A decade of melt electrowriting
KL O'Neill, PD Dalton - Small Methods, 2023 - Wiley Online Library
Over the past decade, melt electrowriting (MEW) has established the fundamental
understanding of processing (and printer) requirements. Iterative work on parametric …
understanding of processing (and printer) requirements. Iterative work on parametric …
3D bioprinting in microgravity: opportunities, challenges, and possible applications in space
A Van Ombergen, F Chalupa‐Gantner… - Advanced …, 2023 - Wiley Online Library
Abstract 3D bioprinting has developed tremendously in the last couple of years and enables
the fabrication of simple, as well as complex, tissue models. The international space …
the fabrication of simple, as well as complex, tissue models. The international space …
[HTML][HTML] MEWron: An open-source melt electrowriting platform
Melt electrowriting (MEW) is a distinct class of additive manufacturing technologies that
generates fibrous and porous macrostructures with microscale resolution from an electrically …
generates fibrous and porous macrostructures with microscale resolution from an electrically …
Incorporation of controlled release systems improves the functionality of biodegradable 3D printed cardiovascular implants
F Kabirian, M Mozafari, P Mela… - … Biomaterials Science & …, 2023 - ACS Publications
New horizons in cardiovascular research are opened by using 3D printing for biodegradable
implants. This additive manufacturing approach allows the design and fabrication of …
implants. This additive manufacturing approach allows the design and fabrication of …
A Melt Electrowriting Toolbox for Automated G‐Code Generation and Toolpath Correction of Flat and Tubular Constructs
Despite the growing significance of generating highly porous, high‐precision 3D printed
scaffolds using melt electrowriting (MEW), the absence of easy‐to‐use and robust design …
scaffolds using melt electrowriting (MEW), the absence of easy‐to‐use and robust design …
[HTML][HTML] A versatile 5-axis melt electrowriting platform for unprecedented design freedom of 3D fibrous scaffolds
P Terranova, KMA Mueller, D Biebl, A D'Amore… - Additive …, 2024 - Elsevier
Melt electrowriting (MEW) is an electrohydrodynamic additive manufacturing technology for
the fabrication of precise microfiber scaffold architectures but is so far restricted to printing …
the fabrication of precise microfiber scaffold architectures but is so far restricted to printing …
3D printing of heart valves
Abstract 3D printing technologies have the potential to revolutionize the manufacture of
heart valves through the ability to create bespoke, complex constructs. In light of recent …
heart valves through the ability to create bespoke, complex constructs. In light of recent …
Advances in melt electrowriting for cardiovascular applications
KMA Mueller, S Mansi, EM De-Juan-Pardo… - … in Bioengineering and …, 2024 - frontiersin.org
Melt electrowriting (MEW) is an electric-field-assisted additive biofabrication technique that
has brought significant advancements to bioinspired scaffold design for soft tissue …
has brought significant advancements to bioinspired scaffold design for soft tissue …
Understanding the Significance of Layer Bonding in Melt Electrowriting
CD Lamb, B Maitland, MS Hepburn… - Advanced …, 2024 - Wiley Online Library
Melt electrowriting (MEW) is a high‐resolution additive manufacturing technology capable of
depositing micrometric fibers onto a moving collector to form 3D scaffolds of controlled …
depositing micrometric fibers onto a moving collector to form 3D scaffolds of controlled …
[HTML][HTML] Characterization of pediatric porcine pulmonary valves as a model for tissue engineered heart valves
SP Nejad, B Mirani, Z Mirzaei, CA Simmons - Acta Biomaterialia, 2024 - Elsevier
Heart valve tissue engineering holds the potential to transform the surgical management of
congenital heart defects affecting the pediatric pulmonary valve (PV) by offering a viable …
congenital heart defects affecting the pediatric pulmonary valve (PV) by offering a viable …