Southern-Summer School on Mathematical Biology

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2014:groups:g2:start [2014/01/31 03:45] – [Assignment] marquitti2014:groups:g2:start [2024/01/09 18:45] (current) – external edit 127.0.0.1
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 Wiki site of the practical exercise of the [[http://www.ictp-saifr.org/?page_id=4634|III Southern-Summer School on Mathematical Biology]]. Wiki site of the practical exercise of the [[http://www.ictp-saifr.org/?page_id=4634|III Southern-Summer School on Mathematical Biology]].
  
-Here you find the exercise assignment and the group's products. +Here you will find the exercise assignment and the group's products. 
  
 If you are a group member login to edit this page, create new pages from it, and upload files. If you are a group member login to edit this page, create new pages from it, and upload files.
 +
 +=== Final Presentation ===
 +
 +{{:2014:groups:g2:presentation-2.pdf| GROUP 2 PRESENTATION}}
  
 ===== Group ===== ===== Group =====
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   * Rodriguez Carrillo, Luisa Fernanda; //National University of Colombia, Mathematics Dept., Colombia//   * Rodriguez Carrillo, Luisa Fernanda; //National University of Colombia, Mathematics Dept., Colombia//
        
 +
 +----
 +
 +=== Assistants ===
 +
 +  * Bruno Pace
 +  * Renato Coutinho
 +
  
 ---- ----
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 {{http://upload.wikimedia.org/wikipedia/commons/f/f3/Sceloporus_occidentalis_08290.JPG?150  |Sceloporus occidentalis}} {{http://upload.wikimedia.org/wikipedia/commons/f/f3/Sceloporus_occidentalis_08290.JPG?150  |Sceloporus occidentalis}}
-The Lyme disease is caused by the bacteria +Lyme disease is caused by the bacteria //Borrelia burgdorferi// and can be transmitted to humans trough the bites of ticks. It is an important public health issue in the US, where it is the most common vector-borne disease.  Other vertebrate hosts can be infected and act as reservoirs.  Host species differ in their **host competence**, which is the ability to sustain the population of ticks.  There is also variation among species in the **reservoir competence**, which is the ability of an infected host to infect a tick.
-//Borrelia burgdorferi// and can be transmitted to humans trough the bites of +
-ticks. It is an important public health issue in US, where it is +
-the most common vector-borne disease.  Other vertebrate hosts can +
-be infected and act as reservoirs.  Host species differ +
-in their **host competence**, which is the ability to +
-sustain the population of ticks.  There is also variation among +
-species in the **reservoir competence**, which is the +
-ability of an infected host to infect a tick.+
  
 {{  http://phil.cdc.gov/PHIL_Images/13170/13170_lores.jpg?180|Borrelia burgdorferi}} {{  http://phil.cdc.gov/PHIL_Images/13170/13170_lores.jpg?180|Borrelia burgdorferi}}
-The lizard //Sceloporus occidentalis// is by far the most competent host of +The lizard //Sceloporus occidentalis// is by far the most competent host of the tick //Ixodes pacificus// in the western US. Nevertheless, the lizard has a very low reservoir competence, as it has highly effective immune defenses against //Borrelia burgdorferi//. Therefore, //S. occidentalis// can act as an important barrier to the transmission of Lyme disease in the region. Oddly enough, an experimental removal of lizards did not increase the tick infection prevalence, nor was there a marked increase in the tick load on alternative hosts ((Andrea Swei, Richard S. Ostfeld, Robert S. Lane, and Cheryl J. Briggs. [[ http://rspb.royalsocietypublishing.org/content/early/2011/02/10/rspb.2010.2402.full.pdf | Impact of the experimental removal of lizards on lyme disease risk]]. Proceedings of the Royal Society B: Biological Sciences, 278(1720):2970–2978, 2011.)).
-the tick //Ixodes pacificus// in the western US. Nevertheless, the +
-lizard has a very low reservoir competence, as it has highly effective +
-immune defenses against //Borrelia burgdorferi//. Therefore, //S. occidentalis// can act as +
-an important barrier to the transmission of Lyme disease in the +
-region. Oddly enough, an experimental removal of lizards did not +
-increase the tick infection prevalence, nor was there a marked increase in the tick +
-load on alternative hosts [1].+
  
 ==== Questions ==== ==== Questions ====
  
-Can a mathematical model for Lyme disease transmission +Can a mathematical model for Lyme disease transmission help understand the experimental result described above?  
-help to understand the experimental result described above?  +What else such a model can predict about:
-What else such a model can predict on:+
  
-  * the infection risk to humans?+  * infection risk to humans?
   * host assemblages and Lyme disease prevalence in humans and reservoirs?   * host assemblages and Lyme disease prevalence in humans and reservoirs?
   * management of reservoir populations to decrease the risk of infection?   * management of reservoir populations to decrease the risk of infection?
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 ==== Reference ==== ==== Reference ====
- 
-  - Andrea Swei, Richard S. Ostfeld, Robert S. Lane, and Cheryl J. Briggs. [[ http://rspb.royalsocietypublishing.org/content/early/2011/02/10/rspb.2010.2402.full.pdf | Impact of the experimental removal of lizards on lyme disease risk]]. Proceedings of the Royal Society B: Biological Sciences, 278(1720):2970–2978, 2011. 
- 
2014/groups/g2/start.1391139931.txt.gz · Last modified: 2024/01/09 18:45 (external edit)