3D printing technologies in metallic implants: a thematic review on the techniques and procedures
Additive manufacturing (AM) is among the most attractive methods to produce implants, the
processes are very swift and it can be precisely controlled to meet patient's requirement …
processes are very swift and it can be precisely controlled to meet patient's requirement …
Additive manufacturing of polylactic acid-based nanofibers composites for innovative scaffolding applications
Over the last four decades, additive manufacturing has established itself as a cost-effective,
on-demand method for fabricating geometrically complicated structures. Tissue engineering …
on-demand method for fabricating geometrically complicated structures. Tissue engineering …
Oscillatory shear rheology as an in-process control tool for 3D printing medicines production by fused deposition modeling
Additive manufacturing has the potential to become a revolutionary tool in the production of
improved pharmaceutical products. Nevertheless, the development of 3D medicines by …
improved pharmaceutical products. Nevertheless, the development of 3D medicines by …
3D printing technique of specific bone shape based on raw clay using hydroxyapatite as an additive material
K Faksawat, P Limsuwan, K Naemchanthara - Applied Clay Science, 2021 - Elsevier
In recent years, 3D printing technique has been used to produce bone implants that mimic
the properties and functions of bone for virtualized operative planning. Although …
the properties and functions of bone for virtualized operative planning. Although …
Biomaterials in bone and mineralized tissue engineering using 3D printing and bioprinting technologies
M Rahimnejad, R Rezvaninejad… - Biomedical Physics …, 2021 - iopscience.iop.org
This review focuses on recently developed printable biomaterials for bone and mineralized
tissue engineering. 3D printing or bioprinting is an advanced technology to design and …
tissue engineering. 3D printing or bioprinting is an advanced technology to design and …
[HTML][HTML] Exploring the optimal mechanical properties of triply periodic minimal surface structures for biomedical applications: A Numerical analysis
Abstract Currently, cutting-edge Additive Manufacturing techniques, such as Selective Laser
Melting (SLM) and Electron Beam Melting (EBM), offer manufacturers a valuable avenue …
Melting (SLM) and Electron Beam Melting (EBM), offer manufacturers a valuable avenue …
Advanced porous hip implants: A comprehensive review
The field of orthopaedic implants has experienced significant advancements in recent years,
transforming the approach to orthopaedic treatments. Amongst these advancements, porous …
transforming the approach to orthopaedic treatments. Amongst these advancements, porous …
Titanium Alloy Fabricated by Additive Manufacturing for Medical Applications: Obtaining, Characterization and Application
X Zhang, S Liu, Y Liu, H Guo, W Shi - Metals, 2023 - mdpi.com
Metal additive manufacturing (metal-AM) technology has made significant progress in the
field of biomedicine in recent years. Originally, it was only used as an innovative resource for …
field of biomedicine in recent years. Originally, it was only used as an innovative resource for …
Robust and self-lubricating polyvinyl alcohol tubes with a mucosa-like hierarchical architecture for endotracheal intubation
Mechanical mismatch between interventional intubation tubes and human tissues often
triggers inevitable friction and causes secondary injury to patients during interventional …
triggers inevitable friction and causes secondary injury to patients during interventional …
Characterization and biodegradation rate of hydroxyapatite/shellac/sorghum for bone scaffold materials
J Triyono, R Adityawan, P Dananjaya… - Cogent …, 2021 - Taylor & Francis
This study aims to fabricate bio-composites of hydroxyapatite/shellac/sorghum as bone
scaffold material in biomedical applications. Hydroxyapatite is made from bovine bone …
scaffold material in biomedical applications. Hydroxyapatite is made from bovine bone …