In vitro and in vivo efficacy of naturally derived scaffolds for cartilage repair and regeneration
V Thomas, J Mercuri - Acta Biomaterialia, 2023 - Elsevier
Intrinsically present bioactive cues allow naturally derived materials to mimic important
characteristics of cartilage while also facilitating cellular recruitment, infiltration, and …
characteristics of cartilage while also facilitating cellular recruitment, infiltration, and …
[PDF][PDF] Advances in 3D bioprinting to enhance translational applications in bone tissue engineering and regenerative medicine
MA Ortega, D De Leon-Oliva, DL Boaru… - Histology and …, 2024 - hh.um.es
Bone defects are due to trauma, infections, tumors, or aging, including bone fractures, 25
bone metastases, osteoporosis, or osteoarthritis. The global burden of these demands 26 …
bone metastases, osteoporosis, or osteoarthritis. The global burden of these demands 26 …
3D Bioprinting in Cancer Modeling and Biomedicine: From Print Categories to Biological Applications
J Yang, L Wang, R Wu, Y He, Y Zhao, W Wang… - ACS …, 2024 - ACS Publications
The continuous interaction between tumor cells and the local microenvironment plays a
decisive role in tumor development. Selecting effective models to simulate the tumor …
decisive role in tumor development. Selecting effective models to simulate the tumor …
Three-dimensional bioprinting as a tool for tissue engineering: a review
SC Dare, PS Bajaj, AN Wankhede… - Journal of Pharmacy …, 2024 - journals.lww.com
The field of reconstructive and regenerative therapy has shown an increased amount of
interest in three-dimensional (3D) bioprinting techniques in recent years. This technique …
interest in three-dimensional (3D) bioprinting techniques in recent years. This technique …
[HTML][HTML] Prospects of emerging 3D bioprinting technologies: major startup companies and regulatory issues for human use—part II
PK Ghosh - MGM Journal of Medical Sciences, 2024 - journals.lww.com
In its highly developed form, the evolving three-dimensional (3D) bioprinting technology
aims to create 3D structures with living cells to mimic real tissue and organ functions. It …
aims to create 3D structures with living cells to mimic real tissue and organ functions. It …
Regenerative Medicine and Bioprinting
Z Ghezel-Ayagh, A Qashqaie, Y Tahamtani… - A Glimpse at Medicine in …, 2024 - Springer
There are many chronic, incurable, and hard-to-treat diseases with profound personal and
socio-economic impacts. Recently, regenerative medicine has raised hope for filling these …
socio-economic impacts. Recently, regenerative medicine has raised hope for filling these …
3D-printing of nanocellulose hydrogels for biomedical applications
A Wasti - 2024 - diva-portal.org
This thesis focuses on the development and characterization of nanocellulose-based
hydrogels generated from wood particles and seaweed for use as inks in 3D printing for …
hydrogels generated from wood particles and seaweed for use as inks in 3D printing for …
Bio-impresión 3D y ELR's aplicada a la regeneración de cartílagos
JS Galarza García - 2023 - uvadoc.uva.es
La ingeniería de tejidos cartilaginosos es un campo altamente interdisciplinario que se
enfoca en desarrollar injertos o implantes de tejido capaces de reemplazar, reparar o …
enfoca en desarrollar injertos o implantes de tejido capaces de reemplazar, reparar o …