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Literature DB >> 6520548

Population dynamics of killing parasites which reproduce in the host.

Abstract

For a parasitic infection in human hosts a model is derived from basic assumptions on the population structure of the host, in particular mortality depending on age and parasite load, and on the reproduction and transmission of parasites. The model assumes the form of a system of partial differential equations. The paper contains proofs of local and global existence and existence and uniqueness of nontrivial stationary states, and a discussion of the relation to birth and death processes and other models for parasitic infections.

Entities: Disease Species

Mesh：

Year: 1984 PMID： 6520548 DOI： 10.1007/bf00275222

Source DB: PubMed Journal: J Math Biol ISSN： 0303-6812 Impact factor: 2.259

7 in total

1. Analysis of a model of a vertically transmitted disease.

Authors: S Busenberg; K L Cooke; M A Pozio
Journal: J Math Biol Date: 1983 Impact factor: 2.259

2. Coevolution of hosts and parasites.

Authors: R M Anderson; R M May
Journal: Parasitology Date: 1982-10 Impact factor: 3.234

3. A recovery-relapse epidemic model with spatial diffusion.

Authors: G F Webb
Journal: J Math Biol Date: 1982 Impact factor: 2.259

4. Thresholds and travelling waves for the geographical spread of infection.

Authors: O Diekmann
Journal: J Math Biol Date: 1978-07-27 Impact factor: 2.259

5. Convergence to equilibrium states for a reaction-diffusion system modelling the spatial spread of a class of bacterial and viral diseases.

Authors: V Capasso; L Maddalena
Journal: J Math Biol Date: 1981 Impact factor: 2.259

6. Integral equation models for endemic infectious diseases.

Authors: H W Hethcote; D W Tudor
Journal: J Math Biol Date: 1980-03 Impact factor: 2.259

7. Population biology of infectious diseases: Part II.

Authors: R M May; R M Anderson
Journal: Nature Date: 1979-08-09 Impact factor: 49.962

7 in total

8 in total

Population dynamics of killing parasites which reproduce in the host.

1. Analysis of a model of a vertically transmitted disease.

2. Coevolution of hosts and parasites.

3. A recovery-relapse epidemic model with spatial diffusion.

4. Thresholds and travelling waves for the geographical spread of infection.

5. Convergence to equilibrium states for a reaction-diffusion system modelling the spatial spread of a class of bacterial and viral diseases.

6. Integral equation models for endemic infectious diseases.

7. Population biology of infectious diseases: Part II.

1. Thresholds for macroparasite infections.

2. Kolmogorov's differential equations and positive semigroups on first moment sequence spaces.

3. Patterns in the effects of infectious diseases on population growth.

4. A host-parasite model yielding heterogeneous parasite loads.

5. Predator-prey populations with parasitic infection.

6. A renewal equation with a birth-death process as a model for parasitic infections.

7. Persistent solutions in a model for parasitic infections.

8. The epidemiological models of Karl-Peter Hadeler.