| scholarly article | Q13442814 |
| P356 | DOI | 10.1017/S003118200007414X |
| P698 | PubMed publication ID | 1454421 |
| P2093 | author name string | R. F. Sturrock | |
| A. E. Butterworth | |||
| A. J. Fulford | |||
| J. H. Ouma | |||
| P2860 | cites work | Processes influencing the distribution of parasite numbers within host populations with special emphasis on parasite-induced host mortalities | Q28279405 |
| The use of mathematical models in the epidemiological study of infectious diseases and in the design of mass immunization programmes | Q36472862 | ||
| Regulation of the prevalence and intensity of schistosomiasis in man: immunology or ecology? | Q39925601 | ||
| Comparison of different chemotherapy strategies against Schistosoma mansoni in Machakos District, Kenya: effects on human infection and morbidity | Q43904275 | ||
| Egg output stability and the epidemiology of Schistosoma haematobium Part II. An analysis of the epidemiology of endemic S. haematobium | Q43960160 | ||
| Density-dependent fecundity in Schistosoma mansoni infections in man. | Q44962167 | ||
| Differences in the rate of hepatosplenomegaly due to Schistosoma mansoni infection between two areas in Machakos District, Kenya | Q46684723 | ||
| Acquired immunity and epidemiology of Schistosoma haematobium. | Q52447698 | ||
| Herd immunity to helminth infection and implications for parasite control. | Q52667950 | ||
| A model of host–parasite relationships | Q52996659 | ||
| Consequences of helminth aggregation for the dynamics of schistosomiasis | Q67362134 | ||
| The relation between the number of parasites/host and host age: population dynamic causes and maximum likelihood estimation | Q68334708 | ||
| Age-related prevalence and intensity of Trichuris trichiura infection in a St. Lucian community | Q68693130 | ||
| The population biology and control of Ascaris lumbricoides in a rural community in Iran | Q70416805 | ||
| Measles in vaccinated communities | Q93712035 | ||
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Kenya | Q114 |
| Schistosoma mansoni | Q2324689 | ||
| modelling biological systems | Q4299308 | ||
| P304 | page(s) | 219-227 | |
| P577 | publication date | 1992-10-01 | |
| P1433 | published in | Parasitology | Q15753259 |
| P1476 | title | On the use of age-intensity data to detect immunity to parasitic infections, with special reference to Schistosoma mansoni in Kenya | |
| P478 | volume | 105 ( Pt 2) |
| Q37373769 | A Bayesian approach to estimate the age-specific prevalence of Schistosoma mansoni and implications for schistosomiasis control |
| Q28280056 | A stochastic model of schistosomiasis immuno-epidemiology |
| Q28475501 | Analysis of complex patterns of human exposure and immunity to Schistosomiasis mansoni: the influence of age, sex, ethnicity and IgE |
| Q36100646 | Atopy is inversely related to schistosome infection intensity: a comparative study in Zimbabwean villages with distinct levels of Schistosoma haematobium infection |
| Q59904490 | Changes in parasite aggregation with age: a discrete infection model |
| Q90248359 | Concomitant Immunity and Worm Senescence May Drive Schistosomiasis Epidemiological Patterns: An Eco-Evolutionary Perspective |
| Q37330975 | Development and evaluation of a Markov model to predict changes in schistosomiasis prevalence in response to praziquantel treatment: a case study of Schistosoma mansoni in Uganda and Mali |
| Q33876836 | Development of antibody isotype responses to Schistosoma mansoni in an immunologically naive immigrant population: influence of infection duration, infection intensity, and host age. |
| Q78402377 | Differences in prevalence, intensity of infection and parasite-specific antibody levels do not predict different age-infection profiles |
| Q34500892 | Differential anti-glycan antibody responses in Schistosoma mansoni-infected children and adults studied by shotgun glycan microarray |
| Q34669709 | Does the early frog catch the worm? Disentangling potential drivers of a parasite age-intensity relationship in tadpoles |
| Q36506153 | Effects of treatment on IgE responses against parasite allergen-like proteins and immunity to reinfection in childhood schistosome and hookworm coinfections |
| Q39385067 | Efficacy and side effects of praziquantel against Schistosoma mansoni in a community of western Côte d'Ivoire |
| Q34058073 | Explaining observed infection and antibody age-profiles in populations with urogenital schistosomiasis. |
| Q43685664 | Gastrointestinal complications of schistosomiasis |
| Q38195365 | Genital schistosomiasis and its unacknowledged role on HIV transmission in the STD intervention studies |
| Q57816681 | Glycan Microarray-Assisted Identification of IgG Subclass Targets in Schistosomiasis |
| Q52241237 | Herd immunity to filarial infection is a function of vector biting rate. |
| Q36210573 | Human schistosome infection and allergic sensitisation |
| Q35000247 | Immune effector mechanisms against schistosomiasis: looking for a chink in the parasite's armour |
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| Q39066820 | Irrigation and infection: the immunoepidemiology of schistosomiasis in ancient Nubia |
| Q52668877 | Microfilarial distribution of Loa loa in the human host: population dynamics and epidemiological implications. |
| Q30485086 | Modelling age-heterogeneous Schistosoma haematobium and S. mansoni survey data via alignment factors |
| Q28476209 | Observed reductions in Schistosoma mansoni transmission from large-scale administration of praziquantel in Uganda: a mathematical modelling study |
| Q46473632 | On the calculation of intestinal schistosome infection intensity. |
| Q37994231 | Parasite glycans and antibody-mediated immune responses in Schistosoma infection |
| Q39602864 | Patterns in parasite epidemiology: the peak shift |
| Q35212363 | Population biology of human onchocerciasis |
| Q51963935 | Population biology of multispecies helminth infection: interspecific interactions and parasite distribution. |
| Q36396801 | Progressive cross-reactivity in IgE responses: an explanation for the slow development of human immunity to schistosomiasis? |
| Q36057144 | Proportions of CD4+ memory T cells are altered in individuals chronically infected with Schistosoma haematobium |
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| Q39140981 | Spatial patterns of human water contact and Schistosoma mansoni transmission and infection in four rural areas in Machakos District, Kenya |
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| Q57182014 | The design of schistosomiasis monitoring and evaluation programmes: The importance of collecting adult data to inform treatment strategies for Schistosoma mansoni |
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| Q33437988 | The epidemiology and control of urinary schistosomiasis and soil-transmitted helminthiasis in schoolchildren on Unguja Island, Zanzibar |
| Q39196853 | Towards nationwide control of schistosomiasis in Yemen: a pilot project to expand treatment to the whole community |
| Q43687527 | Transmission intensity and the immunoepidemiology of bancroftian filariasis in East Africa. |
| Q36201906 | What is required in terms of mass drug administration to interrupt the transmission of schistosome parasites in regions of endemic infection? |
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