Difference between revisions of "Team:Lethbridge/Safety"

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           <p class="grey-text text-lighten-4">The prevalence of virulent and multiple antibiotic resistant pathogens in healthcare facilities has resulted in ongoing reassessment of best practices to prevent their transmission. However, whether pathogen reservoirs exist in emergency medical services (EMS) vehicles, remains largely unknown. Our iGEM team developed a custom bacterial two hybrid system to select single-domain antibodies (nanobodies) that recognize human pathogens. Informed by our Nanopore next generation sequencing of DNA samples from ambulance vehicles, antibodies targeting important pathogens were then used to develop a rapid and low cost ELISA-based testing kit that may be employed on-site by EMS workers. Our project provides a framework for rapid detection of emergent pathogens and a practical and rapid solution for monitoring their presence in and outside of the healthcare system.</p>
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           <h5 class="thin white-text">From lab kits to soft kits. to </h5>
 
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          <p class="grey-text text-lighten-4">After completing our literature review, members of our team went on ride alongs with EMS to understand their processes better and to further our knowledge on picking the best locations to sample. We had the following objectives in mind during our ride alongs: to understand the daily cleaning techniques of the ambulances, to choose potential sampling locations, and to see first hand the types of calls that can happen in a night.</p>
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          <p class="grey-text text-lighten-4">While speaking to first responders, we learned about what products they currently use to clean the ambulances. They mainly use cleaning wipes, called Caviwipes, to wipe down the ambulance after each call. These wipes are also used during monthly deep cleanings of the ambulances. Deep cleanings involve removing some equipment from the ambulance to get at areas that cannot be cleaned easily during daily cleaning. We also found out that the deep cleans occur when the ambulances are still on call.</p>
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           <p class="grey-text text-lighten-4">During the calls, we looked for potential spots that could be reservoirs for pathogens based on what we saw paramedics and patients touch. Our findings were taken into consideration when narrowing down what locations we would actually sample.</p>
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          <p class="grey-text text-lighten-4">The first hand experiences were also beneficial in understanding what paramedics go through each day. The calls we went on were diverse in their nature. The calls were transferring a patient to another facility, a drug overdose, and a domestic dispute. </p>
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          <p class="grey-text text-lighten-4">Overall, the ride alongs helped us understand what locations would be the best to sample for potential pathogens.</p>
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           <h3 class="thin white-text">Section Two</h3>
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           <p class="grey-text text-lighten-4">The prevalence of virulent and multiple antibiotic resistant pathogens in healthcare facilities has resulted in ongoing reassessment of best practices to prevent their transmission. However, whether pathogen reservoirs exist in emergency medical services (EMS) vehicles, remains largely unknown. Our iGEM team developed a custom bacterial two hybrid system to select single-domain antibodies (nanobodies) that recognize human pathogens. Informed by our Nanopore next generation sequencing of DNA samples from ambulance vehicles, antibodies targeting important pathogens were then used to develop a rapid and low cost ELISA-based testing kit that may be employed on-site by EMS workers. Our project provides a framework for rapid detection of emergent pathogens and a practical and rapid solution for monitoring their presence in and outside of the healthcare system.</p>
 
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          <h3 class="thin white-text">Section 3</h3>
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          <p class="grey-text text-lighten-4">The prevalence of virulent and multiple antibiotic resistant pathogens in healthcare facilities has resulted in ongoing reassessment of best practices to prevent their transmission. However, whether pathogen reservoirs exist in emergency medical services (EMS) vehicles, remains largely unknown. Our iGEM team developed a custom bacterial two hybrid system to select single-domain antibodies (nanobodies) that recognize human pathogens. Informed by our Nanopore next generation sequencing of DNA samples from ambulance vehicles, antibodies targeting important pathogens were then used to develop a rapid and low cost ELISA-based testing kit that may be employed on-site by EMS workers. Our project provides a framework for rapid detection of emergent pathogens and a practical and rapid solution for monitoring their presence in and outside of the healthcare system.</p>
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Revision as of 08:10, 19 October 2016

Lethbridge iGEM 2016

Safety

From lab kits to soft kits. to

Section One

After completing our literature review, members of our team went on ride alongs with EMS to understand their processes better and to further our knowledge on picking the best locations to sample. We had the following objectives in mind during our ride alongs: to understand the daily cleaning techniques of the ambulances, to choose potential sampling locations, and to see first hand the types of calls that can happen in a night.

While speaking to first responders, we learned about what products they currently use to clean the ambulances. They mainly use cleaning wipes, called Caviwipes, to wipe down the ambulance after each call. These wipes are also used during monthly deep cleanings of the ambulances. Deep cleanings involve removing some equipment from the ambulance to get at areas that cannot be cleaned easily during daily cleaning. We also found out that the deep cleans occur when the ambulances are still on call.

During the calls, we looked for potential spots that could be reservoirs for pathogens based on what we saw paramedics and patients touch. Our findings were taken into consideration when narrowing down what locations we would actually sample.

The first hand experiences were also beneficial in understanding what paramedics go through each day. The calls we went on were diverse in their nature. The calls were transferring a patient to another facility, a drug overdose, and a domestic dispute.

Overall, the ride alongs helped us understand what locations would be the best to sample for potential pathogens.

Section Two

The prevalence of virulent and multiple antibiotic resistant pathogens in healthcare facilities has resulted in ongoing reassessment of best practices to prevent their transmission. However, whether pathogen reservoirs exist in emergency medical services (EMS) vehicles, remains largely unknown. Our iGEM team developed a custom bacterial two hybrid system to select single-domain antibodies (nanobodies) that recognize human pathogens. Informed by our Nanopore next generation sequencing of DNA samples from ambulance vehicles, antibodies targeting important pathogens were then used to develop a rapid and low cost ELISA-based testing kit that may be employed on-site by EMS workers. Our project provides a framework for rapid detection of emergent pathogens and a practical and rapid solution for monitoring their presence in and outside of the healthcare system.

Section 3

The prevalence of virulent and multiple antibiotic resistant pathogens in healthcare facilities has resulted in ongoing reassessment of best practices to prevent their transmission. However, whether pathogen reservoirs exist in emergency medical services (EMS) vehicles, remains largely unknown. Our iGEM team developed a custom bacterial two hybrid system to select single-domain antibodies (nanobodies) that recognize human pathogens. Informed by our Nanopore next generation sequencing of DNA samples from ambulance vehicles, antibodies targeting important pathogens were then used to develop a rapid and low cost ELISA-based testing kit that may be employed on-site by EMS workers. Our project provides a framework for rapid detection of emergent pathogens and a practical and rapid solution for monitoring their presence in and outside of the healthcare system.