Difference between revisions of "Team:Uppsala"

 
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                             <h4>Optimization of the Time Between Treatments</h4>
 
                             <h4>Optimization of the Time Between Treatments</h4>
 
                              
 
                              
                         <p>To make sure the unnecessary use of anthelmintics is minimized we have created a model that compares regular and optimized usage of anthelmintics. When referring to the optimized use of anthelmintics, this means that the horse only receives treatment when the amount of parasites exceeds a certain threshold. Our model calculates given the initial amount of worms on the pasture and in the horse. Ideally, the information could be used with the Worm Buster to get a better overall result of our project. Our solution will not only be able to tell how large the treatments should be but also when they should be administered. This would guarantee the lowest amount of anthelmintics usage, and hopefully help combat the issue of growing resistance. Due to this fact, our model constitutes a large improvement on the potential implementation of our project since it directly brings us closer to our ultimate goal, which is the decrease in resistance development and the improved physical health of horses. </p>
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                         <p>To make sure that the unnecessary use of anthelmintics is minimized we have created a model that compares regular and optimized usage of anthelmintics. When referring to the optimized use of anthelmintics, this means that the horse only receives treatment when the amount of parasites exceeds a certain threshold. Our model calculates given the initial amount of worms on the pasture and in the horse. Ideally, the information could be used with the Worm Buster to get a better overall result of our project. Our solution will not only be able to tell how large the treatments should be but also when they should be administered. This would guarantee the lowest amount of anthelmintics usage, and hopefully help combat the issue of growing resistance. Due to this fact, our model constitutes a large improvement on the potential implementation of our project since it directly brings us closer to our ultimate goal, which is the decrease in resistance development and the improved physical health of horses. </p>
  
 
                         <h4>Survey Analysis</h4>
 
                         <h4>Survey Analysis</h4>
                         <p>When we had chosen to create a Worm Buster, we wanted to see if there was a market for this kind of product. To gain knowledge about the market we conducted a market analysis together with the human practices group. The modeling group worked with creating a analysis program that could use the information from the market analysis and see if correlations could be found between different variables.</p>
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                         <p>When we had chosen to create a Worm Buster, we wanted to see if there was a market for this kind of product. To gain knowledge about the market we conducted a market analysis together with the human practices group. The modeling group worked with creating a program that could use the information from the market analysis and see if correlations could be found between different variables.</p>
  
  
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                             <div class="side-text">
 
                             <div class="side-text">
 
                                 <!-- Here you put your paragraphs -->  
 
                                 <!-- Here you put your paragraphs -->  
                                 <p>The small strongyles’ larger cousin, Strongylus Vulgaris, is the most pathogenic parasite in horses, posing a significant threat[2]. They, like small strongyles, live in the grass and and infect the horse after being ingested [3]. During the different larval stages inside the horse, the parasite enters the intestinal blood vessels as a part of their life cycle [4,10]. Because of this, they generally can’t be targeted by deworming drugs or detection methods and can cause major problems for domestic animals [7]. <br><br>
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                                 <p>The small strongyles’ larger cousin, <i>Strongylus Vulgaris</i>, is the most pathogenic parasite in horses, posing a significant threat [2]. They, like small strongyles, live in the grass and infect the horse after being ingested [3]. During the different larval stages inside the horse, the parasite enters the intestinal blood vessels as a part of their life cycle [4,10]. Because of this, they generally can’t be targeted by deworming drugs or detection methods and can cause major problems for domestic animals [7]. <br><br>
  
 
                                 Due to this, an efficient diagnostic tool that can be applied to grass samples is necessary to prevent ingestion of large strongyles. This is why we looked into the possibility of a second Worm Buster targeting large strongyles could be possible for the future.</p>
 
                                 Due to this, an efficient diagnostic tool that can be applied to grass samples is necessary to prevent ingestion of large strongyles. This is why we looked into the possibility of a second Worm Buster targeting large strongyles could be possible for the future.</p>
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                         <h2>Current Methods for Detection</h2>
 
                         <h2>Current Methods for Detection</h2>
                         <p>To be able to count either small or large strongyles, the current methods require growing their eggs from samples and counting them. The disadvantage is that this method only works for adult strongyles that have already laid eggs! This technique only makes it possible to detect strongyles after the infection which is a huge disadvantage! Other methods for detection, such as using an ELISA test or a PCR based method are expensive and require a high level of expertise [11, 12, 16]. <br><br>
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                         <p>To be able to count either small or large strongyles, the current methods require growing their eggs from samples and counting them. The disadvantage is that this method only works for adult strongyles that have already laid eggs! This technique only makes it possible to detect strongyles after the infection which is a huge disadvantage! Other methods for detection, such as using an ELISA test or a PCR based method are expensive and require a high level of expertise [11, 12, 16]. <br><br>
 
                         In conclusion, the current need is a simple detection method which could be applied to grass samples to be able to check if a pasture is secure for horses to graze on. Therefore we have analysed the possibility of developing the second Worm Buster by studying fluorescence in grass samples. Our results were promising since the fluorescence was clearly visible in the grass!</p>
 
                         In conclusion, the current need is a simple detection method which could be applied to grass samples to be able to check if a pasture is secure for horses to graze on. Therefore we have analysed the possibility of developing the second Worm Buster by studying fluorescence in grass samples. Our results were promising since the fluorescence was clearly visible in the grass!</p>
 
                     </div>
 
                     </div>
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                         <h2>Financial perspective</h2>
 
                         <h2>Financial perspective</h2>
  
                         <p>The equine industry includes many areas like stud farms, breeding, slaughter, trading, training and sports stables, and riding schools [18]. In Sweden the equine industry has a turnover of 450-500 million EUR and horses graze around in fields that in total correspond to 600,000 football fields [17]. There are approximately 350 000 horses is Sweden (2016) which gives Sweden a larger horse/person ratio than many other European countries [18, 19]. A large amount of money is spent on horses within and without the borders of the EU, so this is clearly a global problem.<br><br>
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                         <p>The equine industry includes many areas like stud farms, breeding, slaughter, trading, training and sports stables, and riding schools [18]. In Sweden the equine industry has a turnover of 450-500 million EUR and horses graze around in fields that in total correspond to 600,000 football fields [17]. There are approximately 350 000 horses is Sweden (2016) which gives Sweden a larger horse/person ratio than many other European countries [18, 19]. A large amount of money is spent on horses within and without the borders of the EU, so this is clearly a global problem.<br><br>
 
                         Even though all the available data points at a high demand for our product, more data is needed to predict how an eventual new GMO product would be perceived. That is why we have worked on the market analysis and economics modelling. The result from these decides if the eventual solutions actually will be possible to implement in real life.</p>
 
                         Even though all the available data points at a high demand for our product, more data is needed to predict how an eventual new GMO product would be perceived. That is why we have worked on the market analysis and economics modelling. The result from these decides if the eventual solutions actually will be possible to implement in real life.</p>
  

Latest revision as of 20:06, 2 December 2018





Uppsala iGEM 2018