Pathways through which asthma risk factors contribute to asthma severity in inner-city children

Andrew H. Liu; Denise C. Babineau; Rebecca Z. Krouse; Edward M. Zoratti; Jacqueline A. Pongracic; George T. O'Connor; Robert A. Wood; Gurjit K. Khurana Hershey; Carolyn M. Kercsmar; Rebecca S. Gruchalla; Meyer Kattan; Stephen J. Teach; Melanie Makhija; Dinesh Pillai; Carin I. Lamm; James E. Gern; Steven M. Sigelman; Peter J. Gergen; Alkis Togias; Cynthia M. Visness; William W. Busse

doi:10.1016/j.jaci.2016.06.060

Pathways through which asthma risk factors contribute to asthma severity in inner-city children

Andrew H. Liu, Denise C. Babineau, Rebecca Z. Krouse, Edward M. Zoratti, Jacqueline A. Pongracic, George T. O'Connor, Robert A. Wood, Gurjit K. Khurana Hershey, Carolyn M. Kercsmar, Rebecca S. Gruchalla, Meyer Kattan, Stephen J. Teach, Melanie Makhija, Dinesh Pillai, Carin I. Lamm, James E. Gern, Steven M. Sigelman, Peter J. Gergen, Alkis Togias, Cynthia M. VisnessWilliam W. Busse

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62 Scopus citations

Abstract

Background Pathway analyses can be used to determine how host and environmental factors contribute to asthma severity. Objective To investigate pathways explaining asthma severity in inner-city children. Methods On the basis of medical evidence in the published literature, we developed a conceptual model to describe how 8 risk-factor domains (allergen sensitization, allergic inflammation, pulmonary physiology, stress, obesity, vitamin D, environmental tobacco smoke [ETS] exposure, and rhinitis severity) are linked to asthma severity. To estimate the relative magnitude and significance of hypothesized relationships among these domains and asthma severity, we applied a causal network analysis to test our model in an Inner-City Asthma Consortium study. Participants comprised 6- to 17-year-old children (n = 561) with asthma and rhinitis from 9 US inner cities who were evaluated every 2 months for 1 year. Asthma severity was measured by a longitudinal composite assessment of day and night symptoms, exacerbations, and controller usage. Results Our conceptual model explained 53.4% of the variance in asthma severity. An allergy pathway (linking allergen sensitization, allergic inflammation, pulmonary physiology, and rhinitis severity domains to asthma severity) and the ETS exposure pathway (linking ETS exposure and pulmonary physiology domains to asthma severity) exerted significant effects on asthma severity. Among the domains, pulmonary physiology and rhinitis severity had the largest significant standardized total effects on asthma severity (−0.51 and 0.48, respectively), followed by ETS exposure (0.30) and allergic inflammation (0.22). Although vitamin D had modest but significant indirect effects on asthma severity, its total effect was insignificant (0.01). Conclusions The standardized effect sizes generated by a causal network analysis quantify the relative contributions of different domains and can be used to prioritize interventions to address asthma severity.

Original language	English (US)
Pages (from-to)	1042-1050
Number of pages	9
Journal	Journal of Allergy and Clinical Immunology
Volume	138
Issue number	4
DOIs	https://doi.org/10.1016/j.jaci.2016.06.060
State	Published - Oct 1 2016

Keywords

Asthma
allergy
children
environmental tobacco smoke exposure
inflammation
inner-city
lung function
pulmonary physiology
rhinitis
sensitization

ASJC Scopus subject areas

Immunology and Allergy
Immunology

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10.1016/j.jaci.2016.06.060

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Liu, A. H., Babineau, D. C., Krouse, R. Z., Zoratti, E. M., Pongracic, J. A., O'Connor, G. T., Wood, R. A., Khurana Hershey, G. K., Kercsmar, C. M., Gruchalla, R. S., Kattan, M., Teach, S. J., Makhija, M., Pillai, D., Lamm, C. I., Gern, J. E., Sigelman, S. M., Gergen, P. J., Togias, A., ... Busse, W. W. (2016). Pathways through which asthma risk factors contribute to asthma severity in inner-city children. Journal of Allergy and Clinical Immunology, 138(4), 1042-1050. https://doi.org/10.1016/j.jaci.2016.06.060

Liu, AH, Babineau, DC, Krouse, RZ, Zoratti, EM, Pongracic, JA, O'Connor, GT, Wood, RA, Khurana Hershey, GK, Kercsmar, CM, Gruchalla, RS, Kattan, M, Teach, SJ, Makhija, M, Pillai, D, Lamm, CI, Gern, JE, Sigelman, SM, Gergen, PJ, Togias, A, Visness, CM & Busse, WW 2016, 'Pathways through which asthma risk factors contribute to asthma severity in inner-city children', Journal of Allergy and Clinical Immunology, vol. 138, no. 4, pp. 1042-1050. https://doi.org/10.1016/j.jaci.2016.06.060

@article{0565e599b34249da9bdad3e03a415382,

title = "Pathways through which asthma risk factors contribute to asthma severity in inner-city children",

abstract = "Background Pathway analyses can be used to determine how host and environmental factors contribute to asthma severity. Objective To investigate pathways explaining asthma severity in inner-city children. Methods On the basis of medical evidence in the published literature, we developed a conceptual model to describe how 8 risk-factor domains (allergen sensitization, allergic inflammation, pulmonary physiology, stress, obesity, vitamin D, environmental tobacco smoke [ETS] exposure, and rhinitis severity) are linked to asthma severity. To estimate the relative magnitude and significance of hypothesized relationships among these domains and asthma severity, we applied a causal network analysis to test our model in an Inner-City Asthma Consortium study. Participants comprised 6- to 17-year-old children (n = 561) with asthma and rhinitis from 9 US inner cities who were evaluated every 2 months for 1 year. Asthma severity was measured by a longitudinal composite assessment of day and night symptoms, exacerbations, and controller usage. Results Our conceptual model explained 53.4% of the variance in asthma severity. An allergy pathway (linking allergen sensitization, allergic inflammation, pulmonary physiology, and rhinitis severity domains to asthma severity) and the ETS exposure pathway (linking ETS exposure and pulmonary physiology domains to asthma severity) exerted significant effects on asthma severity. Among the domains, pulmonary physiology and rhinitis severity had the largest significant standardized total effects on asthma severity (−0.51 and 0.48, respectively), followed by ETS exposure (0.30) and allergic inflammation (0.22). Although vitamin D had modest but significant indirect effects on asthma severity, its total effect was insignificant (0.01). Conclusions The standardized effect sizes generated by a causal network analysis quantify the relative contributions of different domains and can be used to prioritize interventions to address asthma severity.",

keywords = "Asthma, allergy, children, environmental tobacco smoke exposure, inflammation, inner-city, lung function, pulmonary physiology, rhinitis, sensitization",

author = "Liu, {Andrew H.} and Babineau, {Denise C.} and Krouse, {Rebecca Z.} and Zoratti, {Edward M.} and Pongracic, {Jacqueline A.} and O'Connor, {George T.} and Wood, {Robert A.} and {Khurana Hershey}, {Gurjit K.} and Kercsmar, {Carolyn M.} and Gruchalla, {Rebecca S.} and Meyer Kattan and Teach, {Stephen J.} and Melanie Makhija and Dinesh Pillai and Lamm, {Carin I.} and Gern, {James E.} and Sigelman, {Steven M.} and Gergen, {Peter J.} and Alkis Togias and Visness, {Cynthia M.} and Busse, {William W.}",

note = "Publisher Copyright: {\textcopyright} 2016 American Academy of Allergy, Asthma & Immunology",

year = "2016",

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doi = "10.1016/j.jaci.2016.06.060",

language = "English (US)",

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pages = "1042--1050",

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T1 - Pathways through which asthma risk factors contribute to asthma severity in inner-city children

AU - Liu, Andrew H.

AU - Babineau, Denise C.

AU - Krouse, Rebecca Z.

AU - Zoratti, Edward M.

AU - Pongracic, Jacqueline A.

AU - O'Connor, George T.

AU - Wood, Robert A.

AU - Khurana Hershey, Gurjit K.

AU - Kercsmar, Carolyn M.

AU - Gruchalla, Rebecca S.

AU - Kattan, Meyer

AU - Teach, Stephen J.

AU - Makhija, Melanie

AU - Pillai, Dinesh

AU - Lamm, Carin I.

AU - Gern, James E.

AU - Sigelman, Steven M.

AU - Gergen, Peter J.

AU - Togias, Alkis

AU - Visness, Cynthia M.

AU - Busse, William W.

PY - 2016/10/1

Y1 - 2016/10/1

N2 - Background Pathway analyses can be used to determine how host and environmental factors contribute to asthma severity. Objective To investigate pathways explaining asthma severity in inner-city children. Methods On the basis of medical evidence in the published literature, we developed a conceptual model to describe how 8 risk-factor domains (allergen sensitization, allergic inflammation, pulmonary physiology, stress, obesity, vitamin D, environmental tobacco smoke [ETS] exposure, and rhinitis severity) are linked to asthma severity. To estimate the relative magnitude and significance of hypothesized relationships among these domains and asthma severity, we applied a causal network analysis to test our model in an Inner-City Asthma Consortium study. Participants comprised 6- to 17-year-old children (n = 561) with asthma and rhinitis from 9 US inner cities who were evaluated every 2 months for 1 year. Asthma severity was measured by a longitudinal composite assessment of day and night symptoms, exacerbations, and controller usage. Results Our conceptual model explained 53.4% of the variance in asthma severity. An allergy pathway (linking allergen sensitization, allergic inflammation, pulmonary physiology, and rhinitis severity domains to asthma severity) and the ETS exposure pathway (linking ETS exposure and pulmonary physiology domains to asthma severity) exerted significant effects on asthma severity. Among the domains, pulmonary physiology and rhinitis severity had the largest significant standardized total effects on asthma severity (−0.51 and 0.48, respectively), followed by ETS exposure (0.30) and allergic inflammation (0.22). Although vitamin D had modest but significant indirect effects on asthma severity, its total effect was insignificant (0.01). Conclusions The standardized effect sizes generated by a causal network analysis quantify the relative contributions of different domains and can be used to prioritize interventions to address asthma severity.

AB - Background Pathway analyses can be used to determine how host and environmental factors contribute to asthma severity. Objective To investigate pathways explaining asthma severity in inner-city children. Methods On the basis of medical evidence in the published literature, we developed a conceptual model to describe how 8 risk-factor domains (allergen sensitization, allergic inflammation, pulmonary physiology, stress, obesity, vitamin D, environmental tobacco smoke [ETS] exposure, and rhinitis severity) are linked to asthma severity. To estimate the relative magnitude and significance of hypothesized relationships among these domains and asthma severity, we applied a causal network analysis to test our model in an Inner-City Asthma Consortium study. Participants comprised 6- to 17-year-old children (n = 561) with asthma and rhinitis from 9 US inner cities who were evaluated every 2 months for 1 year. Asthma severity was measured by a longitudinal composite assessment of day and night symptoms, exacerbations, and controller usage. Results Our conceptual model explained 53.4% of the variance in asthma severity. An allergy pathway (linking allergen sensitization, allergic inflammation, pulmonary physiology, and rhinitis severity domains to asthma severity) and the ETS exposure pathway (linking ETS exposure and pulmonary physiology domains to asthma severity) exerted significant effects on asthma severity. Among the domains, pulmonary physiology and rhinitis severity had the largest significant standardized total effects on asthma severity (−0.51 and 0.48, respectively), followed by ETS exposure (0.30) and allergic inflammation (0.22). Although vitamin D had modest but significant indirect effects on asthma severity, its total effect was insignificant (0.01). Conclusions The standardized effect sizes generated by a causal network analysis quantify the relative contributions of different domains and can be used to prioritize interventions to address asthma severity.

KW - Asthma

KW - allergy

KW - children

KW - environmental tobacco smoke exposure

KW - inflammation

KW - inner-city

KW - lung function

KW - pulmonary physiology

KW - rhinitis

KW - sensitization

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ER -

Pathways through which asthma risk factors contribute to asthma severity in inner-city children

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