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Full-Text Articles in Engineering
Development Of A Novel Bioprinting System:Bioprinter, Bioink, Characterizationand Optimization, Chandler Alan Warr
Development Of A Novel Bioprinting System:Bioprinter, Bioink, Characterizationand Optimization, Chandler Alan Warr
Theses and Dissertations
The use of 3D printing in biological applications is a new field of study given that 3D printing technology has become more available and user friendly. Possible uses include using existing 3D printing polymers to use in extracorporeal or in vitro devices, like Lab-on-a-Chip, and the development of new biologically derived materials to print cell-containing constructs. The latter concept is what is more commonly known as bioprinting. Our research had the goal of developing a bioprinting system including the printer, a bioink, and a feedback system for printing parameter optimization which could be done cheaply and within the reach of …
Three-Dimensional Collagen Tubes For In Vitro Modeling, Rebecca Jones
Three-Dimensional Collagen Tubes For In Vitro Modeling, Rebecca Jones
Theses and Dissertations
Collagen type I represents a novel material for three-dimensional in vitro models. While two-dimensional models are typically inadequate for recreating the complex processes of the body, collagen provides a three-dimensional basis with a variety of applications, including remodeling of vascular cells under tension and vascular stenosis. Smooth muscle cells reorganize and reconstruct their environment differently under conditions of tensions, such as with sutures, or under conditions without applied external tension. Vascular stenosis, the abnormal narrowing of blood vessels, arises from defective developmental processes or atherosclerosis-related adult pathologies. Stenosis triggers a series of adaptive cellular responses that induces adverse remodeling, which …
Analysis Of Cellular Interactions Within A Collagen Hydrogel, Austin N. Worden
Analysis Of Cellular Interactions Within A Collagen Hydrogel, Austin N. Worden
Theses and Dissertations
Evidence has arisen over the past several years that use of a three- dimensional (3D) culture system provides a distinct advantage over two- dimensional (2D) systems when cellular interactions are examined in a more natural environment. Changes in morphology, speed, and directionality of cells tested in both planar and 3D matrices have all demonstrated that using 3D system is advantageous. The changes to the cellular migration patterns were shown to be dependent on several variables within the surrounding substrate including cellular content, physical environment, and the matrix chemical milieu. We have taken advantage of using collagen hydrogels as a 3D …