The predicted impact of immunosuppression upon population age-intensity profiles for schistosomiasis. Mitchell, K. M., Mutapi, F., & Woolhouse, M. E. J. Parasite immunology, 30(9):462--470, September, 2008.
doi  abstract   bibtex   
The slow development of acquired immunity is thought to be responsible for the characteristic convex age-intensity curve seen in human schistosome infection, which peaks earlier in more heavily infected populations (this is described as a peak shift). Schistosomes are able to suppress protective host responses, and it is hypothesized that this suppression is responsible for the delayed development of protective responses. A deterministic mathematical model is used to describe levels of infection and immunity in an endemic population, incorporating protective immune responses which either reduce adult worm burden or reduce superinfection. Suppression, related to current worm burden, is also included and acts against one or both protective responses. If suppression acts against the entire protective response, it is able to delay the development of protective immunity, and the peak shift is predicted to be reversed at higher infection intensities, with removal of the peaks altogether at the highest levels of infection and/or suppression. If only the anti-adult worm protective immune response is vulnerable to suppression, while the anti-reinfection response remains intact, then suppression does not remove the peak in the age-intensity curve. These findings are discussed in the light of existing field and experimental data.
@article{mitchell_predicted_2008,
	title = {The predicted impact of immunosuppression upon population age-intensity profiles  for schistosomiasis.},
	volume = {30},
	issn = {1365-3024 0141-9838},
	doi = {10.1111/j.1365-3024.2008.01043.x},
	abstract = {The slow development of acquired immunity is thought to be responsible for the characteristic convex age-intensity curve seen in human schistosome infection, which peaks earlier in more heavily infected populations (this is described as a  peak shift). Schistosomes are able to suppress protective host responses, and it  is hypothesized that this suppression is responsible for the delayed development  of protective responses. A deterministic mathematical model is used to describe levels of infection and immunity in an endemic population, incorporating protective immune responses which either reduce adult worm burden or reduce superinfection. Suppression, related to current worm burden, is also included and acts against one or both protective responses. If suppression acts against the entire protective response, it is able to delay the development of protective immunity, and the peak shift is predicted to be reversed at higher infection intensities, with removal of the peaks altogether at the highest levels of infection and/or suppression. If only the anti-adult worm protective immune response is vulnerable to suppression, while the anti-reinfection response remains intact, then suppression does not remove the peak in the age-intensity curve. These findings are discussed in the light of existing field and experimental data.},
	language = {eng},
	number = {9},
	journal = {Parasite immunology},
	author = {Mitchell, K. M. and Mutapi, F. and Woolhouse, M. E. J.},
	month = sep,
	year = {2008},
	pmid = {18522703},
	keywords = {*Immune Tolerance, Age Factors, Animals, Antibodies, Helminth/immunology, Humans, Models, Biological, Schistosoma/*immunology, Schistosomiasis/epidemiology/*immunology},
	pages = {462--470}
}
Downloads: 0
About
Documentation
Keywords
Search
Users
Terms and Conditions of Use
Privacy Policy
Sitemap
© BibBase.org 2021