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Using model-based geostatistics for assessing the elimination of trachoma

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Using model-based geostatistics for assessing the elimination of trachoma. / Sasanami, Misaki; Amoah, Benjamin; Diori, Adam Nouhou et al.
In: PLoS Neglected Tropical Diseases, Vol. 17, No. 7, e0011476, 28.07.2023.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Sasanami, M, Amoah, B, Diori, AN, Amza, A, Souley, ASY, Bakhtiari, A, Kadri, B, Szwarcwald, CL, Ferreira Gomez, DV, Almou, I, Lopes, MDFC, Masika, MP, Beidou, N, Boyd, S, Harding-Esch, EM, Solomon, AW & Giorgi, E 2023, 'Using model-based geostatistics for assessing the elimination of trachoma', PLoS Neglected Tropical Diseases, vol. 17, no. 7, e0011476. https://doi.org/10.1371/journal.pntd.0011476

APA

Sasanami, M., Amoah, B., Diori, A. N., Amza, A., Souley, A. S. Y., Bakhtiari, A., Kadri, B., Szwarcwald, C. L., Ferreira Gomez, D. V., Almou, I., Lopes, M. D. F. C., Masika, M. P., Beidou, N., Boyd, S., Harding-Esch, E. M., Solomon, A. W., & Giorgi, E. (2023). Using model-based geostatistics for assessing the elimination of trachoma. PLoS Neglected Tropical Diseases, 17(7), Article e0011476. https://doi.org/10.1371/journal.pntd.0011476

Vancouver

Sasanami M, Amoah B, Diori AN, Amza A, Souley ASY, Bakhtiari A et al. Using model-based geostatistics for assessing the elimination of trachoma. PLoS Neglected Tropical Diseases. 2023 Jul 28;17(7):e0011476. doi: 10.1371/journal.pntd.0011476

Author

Sasanami, Misaki ; Amoah, Benjamin ; Diori, Adam Nouhou et al. / Using model-based geostatistics for assessing the elimination of trachoma. In: PLoS Neglected Tropical Diseases. 2023 ; Vol. 17, No. 7.

Bibtex

@article{ffaaa6f9ac7e489cac555a90ef3c9aa5,
title = "Using model-based geostatistics for assessing the elimination of trachoma",
abstract = "Background: Trachoma is the commonest infectious cause of blindness worldwide. Efforts are being made to eliminate trachoma as a public health problem globally. However, as prevalence decreases, it becomes more challenging to precisely predict prevalence. We demonstrate how model-based geostatistics (MBG) can be used as a reliable, efficient, and widely applicable tool to assess the elimination status of trachoma. Methods: We analysed trachoma surveillance data from Brazil, Malawi, and Niger. We developed geostatistical Binomial models to predict trachomatous inflammation—follicular (TF) and trachomatous trichiasis (TT) prevalence. We proposed a general framework to incorporate age and gender in the geostatistical models, whilst accounting for residual spatial and non-spatial variation in prevalence through the use of random effects. We also used predictive probabilities generated by the geostatistical models to quantify the likelihood of having achieved the elimination target in each evaluation unit (EU). Results: TF and TT prevalence varied considerably by country, with Brazil showing the lowest prevalence and Niger the highest. Brazil and Malawi are highly likely to have met the elimination criteria for TF in each EU, but, for some EUs, there was high uncertainty in relation to the elimination of TT according to the model alone. In Niger, the predicted prevalence varied significantly across EUs, with the probability of having achieved the elimination target ranging from values close to 0% to 100%, for both TF and TT. Conclusions: We demonstrated the wide applicability of MBG for trachoma programmes, using data from different epidemiological settings. Unlike the standard trachoma prevalence survey approach, MBG provides a more statistically rigorous way of quantifying uncertainty around the achievement of elimination prevalence targets, through the use of spatial correlation. In addition to the analysis of existing survey data, MBG also provides an approach to identify areas in which more sampling effort is needed to improve EU classification. We advocate MBG as the new standard method for analysing trachoma survey outputs.",
author = "Misaki Sasanami and Benjamin Amoah and Diori, {Adam Nouhou} and Abdou Amza and Souley, {Abdoul Salam Youssoufou} and Ana Bakhtiari and Boubacar Kadri and Szwarcwald, {C{\'e}lia L.} and {Ferreira Gomez}, {Daniela Vaz} and Ibrahim Almou and Lopes, {Maria de F{\'a}tima Costa} and Masika, {Michael P.} and Nassirou Beidou and Sarah Boyd and Harding-Esch, {Emma M.} and Solomon, {Anthony W.} and Emanuele Giorgi",
year = "2023",
month = jul,
day = "28",
doi = "10.1371/journal.pntd.0011476",
language = "English",
volume = "17",
journal = "PLoS Neglected Tropical Diseases",
issn = "1935-2727",
publisher = "Public Library of Science",
number = "7",

}

RIS

TY - JOUR

T1 - Using model-based geostatistics for assessing the elimination of trachoma

AU - Sasanami, Misaki

AU - Amoah, Benjamin

AU - Diori, Adam Nouhou

AU - Amza, Abdou

AU - Souley, Abdoul Salam Youssoufou

AU - Bakhtiari, Ana

AU - Kadri, Boubacar

AU - Szwarcwald, Célia L.

AU - Ferreira Gomez, Daniela Vaz

AU - Almou, Ibrahim

AU - Lopes, Maria de Fátima Costa

AU - Masika, Michael P.

AU - Beidou, Nassirou

AU - Boyd, Sarah

AU - Harding-Esch, Emma M.

AU - Solomon, Anthony W.

AU - Giorgi, Emanuele

PY - 2023/7/28

Y1 - 2023/7/28

N2 - Background: Trachoma is the commonest infectious cause of blindness worldwide. Efforts are being made to eliminate trachoma as a public health problem globally. However, as prevalence decreases, it becomes more challenging to precisely predict prevalence. We demonstrate how model-based geostatistics (MBG) can be used as a reliable, efficient, and widely applicable tool to assess the elimination status of trachoma. Methods: We analysed trachoma surveillance data from Brazil, Malawi, and Niger. We developed geostatistical Binomial models to predict trachomatous inflammation—follicular (TF) and trachomatous trichiasis (TT) prevalence. We proposed a general framework to incorporate age and gender in the geostatistical models, whilst accounting for residual spatial and non-spatial variation in prevalence through the use of random effects. We also used predictive probabilities generated by the geostatistical models to quantify the likelihood of having achieved the elimination target in each evaluation unit (EU). Results: TF and TT prevalence varied considerably by country, with Brazil showing the lowest prevalence and Niger the highest. Brazil and Malawi are highly likely to have met the elimination criteria for TF in each EU, but, for some EUs, there was high uncertainty in relation to the elimination of TT according to the model alone. In Niger, the predicted prevalence varied significantly across EUs, with the probability of having achieved the elimination target ranging from values close to 0% to 100%, for both TF and TT. Conclusions: We demonstrated the wide applicability of MBG for trachoma programmes, using data from different epidemiological settings. Unlike the standard trachoma prevalence survey approach, MBG provides a more statistically rigorous way of quantifying uncertainty around the achievement of elimination prevalence targets, through the use of spatial correlation. In addition to the analysis of existing survey data, MBG also provides an approach to identify areas in which more sampling effort is needed to improve EU classification. We advocate MBG as the new standard method for analysing trachoma survey outputs.

AB - Background: Trachoma is the commonest infectious cause of blindness worldwide. Efforts are being made to eliminate trachoma as a public health problem globally. However, as prevalence decreases, it becomes more challenging to precisely predict prevalence. We demonstrate how model-based geostatistics (MBG) can be used as a reliable, efficient, and widely applicable tool to assess the elimination status of trachoma. Methods: We analysed trachoma surveillance data from Brazil, Malawi, and Niger. We developed geostatistical Binomial models to predict trachomatous inflammation—follicular (TF) and trachomatous trichiasis (TT) prevalence. We proposed a general framework to incorporate age and gender in the geostatistical models, whilst accounting for residual spatial and non-spatial variation in prevalence through the use of random effects. We also used predictive probabilities generated by the geostatistical models to quantify the likelihood of having achieved the elimination target in each evaluation unit (EU). Results: TF and TT prevalence varied considerably by country, with Brazil showing the lowest prevalence and Niger the highest. Brazil and Malawi are highly likely to have met the elimination criteria for TF in each EU, but, for some EUs, there was high uncertainty in relation to the elimination of TT according to the model alone. In Niger, the predicted prevalence varied significantly across EUs, with the probability of having achieved the elimination target ranging from values close to 0% to 100%, for both TF and TT. Conclusions: We demonstrated the wide applicability of MBG for trachoma programmes, using data from different epidemiological settings. Unlike the standard trachoma prevalence survey approach, MBG provides a more statistically rigorous way of quantifying uncertainty around the achievement of elimination prevalence targets, through the use of spatial correlation. In addition to the analysis of existing survey data, MBG also provides an approach to identify areas in which more sampling effort is needed to improve EU classification. We advocate MBG as the new standard method for analysing trachoma survey outputs.

U2 - 10.1371/journal.pntd.0011476

DO - 10.1371/journal.pntd.0011476

M3 - Journal article

VL - 17

JO - PLoS Neglected Tropical Diseases

JF - PLoS Neglected Tropical Diseases

SN - 1935-2727

IS - 7

M1 - e0011476

ER -