Recent advancements and challenges in 3D bioprinting for cancer applications
SA Behera, B Nanda, PGR Achary - Bioprinting, 2024 - Elsevier
Abstract 3D bioprinting has emerged as a promising technology with transformative potential
in cancer research and therapy. This review explores the innovative applications …
in cancer research and therapy. This review explores the innovative applications …
Unveiling the potential of bacterial cellulose-based composites in eye tissue engineering: a review
Bacterial cellulose (BC) is a remarkable form of nanocellulose produced by nonpathogenic
bacteria. Its versatility and exceptional physical, chemical, and biological characteristics …
bacteria. Its versatility and exceptional physical, chemical, and biological characteristics …
[HTML][HTML] Development of a microfluidic-assisted open-source 3D bioprinting system (MOS3S) for the engineering of hierarchical tissues
The engineering of new 3D bioprinting approaches has shown great promise in the field of
tissue engineering and disease modelling. However, the high cost of commercial 3D …
tissue engineering and disease modelling. However, the high cost of commercial 3D …
Biomaterials and scaffolds for tissue engineering and regenerative medicine
Methods in tissue engineering and regenerative medicine are constantly evolving to
address the complex challenges of repairing damaged tissues and modeling diseased …
address the complex challenges of repairing damaged tissues and modeling diseased …
Hybrid 3D microfluidic bioprinting for the engineering of cancer models and tissue substitutes
ABSTRACT 3D bioprinting is at the forefront of tissue engineering to fabricate complex
constructs resembling functional tissues. However, the inability to produce heterogeneous …
constructs resembling functional tissues. However, the inability to produce heterogeneous …
Microfluidic manufacture of composite fibers for biomedical applications
R Dores, MSN Oliveira… - Advanced Materials …, 2024 - Wiley Online Library
Fibrous materials are essential structural elements widely distributed throughout natural
systems. In order to replicate and harness the unique properties of natural fibers, microfluidic …
systems. In order to replicate and harness the unique properties of natural fibers, microfluidic …
[HTML][HTML] Cells in the 3D biomatrix on-chip: better mimicking the real micro-physiological system
Recent advances in microfluidic technology and biomaterial science have augmented the
use of organ-on-chip (OoC) technology to closely mimic the human pathophysiology. Thus, it …
use of organ-on-chip (OoC) technology to closely mimic the human pathophysiology. Thus, it …