3D printed multiphasic scaffolds for osteochondral repair: challenges and opportunities
Osteochondral (OC) defects are debilitating joint injuries characterized by the loss of full
thickness articular cartilage along with the underlying calcified cartilage through to the …
thickness articular cartilage along with the underlying calcified cartilage through to the …
Sacrificial biomaterials in 3D fabrication of scaffolds for tissue engineering applications
Abstract Three‐dimensional (3D) printing technology has progressed exceedingly in the
area of tissue engineering. Despite the tremendous potential of 3D printing, building …
area of tissue engineering. Despite the tremendous potential of 3D printing, building …
Toward Artificial Cell‐Mediated Tissue Engineering: A New Perspective
The fast‐growing pace of regenerative medicine research has allowed the development of a
range of novel approaches to tissue engineering applications. Until recently, the main points …
range of novel approaches to tissue engineering applications. Until recently, the main points …
[HTML][HTML] Tailoring inkjet-printed PEDOT: PSS composition toward green, wearable device fabrication
Inkjet printing remains one of the most cost-efficient techniques for device prototyping and
manufacturing, offering considerable freedom of digital design, non-contact, and additive …
manufacturing, offering considerable freedom of digital design, non-contact, and additive …
Indirect 3D bioprinting of a robust trilobular hepatic construct with decellularized liver matrix hydrogel
V Khati, JA Turkki, H Ramachandraiah, F Pati… - Bioengineering, 2022 - mdpi.com
The liver exhibits complex geometrical morphologies of hepatic cells arranged in a
hexagonal lobule with an extracellular matrix (ECM) organized in a specific pattern on a …
hexagonal lobule with an extracellular matrix (ECM) organized in a specific pattern on a …
Unleashing the potential of 3D printing soft materials
Soft materials have attracted substantial attention in interdisciplinary research because of
their remarkable resemblance to human tissues. The use of three-dimensional (3D) printing …
their remarkable resemblance to human tissues. The use of three-dimensional (3D) printing …
Enhancing peptide biomaterials for biofabrication
Biofabrication using well-matched cell/materials systems provides unprecedented
opportunities for dealing with human health issues where disease or injury overtake the …
opportunities for dealing with human health issues where disease or injury overtake the …
Tribological properties of flexible composite surfaces through direct ink writing for durable wearing devices
Polydimethylsiloxane (PDMS), as a polymer material with excellent mechanical properties
and flexibility, is widely used in flexible wearable devices, soft robots and other fields …
and flexibility, is widely used in flexible wearable devices, soft robots and other fields …
Linguistic analysis identifies emergent biomaterial fabrication trends for orthopaedic applications
RC Locke, HM Zlotnick, BD Stoeckl… - Advanced …, 2023 - Wiley Online Library
The expanse of publications in tissue engineering (TE) and orthopedic TE (OTE) over the
past 20 years presents an opportunity to probe emergent trends in the field to better guide …
past 20 years presents an opportunity to probe emergent trends in the field to better guide …
Noninvasive biosensing 3D scaffold to monitor degradation: The potential of fluorescent PCL and PLGA for tissue engineering
The nondestructive localization and traceability of polymers by fluorescent tagging has
become a valuable tool for biomedical applications. Integration of fluorescent molecule to …
become a valuable tool for biomedical applications. Integration of fluorescent molecule to …