The Experts below are selected from a list of 114 Experts worldwide ranked by ideXlab platform
Elisabeth Schmauserhechfellner - One of the best experts on this subject based on the ideXlab platform.
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Latent class analysis reveals clinically relevant atopy phenotypes in 2 birth cohorts
The Journal of Allergy and Clinical Immunology, 2017Co-Authors: Alexander J Hose, Martin Depner, Sabina Illi, Thomas Keil, Ulrich Wahn, Oliver Fuchs, Petra Ina Pfefferle, Elisabeth SchmauserhechfellnerAbstract:Background Phenotypes of childhood-onset asthma are characterized by distinct trajectories and functional features. For atopy, definition of phenotypes during childhood is less clear. Objective We sought to define phenotypes of atopic sensitization over the first 6 years of life using a Latent class analysis (LCA) integrating 3 dimensions of atopy: allergen specificity, time course, and levels of specific IgE (sIgE). Methods Phenotypes were defined by means of LCA in 680 children of the Multizentrische Allergiestudie (MAS) and 766 children of the Protection against allergy: Study in Rural Environments (PASTURE) birth cohorts and compared with classical nondisjunctive definitions of seasonal, perennial, and food sensitization with respect to atopic diseases and lung function. Cytokine levels were measured in the PASTURE cohort. Results The LCA classified predominantly by type and multiplicity of sensitization (food vs inhalant), allergen combinations, and sIgE levels. Latent classes were related to atopic disease manifestations with higher sensitivity and specificity than the classical definitions. LCA detected consistently in both cohorts a distinct group of children with severe atopy characterized by high seasonal sIgE levels and a strong propensity for asthma; hay fever; eczema; and impaired lung function, also in children without an established asthma diagnosis. Severe atopy was associated with an increased IL-5/IFN-γ ratio. A path analysis among sensitized children revealed that among all features of severe atopy, only excessive sIgE production early in life affected asthma risk. Conclusions LCA revealed a set of benign, symptomatic, and severe atopy phenotypes. The severe phenotype emerged as a Latent Condition with signs of a dysbalanced immune response. It determined high asthma risk through excessive sIgE production and directly affected impaired lung function.
Thomas Keil - One of the best experts on this subject based on the ideXlab platform.
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Latent class analysis reveals clinically relevant atopy phenotypes in 2 birth cohorts
The Journal of Allergy and Clinical Immunology, 2017Co-Authors: Alexander J Hose, Martin Depner, Sabina Illi, Thomas Keil, Ulrich Wahn, Oliver Fuchs, Petra Ina Pfefferle, Elisabeth SchmauserhechfellnerAbstract:Background Phenotypes of childhood-onset asthma are characterized by distinct trajectories and functional features. For atopy, definition of phenotypes during childhood is less clear. Objective We sought to define phenotypes of atopic sensitization over the first 6 years of life using a Latent class analysis (LCA) integrating 3 dimensions of atopy: allergen specificity, time course, and levels of specific IgE (sIgE). Methods Phenotypes were defined by means of LCA in 680 children of the Multizentrische Allergiestudie (MAS) and 766 children of the Protection against allergy: Study in Rural Environments (PASTURE) birth cohorts and compared with classical nondisjunctive definitions of seasonal, perennial, and food sensitization with respect to atopic diseases and lung function. Cytokine levels were measured in the PASTURE cohort. Results The LCA classified predominantly by type and multiplicity of sensitization (food vs inhalant), allergen combinations, and sIgE levels. Latent classes were related to atopic disease manifestations with higher sensitivity and specificity than the classical definitions. LCA detected consistently in both cohorts a distinct group of children with severe atopy characterized by high seasonal sIgE levels and a strong propensity for asthma; hay fever; eczema; and impaired lung function, also in children without an established asthma diagnosis. Severe atopy was associated with an increased IL-5/IFN-γ ratio. A path analysis among sensitized children revealed that among all features of severe atopy, only excessive sIgE production early in life affected asthma risk. Conclusions LCA revealed a set of benign, symptomatic, and severe atopy phenotypes. The severe phenotype emerged as a Latent Condition with signs of a dysbalanced immune response. It determined high asthma risk through excessive sIgE production and directly affected impaired lung function.
Oliver Fuchs - One of the best experts on this subject based on the ideXlab platform.
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Latent class analysis reveals clinically relevant atopy phenotypes in 2 birth cohorts
The Journal of Allergy and Clinical Immunology, 2017Co-Authors: Alexander J Hose, Martin Depner, Sabina Illi, Thomas Keil, Ulrich Wahn, Oliver Fuchs, Petra Ina Pfefferle, Elisabeth SchmauserhechfellnerAbstract:Background Phenotypes of childhood-onset asthma are characterized by distinct trajectories and functional features. For atopy, definition of phenotypes during childhood is less clear. Objective We sought to define phenotypes of atopic sensitization over the first 6 years of life using a Latent class analysis (LCA) integrating 3 dimensions of atopy: allergen specificity, time course, and levels of specific IgE (sIgE). Methods Phenotypes were defined by means of LCA in 680 children of the Multizentrische Allergiestudie (MAS) and 766 children of the Protection against allergy: Study in Rural Environments (PASTURE) birth cohorts and compared with classical nondisjunctive definitions of seasonal, perennial, and food sensitization with respect to atopic diseases and lung function. Cytokine levels were measured in the PASTURE cohort. Results The LCA classified predominantly by type and multiplicity of sensitization (food vs inhalant), allergen combinations, and sIgE levels. Latent classes were related to atopic disease manifestations with higher sensitivity and specificity than the classical definitions. LCA detected consistently in both cohorts a distinct group of children with severe atopy characterized by high seasonal sIgE levels and a strong propensity for asthma; hay fever; eczema; and impaired lung function, also in children without an established asthma diagnosis. Severe atopy was associated with an increased IL-5/IFN-γ ratio. A path analysis among sensitized children revealed that among all features of severe atopy, only excessive sIgE production early in life affected asthma risk. Conclusions LCA revealed a set of benign, symptomatic, and severe atopy phenotypes. The severe phenotype emerged as a Latent Condition with signs of a dysbalanced immune response. It determined high asthma risk through excessive sIgE production and directly affected impaired lung function.
Alexander J Hose - One of the best experts on this subject based on the ideXlab platform.
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Latent class analysis reveals clinically relevant atopy phenotypes in 2 birth cohorts
The Journal of Allergy and Clinical Immunology, 2017Co-Authors: Alexander J Hose, Martin Depner, Sabina Illi, Thomas Keil, Ulrich Wahn, Oliver Fuchs, Petra Ina Pfefferle, Elisabeth SchmauserhechfellnerAbstract:Background Phenotypes of childhood-onset asthma are characterized by distinct trajectories and functional features. For atopy, definition of phenotypes during childhood is less clear. Objective We sought to define phenotypes of atopic sensitization over the first 6 years of life using a Latent class analysis (LCA) integrating 3 dimensions of atopy: allergen specificity, time course, and levels of specific IgE (sIgE). Methods Phenotypes were defined by means of LCA in 680 children of the Multizentrische Allergiestudie (MAS) and 766 children of the Protection against allergy: Study in Rural Environments (PASTURE) birth cohorts and compared with classical nondisjunctive definitions of seasonal, perennial, and food sensitization with respect to atopic diseases and lung function. Cytokine levels were measured in the PASTURE cohort. Results The LCA classified predominantly by type and multiplicity of sensitization (food vs inhalant), allergen combinations, and sIgE levels. Latent classes were related to atopic disease manifestations with higher sensitivity and specificity than the classical definitions. LCA detected consistently in both cohorts a distinct group of children with severe atopy characterized by high seasonal sIgE levels and a strong propensity for asthma; hay fever; eczema; and impaired lung function, also in children without an established asthma diagnosis. Severe atopy was associated with an increased IL-5/IFN-γ ratio. A path analysis among sensitized children revealed that among all features of severe atopy, only excessive sIgE production early in life affected asthma risk. Conclusions LCA revealed a set of benign, symptomatic, and severe atopy phenotypes. The severe phenotype emerged as a Latent Condition with signs of a dysbalanced immune response. It determined high asthma risk through excessive sIgE production and directly affected impaired lung function.
Martin Depner - One of the best experts on this subject based on the ideXlab platform.
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Latent class analysis reveals clinically relevant atopy phenotypes in 2 birth cohorts
The Journal of Allergy and Clinical Immunology, 2017Co-Authors: Alexander J Hose, Martin Depner, Sabina Illi, Thomas Keil, Ulrich Wahn, Oliver Fuchs, Petra Ina Pfefferle, Elisabeth SchmauserhechfellnerAbstract:Background Phenotypes of childhood-onset asthma are characterized by distinct trajectories and functional features. For atopy, definition of phenotypes during childhood is less clear. Objective We sought to define phenotypes of atopic sensitization over the first 6 years of life using a Latent class analysis (LCA) integrating 3 dimensions of atopy: allergen specificity, time course, and levels of specific IgE (sIgE). Methods Phenotypes were defined by means of LCA in 680 children of the Multizentrische Allergiestudie (MAS) and 766 children of the Protection against allergy: Study in Rural Environments (PASTURE) birth cohorts and compared with classical nondisjunctive definitions of seasonal, perennial, and food sensitization with respect to atopic diseases and lung function. Cytokine levels were measured in the PASTURE cohort. Results The LCA classified predominantly by type and multiplicity of sensitization (food vs inhalant), allergen combinations, and sIgE levels. Latent classes were related to atopic disease manifestations with higher sensitivity and specificity than the classical definitions. LCA detected consistently in both cohorts a distinct group of children with severe atopy characterized by high seasonal sIgE levels and a strong propensity for asthma; hay fever; eczema; and impaired lung function, also in children without an established asthma diagnosis. Severe atopy was associated with an increased IL-5/IFN-γ ratio. A path analysis among sensitized children revealed that among all features of severe atopy, only excessive sIgE production early in life affected asthma risk. Conclusions LCA revealed a set of benign, symptomatic, and severe atopy phenotypes. The severe phenotype emerged as a Latent Condition with signs of a dysbalanced immune response. It determined high asthma risk through excessive sIgE production and directly affected impaired lung function.
