A Long Neglected World Malaria Map: Plasmodium vivax Endemicity in 2010

Peter Gething; Iqbal Elyazar; Catherine Moyes; David Lester-Smith; Katherine Battle; C Guerra; Anand Patil; Andrew Tatem; Rosalind Howes; Monica Myers; Dylan George; Peter Horby; Heiman Wertheim; Ric Price; Ivo Mueller; Kevin Baird; Simon Hay

doi:10.1371/journal.pntd.0001814

A Long Neglected World Malaria Map: Plasmodium vivax Endemicity in 2010

Peter Gething, Iqbal Elyazar, Catherine Moyes, David Lester-Smith, Katherine Battle, C Guerra, Anand Patil, Andrew Tatem, Rosalind Howes, Monica Myers, Dylan George, Peter Horby, Heiman Wertheim, Ric Price, Ivo Mueller, Kevin Baird, Simon Hay

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Abstract

Background: Current understanding of the spatial epidemiology and geographical distribution of Plasmodium vivax is far less developed than that for P. falciparum, representing a barrier to rational strategies for control and elimination. Here we present the first systematic effort to map the global endemicity of this hitherto neglected parasite.

Methodology and Findings: We first updated to the year 2010 our earlier estimate of the geographical limits of P. vivaxtransmission. Within areas of stable transmission, an assembly of 9,970 geopositioned P. vivaxparasite rate (PvPR) surveys collected from 1985 to 2010 were used with a spatiotemporal Bayesian model-based geostatistical approach to estimate endemicity age-standardised to the 1–99 year age range (PvPR_1–99) within every 5×5 km resolution grid square. The model incorporated data on Duffy negative phenotype frequency to suppress endemicity predictions, particularly in Africa. Endemicity was predicted within a relatively narrow range throughout the endemic world, with the point estimate rarely exceeding 7% PvPR_1–99. The Americas contributed 22% of the global area at risk of P. vivax transmission, but high endemic areas were generally sparsely populated and the region contributed only 6% of the 2.5 billion people at risk (PAR) globally. In Africa, Duffy negativity meant stable transmission was constrained to Madagascar and parts of the Horn, contributing 3.5% of global PAR. Central Asia was home to 82% of global PAR with important high endemic areas coinciding with dense populations particularly in India and Myanmar. South East Asia contained areas of the highest endemicity in Indonesia and Papua New Guinea and contributed 9% of global PAR.

Conclusions and Significance: This detailed depiction of spatially varying endemicity is intended to contribute to a much-needed paradigm shift towards geographically stratified and evidence-based planning for P. vivax control and elimination.

Original language	English
Article number	e1814
Pages (from-to)	1-12
Number of pages	12
Journal	PLoS Neglected Tropical Diseases
Volume	6
Issue number	9
DOIs	https://doi.org/10.1371/journal.pntd.0001814
Publication status	Published - 2012

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Gething, P., Elyazar, I., Moyes, C., Lester-Smith, D., Battle, K., Guerra, C., Patil, A., Tatem, A., Howes, R., Myers, M., George, D., Horby, P., Wertheim, H., Price, R., Mueller, I., Baird, K., & Hay, S. (2012). A Long Neglected World Malaria Map: Plasmodium vivax Endemicity in 2010. PLoS Neglected Tropical Diseases, 6(9), 1-12. [e1814]. https://doi.org/10.1371/journal.pntd.0001814

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abstract = "Background: Current understanding of the spatial epidemiology and geographical distribution of Plasmodium vivax is far less developed than that for P. falciparum, representing a barrier to rational strategies for control and elimination. Here we present the first systematic effort to map the global endemicity of this hitherto neglected parasite. Methodology and Findings: We first updated to the year 2010 our earlier estimate of the geographical limits of P. vivaxtransmission. Within areas of stable transmission, an assembly of 9,970 geopositioned P. vivaxparasite rate (PvPR) surveys collected from 1985 to 2010 were used with a spatiotemporal Bayesian model-based geostatistical approach to estimate endemicity age-standardised to the 1–99 year age range (PvPR1–99) within every 5×5 km resolution grid square. The model incorporated data on Duffy negative phenotype frequency to suppress endemicity predictions, particularly in Africa. Endemicity was predicted within a relatively narrow range throughout the endemic world, with the point estimate rarely exceeding 7% PvPR1–99. The Americas contributed 22% of the global area at risk of P. vivax transmission, but high endemic areas were generally sparsely populated and the region contributed only 6% of the 2.5 billion people at risk (PAR) globally. In Africa, Duffy negativity meant stable transmission was constrained to Madagascar and parts of the Horn, contributing 3.5% of global PAR. Central Asia was home to 82% of global PAR with important high endemic areas coinciding with dense populations particularly in India and Myanmar. South East Asia contained areas of the highest endemicity in Indonesia and Papua New Guinea and contributed 9% of global PAR. Conclusions and Significance: This detailed depiction of spatially varying endemicity is intended to contribute to a much-needed paradigm shift towards geographically stratified and evidence-based planning for P. vivax control and elimination.",

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author = "Peter Gething and Iqbal Elyazar and Catherine Moyes and David Lester-Smith and Katherine Battle and C Guerra and Anand Patil and Andrew Tatem and Rosalind Howes and Monica Myers and Dylan George and Peter Horby and Heiman Wertheim and Ric Price and Ivo Mueller and Kevin Baird and Simon Hay",

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Gething, P, Elyazar, I, Moyes, C, Lester-Smith, D, Battle, K, Guerra, C, Patil, A, Tatem, A, Howes, R, Myers, M, George, D, Horby, P, Wertheim, H, Price, R, Mueller, I, Baird, K & Hay, S 2012, 'A Long Neglected World Malaria Map: Plasmodium vivax Endemicity in 2010', PLoS Neglected Tropical Diseases, vol. 6, no. 9, e1814, pp. 1-12. https://doi.org/10.1371/journal.pntd.0001814

TY - JOUR

T1 - A Long Neglected World Malaria Map

T2 - Plasmodium vivax Endemicity in 2010

AU - Gething, Peter

AU - Elyazar, Iqbal

AU - Moyes, Catherine

AU - Lester-Smith, David

AU - Battle, Katherine

AU - Guerra, C

AU - Patil, Anand

AU - Tatem, Andrew

AU - Howes, Rosalind

AU - Myers, Monica

AU - George, Dylan

AU - Horby, Peter

AU - Wertheim, Heiman

AU - Price, Ric

AU - Mueller, Ivo

AU - Baird, Kevin

AU - Hay, Simon

PY - 2012

Y1 - 2012

N2 - Background: Current understanding of the spatial epidemiology and geographical distribution of Plasmodium vivax is far less developed than that for P. falciparum, representing a barrier to rational strategies for control and elimination. Here we present the first systematic effort to map the global endemicity of this hitherto neglected parasite. Methodology and Findings: We first updated to the year 2010 our earlier estimate of the geographical limits of P. vivaxtransmission. Within areas of stable transmission, an assembly of 9,970 geopositioned P. vivaxparasite rate (PvPR) surveys collected from 1985 to 2010 were used with a spatiotemporal Bayesian model-based geostatistical approach to estimate endemicity age-standardised to the 1–99 year age range (PvPR1–99) within every 5×5 km resolution grid square. The model incorporated data on Duffy negative phenotype frequency to suppress endemicity predictions, particularly in Africa. Endemicity was predicted within a relatively narrow range throughout the endemic world, with the point estimate rarely exceeding 7% PvPR1–99. The Americas contributed 22% of the global area at risk of P. vivax transmission, but high endemic areas were generally sparsely populated and the region contributed only 6% of the 2.5 billion people at risk (PAR) globally. In Africa, Duffy negativity meant stable transmission was constrained to Madagascar and parts of the Horn, contributing 3.5% of global PAR. Central Asia was home to 82% of global PAR with important high endemic areas coinciding with dense populations particularly in India and Myanmar. South East Asia contained areas of the highest endemicity in Indonesia and Papua New Guinea and contributed 9% of global PAR. Conclusions and Significance: This detailed depiction of spatially varying endemicity is intended to contribute to a much-needed paradigm shift towards geographically stratified and evidence-based planning for P. vivax control and elimination.

AB - Background: Current understanding of the spatial epidemiology and geographical distribution of Plasmodium vivax is far less developed than that for P. falciparum, representing a barrier to rational strategies for control and elimination. Here we present the first systematic effort to map the global endemicity of this hitherto neglected parasite. Methodology and Findings: We first updated to the year 2010 our earlier estimate of the geographical limits of P. vivaxtransmission. Within areas of stable transmission, an assembly of 9,970 geopositioned P. vivaxparasite rate (PvPR) surveys collected from 1985 to 2010 were used with a spatiotemporal Bayesian model-based geostatistical approach to estimate endemicity age-standardised to the 1–99 year age range (PvPR1–99) within every 5×5 km resolution grid square. The model incorporated data on Duffy negative phenotype frequency to suppress endemicity predictions, particularly in Africa. Endemicity was predicted within a relatively narrow range throughout the endemic world, with the point estimate rarely exceeding 7% PvPR1–99. The Americas contributed 22% of the global area at risk of P. vivax transmission, but high endemic areas were generally sparsely populated and the region contributed only 6% of the 2.5 billion people at risk (PAR) globally. In Africa, Duffy negativity meant stable transmission was constrained to Madagascar and parts of the Horn, contributing 3.5% of global PAR. Central Asia was home to 82% of global PAR with important high endemic areas coinciding with dense populations particularly in India and Myanmar. South East Asia contained areas of the highest endemicity in Indonesia and Papua New Guinea and contributed 9% of global PAR. Conclusions and Significance: This detailed depiction of spatially varying endemicity is intended to contribute to a much-needed paradigm shift towards geographically stratified and evidence-based planning for P. vivax control and elimination.

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KW - adult

KW - age

KW - aged

KW - article

KW - blood group Duffy system

KW - child

KW - data base

KW - endemic disease

KW - geographic distribution

KW - geostatistical analysis

KW - health survey

KW - high risk population

KW - human

KW - incidence

KW - infant

KW - infection rate

KW - infection risk

KW - parasite transmission

KW - phenotype

KW - Plasmodium vivax

KW - Plasmodium vivax malaria

KW - preschool child

KW - prevalence

KW - school child

KW - validation process

KW - Adolescent

KW - Adult

KW - Aged

KW - Aged, 80 and over

KW - Child

KW - Child, Preschool

KW - Endemic Diseases

KW - Female

KW - Humans

KW - Infant

KW - Malaria, Vivax

KW - Male

KW - Middle Aged

KW - Topography, Medical

KW - World Health

KW - Young Adult

U2 - 10.1371/journal.pntd.0001814

DO - 10.1371/journal.pntd.0001814

M3 - Article

C2 - 22970336

VL - 6

SP - 1

EP - 12

JO - PLoS Neglected Tropical Diseases

JF - PLoS Neglected Tropical Diseases

SN - 1935-2727

IS - 9

M1 - e1814

ER -

A Long Neglected World Malaria Map: Plasmodium vivax Endemicity in 2010

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