Age-Dependent Sex Bias in Clinical Malarial Disease in Hypoendemic Regions

BACKGROUND AND OBJECTIVES: Experimental models show a male bias in murine malaria; however, extant literature on biases in human clinical malaria is inconclusive. Studies in hyperendemic areas document an absence of sexual dimorphism in clinical malaria. Data on sex bias in clinical malaria in hypoe...

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Autores principales: Pathak, Sulabha, Rege, Mayuri, Gogtay, Nithya J., Aigal, Umesh, Sharma, Surya Kant, Valecha, Neena, Bhanot, Gyan, Kshirsagar, Nilima A., Sharma, Shobhona
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3338423/
https://www.ncbi.nlm.nih.gov/pubmed/22558172
http://dx.doi.org/10.1371/journal.pone.0035592
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author Pathak, Sulabha
Rege, Mayuri
Gogtay, Nithya J.
Aigal, Umesh
Sharma, Surya Kant
Valecha, Neena
Bhanot, Gyan
Kshirsagar, Nilima A.
Sharma, Shobhona
author_facet Pathak, Sulabha
Rege, Mayuri
Gogtay, Nithya J.
Aigal, Umesh
Sharma, Surya Kant
Valecha, Neena
Bhanot, Gyan
Kshirsagar, Nilima A.
Sharma, Shobhona
author_sort Pathak, Sulabha
collection PubMed
description BACKGROUND AND OBJECTIVES: Experimental models show a male bias in murine malaria; however, extant literature on biases in human clinical malaria is inconclusive. Studies in hyperendemic areas document an absence of sexual dimorphism in clinical malaria. Data on sex bias in clinical malaria in hypoendemic areas is ambiguous—some reports note a male bias but do not investigate the role of differential mosquito exposure in that bias. Moreover, these studies do not examine whether the bias is age related. This study investigates whether clinical malaria in hypoendemic regions exhibits a sex bias and whether this bias is age-dependent. We also consider the role of vector exposure in this bias. METHODS: Retrospective passive clinical malaria datasets (2002–2007) and active surveillance datasets (2000–2009) were captured for the hypoendemic Mumbai region in Western India. To validate findings, passive retrospective data was captured from a primary malaria clinic (2006–2007) in hypoendemic Rourkela (Eastern India). Data was normalized by determining percent slide-positivity rates (SPRs) for males and females, and parasite-positivity distributions were established across age groups. The Mann–Whitney test, Wilcoxon Signed Rank test, and Chi-square analysis were used to determine statistical significances. RESULTS: In both the Mumbai and Rourkela regions, clinical malaria exhibited an adult male bias (p<0.01). A sex bias was not observed in children aged ≤10. Post-puberty, male SPRs were significantly greater than females SPRs (p<0.01). This adult male bias was observed for both vivax and falciparum clinical disease. Analysis of active surveillance data did not reveal an age or sex bias in the frequency of parasite positivity. CONCLUSION: This study demonstrates an age-dependent sex bias in clinical malaria in hypoendemic regions and enhanced incidence of clinical malaria in males following puberty. Possible roles of sex hormones, vector exposure, co-infections, and other factors in this enhanced susceptibility are discussed.
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spelling pubmed-33384232012-05-03 Age-Dependent Sex Bias in Clinical Malarial Disease in Hypoendemic Regions Pathak, Sulabha Rege, Mayuri Gogtay, Nithya J. Aigal, Umesh Sharma, Surya Kant Valecha, Neena Bhanot, Gyan Kshirsagar, Nilima A. Sharma, Shobhona PLoS One Research Article BACKGROUND AND OBJECTIVES: Experimental models show a male bias in murine malaria; however, extant literature on biases in human clinical malaria is inconclusive. Studies in hyperendemic areas document an absence of sexual dimorphism in clinical malaria. Data on sex bias in clinical malaria in hypoendemic areas is ambiguous—some reports note a male bias but do not investigate the role of differential mosquito exposure in that bias. Moreover, these studies do not examine whether the bias is age related. This study investigates whether clinical malaria in hypoendemic regions exhibits a sex bias and whether this bias is age-dependent. We also consider the role of vector exposure in this bias. METHODS: Retrospective passive clinical malaria datasets (2002–2007) and active surveillance datasets (2000–2009) were captured for the hypoendemic Mumbai region in Western India. To validate findings, passive retrospective data was captured from a primary malaria clinic (2006–2007) in hypoendemic Rourkela (Eastern India). Data was normalized by determining percent slide-positivity rates (SPRs) for males and females, and parasite-positivity distributions were established across age groups. The Mann–Whitney test, Wilcoxon Signed Rank test, and Chi-square analysis were used to determine statistical significances. RESULTS: In both the Mumbai and Rourkela regions, clinical malaria exhibited an adult male bias (p<0.01). A sex bias was not observed in children aged ≤10. Post-puberty, male SPRs were significantly greater than females SPRs (p<0.01). This adult male bias was observed for both vivax and falciparum clinical disease. Analysis of active surveillance data did not reveal an age or sex bias in the frequency of parasite positivity. CONCLUSION: This study demonstrates an age-dependent sex bias in clinical malaria in hypoendemic regions and enhanced incidence of clinical malaria in males following puberty. Possible roles of sex hormones, vector exposure, co-infections, and other factors in this enhanced susceptibility are discussed. Public Library of Science 2012-04-25 /pmc/articles/PMC3338423/ /pubmed/22558172 http://dx.doi.org/10.1371/journal.pone.0035592 Text en Pathak et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Pathak, Sulabha
Rege, Mayuri
Gogtay, Nithya J.
Aigal, Umesh
Sharma, Surya Kant
Valecha, Neena
Bhanot, Gyan
Kshirsagar, Nilima A.
Sharma, Shobhona
Age-Dependent Sex Bias in Clinical Malarial Disease in Hypoendemic Regions
title Age-Dependent Sex Bias in Clinical Malarial Disease in Hypoendemic Regions
title_full Age-Dependent Sex Bias in Clinical Malarial Disease in Hypoendemic Regions
title_fullStr Age-Dependent Sex Bias in Clinical Malarial Disease in Hypoendemic Regions
title_full_unstemmed Age-Dependent Sex Bias in Clinical Malarial Disease in Hypoendemic Regions
title_short Age-Dependent Sex Bias in Clinical Malarial Disease in Hypoendemic Regions
title_sort age-dependent sex bias in clinical malarial disease in hypoendemic regions
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3338423/
https://www.ncbi.nlm.nih.gov/pubmed/22558172
http://dx.doi.org/10.1371/journal.pone.0035592
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