this review will serve to bridge the critical gap in knowledge pertaining to combining different fabrication methods for tissue regeneration without disrupting structural integrity and biomaterial properties.

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Section: Combined Scaffold Fabrication Techniquesmentioning

confidence: 99%