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Description
Tissue engineering is an emerging field focused on the repair, replacement, and regeneration of damaged tissue. Engineered tissue consists of three factors: cells, biomolecular signals, and a scaffold. Cell-free scaffolds present a unique opportunity to develop highly specific microenvironments with tunable properties. Norbornene-functionalized hyaluronic acid (NorHA) hydrogels provide spatial control over biomolecule binding through a photopolymerization process. With this, biomimetic gradients can be produced to model a variety of tissue interfaces. To produce these patterns, a gradient mechanism was developed to function in tandem with a syringe pump. A conversion equation was derived to calculate a panel speed from the volumetric flow rate setting on the pump. Seven speeds were used to produce fluorophore gradients on the surface of NorHA hydrogels to assess changes in the length and slope of the gradient. The results indicated a strong positive linear correlation between the speed of the panel and the length of the gradient as well as a strong negative correlation between the speed of the panel and the slope of the gradient. Additionally, the mechanism was able to successfully produce several other types of gradients including multiregional, dual, and triregional.
ContributorsSogge, Amber (Author) / Holloway, Julianne (Thesis director) / Stabenfeldt, Sarah (Committee member) / Fumasi, Fallon (Committee member) / Harrington Bioengineering Program (Contributor, Contributor) / Barrett, The Honors College (Contributor)
Created2019-05