Using surface plasmon resonance imaging (SPRi) to study biofilms and biofouling
Permanent URL:
http://hdl.handle.net/2047/D20204777
Webster, Thomas (Committee member)
Ebong, Eno (Committee member)
Chai, Yunrong (Committee member)
SPR detection is based on changes in the refractive index at the sensing surface caused by changes in the composition of the material directly above (~200 nm) the sensor surface. Unlike in traditional SPR where a single point on a surface is measured, SPR imaging allows the rapid collection of information about refractive index changes and the location of these events with high precision (~10 µm) over a large area (~1 cm2) simultaneously.
Using a SPRi system, physiological behavior of bacterial cells and biofilm dynamics was monitored in real-time. This information were used to help predict and control bacteria activity in fluidic systems. Studies were conducted to determine the effectiveness of different chemicals and antibiotics in removing biofilm from a sensor surface. The efficacy of antibiotics and surface coatings for preventing biofilm formation on the surface were also studied. Finally, the effects of fluid dynamics on bacterial suface adhesion and removal was investigated.
Staphyloccocus aureus, a gram positive bacteria and one of the major causes of hospital aquired infections, Pseudomonas aeruginosa, a gram negative species and model organism for biofilm studies, Eschericia coli, a gram negative and a model prokaryotic organism, and Bacillus cereus a gram positive and facultative anerobic bacteria, were used in this study.
biofilm
biofouling
Surface plasmon resonance
Microscopy
Biofilms
Fouling
Bacteria -- Adhesion
Fluid dynamics
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