Results 51 to 60 of about 7,581 (247)
Smart Bioinks for the Printing of Human Tissue Models
, 2022 3D bioprinting has tremendous potential to revolutionize the field of regenerative medicine by automating the process of tissue engineering. A significant number of new and advanced bioprinting technologies have been developed in recent years, enabling ...
Maan, Zeina +5 more
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Gels, 2022 Three-dimensional (3D) bioprinting, an innovative technology, has gained the attention of researchers as a promising technique for the redevelopment of complex tissue or organ structures.
Akesh Babu Kakarla +4 more
doaj +1 more source
A Review on Bioinks and their Application in Plant Bioprinting
International Journal of Bioprinting, 2022 In recent years, the characterization and fabrication methods concerning new bioinks have received much attention, largely because the absence of bioprintable materials has been identified as one of the most rudimentary challenges for rapid advancement in the field of three-dimensional (3D) printing.
Ghosh, Susmita, Yi, Hee-Gyeong
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Epidermal Patch Technologies for Integrated Healthcare and Infection Management
Advanced Healthcare Materials, EarlyView.Epidermal patches have evolved from simple wound coverings into multifunctional, skin‐conformable platforms integrating drug delivery, biosensing, and therapeutic functionalities. This review highlights their material innovations, fabrication strategies, and intelligent designs, including hydrogels, microneedles, and flexible electronics, while ...
Yuqi Wang +7 more
wiley +1 more source
Wound and Skin Healing in Space: The 3D Bioprinting Perspective
Frontiers in Bioengineering and Biotechnology, 2021 Skin wound healing is known to be impaired in space. As skin is the tissue mostly at risk to become injured during manned space missions, there is the need for a better understanding of the biological mechanisms behind the reduced wound healing capacity ...
Nieves Cubo-Mateo +2 more
doaj +1 more source
Organoid bioinks: construction and application
BiofabricationAbstract Organoids have emerged as crucial platforms in tissue engineering and regenerative medicine but confront challenges in faithfully mimicking native tissue structures and functions. Bioprinting technologies offer a significant advancement, especially when combined with organoid bioinks-engineered formulations designed to ...
Fuxiao Wang +6 more
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Advanced Healthcare Materials, EarlyView.Gonzalez Martinez and collaborators develop a strategy to formulate high performance GelMA‐based bioinks with low solids contents. The resulting bioinks enable 3D bioprinting at 37 °C of high‐fidelity structures with tunable mechanical properties that support high cell viability and function.
David A. González‐Martínez +8 more
wiley +1 more source
Laser printing and photopolymerization of cell laden bioinks 1
, 2022 Laser printing and photopolymerization of cell laden bioinks using UV, visible ...
IOANNA ZERGIOTI, APOSTOLOS KLINAKIS
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The bioink: A comprehensive review on bioprintable materials [PDF]
Biotechnology Advances, 2017 This paper discusses "bioink", bioprintable materials used in three dimensional (3D) bioprinting processes, where cells and other biologics are deposited in a spatially controlled pattern to fabricate living tissues and organs. It presents the first comprehensive review of existing bioink types including hydrogels, cell aggregates, microcarriers and ...
Monika, Hospodiuk +3 more
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In situ 3D bioprinting with bioconcrete bioink
Nature Communications, 2022 AbstractIn-situ bioprinting is attractive for directly depositing the therapy bioink at the defective organs to repair them, especially for occupations such as soldiers, athletes, and drivers who can be injured in emergency. However, traditional bioink displays obvious limitations in its complex operation environments.
Mingjun Xie +8 more
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