Associations between Dietary Polyphenols and Type 2 Diabetes in a Cross-Sectional Analysis of the PREDIMED-Plus Trial: Role of Body Mass Index and Sex
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Date
2019-11-08Author
Tresserra-Rimbau, Anna
Castro Barquero, Sara
Vitelli Storelli, Facundo
Becerra Tomás, Nerea
Vázquez Ruiz, Zenaida
Díaz López, Andrés
Corella, Dolores
Castañer, Olga
Romaguera, Dora
Vioque, Jesús
Wärnberg, Julia
Martínez, José Alfredo
Serra Majem, Lluís
Estruch, Ramón
Tinahones, Francisco J.
Lapetra, José
Pintó, Xavier
Tur, Josep A.
López Miranda, José
García Molina, Laura
Delgado Rodríguez, Miguel
Matía Martín, Pilar
Daimiel, Lidia
Rubín García, María
Vidal, Josep
Galdón, Alba
Ros, Emilio
Basterra Gortari, Francisco Javier
Babio, Nancy
Sorli, José Vicente
Hernáez, Álvaro
Konieczna, Jadwiga
Notario Barandiaran, Leyre
Tojal Sierra, Lucas
Pérez López, Jessica
Abete, Itziar
Álvarez Pérez, Jacqueline
Fernández García, José Carlos
Santos Lozano, José Manuel
Galera Cusí, Ana
Julibert, Alicia
Ruiz Canela, Miguel
Martinez Lacruz, Raúl
Pérez Vega, Karla Alejandra
Galmes Panades, Aina María
Pastor Polo, Concepción
Moreno Rodríguez, Anai
Gea, Alfredo
Fitó, Montserrat
Lamuela Raventos, Rosa María
Salas Salvadó, Jordi
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Antioxidants 8(11) : (2019) // Article ID 537
Abstract
Overweight and obesity are important risk factors for type 2 diabetes (T2D). Moving towards healthier diets, namely, diets rich in bioactive compounds, could decrease the odds of suffering T2D. However, those individuals with high body mass index (BMI) may have altered absorption or metabolism of some nutrients and dietary components, including polyphenols. Therefore, we aimed to assess whether high intakes of some classes of polyphenols are associated with T2D in a population with metabolic syndrome and how these associations depend on BMI and sex. This baseline cross-sectional analysis includes 6633 participants from the PREDIMED-Plus trial. Polyphenol intakes were calculated from food frequency questionnaires (FFQ). Cox regression models with constant time at risk and robust variance estimators were used to estimate the prevalence ratios (PRs) for polyphenol intake and T2D prevalence using the lowest quartile as the reference group. Analyses were stratified by sex and BMI groups (overweight and obese) to evaluate potential effect modification. Catechins, proanthocyanidins, hydroxybenzoic acids, and lignans were inversely associated with T2D. Hydroxycinnamic acids were directly related in men. These associations were different depending on sex and BMI, that is, women and overweight obtained stronger inverse associations.