Results 21 to 30 of about 1,234,730 (205)
Electrospun fibrinogen-PLA nanofibres for vascular tissue engineering [PDF]
, 2016 Here we report on the development of a new type of hybrid fibrinogen–polylactic acid (FBG–PLA) nanofibres (NFs) with improved stiffness, combining the good mechanical properties of PLA with the excellent cell recognition properties of native FBG. We were
Altankov, G. +4 more
core +1 more source
Journal of Biological Engineering, 2019 Tissue engineering, as an interdisciplinary approach, is seeking to create tissues with optimal performance for clinical applications. Various factors, including cells, biomaterials, cell or tissue culture conditions and signaling molecules such as ...
Azizeh Rahmani Del Bakhshayesh +8 more
doaj +1 more source
A critical review on polydopamine surface-modified scaffolds in musculoskeletal regeneration
Frontiers in Bioengineering and Biotechnology, 2022 Increasing concern about age-related diseases, particularly musculoskeletal injuries and orthopedic conditions, highlights the need for strategies such as tissue engineering to address them.
Hamidreza Tolabi +10 more
doaj +1 more source
Collagen-hyaluronic acid scaffolds for adipose tissue engineering. [PDF]
, 2010 Three-dimensional (3-D) in vitro models of the mammary gland require a scaffold matrix that supports the development of adipose stroma within a robust freely permeable matrix. 3-D porous collagen-hyaluronic acid (HA: 7.5% and 15%) scaffolds were produced
Cameron, RE +4 more
core +2 more sources
Engineering Musculoskeletal Tissue Interfaces
Frontiers in Materials, 2018 Tissue engineering aims to bring together biomaterials, cells, and signaling molecules within properly designed microenvironments in order to create viable treatment options for the lost or malfunctioning tissues.
Ece Bayrak, Pinar Yilgor Huri
doaj +1 more source
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
openaire +2 more sources
A DIC based technique to measure the contraction of a skeletal muscle engineered tissue [PDF]
, 2016 Tissue engineering is a multidisciplinary science based on the application of engineering approaches to biologic tissue formation. Engineered tissue internal organization represents a key aspect to increase biofunctionality before transplant and, as ...
Carosio, Silvia +5 more
core +2 more sources
Flexible PCL tube scaffolds by winding of micro-extruded filaments [PDF]
, 2011 An important requirement for tissue engineering scaffolds is matching of the functional me-chanical properties to their natural tissue counterpart. Specifically for arteries this comprises the elastic re-sponse of the vessel wall to blood pressure. Human
Cardon, Ludwig +2 more
core +1 more source
Automated Design of Tissue Engineering Scaffolds by Advanced CAD [PDF]
, 2007 The design of scaffolds with an intricate and controlled internal structure represents a challenge for Tissue Engineering. Several scaffold manufacturing techniques allow the creation of complex and random architectures, but have little or no control ...
Harris, R. A., Ramin, E.
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Journal of Functional BiomaterialsTissue engineering integrates concepts from medicine, biology, and engineering to create living constructs capable of repairing, replacing, or supporting damaged tissues. This multidisciplinary field relies on the interplay between biomaterials, cellular
Rosana Farjaminejad +5 more
doaj +1 more source