Strategies for 3D bioprinting of spheroids: A comprehensive review
Biofabricated tissues have found numerous applications in tissue engineering and
regenerative medicine in addition to the promotion of disease modeling and drug …
regenerative medicine in addition to the promotion of disease modeling and drug …
Recent advances in bioprinting technologies for engineering different cartilage-based tissues
Inadequate self-repair and regenerative efficiency of the cartilage tissues has motivated the
researchers to devise advanced and effective strategies to resolve this issue. Introduction of …
researchers to devise advanced and effective strategies to resolve this issue. Introduction of …
Biomimetic trachea engineering via a modular ring strategy based on bone‐marrow stem cells and atelocollagen for use in extensive tracheal reconstruction
The fabrication of biomimetic tracheas with a architecture of cartilaginous rings alternately
interspersed between vascularized fibrous tissue (CRVFT) has the potential to perfectly …
interspersed between vascularized fibrous tissue (CRVFT) has the potential to perfectly …
Bio-3D printing iPSC-derived human chondrocytes for articular cartilage regeneration
A Nakamura, D Murata, R Fujimoto, S Tamaki… - …, 2021 - iopscience.iop.org
Osteoarthritis is a leading cause of pain and joint immobility, the incidence of which is
increasing worldwide. Currently, total joint replacement is the only treatment for end-stage …
increasing worldwide. Currently, total joint replacement is the only treatment for end-stage …
Development and clinical translation of tubular constructs for tracheal tissue engineering: a review
Effective restoration of extensive tracheal damage arising from cancer, stenosis, infection or
congenital abnormalities remains an unmet clinical need in respiratory medicine. The …
congenital abnormalities remains an unmet clinical need in respiratory medicine. The …
Scaffold‐free bio‐3D printing using spheroids as “Bio‐Inks” for tissue (Re‐) construction and drug response tests
D Murata, K Arai, K Nakayama - Advanced Healthcare …, 2020 - Wiley Online Library
In recent years, scaffold‐free bio‐3D printing using cell aggregates (spheroids) as “bio‐inks”
has attracted increasing attention as a method for 3D cell construction. Bio‐3D printing uses …
has attracted increasing attention as a method for 3D cell construction. Bio‐3D printing uses …
3D bioprinting of human hollow organs
Abstract 3D bioprinting is a rapidly evolving technique that has been found to have
extensive applications in disease research, tissue engineering, and regenerative medicine …
extensive applications in disease research, tissue engineering, and regenerative medicine …
Biomedical grafts for tracheal tissue repairing and regeneration “Tracheal tissue engineering: an overview”
A Dhasmana, A Singh, S Rawal - Journal of tissue engineering …, 2020 - Wiley Online Library
Airway system is a vital part of the living being body. Trachea is the upper respiratory portion
that connects nostril and lungs and has multiple functions such as breathing and entrapment …
that connects nostril and lungs and has multiple functions such as breathing and entrapment …
3D printed biomimetic PCL scaffold as framework interspersed with collagen for long segment tracheal replacement
Y She, Z Fan, L Wang, Y Li, W Sun, H Tang… - Frontiers in cell and …, 2021 - frontiersin.org
The rapid development of tissue engineering technology has provided new methods for
tracheal replacement. However, none of the previously developed biomimetic tracheas …
tracheal replacement. However, none of the previously developed biomimetic tracheas …
3D bioprinting for lungs and hollow organs
Z Galliger, CD Vogt, A Panoskaltsis-Mortari - Translational Research, 2019 - Elsevier
Three-dimensional bioprinting has been gaining attention as a potential method for creating
biological tissues, supplementing the current arsenal of tissue engineering techniques. 3D …
biological tissues, supplementing the current arsenal of tissue engineering techniques. 3D …