Team:Groningen/Template/MODULE/project/MBD
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Our main goal for this project is to design a bandage prototype or burn wounds. Burn wounds are usually infected with <i>Staphylococcus aureus</i> and <i>Pseudomonas aeruginosa</i>. The quorum molecules produced by these two pathogens should diffuse through the bandage and activate the production of Nisin, Aiia and DspB proteins. These three proteins should diffuse out of the bandage and act on the pathogens. There were different possible bandage designs considering our bandage specifications. We’ve made six, to get a rough estimation of the best design.<br> | Our main goal for this project is to design a bandage prototype or burn wounds. Burn wounds are usually infected with <i>Staphylococcus aureus</i> and <i>Pseudomonas aeruginosa</i>. The quorum molecules produced by these two pathogens should diffuse through the bandage and activate the production of Nisin, Aiia and DspB proteins. These three proteins should diffuse out of the bandage and act on the pathogens. There were different possible bandage designs considering our bandage specifications. We’ve made six, to get a rough estimation of the best design.<br> | ||
You’ve probably seen our design on the front page of our wiki. If not, here is a link that describes the different components of the bandage in a more precise way (LINK TO 3D MODEL). We are mainly interested in how fast and how much our three Infection Preventing Molecules (IPM’s) are diffusing into the wound. That makes our to-obtain-results clear: <br> | You’ve probably seen our design on the front page of our wiki. If not, here is a link that describes the different components of the bandage in a more precise way (LINK TO 3D MODEL). We are mainly interested in how fast and how much our three Infection Preventing Molecules (IPM’s) are diffusing into the wound. That makes our to-obtain-results clear: <br> |
Revision as of 13:07, 16 October 2014
Modeling our bacteria is .... more text needed here explanations etc.
You’ve probably seen our design on the front page of our wiki. If not, here is a link that describes the different components of the bandage in a more precise way (LINK TO 3D MODEL). We are mainly interested in how fast and how much our three Infection Preventing Molecules (IPM’s) are diffusing into the wound. That makes our to-obtain-results clear:
1. Amount of nisin that diffuses from the bandage into the wound over time.
2. Amount of DspB that diffuses from the bandage into the the wound over time.
3. Amount of AiiA that diffuses from the bandage into the the wound over time.
These amounts can be found by modeling. We made six designs with different distributions of our L. lactis throughout the gel. These designs and their modeled diffusion results are displayed below.
The hydrogel in the bandage should have nutrient source for the bacteria to grow. Using rich media like M17 in the bandage for growing Lactococcus lactis is not a good idea. Rich media might support the growth of other bacteria’s present on the wound which might cause adverse problems. To avoid this kind of complications we decided to use chemically defined media. Chemically defined media is a buffered media containing all the aminoacid, vitamins and other metal suppliments
1. Glucose Concentration optimization for Nisin production
To increase the lifetime of the bandage we decided to increase the amount of carbon source. Lactococcus lactis is lactic acid producing bacteria, increasing the amount of carbon source in the media results in faster production of lactic acid. Lactic acid present in the media represses the growth of bacteria. The presence of phosphate buffer in the chemically defined media solves this problem to some extent. It has been reported that Nisin is produced only in exponential growth phase. In order to evaluate the glucose concentration at which Nisin production is higher we grew Nisin producing strain in CDM media and every two hours sample was collected to perform Nisin activity test.