EPIFIL: The development of an age-structured model for 
describing the transmission dynamics and control of lymphatic filariasis

Norman, Rachel; Chan, M. S.; Srividya, A.; Pani, S P; Ramaiah, K. D.; Vanamail, Perumal; Michael, Edwin; Das, Pradeep; Bundy, D. A. P.

doi:10.1017/s0950268899003702

Cited by 94 publications

(126 citation statements)

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“…Evaluation of changes in filarial ecology after the cessation of mass treatment in Papua New Guinea and other areas of endemic infection will provide this information and can be used to validate and refine mathematical models designed to predict the threshold necessary to achieve eradication. 7,8,44,45 Supported by funds from the World Health Organization (F30/181/67) and the Papua New Guinea Institute of Medical Research. The data analysis was supported by a grant (U19 AI33061) from the Public Health Service.…”

Section: Discussionmentioning

confidence: 99%

“…[4][5][6] The threshold below which transmission will be interrupted is not known, but mathematical models that assume the reproductive life span of Wuchereria bancrofti is approximately five years predict that annual mass treatment for four to six years will be required. 7,8 In 1994 we initiated a trial comparing the efficacy of diethylcarbamazine plus ivermectin with that of diethylcarbamazine alone in limiting the transmission of filariasis in Papua New Guinea. The proportion of persons who were positive for microfilariae decreased by 76 to 99 percent, and the transmission potentialthe estimated number of infective (third-stage) larvae inoculated per person per year -decreased by 31 to 58 percent 12 months after a single dose of the drugs.…”

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confidence: 99%

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Mass Treatment to Eliminate Filariasis in Papua New Guinea

et al. 2002

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Section: Discussionmentioning

confidence: 99%

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confidence: 99%

Mass Treatment to Eliminate Filariasis in Papua New Guinea

et al. 2002

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“…1,7 Because there is insufficient evidence to date in support of the operation of density-dependent constraints upon worm fecundity and survival, we will assume that the main mechanism regulating parasite population abundance acts through limiting parasite establishment. 54,55 Our conjecture is that the proportion of L3 larvae developing into adult worms, ␦ H , is dependent on the intensity of exposure to L3 larvae as measured by the ATP. A functional relationship between ␦ H and ATP from Dietz 9 has consequently been modified as follows,…”

Section: Transmission Intensity and Onchocerciasis Epidemiologymentioning

confidence: 96%

Transmission intensity and the patterns of Onchocerca volvulus infection in human communities.

Basáñez¹,

Collins²,

Porter³

et al. 2002

The American Journal of Tropical Medicine and Hygiene

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Abstract.We focus on possible constraints upon Onchocerca volvulus establishment in humans in relation to exposure rates to infective larvae (L3) as measured by the annual transmission potential (ATP). We use mathematical and statistical modeling of pre-control west African (savanna), Mexican, and Guatemalan data to explore two hypotheses relating human infection to transmission intensity: microfilarial (mf) loads either saturate with increasing ATP or become (asymptotically) proportional to the ATP. The estimated proportion of L3 developing into adult worms ranged from 7% to 0.3% (low and high intensity areas, respectively). Relationships between mf prevalence and both mf and transmission intensity were nonlinear and statistically similar between west Africa (Simulium damnosum s.l.) and Meso America (S. ochraceum s.l.). This similarity extended to the relationship between mf intensity and ATP. The critical biting rates for onchocerciasis introduction and persistence (which depended on vector competence and host preference), were approximately 10-fold higher in settings where onchocerciasis is transmitted by S. ochraceum than in those where the vector is S. damnosum. A role for focal vector control in Mexico and Guatemala, in addition to nodulectomy and ivermectin, is suggested. INTRODUCTIONAt the start of the 21st century onchocerciasis or "river blindness" still poses a threat to public health in many tropical regions of Africa and more focally in Latin America despite a concerted research effort and high expenditure on control programs. Although much research has been conducted on the biology and epidemiology of the host-parasite interaction, relatively little is known about the population dynamics of the parasite in terms of the key regulatory constraints on population growth. In an attempt to further understanding of such processes, a number of researchers have explored the properties of simple and complex mathematical models of the transmission dynamics of human onchocerciasis.1 Considerable progress has been made concerning the regulatory constraints operating within the vector, 2-6 with some progress being recently made in investigating those acting within the human host.

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“…These discrepancies in the results between studies highlight the importance of carefully considering the methodologies and threshold targets used by various workers in deriving intervention duration estimates. Thus, while the GPELF estimates are simply based on assuming that 5 years of annual MDA will be sufficient to break transmission in all areas, the latter results were based on predictions of a deterministic model [12,51,68,69] calibrated to a limited set of expected baseline prevalences within countries and which assumed an 85% MDA coverage and a target threshold of 1% mf for all areas. This use of uniform values for various intervention parameters, a weaker constraining of models to match only overall human infection data, plus the limited consideration of spatial heterogeneity in site-specific transmission dynamics clearly underlie the finding that 6-15 rounds of annual MDA would be sufficient to eliminate LF transmission in that work, compared to the significantly longer time periods we estimate here for the same 1% mf threshold (10-24 annual rounds between countries, depending on within-country heterogeneity in baseline mf prevalence and actual MDA/VC coverages and roll-out patterns achieved (Table 4)).…”

Section: Discussionmentioning

confidence: 99%