Team:Dundee/Implementation/introduction
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<h1>L.A.S.S.O.</h1> | <h1>L.A.S.S.O.</h1> | ||
- | <p class="lead">Every | + | <p class="lead">Every Good Cowboy Needs One</p> |
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- | <li class="list-group-item"><a href="#0" class="">How the L.A.S.S.O. | + | <li class="list-group-item"><a href="#0" class="">How the L.A.S.S.O. Fits into The Lung Ranger</a> |
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<li class="list-group-item"><a href="#1" class="">Aims</a> | <li class="list-group-item"><a href="#1" class="">Aims</a> | ||
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- | <h2 id="0">How the L.A.S.S.O. | + | <h2 id="0">How the L.A.S.S.O. Fits into The Lung Ranger</h2> |
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- | The biological detection systems are potentially capable of detecting the presence of the bacterial species forming the focus of our project. However, it is unlikely to be capable of generating a quantifiable measure of bacterial load if used in isolation. Indeed, even a qualitative output from the systems would require it to be used in conjunction with sophisticated laboratory equipment. We therefore created the <b>L</b>ight <b>A</b>mplifying <b>S</b>ignal <b>S</b>ensing <b>O</b>bject (L.A.S.S.O.) - a device, when used in conjunction with | + | The biological detection systems are potentially capable of detecting the presence of the bacterial species forming the focus of our project. However, it is unlikely to be capable of generating a quantifiable measure of bacterial load if used in isolation. Indeed, even a qualitative output from the systems would require it to be used in conjunction with sophisticated laboratory equipment. We therefore created the <b>L</b>ight <b>A</b>mplifying <b>S</b>ignal <b>S</b>ensing <b>O</b>bject (L.A.S.S.O.) - a device which, when used in conjunction with The Lung Ranger, is potentially capable of quantifying the bacterial load by utilising the biophotonics phenomena. The L.A.S.S.O. would allow for more frequent mobile monitoring of lung infections in CF patients, offering early detection and thus improved treatment, quality of life and ultimately, increased survival times. |
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<h2 id="1">Aims</h2> | <h2 id="1">Aims</h2> | ||
<p> | <p> | ||
- | The main aim was to design a relatively inexpensive device that | + | The main aim was to design a relatively inexpensive device that would be easily used with little training, thus making it a device that both medical staff and patients alike would be comfortable in using. In the future, the device should be capable of being used away from the clinic. To address this aim, the team had to: |
<ul type="circle"> | <ul type="circle"> | ||
- | <li>show people on the front line in the battle against CF lung disease (medics and patients) how the Dundee iGEM project could | + | <li>show people on the front line in the battle against CF lung disease (medics and patients) how the Dundee iGEM project could be used in practice. </li> |
<li>demonstrate the possibility of this having a lasting benefit, not just to provide much quicker diagnosis times, but ultimately giving control back to the patients.</li> | <li>demonstrate the possibility of this having a lasting benefit, not just to provide much quicker diagnosis times, but ultimately giving control back to the patients.</li> | ||
- | <li>build a bridge between | + | <li>build a bridge between Synthetic Biology and the people it can help by having patients and healthcare professionals be part of the design of the L.A.S.S.O. </li> |
</ul> | </ul> | ||
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- | <li>To build a device able to detect the low light levels produced by our engineered <i>E.coli</i> chassis and quantify this signal with known standards to calculate the amount of bacteria present. </li> | + | <li>To build a device able to detect the low light levels produced by our engineered <i>E. coli</i> chassis and quantify this signal with known standards to calculate the amount of bacteria present. </li> |
- | <li>To design a computer application capable of | + | <li>To design a computer application capable of relaying the amount of bacteria present to a downstream user (e.g. Doctor).</li> |
<li>To design a computer application which can simulate how the L.A.S.S.O. could be used in practice - showing how information could be easily shared between patient and medical staff (automated, letting the technology do the work).</li> | <li>To design a computer application which can simulate how the L.A.S.S.O. could be used in practice - showing how information could be easily shared between patient and medical staff (automated, letting the technology do the work).</li> | ||
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Latest revision as of 00:39, 18 October 2014
L.A.S.S.O.
Every Good Cowboy Needs One
How the L.A.S.S.O. Fits into The Lung Ranger
The biological detection systems are potentially capable of detecting the presence of the bacterial species forming the focus of our project. However, it is unlikely to be capable of generating a quantifiable measure of bacterial load if used in isolation. Indeed, even a qualitative output from the systems would require it to be used in conjunction with sophisticated laboratory equipment. We therefore created the Light Amplifying Signal Sensing Object (L.A.S.S.O.) - a device which, when used in conjunction with The Lung Ranger, is potentially capable of quantifying the bacterial load by utilising the biophotonics phenomena. The L.A.S.S.O. would allow for more frequent mobile monitoring of lung infections in CF patients, offering early detection and thus improved treatment, quality of life and ultimately, increased survival times.
Aims
The main aim was to design a relatively inexpensive device that would be easily used with little training, thus making it a device that both medical staff and patients alike would be comfortable in using. In the future, the device should be capable of being used away from the clinic. To address this aim, the team had to:
- show people on the front line in the battle against CF lung disease (medics and patients) how the Dundee iGEM project could be used in practice.
- demonstrate the possibility of this having a lasting benefit, not just to provide much quicker diagnosis times, but ultimately giving control back to the patients.
- build a bridge between Synthetic Biology and the people it can help by having patients and healthcare professionals be part of the design of the L.A.S.S.O.
Objectives
- To build a device able to detect the low light levels produced by our engineered E. coli chassis and quantify this signal with known standards to calculate the amount of bacteria present.
- To design a computer application capable of relaying the amount of bacteria present to a downstream user (e.g. Doctor).
- To design a computer application which can simulate how the L.A.S.S.O. could be used in practice - showing how information could be easily shared between patient and medical staff (automated, letting the technology do the work).