Ethical guidelines for using bioprinting for humans [PDF]
MATEC Web of Conferences, 2023 This paper’s focus is the identification of ethical guidelines for bioprinting for humans in addition to existing bioethical principles and guidelines.
Lategan Laetus O.K. +1 more
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3D printing is a transformative technology in congenital heart disease [PDF]
, 2018 Survival in congenital heart disease has steadily improved since 1938, when Dr. Robert Gross successfully ligated for the first time a patent ductus arteriosus in a 7-year-old child.
Anwar +117 more
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3D Bioprinting Using Hydrogels: Cell Inks and Tissue Engineering Applications
Pharmaceutics, 2022 3D bioprinting is transforming tissue engineering in medicine by providing novel methods that are precise and highly customizable to create biological tissues.
Annika C. Dell +3 more
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Freeform Bioprinting of Liver Encapsulated in Alginate Hydrogels Tissue Constructs for Pharmacokinetic Study [PDF]
, 2006 An in vitro model that can be realistically and inexpensively used to predict human response to various drug administration and toxic chemical exposure is needed.
Chang, R. +5 more
core +1 more source
Bioink properties before, during and after 3D bioprinting [PDF]
, 2016 Bioprinting is a process based on additive manufacturing from materials containing living cells. These materials, often referred to as bioink, are based on cytocompatible hydrogel precursor formulations, which gel in a manner compatible with different ...
Aleksandr Ovsianikov +19 more
core +5 more sources
3D bioprinting of corneal models: A review of the current state and future outlook
Journal of Tissue Engineering, 2023 The cornea is the outermost layer of the eye and serves to protect the eye and enable vision by refracting light. The need for cornea organ donors remains high, and the demand for an artificial alternative continues to grow. 3D bioprinting is a promising
Leon Balters, Stephan Reichl
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Three-Dimensional Bioprinting Materials with Potential Application in Preprosthetic Surgery [PDF]
, 2016 Current methods in handling maxillofacial defects are not robust and are highly dependent on the surgeon’s skills and the inherent potential in the patients’ bodies for regenerating lost tissues.
Fahmy, Mina D. +4 more
core +2 more sources
Advantage of Alginate Bioinks in Biofabrication for Various Tissue Engineering Applications
International Journal of Polymer Science, 2023 Bioprinting is fast emerging as a viable technique for organ fabrication. Though various types of bioprinting methods have been developed, the most commonly used bioprinting is extrusion-based bioprinting (EBB).
Sudipto Datta
doaj +1 more source
Development of 3D bioprinting: From printing methods to biomedical applications
Asian Journal of Pharmaceutical Sciences, 2020 Biomanufacturing of tissues/organs in vitro is our big dream, driven by two needs: organ transplantation and accurate tissue models. Over the last decades, 3D bioprinting has been widely applied in the construction of many tissues/organs such as skins ...
Zeming Gu +3 more
doaj +1 more source
Robotic in situ bioprinting for cartilage tissue engineering
International Journal of Extreme Manufacturing, 2023 Articular cartilage damage caused by trauma or degenerative pathologies such as osteoarthritis can result in significant pain, mobility issues, and disability. Current surgical treatments have a limited capacity for efficacious cartilage repair, and long-
Yaxin Wang +5 more
doaj +1 more source