Difference between revisions of "Team:Pasteur Paris/TrainingThomas4"
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| − | <p>We decided to create a universal biological interface that would be able to connect the residual nerves from the amputees’ limbs to the prostheses. We show up with the creation of a Biofilm coated on the implants. Bacteria secreting neurotrophins (e.g. proNGF) from the interface to help the nerves grow back towards the prothesis | + | <p>We decided to create a universal biological interface that would be able to connect the residual nerves from the amputees’ limbs to the prostheses. We show up with the creation of a Biofilm coated on the implants. Bacteria secreting neurotrophins (e.g. proNGF) from the interface to help the nerves grow back towards the prothesis.</p> |
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| − | <p>This opened our minds to a huge challenge with orthopedic implants: infectious biofilms. They frequently develop around implants and cause heavy infections, very resistant to antibiotics. </p> | + | <p>This opened our minds to a huge challenge with orthopedic implants: infectious biofilms. They frequently develop around implants and cause heavy infections, very resistant to antibiotics. Our strategy concentrate efforts on fighting against S. aureus, by disturbing the quorum sensing. This mechanism regulates and coordinates the biofilm’s architecture and the production of toxins and virulence factors. </p> |
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Revision as of 21:29, 16 October 2018
In science fiction movies, some amputees are equipped with incredibly efficient bionic prostheses that enable them to accomplish everyday gestures as any valid person would. Presently, the very best equipment that can be offered to amputees is still far from meeting their expectations or those seen in the movies
We decided to create a universal biological interface that would be able to connect the residual nerves from the amputees’ limbs to the prostheses. We show up with the creation of a Biofilm coated on the implants. Bacteria secreting neurotrophins (e.g. proNGF) from the interface to help the nerves grow back towards the prothesis.
With this innovation came the necessity to have the device surgically osseointegrated to the patient
This opened our minds to a huge challenge with orthopedic implants: infectious biofilms. They frequently develop around implants and cause heavy infections, very resistant to antibiotics. Our strategy concentrate efforts on fighting against S. aureus, by disturbing the quorum sensing. This mechanism regulates and coordinates the biofilm’s architecture and the production of toxins and virulence factors.
We decided to tackle both problems at the same time, using synthetic biology to add a barrier of protection against pathogenic bacteria directly into our device.