Difference between revisions of "Team:TUDelft/Main-HP G"

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            <p>Because our project was focused on tackling a problem extremely relevant to our society, it was essential that we looked at the impact our project would have and how we could adapt our design according to the acquired information from stakeholder dialogues. Only then would our project have the desired value to be able to contribute to the issue of antibiotic resistance. Developing a detection method in the lab is one challenge, but developing a detection method that could be used in the real world is another, more complex, challenge. The complexity of the challenge in the antibiotic field made it hard to find the niche in which we could apply and validate our detection method. By meeting with experts and stakeholders, we were able to shape our design to fit everyone's wishes as best possible, and make our design relevant and responsible. The timeline of our integrated human practices process is illustrated to give an impression on how our project evolved over time due to interviews with stakeholders, and those we collaborated with.</p>
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        <h1>Integrated Human Practices</h1>
 
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        <p>Because our project was focused on tackling a problem extremely relevant to our society, it was essential that we looked at the impact our project would have and how we could adapt our design according to the acquired information from stakeholder dialogues. Only then would our project have the desired value to be able to contribute to the issue of antibiotic resistance. Developing a detection method in the lab is one challenge, but developing a detection method that could be used in the real world is another, more complex, challenge. The complexity of the challenge in the antibiotic field made it hard to find the niche in which we could apply and validate our detection method. By meeting with experts and stakeholders, we were able to shape our design to fit everyone's wishes as best possible, and make our design relevant and responsible. The timeline of our integrated human practices process is illustrated to give an impression on how our project evolved over time due to interviews with stakeholders, and those we collaborated with.</p>
            <p>For example, we collaborated with farmer Paul Oosthoek and did experiments on his cow’s milk samples. Additionally, we performed experiments with the isolates gained from the experts Dik Mevius and Fimme van der Wal. Also, veterinarians gave us insights in their documents to gain more knowledge about the treatment procedures. Also, multiple stakeholders participated in our project <i><a href="https://2017.igem.org/Team:TUDelft/Engagement#videos" target="_blank" >How can iGEM teams best include Relevance and Responsibility in their Design?</a></i></p>
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        <p>For example, we collaborated with farmer Paul Oosthoek and did experiments on his cow’s milk samples. Additionally, we performed experiments with the isolates gained from the experts Dik Mevius and Fimme van der Wal. Also, veterinarians gave us insights in their documents to gain more knowledge about the treatment procedures. Also, multiple stakeholders participated in our project <i><a href="https://2017.igem.org/Team:TUDelft/Engagement#videos" target="_blank" >How can iGEM teams best include Relevance and Responsibility in their Design?</a></i></p>
            <p>In the last section, we summarise the most crucial insights and how stakeholders interactions lead to impressive changes in our experiments and design.</p>
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        <p>In the last section, we summarise the most crucial insights and how stakeholders interactions lead to impressive changes in our experiments and design.</p>
 
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            <h3>Project Timeline</h3>
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            <p>In this timeline, we take you on a journey through the evolution of our design. In this tree-like interactive element on this page, you can hover over different icons, that depict important developments in the project. Each icon will fold-out to show the insights and changes we gained together with further relevant information about people/institutions involved. Additionally, our timeline is featured in the <a href="https://static.igem.org/mediawiki/2017/e/ec/T--TUDelft--2017_Wiki_6.mp4" target="_blank">second video</a> of our video project!</p>
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        <h3>Project Timeline</h3>
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        <p>In this timeline, we take you on a journey through the evolution of our design. In this tree-like interactive element on this page, you can hover over different icons, that depict important developments in the project. Each icon will fold-out to show the insights and changes we gained together with further relevant information about people/institutions involved. Additionally, our timeline is featured in the <a href="https://static.igem.org/mediawiki/2017/e/ec/T--TUDelft--2017_Wiki_6.mp4" target="_blank">second video</a> of our video project!</p>
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                        Our interactive timeline
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                    Our interactive timeline
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                                            <h4>Microbial Carrier</h4>
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                                            <h5>Insights</h5>
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                                        <h4>Microbial Carrier</h4>
 
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                                        <h5>Insights</h5>
                                            <ul class="skel browser-default">
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                                                <li>Not relevant - Which problem will it solve? How will it go to the pathogen in a pool of fishes where the current will be really strong? </li>
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                                        <ul class="skel browser-default">
                                                <li>Not responsible - not safe due to the introduction of GMO in the open environment</li>
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                                            <li>Not relevant - Which problem will it solve? How will it go to the pathogen in a pool of fishes where the current will be really strong? </li>
                                            </ul>
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                                            <li>Not responsible - not safe due to the introduction of GMO in the open environment</li>
                                            <h5>Changes</h5>
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                                        <h5>Changes</h5>
                                                <li>Project change &amp; target/problem change to make it more relevant</li>
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                                            <li>Project change &amp; target/problem change to make it more relevant</li>
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                                                        Summary
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                                                    Summary
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                                                            <div class="col s15">
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                                                    <div class="row">
                                                                <p style="text-align: justify">One of the industries that greatly contributes to the antibiotic resistance problem is the fish farming industry. To achieve high yields and profits, many farmers are now applying intensive farming methods which involves the misuse of antibiotic usage. Our first idea was to solve this problem by engineering a bacterium that can sense the pathogen and swim towards it. After arriving there, a neutralizing agent will either be released or produced and excreted on the spot. Antibiotic resistance shield The overuse of antibiotics has led to the development of antibiotic resistances. Although this problem has already been popping up in scientific and newspaper articles for over 30 years, its threat is one that can no longer be ignored. The US Department of Health and Human Services estimates that annually over 2 million illnesses and 23,000 deaths in the United States are caused by antibiotic resistance. Moreover, it is approximated that by 2050, 10 million people will die annually due to antibiotic resistance. The ‘antibiotic apocalypse’ needs to be prevented, so action should be taken now!</p>
+
                                                        <div class="col s15">
                                                            </div>
+
                                                            <p style="text-align: justify">One of the industries that greatly contributes to the antibiotic resistance problem is the fish farming industry. To achieve high yields and profits, many farmers are now applying intensive farming methods which involves the misuse of antibiotic usage. Our first idea was to solve this problem by engineering a bacterium that can sense the pathogen and swim towards it. After arriving there, a neutralizing agent will either be released or produced and excreted on the spot. Antibiotic resistance shield The overuse of antibiotics has led to the development of antibiotic resistances. Although this problem has already been popping up in scientific and newspaper articles for over 30 years, its threat is one that can no longer be ignored. The US Department of Health and Human Services estimates that annually over 2 million illnesses and 23,000 deaths in the United States are caused by antibiotic resistance. Moreover, it is approximated that by 2050, 10 million people will die annually due to antibiotic resistance. The ‘antibiotic apocalypse’ needs to be prevented, so action should be taken now!</p>
 
                                                         </div>
 
                                                         </div>
 
                                                     </div>
 
                                                     </div>
                                                 </li>
+
                                                 </div>
                                             </ul>
+
                                             </li>
 
+
                                         </ul>
                                         </div>
+
   
 
                                     </div>
 
                                     </div>
 
                                 </div>
 
                                 </div>
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                                         <div class="row">
 
                                         <div class="row">
 
                                             <div class="center-margin col s12 m10">
 
                                             <div class="center-margin col s12 m10">
 
+
   
 
                                                 <div class="col m4 s12">
 
                                                 <div class="col m4 s12">
 
                                                     <img class="responsive-img" src="https://static.igem.org/mediawiki/2017/7/71/T--TUDelft--Synenergene.png" alt="Synenergene">
 
                                                     <img class="responsive-img" src="https://static.igem.org/mediawiki/2017/7/71/T--TUDelft--Synenergene.png" alt="Synenergene">
 
+
   
 
                                                 </div>
 
                                                 </div>
 
+
   
 
                                                 <div class="col m6 s12">
 
                                                 <div class="col m6 s12">
 
                                                     <img class="responsive-img" src="https://static.igem.org/mediawiki/2017/f/f2/T--TUDelft--RathenauInstituut.png" alt="Rathenau">
 
                                                     <img class="responsive-img" src="https://static.igem.org/mediawiki/2017/f/f2/T--TUDelft--RathenauInstituut.png" alt="Rathenau">
 
+
   
 
                                                 </div>
 
                                                 </div>
 
                                             </div>
 
                                             </div>
 
                                         </div>
 
                                         </div>
 
                                         <h5>Insights</h5>
 
                                         <h5>Insights</h5>
 
+
   
 
                                         <ul class="skel browser-default">
 
                                         <ul class="skel browser-default">
 
                                             <li>How to keep the GMO in a contained environment
 
                                             <li>How to keep the GMO in a contained environment
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                                     </div>
 
                                     </div>
 
                                 </div>
 
                                 </div>
 
+
   
 
                                 <div id="shield" class="modal">
 
                                 <div id="shield" class="modal">
 
                                     <div class="modal-content">
 
                                     <div class="modal-content">
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                                     </div>
 
                                     </div>
 
                                 </div>
 
                                 </div>
 
+
   
 
                                 <div id="detection" class="modal">
 
                                 <div id="detection" class="modal">
 
                                     <div class="modal-content">
 
                                     <div class="modal-content">
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                                             </li>
 
                                             </li>
 
                                             <li>Importance of stakeholder mapping</li>
 
                                             <li>Importance of stakeholder mapping</li>
 
+
   
 
                                         </ul>
 
                                         </ul>
 
                                         <h5>Changes</h5>
 
                                         <h5>Changes</h5>
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                                             <li>Farmers want a faster method to determine which antibiotics to use to treat mastitis if the default antibiotic does not work and if she can do the test herself she would like to, to save costs of the veterinarian.
 
                                             <li>Farmers want a faster method to determine which antibiotics to use to treat mastitis if the default antibiotic does not work and if she can do the test herself she would like to, to save costs of the veterinarian.
 
                                             </li>
 
                                             </li>
 
+
   
 
                                         </ul>
 
                                         </ul>
 
                                         <h5>Changes</h5>
 
                                         <h5>Changes</h5>
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                                             </li>
 
                                             </li>
 
                                             <li>Trade-off between reducing antibiotic resistance or animal health. Farmers are trying to reduce misuse of antibiotics, but if they wait to long with treatment the illness could become worse, resulting in reduced animal health.
 
                                             <li>Trade-off between reducing antibiotic resistance or animal health. Farmers are trying to reduce misuse of antibiotics, but if they wait to long with treatment the illness could become worse, resulting in reduced animal health.
 
+
   
 
                                             </li>
 
                                             </li>
 
+
   
 
                                         </ul>
 
                                         </ul>
 
                                         <h5>Changes</h5>
 
                                         <h5>Changes</h5>
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                                             <li>The tool should neither be too complicated, nor take a lot of time.
 
                                             <li>The tool should neither be too complicated, nor take a lot of time.
 
                                             </li>
 
                                             </li>
 
+
   
 
                                         </ul>
 
                                         </ul>
 
                                         <h5>Changes</h5>
 
                                         <h5>Changes</h5>
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                                             <div class=" center-margin col m8 s12">
 
                                             <div class=" center-margin col m8 s12">
 
                                                 <img class="responsive-img" src="https://static.igem.org/mediawiki/2017/6/68/T--TUDelft--iGEMguide.jpeg" alt="Guide">
 
                                                 <img class="responsive-img" src="https://static.igem.org/mediawiki/2017/6/68/T--TUDelft--iGEMguide.jpeg" alt="Guide">
 
+
   
 
                                             </div>
 
                                             </div>
 
                                         </div>
 
                                         </div>
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                                             <li>Many guidelines for Integrated Human practices
 
                                             <li>Many guidelines for Integrated Human practices
 
                                             </li>
 
                                             </li>
 
+
   
 
                                         </ul>
 
                                         </ul>
 
                                         <h5>Changes</h5>
 
                                         <h5>Changes</h5>
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                                     </div>
 
                                     </div>
 
                                 </div>
 
                                 </div>
 
+
   
 
                                 <div id="ster4" class="modal">
 
                                 <div id="ster4" class="modal">
 
                                     <div class="modal-content">
 
                                     <div class="modal-content">
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                                             <div class=" center-margin col m4 s12">
 
                                             <div class=" center-margin col m4 s12">
 
                                                 <img class="responsive-img" src="https://static.igem.org/mediawiki/2017/e/eb/T--TUDelft--KNMvD.png" alt="KNMvD">
 
                                                 <img class="responsive-img" src="https://static.igem.org/mediawiki/2017/e/eb/T--TUDelft--KNMvD.png" alt="KNMvD">
 
+
   
 
                                             </div>
 
                                             </div>
 
                                         </div>
 
                                         </div>
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                                             </li>
 
                                             </li>
 
                                             <li>Look into protocol of farmers and see where our project will shine</li>
 
                                             <li>Look into protocol of farmers and see where our project will shine</li>
 
+
   
 
                                         </ul>
 
                                         </ul>
 
                                         <h5>Changes</h5>
 
                                         <h5>Changes</h5>
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                                                         <div class="col s15">
 
                                                         <div class="col s15">
 
                                                             <p>
 
                                                             <p>
 
+
   
 
                                                                 On different levels, policy-, competition-, and user level, we investigated the values that our design had to meet. How we translated the values of the stakeholders to design requirements can be found in the figure about the Hierarchical Nature of Values (figure 1). Even though some norms were contradictory (as can be seen figure 2, summary values and norms) , we aimed to meet all the norms and values as good as possible.</p>
 
                                                                 On different levels, policy-, competition-, and user level, we investigated the values that our design had to meet. How we translated the values of the stakeholders to design requirements can be found in the figure about the Hierarchical Nature of Values (figure 1). Even though some norms were contradictory (as can be seen figure 2, summary values and norms) , we aimed to meet all the norms and values as good as possible.</p>
 
                                                             <div class="row center">
 
                                                             <div class="row center">
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                                                                 </div>
 
                                                                 </div>
 
                                                             </div>
 
                                                             </div>
 
+
   
 
                                                             <div class="row center">
 
                                                             <div class="row center">
 
                                                                 <div class="col s12">
 
                                                                 <div class="col s12">
Line 673: Line 673:
 
                                                             <p>Sjouke Hoekstra is a chicken farmer who has been battling salmonella for a long time. A new policy set up to tackle antibiotic resistance problems says that chickens that test positive for Salmonella have to be slaughtered immediately. In an attempt to prevent salmonella from spreading, Sjouke has spent a lot of money on different cleaning methods. However, the underlying, fundamental cause of the salmonella problem was never really looked into. Sjouke believes that his chickens were infected via their food, which is derived from the Yucca plant.
 
                                                             <p>Sjouke Hoekstra is a chicken farmer who has been battling salmonella for a long time. A new policy set up to tackle antibiotic resistance problems says that chickens that test positive for Salmonella have to be slaughtered immediately. In an attempt to prevent salmonella from spreading, Sjouke has spent a lot of money on different cleaning methods. However, the underlying, fundamental cause of the salmonella problem was never really looked into. Sjouke believes that his chickens were infected via their food, which is derived from the Yucca plant.
 
                                                             </p>
 
                                                             </p>
 
+
   
 
                                                             <p> Sjouke recommended us to dive deeper in the salmonella problem. For this purpose, he referred us to the company AVINED. Furthermore, we could contact the slaughterhouse, to which the diagnostics centre is connected.
 
                                                             <p> Sjouke recommended us to dive deeper in the salmonella problem. For this purpose, he referred us to the company AVINED. Furthermore, we could contact the slaughterhouse, to which the diagnostics centre is connected.
 
                                                             </p>
 
                                                             </p>
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                                         <h5>Function</h5>
 
                                         <h5>Function</h5>
 
                                         <p>Expert IKB Kip en Salmonella meat industry
 
                                         <p>Expert IKB Kip en Salmonella meat industry
 
+
   
 
                                         </p>
 
                                         </p>
 
                                         <h5>Insights</h5>
 
                                         <h5>Insights</h5>
 
                                         <ul class="skel browser-default">
 
                                         <ul class="skel browser-default">
 
                                             <li>Forbidden to treat salmonella in chickens with antibiotics
 
                                             <li>Forbidden to treat salmonella in chickens with antibiotics
 
+
   
 
                                             </li>
 
                                             </li>
 
                                             <li>No high need to make big investments in treatment of chickens</li>
 
                                             <li>No high need to make big investments in treatment of chickens</li>
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                                         <ul class="skel browser-default">
 
                                         <ul class="skel browser-default">
 
                                             <li>No focus on <i>Salmonella</i> and chickens
 
                                             <li>No focus on <i>Salmonella</i> and chickens
 
+
   
 
                                             </li>
 
                                             </li>
 
                                         </ul>
 
                                         </ul>
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                                                     <div class="row center">
 
                                                     <div class="row center">
 
                                                         <div class="col s15">
 
                                                         <div class="col s15">
 
+
   
 
                                                             <p>Rik te Loo did not see any connection with the salmonella chicken challenges and the our detection method, because the treatment of <i>Salmonella</i> with antibiotics is currently forbidden. Antibiotic regulations considering chickens are currently.
 
                                                             <p>Rik te Loo did not see any connection with the salmonella chicken challenges and the our detection method, because the treatment of <i>Salmonella</i> with antibiotics is currently forbidden. Antibiotic regulations considering chickens are currently.
 
                                                             </p>
 
                                                             </p>
 
+
   
 
                                                             <p> The IKB Kip certification scheme is a global chain quality system for the entire poultry meat sector. IKB Kip is a dynamic system that is constantly developing. IKB Kip’s scheme management lies with the PLUIMNED foundation. This allows all links involved in the production of IKB Kip poultry meat (from breeding to processing) to ensure production methods guarantees, for instance regarding the quality and safeguarding of the quality
 
                                                             <p> The IKB Kip certification scheme is a global chain quality system for the entire poultry meat sector. IKB Kip is a dynamic system that is constantly developing. IKB Kip’s scheme management lies with the PLUIMNED foundation. This allows all links involved in the production of IKB Kip poultry meat (from breeding to processing) to ensure production methods guarantees, for instance regarding the quality and safeguarding of the quality
 
+
   
 
                                                             </p>
 
                                                             </p>
 
                                                         </div>
 
                                                         </div>
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                                     <div class="modal-content">
 
                                     <div class="modal-content">
 
                                         <h4>Input Veterinarian</h4>
 
                                         <h4>Input Veterinarian</h4>
 
+
   
 
                                         <h5>Name</h5>
 
                                         <h5>Name</h5>
 
                                         <p>Engeline van Duijkeren</p>
 
                                         <p>Engeline van Duijkeren</p>
 
                                         <h5>Function</h5>
 
                                         <h5>Function</h5>
 
                                         <p>Veterinarian, works for RIVM, research on if antibiotic resistance is transferred from animal to human and via which ways.
 
                                         <p>Veterinarian, works for RIVM, research on if antibiotic resistance is transferred from animal to human and via which ways.
 
+
   
 
+
   
 
                                         </p>
 
                                         </p>
 
                                         <h5>Insights</h5>
 
                                         <h5>Insights</h5>
 
                                         <ul class="skel browser-default">
 
                                         <ul class="skel browser-default">
 
                                             <li>Milk samples from cows that have mastitis but are not cured by certain antibiotics are not always sent to the lab for test, because it costs time and money (2-3 days). Sometimes farmers thus already administer other antibiotics not knowing if it might work.
 
                                             <li>Milk samples from cows that have mastitis but are not cured by certain antibiotics are not always sent to the lab for test, because it costs time and money (2-3 days). Sometimes farmers thus already administer other antibiotics not knowing if it might work.
 
+
   
 
                                             </li>
 
                                             </li>
 
                                             <li>6 common pathogens causing Mastitis</li>
 
                                             <li>6 common pathogens causing Mastitis</li>
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                                                     <div class="row center">
 
                                                     <div class="row center">
 
                                                         <div class="col s15">
 
                                                         <div class="col s15">
 
+
   
 
                                                             <p>Milk samples from cows that have mastitis but are not cured by certain antibiotics are not always sent to the lab for test, because it costs time and money (2-3 days). Sometimes farmers thus already register other antibiotics not knowing if it might work. When the milk sample goes to the lab, the untreated milk is plated on different agar plates. When colonies have grown, the microorganisms are often colored and examined through the microscope. Also, biochemical tests are done to see which compounds the bacteria can convert. When a cow has clinical mastitis (visible symptoms), it is most likely that one type of bacterium is the cause. There are 6 types of known, common pathogens for mastitis. Engeline tells us that farmers would like a on site test for which antibiotic can or can not be administered. She thinks that within several years whole genome sequencing will be the golden standard.</p>
 
                                                             <p>Milk samples from cows that have mastitis but are not cured by certain antibiotics are not always sent to the lab for test, because it costs time and money (2-3 days). Sometimes farmers thus already register other antibiotics not knowing if it might work. When the milk sample goes to the lab, the untreated milk is plated on different agar plates. When colonies have grown, the microorganisms are often colored and examined through the microscope. Also, biochemical tests are done to see which compounds the bacteria can convert. When a cow has clinical mastitis (visible symptoms), it is most likely that one type of bacterium is the cause. There are 6 types of known, common pathogens for mastitis. Engeline tells us that farmers would like a on site test for which antibiotic can or can not be administered. She thinks that within several years whole genome sequencing will be the golden standard.</p>
 
+
   
 
                                                             <p>We asked Engeline what is the most appropriate sample for detecting antibiotic resistance. She tells us that feces contains too many bacteria, blood is supposed to be sterile but is not common practice and thus economically not so attractive. Urine samples are often used with pet animals. Milk would be most suited as this is has little bacteria, only skin bacteria and the pathogens causing mastitis.
 
                                                             <p>We asked Engeline what is the most appropriate sample for detecting antibiotic resistance. She tells us that feces contains too many bacteria, blood is supposed to be sterile but is not common practice and thus economically not so attractive. Urine samples are often used with pet animals. Milk would be most suited as this is has little bacteria, only skin bacteria and the pathogens causing mastitis.
 
+
   
 
                                                             </p>
 
                                                             </p>
 
+
   
 
                                                             <p>Engeline also told us about extended-spectrum lactamases that can break down a lot of types β-lactam antibiotics and thus can make a large group of antibiotics inactive. A lot of β-lactamases can be passed on from animals to humans
 
                                                             <p>Engeline also told us about extended-spectrum lactamases that can break down a lot of types β-lactam antibiotics and thus can make a large group of antibiotics inactive. A lot of β-lactamases can be passed on from animals to humans
 
+
   
 
                                                             </p>
 
                                                             </p>
 
                                                         </div>
 
                                                         </div>
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                                         <h4>Input Bouwe Frank Gall
 
                                         <h4>Input Bouwe Frank Gall
 
                                         </h4>
 
                                         </h4>
 
+
   
 
                                         <h5>Name</h5>
 
                                         <h5>Name</h5>
 
                                         <p>Bouwe Frank Gall
 
                                         <p>Bouwe Frank Gall
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                                             <li>The current diagnostics are not at all focused on detecting antibiotic resistances
 
                                             <li>The current diagnostics are not at all focused on detecting antibiotic resistances
 
                                             </li>
 
                                             </li>
 
+
   
 
                                         </ul>
 
                                         </ul>
 
                                         <h5>Changes</h5>
 
                                         <h5>Changes</h5>
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                                                             <p>When asked about the most occurring/challenging bacterial infection in cattle, Bouwe Frank pointed us towards mastitis. This is in an infection of the udder. The problem with mastitis is that it can be caused by various bacteria. If you are interested in detecting antibiotic resistances in the case of mastitis, you will thus first have to establish which pathogen you are dealing with.
 
                                                             <p>When asked about the most occurring/challenging bacterial infection in cattle, Bouwe Frank pointed us towards mastitis. This is in an infection of the udder. The problem with mastitis is that it can be caused by various bacteria. If you are interested in detecting antibiotic resistances in the case of mastitis, you will thus first have to establish which pathogen you are dealing with.
 
                                                             </p>
 
                                                             </p>
 
+
   
 
                                                             <p>How the current process goes, is that a sample of a sick animal is sent to the GD Animal Health. They cultivate the sample to see what bacteria causes the disease. Often, an educated guess considering the pathogen can be made. If the test is positive, the animal can get a suitable treatment. If not, the test is repeated under different conditions. These tests are not based on detecting antibiotic resistances, because this takes more time and money.
 
                                                             <p>How the current process goes, is that a sample of a sick animal is sent to the GD Animal Health. They cultivate the sample to see what bacteria causes the disease. Often, an educated guess considering the pathogen can be made. If the test is positive, the animal can get a suitable treatment. If not, the test is repeated under different conditions. These tests are not based on detecting antibiotic resistances, because this takes more time and money.
 
+
   
 
                                                             </p>
 
                                                             </p>
 
+
   
 
                                                             <p>Bouwe Frank referred us to the GD animal health to get a better insight in the current diagnostics process through the veterinarian laboratory. A valuable person to contact is Ynte Schukken, who is connected to the GD animal Health and professor at the Groningen University.
 
                                                             <p>Bouwe Frank referred us to the GD animal health to get a better insight in the current diagnostics process through the veterinarian laboratory. A valuable person to contact is Ynte Schukken, who is connected to the GD animal Health and professor at the Groningen University.
 
+
   
 
+
   
 
                                                             </p>
 
                                                             </p>
 
                                                         </div>
 
                                                         </div>
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                                         <h4>Input Vetenarian
 
                                         <h4>Input Vetenarian
 
                                         </h4>
 
                                         </h4>
 
+
   
 
                                         <h5>Name</h5>
 
                                         <h5>Name</h5>
 
                                         <p>Maaike van den Berg
 
                                         <p>Maaike van den Berg
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                                             </li>
 
                                             </li>
 
                                             <li>The process from disease analysis to antibiotic prescription
 
                                             <li>The process from disease analysis to antibiotic prescription
 
+
   
 
                                             </li>
 
                                             </li>
 
                                             <li>The roles of the farmers, veterinarians and diagnostic centers in this process
 
                                             <li>The roles of the farmers, veterinarians and diagnostic centers in this process
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                                         <ul class="skel browser-default">
 
                                         <ul class="skel browser-default">
 
                                             <li>Design detection method based on integration with formularies
 
                                             <li>Design detection method based on integration with formularies
 
+
   
 
                                             </li>
 
                                             </li>
 
                                             <li>Narrow scope to resistance in <i>Staphylococcus Aureus</i>
 
                                             <li>Narrow scope to resistance in <i>Staphylococcus Aureus</i>
 
+
   
 
                                             </li>
 
                                             </li>
 
                                         </ul>
 
                                         </ul>
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                                                     <div class="row center">
 
                                                     <div class="row center">
 
                                                         <div class="col s15">
 
                                                         <div class="col s15">
 
+
   
 
                                                             <p>Maaike van den Berg showed told us about the current policies on antibiotics and how she as a veterinarian uses the formularies. Also, she gave us insights in her tasks as a veterinarian and how she prescribes antibiotics based on the results of the diagnostic center. Diagnostic centers do pathogen detection and determine the sensitivity for antibiotic resistance subsequently. In two to three days, the results include the pathogens sensitivity for all potential antibiotics. As we only could detect one kind of antibiotic resistance, we decided to scope our detection method on the most common mastitis pathogen, which is <i>Staphylococcus Aureus</i>.
 
                                                             <p>Maaike van den Berg showed told us about the current policies on antibiotics and how she as a veterinarian uses the formularies. Also, she gave us insights in her tasks as a veterinarian and how she prescribes antibiotics based on the results of the diagnostic center. Diagnostic centers do pathogen detection and determine the sensitivity for antibiotic resistance subsequently. In two to three days, the results include the pathogens sensitivity for all potential antibiotics. As we only could detect one kind of antibiotic resistance, we decided to scope our detection method on the most common mastitis pathogen, which is <i>Staphylococcus Aureus</i>.
 
                                                             </p>
 
                                                             </p>
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                                             <div class="center-margin col m6 s12">
 
                                             <div class="center-margin col m6 s12">
 
                                                 <img class="responsive-img" src="https://static.igem.org/mediawiki/2017/a/a1/T--TUDelft--GD.jpeg" alt="GD">
 
                                                 <img class="responsive-img" src="https://static.igem.org/mediawiki/2017/a/a1/T--TUDelft--GD.jpeg" alt="GD">
 
+
   
 
                                             </div>
 
                                             </div>
 
                                         </div>
 
                                         </div>
 
+
   
 
                                         <h5>Insights</h5>
 
                                         <h5>Insights</h5>
 
                                         <ul class="skel browser-default">
 
                                         <ul class="skel browser-default">
 
                                             <li>Annual report on monitoring pathogen sensitivity for antibiotics
 
                                             <li>Annual report on monitoring pathogen sensitivity for antibiotics
 
+
   
 
                                             </li>
 
                                             </li>
 
                                             <li>Trend: rapid decrease of pathogen sensitivity for penicillins
 
                                             <li>Trend: rapid decrease of pathogen sensitivity for penicillins
 
+
   
 
+
   
 
                                             </li>
 
                                             </li>
 
                                             <li>The roles of the farmers, veterinarians and diagnostic centers in this process</li>
 
                                             <li>The roles of the farmers, veterinarians and diagnostic centers in this process</li>
 
+
   
 
                                         </ul>
 
                                         </ul>
 
                                         <h5>Changes</h5>
 
                                         <h5>Changes</h5>
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                                                     <div class="row center">
 
                                                     <div class="row center">
 
                                                         <div class="col s15">
 
                                                         <div class="col s15">
 
+
   
 
                                                             <p>After an elaborate conversation with the Lotte Roos from GD, she sent us the annual report on monitoring pathogen sensitivity. This way, we gained insights in the trends considering resistance of mastitis pathogens. The sensitivity for penicillins is rapidly decreasing or there was no sensitivity.
 
                                                             <p>After an elaborate conversation with the Lotte Roos from GD, she sent us the annual report on monitoring pathogen sensitivity. This way, we gained insights in the trends considering resistance of mastitis pathogens. The sensitivity for penicillins is rapidly decreasing or there was no sensitivity.
 
                                                             </p>
 
                                                             </p>
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                                                     <div class="row center">
 
                                                     <div class="row center">
 
                                                         <div class="col s15">
 
                                                         <div class="col s15">
 
+
   
 
                                                             <p>Paul elaborated on the mastitis problem by stating that cows can pass on the (potentially multiresistant bacteria) to their calves, further increasing the spread of antibiotics. Beyond the borders of the Netherlands, milk farmers have bigger challenges with antibiotic resistance. “Resistance transfer is a major challenge beyond the borders as antibiotic remainders can be found in food from cuttle.” In the Netherlands, this seems less of a problem, according to Paul. “We need to be sure that no antibiotics remain in the milk before we can sell the milk”.
 
                                                             <p>Paul elaborated on the mastitis problem by stating that cows can pass on the (potentially multiresistant bacteria) to their calves, further increasing the spread of antibiotics. Beyond the borders of the Netherlands, milk farmers have bigger challenges with antibiotic resistance. “Resistance transfer is a major challenge beyond the borders as antibiotic remainders can be found in food from cuttle.” In the Netherlands, this seems less of a problem, according to Paul. “We need to be sure that no antibiotics remain in the milk before we can sell the milk”.
 
+
   
 
                                                             </p>
 
                                                             </p>
 
                                                             <p>“Since two years we are breeding cows that are healthier and have more resistance against diseases. We treat Mastitis with the antibiotic Ubrolexin in a late stage. In this stage the udder looks red and infected”. Paul is able to check himself whether or not the cow has mastitis in early stage. “If the cow has mastitis, the milk texture is different. In this early stage, Ice Mint, a treatment salve, can do the trick and cure the infection”. Paul told us about new techniques in the market, like the milk robots that detect the potential of mastitis. “Measurement on the milk conduction can predict whether or not a cow is infected with mastitis”. </p>
 
                                                             <p>“Since two years we are breeding cows that are healthier and have more resistance against diseases. We treat Mastitis with the antibiotic Ubrolexin in a late stage. In this stage the udder looks red and infected”. Paul is able to check himself whether or not the cow has mastitis in early stage. “If the cow has mastitis, the milk texture is different. In this early stage, Ice Mint, a treatment salve, can do the trick and cure the infection”. Paul told us about new techniques in the market, like the milk robots that detect the potential of mastitis. “Measurement on the milk conduction can predict whether or not a cow is infected with mastitis”. </p>
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                                                     <div class="row center">
 
                                                     <div class="row center">
 
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                                                         <div class="col s15">
 
+
   
 
                                                             <p>During this interview, we gained knowledge on current methods to identify pathogens and determine the sensitivity of these pathogens. These detailed methods will be necessary to follow trends and to validate current treatment and diagnosis. Furthermore, mastitis can be caused by different pathogens and it hard to identify which pathogen cause the disease and subsequently, identify which resistance genes this pathogen has. The milk robots are the new technologies in the field to detect and count cells in the cow's milk. The amount of cells (>25.000) is an indication for mastitis. </p>
 
                                                             <p>During this interview, we gained knowledge on current methods to identify pathogens and determine the sensitivity of these pathogens. These detailed methods will be necessary to follow trends and to validate current treatment and diagnosis. Furthermore, mastitis can be caused by different pathogens and it hard to identify which pathogen cause the disease and subsequently, identify which resistance genes this pathogen has. The milk robots are the new technologies in the field to detect and count cells in the cow's milk. The amount of cells (>25.000) is an indication for mastitis. </p>
 
                                                         </div>
 
                                                         </div>
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                                                     <div class="row center">
 
                                                     <div class="row center">
 
                                                         <div class="col s15">
 
                                                         <div class="col s15">
 
+
   
 
                                                             <p>For antibiotic detection, most research is currently focused on real time PCR with specific probes that anneal to the antibiotic resistance genes. This method is comparable to our method, as specific primers are required per resistance. We decided to try out the Milk DNA Isolation Kit to be able to compare our boiling method with a commercially available isolation method.
 
                                                             <p>For antibiotic detection, most research is currently focused on real time PCR with specific probes that anneal to the antibiotic resistance genes. This method is comparable to our method, as specific primers are required per resistance. We decided to try out the Milk DNA Isolation Kit to be able to compare our boiling method with a commercially available isolation method.
 
                                                             </p>
 
                                                             </p>
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                                         <h5>Function</h5>
 
                                         <h5>Function</h5>
 
                                         <p>Agricultural researcher at Wageningen Bioveterinary Research, expertises: animal illness, diagnostische techniques, infectious diseases
 
                                         <p>Agricultural researcher at Wageningen Bioveterinary Research, expertises: animal illness, diagnostische techniques, infectious diseases
 
+
   
 
                                         </p>
 
                                         </p>
 
                                         <h5>Insights</h5>
 
                                         <h5>Insights</h5>
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                                             </li>
 
                                             </li>
 
                                             <li>SSC-MEC, mecA is relevant for the multi resistance of MRSA beyond the scope of mastitis
 
                                             <li>SSC-MEC, mecA is relevant for the multi resistance of MRSA beyond the scope of mastitis
 
+
   
 
                                             </li>
 
                                             </li>
 
                                             <li>Relevance of RNA detection to show expression
 
                                             <li>Relevance of RNA detection to show expression
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                                                     <div class="row center">
 
                                                     <div class="row center">
 
                                                         <div class="col s15">
 
                                                         <div class="col s15">
 
+
   
 
                                                             <p>Dik and Fimme do research on the development of diagnostic tools for pathogen resistance detection in the bioveterinary field. In S. aureus, blaZ is relevant when looking into the β-lactamases. Other β-lactamases are not relevant enough. BlaZ produces small-spectrum penicillinases. This means that benzylpenicillin, ampicillin and amoxicillin antibiotics, common first and second choice antibiotics that are empirically used by the farmer to treat mastitis, can not be used is blaZ is detected. Rapid detection of this gene could prevent the misuse of penicillins by the farmer and gives reason to directly prescribe other treatments. From the policy perspective, the presence of blaZ has a lot of impact.
 
                                                             <p>Dik and Fimme do research on the development of diagnostic tools for pathogen resistance detection in the bioveterinary field. In S. aureus, blaZ is relevant when looking into the β-lactamases. Other β-lactamases are not relevant enough. BlaZ produces small-spectrum penicillinases. This means that benzylpenicillin, ampicillin and amoxicillin antibiotics, common first and second choice antibiotics that are empirically used by the farmer to treat mastitis, can not be used is blaZ is detected. Rapid detection of this gene could prevent the misuse of penicillins by the farmer and gives reason to directly prescribe other treatments. From the policy perspective, the presence of blaZ has a lot of impact.
 
                                                             </p>
 
                                                             </p>
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                                             <div class="center-margin col m12 s12">
 
                                             <div class="center-margin col m12 s12">
 
                                                 <img class="responsive-img" src="https://static.igem.org/mediawiki/2017/d/de/T--TUDelft--4TU.png" alt="4TU">
 
                                                 <img class="responsive-img" src="https://static.igem.org/mediawiki/2017/d/de/T--TUDelft--4TU.png" alt="4TU">
 
+
   
 
                                             </div>
 
                                             </div>
 
                                         </div>
 
                                         </div>
 
+
   
 
                                         <h5>Insights</h5>
 
                                         <h5>Insights</h5>
 
                                         <ul class="skel browser-default">
 
                                         <ul class="skel browser-default">
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                                             </li>
 
                                             </li>
 
                                             <li>To do’s to achieve a responsible and relevant synthetic biology design </li>
 
                                             <li>To do’s to achieve a responsible and relevant synthetic biology design </li>
 
+
   
 
                                         </ul>
 
                                         </ul>
 
                                         <h5>Changes</h5>
 
                                         <h5>Changes</h5>
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                                                                 <li>The broad range of applications of TDPs</li>
 
                                                                 <li>The broad range of applications of TDPs</li>
 
                                                             </ul>
 
                                                             </ul>
 
+
   
 
                                                             <p>Things that were considered as relevant are listed below:</p>
 
                                                             <p>Things that were considered as relevant are listed below:</p>
 
                                                             <ul class="skel browser-default">
 
                                                             <ul class="skel browser-default">
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                                                     <div class="row center">
 
                                                     <div class="row center">
 
                                                         <div class="col s15">
 
                                                         <div class="col s15">
 
+
   
 
                                                             <p>The goal of the workshop had two sides. For iGEM, this workshop will be a design evaluation/reflection exercise. For the CEE it is important to receive feedback on the Engineering Roles; possibly determining more engineering roles and match specific skills with the roles.
 
                                                             <p>The goal of the workshop had two sides. For iGEM, this workshop will be a design evaluation/reflection exercise. For the CEE it is important to receive feedback on the Engineering Roles; possibly determining more engineering roles and match specific skills with the roles.
 
+
   
 
                                                             </p>
 
                                                             </p>
 
                                                             <p>To conclude, we reflected on our project with the different roles to make sure we did not miss anything. The workshop made us aware of the future challenges considering our project. Due to the reflection we gained insights in which aspects were beyond the scope of the project and we identified aspects that we could still integrate in our project to make our project more relevant and responsible. Thinking from these four different perspectives was really effective. We were able to reflect on the project on different levels.
 
                                                             <p>To conclude, we reflected on our project with the different roles to make sure we did not miss anything. The workshop made us aware of the future challenges considering our project. Due to the reflection we gained insights in which aspects were beyond the scope of the project and we identified aspects that we could still integrate in our project to make our project more relevant and responsible. Thinking from these four different perspectives was really effective. We were able to reflect on the project on different levels.
 
+
   
 
                                                             </p>
 
                                                             </p>
 
                                                         </div>
 
                                                         </div>
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                                         <ul class="skel browser-default">
 
                                         <ul class="skel browser-default">
 
                                             <li>Not too small and not too precise
 
                                             <li>Not too small and not too precise
 
+
   
 
                                             </li>
 
                                             </li>
 
                                             <li>Click system with different parts </li>
 
                                             <li>Click system with different parts </li>
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                                             <li>Closed system</li>
 
                                             <li>Closed system</li>
 
                                         </ul>
 
                                         </ul>
 
+
   
 
                                     </div>
 
                                     </div>
 
                                 </div>
 
                                 </div>
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                                         <h4>Medical Delta</h4>
 
                                         <h4>Medical Delta</h4>
 
                                         <!--image logo -->
 
                                         <!--image logo -->
 
+
   
 
                                         <p>The Medical Delta Café is an event that brings together innovators from the Life Sciences and Health &amp; Technology sectors. Doctors, researchers and entrepreneurs discuss and present opportunities for research cooperation and our product development. </p>
 
                                         <p>The Medical Delta Café is an event that brings together innovators from the Life Sciences and Health &amp; Technology sectors. Doctors, researchers and entrepreneurs discuss and present opportunities for research cooperation and our product development. </p>
 
                                         <br>
 
                                         <br>
 
+
   
 
                                     </div>
 
                                     </div>
 
                                 </div>
 
                                 </div>
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                                         <h4>Dutch Biotechnology Conference</h4>
 
                                         <h4>Dutch Biotechnology Conference</h4>
 
                                         <!--image logo -->
 
                                         <!--image logo -->
 
+
   
 
                                         <p>iGEM TU Delft attended the Dutch Biotechnology Conference, organised by the Dutch Biotechnology Association (NBV). The NBV is an association for all professionals in the field of Applied Life Sciences, a valuable network with over 1000 members from different disciplines, from the business sector to education. We gained feedback on our project helping us to shape our project.</p>
 
                                         <p>iGEM TU Delft attended the Dutch Biotechnology Conference, organised by the Dutch Biotechnology Association (NBV). The NBV is an association for all professionals in the field of Applied Life Sciences, a valuable network with over 1000 members from different disciplines, from the business sector to education. We gained feedback on our project helping us to shape our project.</p>
 
                                         <br>
 
                                         <br>
 
+
   
 
                                     </div>
 
                                     </div>
 
                                 </div>
 
                                 </div>
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                                         <h4>Dutch Biotechnology Conference </h4>
 
                                         <h4>Dutch Biotechnology Conference </h4>
 
                                         <!--image logo -->
 
                                         <!--image logo -->
 
+
   
 
                                         <p>iGEM TU Delft attended the Dutch Biotechnology Conference, organised by the Dutch Biotechnology Association (NBV). The NBV is an association for all professionals in the field of Applied Life Sciences, a valuable network with over 1000 members from different disciplines, from the business sector to education. We gained feedback on our project helping us to shape our project.
 
                                         <p>iGEM TU Delft attended the Dutch Biotechnology Conference, organised by the Dutch Biotechnology Association (NBV). The NBV is an association for all professionals in the field of Applied Life Sciences, a valuable network with over 1000 members from different disciplines, from the business sector to education. We gained feedback on our project helping us to shape our project.
 
                                         </p>
 
                                         </p>
 
+
   
 
                                     </div>
 
                                     </div>
 
                                 </div>
 
                                 </div>
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                                         <h4>Knowledge Parade: National Institute of Public Health and the Environment </h4>
 
                                         <h4>Knowledge Parade: National Institute of Public Health and the Environment </h4>
 
                                         <!--image logo -->
 
                                         <!--image logo -->
 
+
   
 
                                         <p>During the knowledge parade, we met some farmers and doctors. Here, we gained more insights in the needs and the challenges in the field, like the demand for resistance detection for specific genes in the intensive care.
 
                                         <p>During the knowledge parade, we met some farmers and doctors. Here, we gained more insights in the needs and the challenges in the field, like the demand for resistance detection for specific genes in the intensive care.
 
                                         </p>
 
                                         </p>
 
+
   
 
                                     </div>
 
                                     </div>
 
                                 </div>
 
                                 </div>
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                                         <h4>Doctors</h4>
 
                                         <h4>Doctors</h4>
 
                                         <p>Investigating the needs in antibiotics field, we visited our general practitioners. They confirmed that there is a demand for diagnostic tools that reveal antibiotic resistance. Doctors seem to face challenges considering viral or bacterial infections, the identification of the pathogen causing the infection, resistance detection and the susceptibility to existing drugs.</p>
 
                                         <p>Investigating the needs in antibiotics field, we visited our general practitioners. They confirmed that there is a demand for diagnostic tools that reveal antibiotic resistance. Doctors seem to face challenges considering viral or bacterial infections, the identification of the pathogen causing the infection, resistance detection and the susceptibility to existing drugs.</p>
 
+
   
 
                                     </div>
 
                                     </div>
 
                                 </div>
 
                                 </div>
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                                             <br><br>See our <a href=https://2017.igem.org/Team:TUDelft/Applied_Design target="_blank">applied design page</a>.
 
                                             <br><br>See our <a href=https://2017.igem.org/Team:TUDelft/Applied_Design target="_blank">applied design page</a>.
 
                                         </p>
 
                                         </p>
 
+
   
 
                                     </div>
 
                                     </div>
 
                                 </div>
 
                                 </div>
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                                 <source src="https://static.igem.org/mediawiki/2017/4/43/T--TUDelft--2017_Validation_Video.mp4" type="video/mp4">
 
                                 <source src="https://static.igem.org/mediawiki/2017/4/43/T--TUDelft--2017_Validation_Video.mp4" type="video/mp4">
 
                             </video>
 
                             </video>
 
+
   
 
+
   
 
                                     </div>
 
                                     </div>
 
                                 </div>
 
                                 </div>
 
+
   
 
+
   
 
                             </div>
 
                             </div>
 
                         </div>
 
                         </div>
 
                     </div>
 
                     </div>
                    </li>
+
                </div>
            </ul>
+
                 </li>
            <div class="col m1"></div>
+
         </ul>
 
+
 
+
            <h3>Integration in our project </h3>
+
 
+
            <p>There were several interactions with stakeholders that heavily impacted the direction of our design. Integrated Human Practices was extremely valuable in shaping our project. In response to dialogues with the public, risk assessors, and potential users, we changed our design from a GMO-based lab tool to a <i>safe</i> and <i>reliable</i> end product. Key points that we took from discussions with stakeholders were that the method needs to combine a <i>simplified sample preparation</i>, a <i>fast, easy readout</i> and the possibility for on-site use. We integrated all these in our project, by designing a cell-free method that can be stored for up to two weeks and produces a visible readout.
+
            </p>
+
            <p>We started by finding a relevant case in which our device could make a contribution. Through a conversation with a veterinarian, we were advised to narrow our scope to mastitis, an udder infection affecting dairy cows.
+
            </p>
+
 
+
            <blockquote>Every milk farmer faces mastitis, a challenging udder disease affecting dairy cows.<cite>Bouwe Gall Frank (veterinarian)</cite></blockquote>
+
 
+
            <p>This infection is not easy to get rid of; udders are exposed to the open environment, making the infection a common re-occurrence. All dairy farmers we spoke to in the Netherlands have had to deal with mastitis. Farmers want to have fast administration of antibiotics when treating this disease, as time is of the essence. Our tool makes sure that fast treatment of mastitis can be done in a responsible way, without misusing antibiotics, thereby helping to prevent the evolution of antibiotic resistant bacteria. Looking to mastitis, we adapted our tool to detect relevant resistance genes in the common pathogen, Staphylococcus Aureus (MRSA), causing this disease.
+
            </p>
+
 
+
            <blockquote>It is relevant to be able to detect MRSA pathogens. As there is a huge difference in sensitivity for antibiotics considering MRSA, it would be added value to have a conclusive result on the sensitivity.<cite>Maaike van den Berg (veterinarian)</cite></blockquote>
+
 
+
            <p>
+
                 After talking to experts with expertise in Mastitis from the Wageningen Bioveterinary Research Center in Lelystad, we found that detecting the mecA and blaZ genes was the way to go.
+
            </p>
+
 
+
            <blockquote>MecA can be used to detect resistance against all β-lactam antibiotics.<cite>Fimme van der Wal (agricultural researcher)</cite></blockquote>
+
 
+
            <blockquote>Detection of blaZ is a conclusive result to exclude commonly used penicillin treatment.<cite>Dik Mevius (agricultural researcher)</cite></blockquote>
+
 
+
            <p>For further information about these genes check out our <a href="https://2017.igem.org/Team:TUDelft/Applied_Design" target="_blank">applied design</a> and <a href="https://2017.igem.org/Team:TUDelft/Demonstrate" target="_blank">demonstrate page</a>.
+
            </p>
+
 
+
            <p>After defining our end-users and detection goal, we looked at how we could make our device as user-friendly as possible. From the start of our project, we wanted to integrate the use of tardigrade intrinsically disordered proteins (TDPs) which are able to maintain the functionality of other proteins upon desiccation. This fitted perfectly in our design with respect to our end-users, as our TDPs enable the transportation and storage of our detection tool at room temperature. Normally, protein function can be maintained when stored at -80 degrees celsius, something that is not always available at your local dairy farm! We also envisioned that this improved storage method will be advantageous for shipping our versatile RNA-detection tool for broader applications. For further information on our TDPs, check out our <a href="https://2017.igem.org/Team:TUDelft/Design#TDP" target="_blank">TDP design page</a>.
+
            </p>
+
 
+
            <p>Adding to the storability, we realised that our tool needed to give a readout visible to the naked eye. At a farm, there are no fancy lasers or microscopes, so we had to get creative! We started by designing a microfluidics paper chip with GMOs with a kill switch to detect resistance genes, but gained crucial feedback on this.</p>
+
 
+
            <blockquote>Even <b>if</b> GMO kill switches were reliable, there is no public acceptance to use GMOs in the environment. <b>If</b> it will be accepted in the future, it will take years from now to legislate this principle. Innovation based on this gets stuck.<cite>Cecile van der Vlugt (Risk Assessor GMO)</cite></blockquote>
+
 
+
            <p>This led us to come up with a <b>new application: CINDY-Seq</b>. This method allows for a simple yes or no answer to the question: is the pathogen causing mastitis in my cow resistant to penicillins, or even all β-lactamases depending on the design of Cas13a, in a matter of hours, without the use of GMOs in the environment. For more information on how CINDY-Seq works, please visit our <a href="https://2017.igem.org/Team:TUDelft/Design#coacervation" target="_blank">coacervation design page</a>.</p>
+
 
+
            <p>Now that we completed the design of our detection tool, we needed to look at how we could make the sample preparation as simple as possible for a farmer, as farmers like to do most things themselves.</p>
+
 
+
            <blockquote>We try to do most things by ourselves to prevent high bills from the veterinarian.<cite>Tjerkje Poppinga (dairy farmer)</cite></blockquote>
+
 
+
            <p>In the case of mastitis, the pathogen is present in the milk of the infected cow. By hitting the books and optimising existing protocols, we came up with an easy method to prepare a fresh milk sample for the detection tool. To know more about which methods we came up with, look at our <a href="https://2017.igem.org/Team:TUDelft/Design#sampleprep" target="_blank">sample prep design page</a> where we describe this extensively.</p>
+
 
+
            <p>Finally, our integrated human practices strategy helped us to think a step further about our design, regarding, for example, the costs involved in our device and what it should actually look like; what kind of ‘kit’ will it be and what will it contain? We also looked at the feasibility of our device in the context of whether or not farmers would actually be allowed to <i>use</i> such a device and what needs to be done considering legislation to make this possible.</p>
+
 
+
            <blockquote>Only veterinarians can prescribe or change antibiotic treatments.<cite>Engeline van Duijkeren (veterinarian)</cite></blockquote>
+
            <p>Stakeholder interactions shaped our final design and made it feasible to transform our detection method into an application, resulting in a toolbox with which the farmers can perform the resistance test themselves on-site, instead of being dependent on slow lab processes. Simple, cheap and safe methods - for example the hand-powered centrifuge and boiling method during sample preparation, together with an optimized readout - make our device applicable for rapid frontline diagnostics. We developed our toolbox to detect the most relevant multiple antibiotic resistance genes, expanding the impact of our product to achieve better animal and human treatment strategies, see our <a href="https://2017.igem.org/Team:TUDelft/Applied_Design" target="_blank">applied design page</a> for more info!</p>
+
 
+
         </div>
+
 
         <div class="col m1"></div>
 
         <div class="col m1"></div>
</main>
+
   
</html>
+
   
 +
        <h3>Integration in our project </h3>
 +
   
 +
        <p>There were several interactions with stakeholders that heavily impacted the direction of our design. Integrated Human Practices was extremely valuable in shaping our project. In response to dialogues with the public, risk assessors, and potential users, we changed our design from a GMO-based lab tool to a <i>safe</i> and <i>reliable</i> end product. Key points that we took from discussions with stakeholders were that the method needs to combine a <i>simplified sample preparation</i>, a <i>fast, easy readout</i> and the possibility for on-site use. We integrated all these in our project, by designing a cell-free method that can be stored for up to two weeks and produces a visible readout.
 +
        </p>
 +
        <p>We started by finding a relevant case in which our device could make a contribution. Through a conversation with a veterinarian, we were advised to narrow our scope to mastitis, an udder infection affecting dairy cows.
 +
        </p>
 +
   
 +
        <blockquote>Every milk farmer faces mastitis, a challenging udder disease affecting dairy cows.<cite>Bouwe Gall Frank (veterinarian)</cite></blockquote>
 +
   
 +
        <p>This infection is not easy to get rid of; udders are exposed to the open environment, making the infection a common re-occurrence. All dairy farmers we spoke to in the Netherlands have had to deal with mastitis. Farmers want to have fast administration of antibiotics when treating this disease, as time is of the essence. Our tool makes sure that fast treatment of mastitis can be done in a responsible way, without misusing antibiotics, thereby helping to prevent the evolution of antibiotic resistant bacteria. Looking to mastitis, we adapted our tool to detect relevant resistance genes in the common pathogen, Staphylococcus Aureus (MRSA), causing this disease.
 +
        </p>
 +
   
 +
        <blockquote>It is relevant to be able to detect MRSA pathogens. As there is a huge difference in sensitivity for antibiotics considering MRSA, it would be added value to have a conclusive result on the sensitivity.<cite>Maaike van den Berg (veterinarian)</cite></blockquote>
 +
   
 +
        <p>
 +
            After talking to experts with expertise in Mastitis from the Wageningen Bioveterinary Research Center in Lelystad, we found that detecting the mecA and blaZ genes was the way to go.
 +
        </p>
 +
   
 +
        <blockquote>MecA can be used to detect resistance against all β-lactam antibiotics.<cite>Fimme van der Wal (agricultural researcher)</cite></blockquote>
 +
   
 +
        <blockquote>Detection of blaZ is a conclusive result to exclude commonly used penicillin treatment.<cite>Dik Mevius (agricultural researcher)</cite></blockquote>
 +
   
 +
        <p>For further information about these genes check out our <a href="https://2017.igem.org/Team:TUDelft/Applied_Design" target="_blank">applied design</a> and <a href="https://2017.igem.org/Team:TUDelft/Demonstrate" target="_blank">demonstrate page</a>.
 +
        </p>
 +
   
 +
        <p>After defining our end-users and detection goal, we looked at how we could make our device as user-friendly as possible. From the start of our project, we wanted to integrate the use of tardigrade intrinsically disordered proteins (TDPs) which are able to maintain the functionality of other proteins upon desiccation. This fitted perfectly in our design with respect to our end-users, as our TDPs enable the transportation and storage of our detection tool at room temperature. Normally, protein function can be maintained when stored at -80 degrees celsius, something that is not always available at your local dairy farm! We also envisioned that this improved storage method will be advantageous for shipping our versatile RNA-detection tool for broader applications. For further information on our TDPs, check out our <a href="https://2017.igem.org/Team:TUDelft/Design#TDP" target="_blank">TDP design page</a>.
 +
        </p>
 +
   
 +
        <p>Adding to the storability, we realised that our tool needed to give a readout visible to the naked eye. At a farm, there are no fancy lasers or microscopes, so we had to get creative! We started by designing a microfluidics paper chip with GMOs with a kill switch to detect resistance genes, but gained crucial feedback on this.</p>
 +
   
 +
        <blockquote>Even <b>if</b> GMO kill switches were reliable, there is no public acceptance to use GMOs in the environment. <b>If</b> it will be accepted in the future, it will take years from now to legislate this principle. Innovation based on this gets stuck.<cite>Cecile van der Vlugt (Risk Assessor GMO)</cite></blockquote>
 +
   
 +
        <p>This led us to come up with a <b>new application: CINDY-Seq</b>. This method allows for a simple yes or no answer to the question: is the pathogen causing mastitis in my cow resistant to penicillins, or even all β-lactamases depending on the design of Cas13a, in a matter of hours, without the use of GMOs in the environment. For more information on how CINDY-Seq works, please visit our <a href="https://2017.igem.org/Team:TUDelft/Design#coacervation" target="_blank">coacervation design page</a>.</p>
 +
   
 +
        <p>Now that we completed the design of our detection tool, we needed to look at how we could make the sample preparation as simple as possible for a farmer, as farmers like to do most things themselves.</p>
 +
   
 +
        <blockquote>We try to do most things by ourselves to prevent high bills from the veterinarian.<cite>Tjerkje Poppinga (dairy farmer)</cite></blockquote>
 +
   
 +
        <p>In the case of mastitis, the pathogen is present in the milk of the infected cow. By hitting the books and optimising existing protocols, we came up with an easy method to prepare a fresh milk sample for the detection tool. To know more about which methods we came up with, look at our <a href="https://2017.igem.org/Team:TUDelft/Design#sampleprep" target="_blank">sample prep design page</a> where we describe this extensively.</p>
 +
   
 +
        <p>Finally, our integrated human practices strategy helped us to think a step further about our design, regarding, for example, the costs involved in our device and what it should actually look like; what kind of ‘kit’ will it be and what will it contain? We also looked at the feasibility of our device in the context of whether or not farmers would actually be allowed to <i>use</i> such a device and what needs to be done considering legislation to make this possible.</p>
 +
   
 +
        <blockquote>Only veterinarians can prescribe or change antibiotic treatments.<cite>Engeline van Duijkeren (veterinarian)</cite></blockquote>
 +
        <p>Stakeholder interactions shaped our final design and made it feasible to transform our detection method into an application, resulting in a toolbox with which the farmers can perform the resistance test themselves on-site, instead of being dependent on slow lab processes. Simple, cheap and safe methods - for example the hand-powered centrifuge and boiling method during sample preparation, together with an optimized readout - make our device applicable for rapid frontline diagnostics. We developed our toolbox to detect the most relevant multiple antibiotic resistance genes, expanding the impact of our product to achieve better animal and human treatment strategies, see our <a href="https://2017.igem.org/Team:TUDelft/Applied_Design" target="_blank">applied design page</a> for more info!</p>
 +
   
 +
    </div>
 +
    <div class="col m1"></div>
 +
    </main>
 +
    </html>

Revision as of 01:17, 1 November 2017

Integrated Human Practices

Because our project was focused on tackling a problem extremely relevant to our society, it was essential that we looked at the impact our project would have and how we could adapt our design according to the acquired information from stakeholder dialogues. Only then would our project have the desired value to be able to contribute to the issue of antibiotic resistance. Developing a detection method in the lab is one challenge, but developing a detection method that could be used in the real world is another, more complex, challenge. The complexity of the challenge in the antibiotic field made it hard to find the niche in which we could apply and validate our detection method. By meeting with experts and stakeholders, we were able to shape our design to fit everyone's wishes as best possible, and make our design relevant and responsible. The timeline of our integrated human practices process is illustrated to give an impression on how our project evolved over time due to interviews with stakeholders, and those we collaborated with.

For example, we collaborated with farmer Paul Oosthoek and did experiments on his cow’s milk samples. Additionally, we performed experiments with the isolates gained from the experts Dik Mevius and Fimme van der Wal. Also, veterinarians gave us insights in their documents to gain more knowledge about the treatment procedures. Also, multiple stakeholders participated in our project How can iGEM teams best include Relevance and Responsibility in their Design?

In the last section, we summarise the most crucial insights and how stakeholders interactions lead to impressive changes in our experiments and design.

Project Timeline

In this timeline, we take you on a journey through the evolution of our design. In this tree-like interactive element on this page, you can hover over different icons, that depict important developments in the project. Each icon will fold-out to show the insights and changes we gained together with further relevant information about people/institutions involved. Additionally, our timeline is featured in the second video of our video project!

  • Our interactive timeline

Integration in our project

There were several interactions with stakeholders that heavily impacted the direction of our design. Integrated Human Practices was extremely valuable in shaping our project. In response to dialogues with the public, risk assessors, and potential users, we changed our design from a GMO-based lab tool to a safe and reliable end product. Key points that we took from discussions with stakeholders were that the method needs to combine a simplified sample preparation, a fast, easy readout and the possibility for on-site use. We integrated all these in our project, by designing a cell-free method that can be stored for up to two weeks and produces a visible readout.

We started by finding a relevant case in which our device could make a contribution. Through a conversation with a veterinarian, we were advised to narrow our scope to mastitis, an udder infection affecting dairy cows.

Every milk farmer faces mastitis, a challenging udder disease affecting dairy cows.Bouwe Gall Frank (veterinarian)

This infection is not easy to get rid of; udders are exposed to the open environment, making the infection a common re-occurrence. All dairy farmers we spoke to in the Netherlands have had to deal with mastitis. Farmers want to have fast administration of antibiotics when treating this disease, as time is of the essence. Our tool makes sure that fast treatment of mastitis can be done in a responsible way, without misusing antibiotics, thereby helping to prevent the evolution of antibiotic resistant bacteria. Looking to mastitis, we adapted our tool to detect relevant resistance genes in the common pathogen, Staphylococcus Aureus (MRSA), causing this disease.

It is relevant to be able to detect MRSA pathogens. As there is a huge difference in sensitivity for antibiotics considering MRSA, it would be added value to have a conclusive result on the sensitivity.Maaike van den Berg (veterinarian)

After talking to experts with expertise in Mastitis from the Wageningen Bioveterinary Research Center in Lelystad, we found that detecting the mecA and blaZ genes was the way to go.

MecA can be used to detect resistance against all β-lactam antibiotics.Fimme van der Wal (agricultural researcher)
Detection of blaZ is a conclusive result to exclude commonly used penicillin treatment.Dik Mevius (agricultural researcher)

For further information about these genes check out our applied design and demonstrate page.

After defining our end-users and detection goal, we looked at how we could make our device as user-friendly as possible. From the start of our project, we wanted to integrate the use of tardigrade intrinsically disordered proteins (TDPs) which are able to maintain the functionality of other proteins upon desiccation. This fitted perfectly in our design with respect to our end-users, as our TDPs enable the transportation and storage of our detection tool at room temperature. Normally, protein function can be maintained when stored at -80 degrees celsius, something that is not always available at your local dairy farm! We also envisioned that this improved storage method will be advantageous for shipping our versatile RNA-detection tool for broader applications. For further information on our TDPs, check out our TDP design page.

Adding to the storability, we realised that our tool needed to give a readout visible to the naked eye. At a farm, there are no fancy lasers or microscopes, so we had to get creative! We started by designing a microfluidics paper chip with GMOs with a kill switch to detect resistance genes, but gained crucial feedback on this.

Even if GMO kill switches were reliable, there is no public acceptance to use GMOs in the environment. If it will be accepted in the future, it will take years from now to legislate this principle. Innovation based on this gets stuck.Cecile van der Vlugt (Risk Assessor GMO)

This led us to come up with a new application: CINDY-Seq. This method allows for a simple yes or no answer to the question: is the pathogen causing mastitis in my cow resistant to penicillins, or even all β-lactamases depending on the design of Cas13a, in a matter of hours, without the use of GMOs in the environment. For more information on how CINDY-Seq works, please visit our coacervation design page.

Now that we completed the design of our detection tool, we needed to look at how we could make the sample preparation as simple as possible for a farmer, as farmers like to do most things themselves.

We try to do most things by ourselves to prevent high bills from the veterinarian.Tjerkje Poppinga (dairy farmer)

In the case of mastitis, the pathogen is present in the milk of the infected cow. By hitting the books and optimising existing protocols, we came up with an easy method to prepare a fresh milk sample for the detection tool. To know more about which methods we came up with, look at our sample prep design page where we describe this extensively.

Finally, our integrated human practices strategy helped us to think a step further about our design, regarding, for example, the costs involved in our device and what it should actually look like; what kind of ‘kit’ will it be and what will it contain? We also looked at the feasibility of our device in the context of whether or not farmers would actually be allowed to use such a device and what needs to be done considering legislation to make this possible.

Only veterinarians can prescribe or change antibiotic treatments.Engeline van Duijkeren (veterinarian)

Stakeholder interactions shaped our final design and made it feasible to transform our detection method into an application, resulting in a toolbox with which the farmers can perform the resistance test themselves on-site, instead of being dependent on slow lab processes. Simple, cheap and safe methods - for example the hand-powered centrifuge and boiling method during sample preparation, together with an optimized readout - make our device applicable for rapid frontline diagnostics. We developed our toolbox to detect the most relevant multiple antibiotic resistance genes, expanding the impact of our product to achieve better animal and human treatment strategies, see our applied design page for more info!