Your search keyword '"Valentina Agnese"' showing total 6 results

1. Metabolomic Profile at Birth, Bronchiolitis and Recurrent Wheezing: A 3-Year Prospective Study

Author

Silvia Carraro, Valentina Agnese Ferraro, Michela Maretti, Giuseppe Giordano, Paola Pirillo, Matteo Stocchero, Stefania Zanconato, and Eugenio Baraldi

Subjects

bronchiolitis, recurrent wheezing, metabolomics, urine, neonate, Microbiology, QR1-502

Abstract

There is growing interest for studying how early-life influences the development of respiratory diseases. Our aim was to apply metabolomic analysis to urine collected at birth, to evaluate whether there is any early metabolic signatures capable to distinguish children who will develop acute bronchiolitis and/or recurrent wheezing. Urine was collected at birth in healthy term newborns. Children were followed up to the age of 3 years and evaluated for the development of acute bronchiolitis and recurrent wheezing (≥3 episodes). Urine were analyzed through a liquid-chromatography mass-spectrometry based untargeted approach. Metabolomic data were investigated applying univariate and multivariate techniques. 205 children were included: 35 had bronchiolitis, 11 of whom had recurrent wheezing. Moreover, 13 children had recurrent wheezing not preceded by bronchiolitis. Multivariate data analysis didn’t lead to reliable classification models capable to distinguish children with and without bronchiolitis or with recurrent wheezing preceded by bronchiolitis neither by PLS for classification (PLS2C) nor by Random Forest (RF). However, a reliable signature was discovered to distinguish children who later develop recurrent wheezing not preceded by bronchiolitis, from those who do not (MCCoob = 0.45 for PLS2C and MCCoob = 0.48 for RF). In this unselected birth cohort, a well-established untargeted metabolomic approach found no biochemical-metabolic dysregulation at birth associated with the subsequent development of acute bronchiolitis or recurrent wheezing post-bronchiolitis, not supporting the hypothesis of an underlying predisposing background. On the other hand, a metabolic signature was discovered that characterizes children who develop wheezing not preceded by bronchiolitis.

Published

2021

2. Breathomics in Asthmatic Children Treated with Inhaled Corticosteroids

Author

Valentina Agnese Ferraro, Silvia Carraro, Paola Pirillo, Antonina Gucciardi, Gabriele Poloniato, Matteo Stocchero, Giuseppe Giordano, Stefania Zanconato, and Eugenio Baraldi

Subjects

pediatric asthma, breathomics, inhaled corticosteroids, endogenous steroid profile, Microbiology, QR1-502

Abstract

Background: “breathomics” enables indirect analysis of metabolic patterns underlying a respiratory disease. In this study, we analyze exhaled breath condensate (EBC) in asthmatic children before (T0) and after (T1) a three-week course of inhaled beclomethasone dipropionate (BDP). Methods: we recruited steroid-naive asthmatic children for whom inhaled steroids were indicated and healthy children, evaluating asthma control, spirometry and EBC (in asthmatics at T0 and T1). A liquid-chromatography–mass-spectrometry untargeted analysis was applied to EBC and a mass spectrometry-based target analysis to urine samples. Results: metabolomic analysis discriminated asthmatic (n = 26) from healthy children (n = 16) at T0 and T1, discovering 108 and 65 features relevant for the discrimination, respectively. Searching metabolomics databases, seven putative biomarkers with a plausible role in asthma biochemical–metabolic processes were found. After BDP treatment, asthmatic children, in the face of an improved asthma control (p < 0.001) and lung function (p = 0.01), showed neither changes in EBC metabolomic profile nor in urinary endogenous steroid profile. Conclusions: “breathomics” can discriminate asthmatic from healthy children, with prostaglandin, fatty acid and glycerophospholipid as putative markers. The three-week course of BDP—in spite of a significant clinical improvement—was not associated with changes in EBC metabolic arrangement and urinary steroid profile.

Published

2020

3. Metabolomic Profile at Birth, Bronchiolitis and Recurrent Wheezing: A 3-Year Prospective Study

Author

Carraro, Silvia, primary, Ferraro, Valentina Agnese, additional, Maretti, Michela, additional, Giordano, Giuseppe, additional, Pirillo, Paola, additional, Stocchero, Matteo, additional, Zanconato, Stefania, additional, and Baraldi, Eugenio, additional

Published

2021

4. Metabolomic Profile at Birth, Bronchiolitis and Recurrent Wheezing: A 3-Year Prospective Study

Author

Valentina Agnese Ferraro, Giuseppe Giordano, Stefania Zanconato, Paola Pirillo, Matteo Stocchero, Silvia Carraro, Michela Maretti, and Eugenio Baraldi

Subjects

Pediatrics, medicine.medical_specialty, Multivariate analysis, business.industry, bronchiolitis, recurrent wheezing, metabolomics, urine, neonate, Endocrinology, Diabetes and Metabolism, medicine.disease, Microbiology, Biochemistry, Article, Bronchiolitis, Metabolomics, Neonate, Recurrent wheezing, Urine, QR1-502, Acute Bronchiolitis, medicine, Birth cohort, business, Prospective cohort study, Molecular Biology

Abstract

There is growing interest for studying how early-life influences the development of respiratory diseases. Our aim was to apply metabolomic analysis to urine collected at birth, to evaluate whether there is any early metabolic signatures capable to distinguish children who will develop acute bronchiolitis and/or recurrent wheezing. Urine was collected at birth in healthy term newborns. Children were followed up to the age of 3 years and evaluated for the development of acute bronchiolitis and recurrent wheezing (≥3 episodes). Urine were analyzed through a liquid-chromatography mass-spectrometry based untargeted approach. Metabolomic data were investigated applying univariate and multivariate techniques. 205 children were included: 35 had bronchiolitis, 11 of whom had recurrent wheezing. Moreover, 13 children had recurrent wheezing not preceded by bronchiolitis. Multivariate data analysis didn’t lead to reliable classification models capable to distinguish children with and without bronchiolitis or with recurrent wheezing preceded by bronchiolitis neither by PLS for classification (PLS2C) nor by Random Forest (RF). However, a reliable signature was discovered to distinguish children who later develop recurrent wheezing not preceded by bronchiolitis, from those who do not (MCCoob = 0.45 for PLS2C and MCCoob = 0.48 for RF). In this unselected birth cohort, a well-established untargeted metabolomic approach found no biochemical-metabolic dysregulation at birth associated with the subsequent development of acute bronchiolitis or recurrent wheezing post-bronchiolitis, not supporting the hypothesis of an underlying predisposing background. On the other hand, a metabolic signature was discovered that characterizes children who develop wheezing not preceded by bronchiolitis.

Published

2021

5. Breathomics in Asthmatic Children Treated with Inhaled Corticosteroids

Author

Ferraro, Valentina Agnese, primary, Carraro, Silvia, additional, Pirillo, Paola, additional, Gucciardi, Antonina, additional, Poloniato, Gabriele, additional, Stocchero, Matteo, additional, Giordano, Giuseppe, additional, Zanconato, Stefania, additional, and Baraldi, Eugenio, additional

Published

2020

6. Breathomics in Asthmatic Children Treated with Inhaled Corticosteroids

Author

Silvia Carraro, Stefania Zanconato, Paola Pirillo, Valentina Agnese Ferraro, Giuseppe Giordano, Antonina Gucciardi, Eugenio Baraldi, Gabriele Poloniato, and Matteo Stocchero

Subjects

0301 basic medicine, Spirometry, medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, Urinary system, lcsh:QR1-502, Inhaled corticosteroids, Urine, Biochemistry, Gastroenterology, lcsh:Microbiology, Article, breathomics, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Medicine, Exhaled breath condensate, Molecular Biology, Breathomics, Endogenous steroid profile, Pediatric asthma, Asthma, endogenous steroid profile, medicine.diagnostic_test, business.industry, Respiratory disease, medicine.disease, respiratory tract diseases, Asthmatic children, 030104 developmental biology, 030228 respiratory system, inhaled corticosteroids, business, pediatric asthma

Abstract

Background: &ldquo, breathomics&rdquo, enables indirect analysis of metabolic patterns underlying a respiratory disease. In this study, we analyze exhaled breath condensate (EBC) in asthmatic children before (T0) and after (T1) a three-week course of inhaled beclomethasone dipropionate (BDP). Methods: we recruited steroid-naive asthmatic children for whom inhaled steroids were indicated and healthy children, evaluating asthma control, spirometry and EBC (in asthmatics at T0 and T1). A liquid-chromatography&ndash, mass-spectrometry untargeted analysis was applied to EBC and a mass spectrometry-based target analysis to urine samples. Results: metabolomic analysis discriminated asthmatic (n = 26) from healthy children (n = 16) at T0 and T1, discovering 108 and 65 features relevant for the discrimination, respectively. Searching metabolomics databases, seven putative biomarkers with a plausible role in asthma biochemical&ndash, metabolic processes were found. After BDP treatment, asthmatic children, in the face of an improved asthma control (p &lt, 0.001) and lung function (p = 0.01), showed neither changes in EBC metabolomic profile nor in urinary endogenous steroid profile. Conclusions: &ldquo, can discriminate asthmatic from healthy children, with prostaglandin, fatty acid and glycerophospholipid as putative markers. The three-week course of BDP&mdash, in spite of a significant clinical improvement&mdash, was not associated with changes in EBC metabolic arrangement and urinary steroid profile.

Published

2020