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Biochemical and Biomolecular Engineering Commons™
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Full-Text Articles in Biochemical and Biomolecular Engineering
Construction Of Polyurethane Fabric Nanocomposites For Use In Resistance Temperature Detectors-Effect Of Polyurethane Concentration, Multi-Walled Carbon Nanotubes, And Oxidant, Jordan M. Shaffer
Williams Honors College, Honors Research Projects
Current resistance temperature detectors (RTDs) are rigid and create pressure points when used in contact with the human body. The current RTDs can also not be used in confined areas like the inside of a prosthetic. The research done for this paper explores the possibility of creating a soft fabric like RTD that can accurately measure temperature. This RTD could be used in medical devices, be placed in prosthetic legs, and be worn for a long period of time creating no discomfort for the user. Polyurethane scaffolds were created through an electrospinning process and multiwalled carbon nanotubes were adhered to …
Protein Sequence-Structure-Function Relationship: Testing Ke-50 Modification On Recombinant Green Fluorescent Protein (Acgfp), Anna E. Burkey
Protein Sequence-Structure-Function Relationship: Testing Ke-50 Modification On Recombinant Green Fluorescent Protein (Acgfp), Anna E. Burkey
Williams Honors College, Honors Research Projects
Protein modification shows promise for improving the effectiveness of protein therapy, including the use of Interferon-beta-1b for the treatment of multiple sclerosis. The addition of a chain of 50 lysine and glutamic acid residues (also called a KE50 modification) was tested on green fluorescent protein (AcGFP) to determine its effect on the bioactivity of the protein. Standard transformation protocol was used to grow the normal and modified proteins in E.Coli, and the bioactivity of the protein was measured using quantum yield and extinction coefficients to determine the reduction in brightness from the native form to the modified form. The …
Calcium Alginate Microbead Production Via An Air Assisted Shearing Process, Ryan Loftus
Calcium Alginate Microbead Production Via An Air Assisted Shearing Process, Ryan Loftus
Williams Honors College, Honors Research Projects
The purpose of this project was to model the size of calcium alginate microbeads produced by extruding a solution of 1.5 wt.% alginate from a syringe and needle with air shear generated from a pneumatic line flowing in an annular tube around the extrusion needle. The air shear would create microdroplets that would fall into a solution of 2 wt.% calcium chloride in water, crosslinking the droplets into beads. These microbeads can be used in drug dispersion applications or in encapsulation of cells throughout the body due to their biocompatibility. The goal was to create uniform beads that ranged from …
The Effect Of Drying On The Release Of Small Hydrophilic Molecular Drugs From Polyelectrolyte Complex Beads, Dounsavanh Letdara
The Effect Of Drying On The Release Of Small Hydrophilic Molecular Drugs From Polyelectrolyte Complex Beads, Dounsavanh Letdara
Williams Honors College, Honors Research Projects
The effects of bead composition and dryness on the release rate of small molecules, like a drug or dye, from polyelectrolyte complex (PEC) beads were studied. Release studies were performed on dried and not dried beads prepared using different PEC to drug ratios. The beads were dried for two hours, which allowed them to reach a constant weight. The beads were loaded with a dye, so their release could be detected through the visible light regime. A plate reader was used to determine the absorbance of a sample, and then the amount of dye released was determined. The data presented …
Microbiologically Influenced Corrosion: Rhamnolipid Effects, Andrea M. Wildroudt
Microbiologically Influenced Corrosion: Rhamnolipid Effects, Andrea M. Wildroudt
Williams Honors College, Honors Research Projects
The purpose of this experiment was to identify if a rhamnolipid could inhibit the growth of a biofilm on carbon steel coupons and result in less corrosion activity. This type of research impacts various industries (with one of the largest being the oil and gas industry). Multiple systems with varying concentrations of the rhamnolipid were created to determine, if any, the optimum concentration to inhibit biofilm growth. The systems were created and exposed to optimum physio-chemical environments to promote SRB induced corrosion. Coupons were immersed for 28 days. Seven systems were created with varying rhamnolipid concentrations; to ensure accurate results, …
Thermal Responsive Release Of A Model Drug, Rhoadmine B, From Alginate Bead System, Heather F. Fairbairn Miss
Thermal Responsive Release Of A Model Drug, Rhoadmine B, From Alginate Bead System, Heather F. Fairbairn Miss
Williams Honors College, Honors Research Projects
Smart drug delivery systems have garnered increased interest in the biomedical community during recent years. Investigation into thermal, pH, and light responsive delivery systems allows for targeted drug release systems to be developed. For this project, thermal responsive release behavior was investigated for the purpose of tuning release systems to achieve 60% release in a specified time by varying the content of thermal responsive polymer. To investigate this, the release profile of a model small hydrophilic drug (rhodamine B) from polymeric alginate beads that have been modified by the addition of thermal responsive poly(N-isopropylacrylamide) (PNIPAAm). It was determined that when …