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Biofilm and s tructure

Fig. 1. Stylistic depiction of biofilm formation. Biofilm and s tructure. What a biofilm is and structure of the biofilm is How this biofilm works. Biofilm properties . Fig. 2. Life cycle of biofilm showing slime layer. Forms a protective layer

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Biofilm and s tructure

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  1. Fig. 1. Stylistic depiction of biofilm formation. Biofilm and structure What a biofilm is and structure of the biofilm is How this biofilm works.

  2. Biofilm properties Fig. 2. Life cycle of biofilm showing slime layer. Forms a protective layer Allows organism to grow unhindered

  3. PsuedomonasAeruginosa • A bacterium that forms a bioflim • Forms biofilm, found everywhere • Add image from journal showing that A/B not effective

  4. Previous studies on Pseudomonas Aeruginosa Use of Heavy metals Use of antibiotics Use of Ciprofloxacin and Tobramycin antibiotics Slow diffusion of tobramycin due to binding Ciprofloxacin ineffective Oxygen may be limiting factor. Metal cations Cobalt, copper, nickel, silver. • Need high concentrations of metal cations to kill populations • Persister cells are killed at a slower rate

  5. Results from the antibiotic experiment Time (h) Fig. 3. Killing of P. aeruginosain biofilms in exposure to ciprofloxacin. Filled squares were the treatment and the unfilled were the controls (Walter et al.) Fig. 4. Killing of P. aeruginosain biofilms in exposure to tobramycin. Filled squares were the treatment and the unfilled were the controls.

  6. Types of antibiotics used Ciprofloxacin Tobramycin

  7. Why the antibiotics didn’t work From Walters, Lack of oxygen restricts bacterial metabolic activity Took long to penetrate through the biofilm Fig. 5. Penetration of tobramycin (squares) and ciprofloxaicin (circles) in P. aeruginosa. Open symbols are in sterile controls (Walters et al., 2003)

  8. Nanowire bundles Wires with a diameter in the nanometer scale Conductive Large surface area Used as detectors in electrochemistry Fig. 6. Transmission electron microscopy of Cu(OH)2 nanowires (Zhuang et al. 2007) Fig. 7. Image of ordered nanowire in a microarray.

  9. Why copper oxide • Copper was on the effective metals in previous experiments • Works well in biological settings from glucose and hemoglobin experiments.

  10. Proposed experiment: Artificial neutriphilnet Emulate a neutriphil net with nanowire bundles laced with antibiotics Use this net on biofilms to get through the slime layer more effectively. Fig. 8. Image of a neutriphil net trapping bacteria

  11. Follow experiments developed by Synthesis of Biofilm Synthesis of Copper oxide nanoparticles

  12. Expected results • We expect to see no growth if the antibiotics are able to penetrate the biofilm layer effectively

  13. Literature cited

  14. How we can apply this study • Cf • Pseudomonas attacks alveoli • Burn

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