Recent progress on polymer materials for additive manufacturing
Additive manufacturing (AM) is the process of printing 3D objects in a layer‐by‐layer
manner. Polymers and their composites are some of the most widely used materials in …
manner. Polymers and their composites are some of the most widely used materials in …
A review on cell damage, viability, and functionality during 3D bioprinting
Abstract Three-dimensional (3D) bioprinting fabricates 3D functional tissues/organs by
accurately depositing the bioink composed of the biological materials and living cells. Even …
accurately depositing the bioink composed of the biological materials and living cells. Even …
3D printing of tissue engineering scaffolds: a focus on vascular regeneration
P Wang, Y Sun, X Shi, H Shen, H Ning… - Bio-design and …, 2021 - Springer
Tissue engineering is an emerging means for resolving the problems of tissue repair and
organ replacement in regenerative medicine. Insufficient supply of nutrients and oxygen to …
organ replacement in regenerative medicine. Insufficient supply of nutrients and oxygen to …
Next evolution in organ‐scale biofabrication: bioresin design for rapid high‐resolution vat polymerization
The field of bioprinting has made significant advancements in recent years and allowed for
the precise deposition of biomaterials and cells. However, within this field lies a major …
the precise deposition of biomaterials and cells. However, within this field lies a major …
4D printing technology in medical engineering: A narrative review
I Sahafnejad-Mohammadi, M Karamimoghadam… - Journal of the Brazilian …, 2022 - Springer
The addition of the time dimension to three-dimensional (3D) printing has introduced four-
dimensional (4D) printing technology, which has gained considerable attention in different …
dimensional (4D) printing technology, which has gained considerable attention in different …
From arteries to capillaries: approaches to engineering human vasculature
S Fleischer, DN Tavakol… - Advanced functional …, 2020 - Wiley Online Library
From microscaled capillaries to millimeter‐sized vessels, human vasculature spans multiple
scales and cell types. The convergence of bioengineering, materials science, and stem cell …
scales and cell types. The convergence of bioengineering, materials science, and stem cell …
[HTML][HTML] 3D bioprinting photo-crosslinkable hydrogels for bone and cartilage repair
Q Mei, J Rao, HP Bei, Y Liu, X Zhao - International journal of …, 2021 - ncbi.nlm.nih.gov
Abstract Three-dimensional (3D) bioprinting has become a promising strategy for bone
manufacturing, with excellent control over geometry and microarchitectures of the scaffolds …
manufacturing, with excellent control over geometry and microarchitectures of the scaffolds …
Emulating human tissues and organs: a bioprinting perspective toward personalized medicine
The lack of in vitro tissue and organ models capable of mimicking human physiology
severely hinders the development and clinical translation of therapies and drugs with higher …
severely hinders the development and clinical translation of therapies and drugs with higher …
Vascularization in tissue engineering: fundamentals and state-of-art
Vascularization is among the top challenges that impede the clinical application of
engineered tissues. This challenge has spurred tremendous research endeavor, defined as …
engineered tissues. This challenge has spurred tremendous research endeavor, defined as …
Effects of Irgacure 2959 and lithium phenyl-2, 4, 6-trimethylbenzoylphosphinate on cell viability, physical properties, and microstructure in 3D bioprinting of vascular …
Photocrosslinkable polymers such as gelatin methacrylate (GelMA) have various 3D
bioprinting applications. These polymers crosslink upon exposure to UV irradiation with the …
bioprinting applications. These polymers crosslink upon exposure to UV irradiation with the …