Team:Evry/pop scale

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Revision as of 03:15, 29 October 2013

Iron coli project

Introduction

The Enterobactin production model showed us that our bacteria take too much time to produce enterobactins, which disables the flush strategy.
In response, we changed the strategy, by delivering a gel that would block the bacteria in the jejunum.
This model is thus very similar to the flush treatment model, except for the longer time scale, and the computational method.

Goals

No regulation of the patient's iron absorption
Constant iron flow in the intestine
Homogeneous fluid
The bacterial natural absorption is insignificant compared to the chelation
The patient ingests 20mg of iron per day (Guideline Daily Amounts)

Materials and methods

This model is based on cellular automaton algorithm : both the bacteria and the enterobactins are cellular automaton.

Figure 1 : Influence graph.

La figure 1 représente les influences entre les variables d'état du système.

Figure 2 : Graph of bacteria automaton.

P_growth	Division Probability
P_death	Death probability
age variable	rate of bacteria ageing

La Figure 2 représente l'automate qui modélise la bactérie. Cet automate à deux parties : la production d'enterobactines et la croissance.
The bacteria produces enterobactins. This production is ruled by a activator. Cette activateur est une fonction palier de 0 à 1 avec un seuil K_a fixer grace au modèle du senseur, dont voici l'expression :

Enterobactin chelate iron. For this automoton, we have one rules : One Enterobactin atom can chelate one Iron Ion L'automate est tout de même conditionné par un une probabilité de rencontre :.

Parameters tuning :

Results

Parameter values

Name	Value	Unit	Description	Reference
mu	0.2	s^-1	Iron absorption rate by the body
IronQuantity0	4.5.10^-9	mol^-1	Iron pulse value
S_act	10**-9	m	Duodenum length	[3]
α	0.3	s^-1	Duodenum absorption rate	tuned
σ	0.72	s^-1	Regulation coefficient	tuned

References:

@@ Line 4: / Line 4: @@
 <div id="mainTextcontainer">
-Overview of population scale model
 <h2>Introduction</h2>
 <p>
-Le modèle de production d'enterobactine nous a montré que celles ci prenaient trop de temps à être produite pour stratégie de flush. Les biologistes ont donc changé de méthode qui met à profit un gel qui bloque les bactéries au niveau du jejunum. Nous avons donc décidé de faire un nouveau modèle similaire au modèle du duodenum.
+The <a href="https://2013.igem.org/Team:Evry/ent_prod">Enterobactin production model</a> showed us that our bacteria take too much time to produce enterobactins, which disables the flush strategy.<br/>
+In response, we changed the strategy, by delivering a gel that would block the bacteria in the jejunum.<br/>
+This model is thus very similar to the flush treatment model, except for the longer time scale, and the computational method.
 </p>
-<h2>Observations</h2>
-<p>
-</p>
 <h2>Goals</h2>
@@ Line 37: / Line 31: @@
 <h2>Materials and methods</h2>
 <p>
-This model is based on cellular automaton algorithm. Les bactéries et les Enterobactines sont des automates cellulaires.
+This model is based on cellular automaton algorithm : both the bacteria and the enterobactins are cellular automaton.
 <a id="Fig1"></a>