Human onchocerciasis (River Blindness) is a parasitic disease leading to visual impairment including blindness. Blindness may lead to premature death, but infection with the parasite itself (Onchocerca volvulus) may also cause excess mortality in sighted individuals. The excess risk of mortality may not be directly (linearly) proportional to the intensity of infection (a measure of how many parasites an individual harbours). We analyze cohort data from the Onchocerciasis Control Programme in West Africa, collected between 1974 and 2001, by fitting a suite of quantitative models (including a ‘null’ model of no relationship between infection intensity and mortality, a (log-) linear function, and two plateauing curves), and choosing the one that is the most statistically adequate. The risk of human mortality initially increases with parasite density but saturates at high densities (following an S-shape curve), and such risk is greater in younger individuals for a given infection intensity. Our results have important repercussions for programmes aiming to control onchocerciasis (in terms of how the benefits of the programme are calculated), for measuring the burden of disease and mortality caused by the infection, and for a better understanding of the processes that govern the density of parasite populations among human hosts

A Gelman

A Hoerauf

A Kim

A Prost

A Renz

A Saint André

A Thomas

AJ Fulford

AK Kirch

AP Plaisier

B Kirkwood

B Thylefors

BH Singer

Boakye A. Boatin

BR Kirkwood

C Kaiser

CH King

D McFarland

D Thomas

DA Pierce

DH Molyneux

DJ Lunn

DJ Spiegelhalter

DW Schafer

E Pearlman

E Soumbey-Alley

ED Newell

Edoh W. Soumbey-Alley

FO Richards Jr

GR Stewart

H Akaike

HP Duerr

HR Walters

J Bennett

J Satoguina

JA Filipe

JD Kurtis

JDF Habbema

JH Lubin

JHF Remme

JJ Picq

JM Hougard

K Dietz

K Shibuya

Karen S. Wagner

KP Burnham

L Diawara

LR Hall

M Boussinesq

M Demanou

M Druet-Cabanac

M Nacher

Mark P. Little

Martin Walker

María-Gloria Basáñez

MG Basáñez

MP Little

NM McKechnie

NW Brattig

P Hotez

PJ Cooper

PJ Hotez

PT Soboslay

RC Collins

RJ Carroll

S Lewallen

S Richardson

S Wetten

SD Pion

Simon Brooker

TS Churcher

W Kipp

WA Fuller

WE Kershaw

PLoS Neglected Tropical Diseases

English

PubMed

The parasite Onchocerca volvulus has, until recently, been regarded as the cause of a chronic yet non-fatal condition. Recent analyses, however, have indicated that in addition to blindness, the parasite can also be directly associated with human mortality. Such analyses also suggested that the relationship between microfilarial load and excess mortality might be non-linear. Determining the functional form of such relationship would contribute to quantify the population impact of mass microfilaricidal treatment.Data from the Onchocerciasis Control Programme in West Africa (OCP) collected from 1974 through 2001 were used to determine functional relationships between microfilarial load and excess mortality of the human host. The goodness-of-fit of three candidate functional forms (a (log-) linear model and two saturating functions) were explored and a saturating (log-) sigmoid function was deemed to be statistically the best fit. The excess mortality associated with microfilarial load was also found to be greater in younger hosts. The attributable mortality risk due to onchocerciasis was estimated to be 5.9%.Incorporation of this non-linear functional relationship between microfilarial load and excess mortality into mathematical models for the transmission and control of onchocerciasis will have important implications for our understanding of the population biology of O. volvulus, its impact on human populations, the global burden of disease due to onchocerciasis, and the projected benefits of control programmes in both human and economic terms

Mark P Little

Karen S Wagner

Edoh W Soumbey-Alley

Boakye A Boatin

Directory of Open Access Journals

Density-dependent mortality of the human host in onchocerciasis: relationships between microfilarial load and excess mortality.

<div><h3>Background</h3><p>The parasite Onchocerca volvulus has, until recently, been regarded as the cause of a chronic yet non-fatal condition. Recent analyses, however, have indicated that in addition to blindness, the parasite can also be directly associated with human mortality. Such analyses also suggested that the relationship between microfilarial load and excess mortality might be non-linear. Determining the functional form of such relationship would contribute to quantify the population impact of mass microfilaricidal treatment.</p> <h3>Methodology/Principal Findings</h3><p>Data from the Onchocerciasis Control Programme in West Africa (OCP) collected from 1974 through 2001 were used to determine functional relationships between microfilarial load and excess mortality of the human host. The goodness-of-fit of three candidate functional forms (a (log-) linear model and two saturating functions) were explored and a saturating (log-) sigmoid function was deemed to be statistically the best fit. The excess mortality associated with microfilarial load was also found to be greater in younger hosts. The attributable mortality risk due to onchocerciasis was estimated to be 5.9%.</p> <h3>Conclusions/Significance</h3><p>Incorporation of this non-linear functional relationship between microfilarial load and excess mortality into mathematical models for the transmission and control of onchocerciasis will have important implications for our understanding of the population biology of <em>O. volvulus</em>, its impact on human populations, the global burden of disease due to onchocerciasis, and the projected benefits of control programmes in both human and economic terms.</p> </div

Martin Walker (170282)

Mark P. Little (175225)

Karen S. Wagner (149207)

Edoh W. Soumbey-Alley (175229)

Boakye A. Boatin (168661)

María-Gloria Basáñez (40535)

FigShare

Density-Dependent Mortality of the Human Host in Onchocerciasis: Relationships between Microfilarial Load and Excess Mortality

Walker, M

Little, MP

Wagner, KS

Soumbey-Alley, EW

Boatin, BA

Basanez, M-G

Spiral - Imperial College Digital Repository

Crossref

[Excess mortality among blind persons in the West African savannah zone].

A Bayesian approach to measurement error problems in epidemiology using conditional independence models.

A new look at statistical model identification.

A reanalysis of thyroid neoplasms in the Israeli tinea capitis study accounting for dose uncertainties.

Antigenic mimicry: Onchocerca volvulus antigen-specific T cells and ocular inflammation.

Antigenspecific T regulatory-1 cells are associated with immunosuppression in a chronic helminth infection (onchocerciasis).

Association between microfilarial load and excess mortality in onchocerciasis: an epidemiological study. Lancet 363: 1514–1521. Onchocerciasis: Density-Dependent Human Mortality www.plosntds.org 11

Basa ´n ˜ez MG

Basa ´n ˜ez MG (2009) Sampling strategies to detect anthelmintic resistance: the perspective of human onchocerciasis.

Bayesian Data Analysis.

Blindness in Africa: present situation and future needs.

Conditional independence models for epidemiological studies with covariate measurement error.

Control of neglected tropical diseases.

Cost-benefit analysis of the Onchocerciasis Control Program (OCP). Washington, DC: The World Bank. Onchocerciasis: Density-Dependent Human Mortality www.plosntds.org 12

Densitydependent parasite establishment suggests infection-associated immunosuppression as an important mechanism for parasite density regulation in onchocerciasis.

Derivation of low-dose extrapolation factors from analysis of curvature in the cancer incidence dose response in Japanese atomic bomb survivors.

Distribution of microfilariae of O. volvulus in the skin. Its relation to the skin changes and to eye lesions and blindness.

Economic evaluation of Mectizan distribution.

Eliminating onchocerciasis after 14 years of vector control: a proved strategy.

Epilepsy in onchocerciasis endemic areas: systematic review and meta-analysis of population-based surveys.

Epilepsy, retarded growth and onchocerciasis, in two areas of different endemicity of onchocerciasis in Burundi.

Essential Medical Statistics.

Excess mortality associated with blindness in the onchocerciasis focus of the Mbam Valley, Cameroon.

Experimental studies on the transmission of Onchocerca volvulus by its vector in the Sanaga valley (Cameroon): Simulium squamosum B. Intake of microfilariae and their migration to the haemocoel of the vector.

Exposure measurement error: influence on exposure-disease. Relationships and methods of correction.

Feasibility of onchocerciasis elimination with ivermectin treatment in endemic foci in Africa: first evidence from studies

Flexible dose-response models for Japanese atomic bomb survivor data: Bayesian estimation and prediction of cancer risk.

Global burden of onchocerciasis in the year 2000: summary of methods and data sources. Geneva: World Health Organization.

Global data on blindness.

Health metrics for helminth infections.

Hoerauf A

Human infection patterns and heterogeneous exposure in river blindness.

Immune mechanisms in Onchocerca volvulus-mediated corneal disease (river blindness).

Impact of parental onchocerciasis and intensity of transmission on development and persistence of Onchocerca volvulus infection in offspring: an 18 year follow-up study.

Impaired tetanus-specific cellular and humoral responses following tetanus vaccination in human onchocerciasis: a possible role for interleukin-10.

Inference and iterative simulation using multiple sequences.

Ivermectin-facilitated immunity in onchocerciasis; activation of parasite-specific Th1-type responses with subclinical Onchocerca volvulus infection.

Ivermectin-facilitated immunity in onchocerciasis. Reversal of lymphocytopenia, cellular anergy and deficient cytokine production after single treatment.

Le diagnostique de l’onchocercose. Revue critique des me ´thodes en usage. Me ´d Trop (Mars)

Malaria vaccine trials in a wormy world.

Meansurement error in nonlinear models.

Measurement Error Models.

Measuring neglect.

Methods of mass epidemiological evaluation of onchocerciasis. Their utilisation in a vector control programme. Geneva: World Health Organization.

Mixture models in measurement error problems, with reference to epidemiological studies.

Model Selection and Inference: A Practical Information-Theoretic Approach.

Mortality from epilepsy in an onchocerciasis-endemic area in West Uganda. Trans R Soc Trop Med Hyg

Neglected tropical diseases, neglected data sources, and neglected issues.

Onchocerciasis control in West Africa: current status and future of the Onchocerciasis Control Program.

Onchocerciasis modulates the immune response to mycobacterial antigens.

ONCHOSIM: a model and computer simulation program for the transmission and control of onchocerciasis.

Organization

Parasitological diagnosis of onchocerciasis: comparisons of incubation media and incubation times for skin snips.

Pathogenesis and host responses inhumanonchocerciasis: impact of Onchocerca filariae and Wolbachia endobacteria.

Pathogenesis of onchocercal keratitis (River blindness).

Prost A

Pubertal development predicts resistance to infection and reinfection with Schistosoma japonicum.

Puberty and age-related changes in susceptibility to schistosome infection.

Relationship between onchocerciasis and epilepsy: a matched case-control study in the Mbam Valley, Republic of Cameroon.

Resistance and susceptibility in human onchocerciasis-

Review of epidemiological studies searching for a relationship between onchocerciasis and epilepsy.

River blindness: a success story under threat? PLoS

Seketeli A

Studies on the dynamics of transmission of onchocerciasis in a Sudan-savanna area of North Cameroon V. What is a tolerable level of Annual Transmission Potential? Ann Trop Med Parasitol

The burden of blindness in adult males in the savanna villages of West Africa exposed to onchocerciasis.

The errors-in-variables problem - considerations provided by radiation dose-response analyses of the abomb survivor data.

The global burden of onchocerciasis in 1990. Geneva: World Health Organization.

The Nakalanga syndrome in Kabarole District,

The ONCHOSIM model and its use in decision support for river blindness control.

The population dynamics of onchocerciasis. In:

The role of endosymbiotic Wolbachia bacteria in the pathogenesis of river blindness.

Thyroid cancer following scalp irradiation: A reanalysis accounting for uncertainty in dosimetry.

Uptake of Onchocerca volvulus (Nematoda: Onchocercidae) by Simulium (Diptera: Simuliidae) is not strongly dependent on the density of skin microfilariae in the human host.

Vector competence for Onchocerca volvulus in the Simulium (Notolepria) exiguum complex: cytoforms or density-dependence?

WinBUGS - a Bayesian modelling framework: concepts, structure and extensibility.

http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=3313942

Density-Dependent Mortality of the Human Host in Onchocerciasis: Relationships between Microfilarial Load and Excess Mortality

Abstract

Similar works

Full text

Available Versions

Directory of Open Access Journals

FigShare

Spiral - Imperial College Digital Repository

Crossref