Results 21 to 30 of about 614,474 (290)
Engineering growing tissues [PDF]
Proceedings of the National Academy of Sciences, 2002 Regenerating or engineering new tissues and organs may one day allow routine replacement of lost or failing tissues and organs. However, these engineered tissues must not only grow to fill a defect and integrate with the host tissue, but often they must also grow in concert with the changing needs of the body over time.
Eben, Alsberg +4 more
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Inkjet-based bioprinting for tissue engineering [PDF]
Organoid, 2023 Inkjet bioprinting, a derivative of traditional inkjet technology, is gaining recognition in the fields of life sciences and tissue engineering due to its ability to produce picoliter volume droplets at high speeds in a non-contact fashion.
Ju An Park, Yunji Lee, Sungjune Jung
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Neovascularization in Tissue Engineering
Cells, 2012 A prerequisite for successful tissue engineering is adequate vascularization that would allow tissue engineering constructs to survive and grow. Angiogenic growth factors, alone and in combination, have been used to achieve this, and gene therapy has ...
Jennifer C.-Y. Chung, Dominique Shum-Tim
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Biomaterials for Neural Tissue Engineering
Frontiers in Nanotechnology, 2021 The therapy of neural nerve injuries that involve the disruption of axonal pathways or axonal tracts has taken a new dimension with the development of tissue engineering techniques.
Laura Rodríguez Doblado +4 more
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Three dimensional microcarrier system in mesenchymal stem cell culture: a systematic review
Cell & Bioscience, 2020 Stem cell-based regenerative medicine is a promising approach for tissue reconstruction. However, a large number of cells are needed in a typical clinical study, where conventional monolayer cultures might pose a limitation for scale-up.
Benson Koh +6 more
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Near infra-red labelling and tracking of corneal endothelial cells in-vivo
Scientific Reports, 2022 Following corneal transplantation, there is an initial, rapid decline in corneal endothelial cells (CECs) following surgery. Direct imaging of post-transplantation endothelial cells is only possible weeks after surgery and with a limited field of view ...
Maninder Bhogal +6 more
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Segmental Additive Tissue Engineering
Scientific Reports, 2018 Segmental bone defects caused by trauma and disease represent a major clinical problem worldwide. Current treatment options are limited and often associated with poor outcomes and severe complications. Bone engineering is a promising alternative solution,
Martina Sladkova +8 more
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An Introduction to Tissue Engineering and Orthopedic Applications
Journal of Orthopedic and Spine Trauma, 2020 Nowadays, orthopedic-related pathologic conditions are considered as a growing concern. Also, the conventional treatments (grafting techniques) are not efficacious enough for the growing clinical needs.
Fatemeh Baghaie Nia +3 more
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Biopolymers for Tissue Engineering [PDF]
Журнал Сибирского федерального университета: Серия Биология, 2014 A brief overview of the biopolymers used for cell and tissue engineering is presented. The results of research of matrices made from resorbable polyhydroxyalkanoates with different composition in fibroblast cell line culture are ...
Elena D. Nikolaeva
doaj
Nanotechnologies in tissue engineering
Nanotechnology Reviews, 2013 As an interdisciplinary field, tissue engineering (TE) aims to regenerate tissues by combining the principles of cell biology, material science, and biomedical engineering. Nanotechnology creates new materials that might enable further tissue-engineering
Bigdeli Amir K. +7 more
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