Resume

Summary chapter 5: static models

3 fois vendu

Établissement
Universiteit Antwerpen (UA)

The documents includes chapter 5 of the course ecology, epidemiology and control of infectious diseases taught by prof. Leirs. The document does not contain the exercises, as these were made in an excel document.

[Montrer plus]

Aperçu 2 sur 6 pages

Voir l'exemple

Publié le 5 janvier 2022
Nombre de pages 6
Écrit en 2021/2022
Type Resume

BMWUAstudent Membre depuis 4 année 72 documents vendus

€2,99

Ajouter au panier

Enregistrer

Garantie de satisfaction à 100%
Disponible immédiatement après paiement
En ligne et en PDF
Tu n'es attaché à rien

CHAPTER 5: STATIC MODELS OF
INFECTION
INTRODUCTION

Dynamic models: SIR models expressed as differential equations; describe changes over time (of proportions of
different population components)

Static models: do not explicitly describes how the things are going to change over time but it describes

- the general properties of a system: what is the state the system is in now
- the properties of the system under certain conditions (may also include an indication of what
will happen over time)

 we’re not going to look at what is happening at each timestep but we rather look at what is the
general condition of the system and would this lead to an increase in the proportion of infections
in the population?
 E.g. models that are expressing the value of R0 (already seen before in chapter 4)

Different types of variables possible in a static model: host abundance, vector abundance, host age, weather
(T, humidity), time (!)  what would happen to any of these factors over time?

EXAMPLE: GROWTH RATE OF PARASITE POPULATIONS FOR MICROPARASITES WITH DIRECT
TRANSMISSION

R0 S . .L
- R0: basic reproductive rate for the parasite (number of secondary infections originating from
one primary infection in a non-infected population)
- β: transmission rate (contact rate x infectiousness), probability that infection is transmitted
- S: population size non-infected hosts
- L: time during which host remains infectious

It doesn’t explicitly say how many individuals that are going to be added to the population which is infectious
over time (you cannot see that immediately time step per step) but you can already see that:

- if the infection can be treated (if L decreases): R0 is decreasing  less transmission in
population
- If there is less contact in the population (if β decreases): R0 is decreasing
- …

, This is a static representation: it tells you what the condition is at this moment and then you can find out what
is going to happen with the infection if all these current conditions remain the same or how changes in the
conditions will change the fade of the infection.  time component is not there in an explicit way!

ZOONOSES: “FORCE OF INFECTION ON HUMANS”

Zoonoses: infection that is transmitted from animals to humans

 cpv
- λ: force of infection (~probability for a human to become infected)
- c: contact rate with the reservoir (animal)
- p: prevalence in the reservoir
- v: probability that infection happens during contact

The larger the reservoir density, the larger the contact rate:

(reservoir population size) Linear relation

We can re-write the constant parameters as one over-all constant, resulting in: the transmission coefficient

 the transmission coefficient tells me what the probability is that during a contact there is going to
be transmission and what the probability is that I’m going to have contact with those N
individuals (probability to come infected as an S individual)

You re-write this as:

Relation between N and p: not always simple

1) no relationship between prevalence and abundance

 Np

Les avantages d'acheter des résumés chez Stuvia:

Qualité garantie par les avis des clients

Les clients de Stuvia ont évalués plus de 700 000 résumés. C'est comme ça que vous savez que vous achetez les meilleurs documents.

L’achat facile et rapide

Vous pouvez payer rapidement avec iDeal, carte de crédit ou Stuvia-crédit pour les résumés. Il n'y a pas d'adhésion nécessaire.

Focus sur l’essentiel

Vos camarades écrivent eux-mêmes les notes d’étude, c’est pourquoi les documents sont toujours fiables et à jour. Cela garantit que vous arrivez rapidement au coeur du matériel.

Foire aux questions

Qu'est-ce que j'obtiens en achetant ce document ?

Vous obtenez un PDF, disponible immédiatement après votre achat. Le document acheté est accessible à tout moment, n'importe où et indéfiniment via votre profil.

Garantie de remboursement : comment ça marche ?

Notre garantie de satisfaction garantit que vous trouverez toujours un document d'étude qui vous convient. Vous remplissez un formulaire et notre équipe du service client s'occupe du reste.

Auprès de qui est-ce que j'achète ce résumé ?

Stuvia est une place de marché. Alors, vous n'achetez donc pas ce document chez nous, mais auprès du vendeur BMWUAstudent. Stuvia facilite les paiements au vendeur.