Metabolic profiles among COPD and controls in the CanCOLD population-based cohort

Damien Viglino; Mickaël Martin; Marie Eve Piché; Cynthia Brouillard; Jean Pierre Després; Natalie Alméras; Wan C. Tan; Valérie Coats; Jean Bourbeau; Jean Louis Pépin; François Maltais; J. Mark Fitzgerald; D. D. Sin; D. D. Marciniuk; D. E. O'Donnell; Paul Hernandez; Kenneth R. Chapman; Robert Cowie; Shawn Aaron; Jonathon Samet; Milo Puhan; Qutayba Hamid; James C. Hogg; Carole Baglole; Carole Jabet; Palmina Mancino; Yvan Fortier; Sheena Tam; Jeremy Road; Joe Comeau; Adrian Png; Harvey Coxson; Miranda Kirby; Jonathon Leipsic; Cameron Hague; Mohsen Sadatsafavi; Teresa To; Andrea Gershon; Pei Zhi Li; Jean Francois Duquette; Andrea Benedetti; Denis Jensen; Denis O'Donnell; Christine Lo; Sarah Cheng; Cindy Fung; Nancy Ferguson; Nancy Haynes; Junior Chuang; Licong Li; Selva Bayat; Amanda Wong; Zoe Alavi; Catherine Peng; Bin Zhao; Nathalie Scott-Hsiung; Tasha Nadirshaw; David Latreille; Jacinthe Baril; Laura Labonte; Patricia McClean; Nadeen Audisho; Brandie Walker; Ann Cowie; Curtis Dumonceaux; Lisette Machado; Scott Fulton; Kristen Osterling; Kathy Vandemheen; Gay Pratt; Amanda Bergeron; Matthew McNeil; Kate Whelan; Ron Clemens; Janet Baran

doi:10.1371/journal.pone.0231072

Metabolic profiles among COPD and controls in the CanCOLD population-based cohort

Damien Viglino, Mickaël Martin, Marie Eve Piché, Cynthia Brouillard, Jean Pierre Després, Natalie Alméras, Wan C. Tan, Valérie Coats, Jean Bourbeau, Jean Louis Pépin, François Maltais, J. Mark Fitzgerald, D. D. Sin, D. D. Marciniuk, D. E. O'Donnell, Paul Hernandez, Kenneth R. Chapman, Robert Cowie, Shawn Aaron, Jonathon SametMilo Puhan, Qutayba Hamid, James C. Hogg, Carole Baglole, Carole Jabet, Palmina Mancino, Yvan Fortier, Sheena Tam, Jeremy Road, Joe Comeau, Adrian Png, Harvey Coxson, Miranda Kirby, Jonathon Leipsic, Cameron Hague, Mohsen Sadatsafavi, Teresa To, Andrea Gershon, Pei Zhi Li, Jean Francois Duquette, Andrea Benedetti, Denis Jensen, Denis O'Donnell, Christine Lo, Sarah Cheng, Cindy Fung, Nancy Ferguson, Nancy Haynes, Junior Chuang, Licong Li, Selva Bayat, Amanda Wong, Zoe Alavi, Catherine Peng, Bin Zhao, Nathalie Scott-Hsiung, Tasha Nadirshaw, David Latreille, Jacinthe Baril, Laura Labonte, Patricia McClean, Nadeen Audisho, Brandie Walker, Ann Cowie, Curtis Dumonceaux, Lisette Machado, Scott Fulton, Kristen Osterling, Kathy Vandemheen, Gay Pratt, Amanda Bergeron, Matthew McNeil, Kate Whelan, Ron Clemens, Janet Baran

Medicine

Résultat de recherche: Article › examen par les pairs

8 Citations (Scopus)

Résumé

A high prevalence of intermediate cardiometabolic risk factors and obesity in chronic obstructive pulmonary disease (COPD) has suggested the existence of pathophysiological links between hypertriglyceridemia, insulin resistance, visceral adiposity, and hypoxia or impaired pulmonary function. However, whether COPD contributes independently to the development of these cardiometabolic risk factors remains unclear. Our objective was to compare ectopic fat and metabolic profiles among representative individuals with COPD and control subjects and to evaluate whether the presence of COPD alters the metabolic risk profile. Study participants were randomly selected from the general population and prospectively classified as non-COPD controls and COPD, according to the Global Initiative for Chronic Obstructive Lung Disease classification. The metabolic phenotype, which consisted of visceral adipose tissue area, metabolic markers including homeostasis model assessment of insulin resistance (HOMA-IR), and blood lipid profile, was obtained in 144 subjects with COPD and 119 non-COPD controls. The metabolic phenotype was similar in COPD and controls. The odds ratios for having pathologic values for HOMA-IR, lipids and visceral adipose tissue area were similar in individuals with COPD and control subjects in multivariate analyses that took into account age, sex, body mass index, tobacco status and current medications. In a population-based cohort, no difference was found in the metabolic phenotype, including visceral adipose tissue accumulation, between COPD and controls. Discrepancies between the present and previous studies as to whether or not COPD is a risk factor for metabolic abnormalities could be related to differences in COPD phenotype or disease severity of the study populations.

Langue d'origine	English
Numéro d'article	e0231072
Journal	PLoS One
Volume	15
Numéro de publication	4
DOI	https://doi.org/10.1371/journal.pone.0231072
Statut de publication	Published - avr. 2020

Note bibliographique

Publisher Copyright:
© 2020 Viglino et al.

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General

PubMed: MeSH publication types

Journal Article
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ODD de l’ONU

Cette action contribue à la réalisation des objectifs de développement durable suivants

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10.1371/journal.pone.0231072

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Viglino, D., Martin, M., Piché, M. E., Brouillard, C., Després, J. P., Alméras, N., Tan, W. C., Coats, V., Bourbeau, J., Pépin, J. L., Maltais, F., Fitzgerald, J. M., Sin, D. D., Marciniuk, D. D., O'Donnell, D. E., Hernandez, P., Chapman, K. R., Cowie, R., Aaron, S., ... Baran, J. (2020). Metabolic profiles among COPD and controls in the CanCOLD population-based cohort. PLoS One, 15(4), Article e0231072. https://doi.org/10.1371/journal.pone.0231072

Viglino, D, Martin, M, Piché, ME, Brouillard, C, Després, JP, Alméras, N, Tan, WC, Coats, V, Bourbeau, J, Pépin, JL, Maltais, F, Fitzgerald, JM, Sin, DD, Marciniuk, DD, O'Donnell, DE, Hernandez, P, Chapman, KR, Cowie, R, Aaron, S, Samet, J, Puhan, M, Hamid, Q, Hogg, JC, Baglole, C, Jabet, C, Mancino, P, Fortier, Y, Tam, S, Road, J, Comeau, J, Png, A, Coxson, H, Kirby, M, Leipsic, J, Hague, C, Sadatsafavi, M, To, T, Gershon, A, Li, PZ, Duquette, JF, Benedetti, A, Jensen, D, O'Donnell, D, Lo, C, Cheng, S, Fung, C, Ferguson, N, Haynes, N, Chuang, J, Li, L, Bayat, S, Wong, A, Alavi, Z, Peng, C, Zhao, B, Scott-Hsiung, N, Nadirshaw, T, Latreille, D, Baril, J, Labonte, L, McClean, P, Audisho, N, Walker, B, Cowie, A, Dumonceaux, C, Machado, L, Fulton, S, Osterling, K, Vandemheen, K, Pratt, G, Bergeron, A, McNeil, M, Whelan, K, Clemens, R & Baran, J 2020, 'Metabolic profiles among COPD and controls in the CanCOLD population-based cohort', PLoS One, vol. 15, n° 4, e0231072. https://doi.org/10.1371/journal.pone.0231072

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title = "Metabolic profiles among COPD and controls in the CanCOLD population-based cohort",

abstract = "A high prevalence of intermediate cardiometabolic risk factors and obesity in chronic obstructive pulmonary disease (COPD) has suggested the existence of pathophysiological links between hypertriglyceridemia, insulin resistance, visceral adiposity, and hypoxia or impaired pulmonary function. However, whether COPD contributes independently to the development of these cardiometabolic risk factors remains unclear. Our objective was to compare ectopic fat and metabolic profiles among representative individuals with COPD and control subjects and to evaluate whether the presence of COPD alters the metabolic risk profile. Study participants were randomly selected from the general population and prospectively classified as non-COPD controls and COPD, according to the Global Initiative for Chronic Obstructive Lung Disease classification. The metabolic phenotype, which consisted of visceral adipose tissue area, metabolic markers including homeostasis model assessment of insulin resistance (HOMA-IR), and blood lipid profile, was obtained in 144 subjects with COPD and 119 non-COPD controls. The metabolic phenotype was similar in COPD and controls. The odds ratios for having pathologic values for HOMA-IR, lipids and visceral adipose tissue area were similar in individuals with COPD and control subjects in multivariate analyses that took into account age, sex, body mass index, tobacco status and current medications. In a population-based cohort, no difference was found in the metabolic phenotype, including visceral adipose tissue accumulation, between COPD and controls. Discrepancies between the present and previous studies as to whether or not COPD is a risk factor for metabolic abnormalities could be related to differences in COPD phenotype or disease severity of the study populations.",

author = "Damien Viglino and Micka{\"e}l Martin and Pich{\'e}, {Marie Eve} and Cynthia Brouillard and Despr{\'e}s, {Jean Pierre} and Natalie Alm{\'e}ras and Tan, {Wan C.} and Val{\'e}rie Coats and Jean Bourbeau and P{\'e}pin, {Jean Louis} and Fran{\c c}ois Maltais and Fitzgerald, {J. Mark} and Sin, {D. D.} and Marciniuk, {D. D.} and O'Donnell, {D. E.} and Paul Hernandez and Chapman, {Kenneth R.} and Robert Cowie and Shawn Aaron and Jonathon Samet and Milo Puhan and Qutayba Hamid and Hogg, {James C.} and Carole Baglole and Carole Jabet and Palmina Mancino and Yvan Fortier and Sheena Tam and Jeremy Road and Joe Comeau and Adrian Png and Harvey Coxson and Miranda Kirby and Jonathon Leipsic and Cameron Hague and Mohsen Sadatsafavi and Teresa To and Andrea Gershon and Li, {Pei Zhi} and Duquette, {Jean Francois} and Andrea Benedetti and Denis Jensen and Denis O'Donnell and Christine Lo and Sarah Cheng and Cindy Fung and Nancy Ferguson and Nancy Haynes and Junior Chuang and Licong Li and Selva Bayat and Amanda Wong and Zoe Alavi and Catherine Peng and Bin Zhao and Nathalie Scott-Hsiung and Tasha Nadirshaw and David Latreille and Jacinthe Baril and Laura Labonte and Patricia McClean and Nadeen Audisho and Brandie Walker and Ann Cowie and Curtis Dumonceaux and Lisette Machado and Scott Fulton and Kristen Osterling and Kathy Vandemheen and Gay Pratt and Amanda Bergeron and Matthew McNeil and Kate Whelan and Ron Clemens and Janet Baran",

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AU - Viglino, Damien

AU - Martin, Mickaël

AU - Piché, Marie Eve

AU - Brouillard, Cynthia

AU - Després, Jean Pierre

AU - Alméras, Natalie

AU - Tan, Wan C.

AU - Coats, Valérie

AU - Bourbeau, Jean

AU - Pépin, Jean Louis

AU - Maltais, François

AU - Fitzgerald, J. Mark

AU - Sin, D. D.

AU - Marciniuk, D. D.

AU - O'Donnell, D. E.

AU - Hernandez, Paul

AU - Chapman, Kenneth R.

AU - Cowie, Robert

AU - Aaron, Shawn

AU - Samet, Jonathon

AU - Puhan, Milo

AU - Hamid, Qutayba

AU - Hogg, James C.

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AU - Jabet, Carole

AU - Mancino, Palmina

AU - Fortier, Yvan

AU - Tam, Sheena

AU - Road, Jeremy

AU - Comeau, Joe

AU - Png, Adrian

AU - Coxson, Harvey

AU - Kirby, Miranda

AU - Leipsic, Jonathon

AU - Hague, Cameron

AU - Sadatsafavi, Mohsen

AU - To, Teresa

AU - Gershon, Andrea

AU - Li, Pei Zhi

AU - Duquette, Jean Francois

AU - Benedetti, Andrea

AU - Jensen, Denis

AU - O'Donnell, Denis

AU - Lo, Christine

AU - Cheng, Sarah

AU - Fung, Cindy

AU - Ferguson, Nancy

AU - Haynes, Nancy

AU - Chuang, Junior

AU - Li, Licong

AU - Bayat, Selva

AU - Wong, Amanda

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AU - Peng, Catherine

AU - Zhao, Bin

AU - Scott-Hsiung, Nathalie

AU - Nadirshaw, Tasha

AU - Latreille, David

AU - Baril, Jacinthe

AU - Labonte, Laura

AU - McClean, Patricia

AU - Audisho, Nadeen

AU - Walker, Brandie

AU - Cowie, Ann

AU - Dumonceaux, Curtis

AU - Machado, Lisette

AU - Fulton, Scott

AU - Osterling, Kristen

AU - Vandemheen, Kathy

AU - Pratt, Gay

AU - Bergeron, Amanda

AU - McNeil, Matthew

AU - Whelan, Kate

AU - Clemens, Ron

AU - Baran, Janet

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AB - A high prevalence of intermediate cardiometabolic risk factors and obesity in chronic obstructive pulmonary disease (COPD) has suggested the existence of pathophysiological links between hypertriglyceridemia, insulin resistance, visceral adiposity, and hypoxia or impaired pulmonary function. However, whether COPD contributes independently to the development of these cardiometabolic risk factors remains unclear. Our objective was to compare ectopic fat and metabolic profiles among representative individuals with COPD and control subjects and to evaluate whether the presence of COPD alters the metabolic risk profile. Study participants were randomly selected from the general population and prospectively classified as non-COPD controls and COPD, according to the Global Initiative for Chronic Obstructive Lung Disease classification. The metabolic phenotype, which consisted of visceral adipose tissue area, metabolic markers including homeostasis model assessment of insulin resistance (HOMA-IR), and blood lipid profile, was obtained in 144 subjects with COPD and 119 non-COPD controls. The metabolic phenotype was similar in COPD and controls. The odds ratios for having pathologic values for HOMA-IR, lipids and visceral adipose tissue area were similar in individuals with COPD and control subjects in multivariate analyses that took into account age, sex, body mass index, tobacco status and current medications. In a population-based cohort, no difference was found in the metabolic phenotype, including visceral adipose tissue accumulation, between COPD and controls. Discrepancies between the present and previous studies as to whether or not COPD is a risk factor for metabolic abnormalities could be related to differences in COPD phenotype or disease severity of the study populations.

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Metabolic profiles among COPD and controls in the CanCOLD population-based cohort

Résumé

Note bibliographique

ASJC Scopus Subject Areas

PubMed: MeSH publication types

ODD de l’ONU

Accès au document

Autres fichiers et liens

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