SCOPE: Cocoa, rich in flavan-3-ols, improves vascular function, but the contribution of specific flavan-3-ols is unknown. We compared the effects of pure epicatechin, a major cocoa flavan-3-ol, and chocolate. METHODS AND RESULTS: In a randomized crossover study, twenty healthy men (40-80 years) were supplemented with: (1) 70g dark chocolate (150 mg epicatechin) with placebo capsules; (2) pure epicatechin capsules (2 × 50 mg epicatechin) with 75g white chocolate; and (3) placebo capsules with 75 g white chocolate (0 mg epicatechin). Vascular function (flow-mediated dilation (FMD) and augmentation index (AIx)) were measured before and 2 hours after interventions. Epicatechin metabolites time-profiles were measured in blood to calculate the bioavailability. Pure epicatechin did not significantly improve FMD (+0.75%; p = 0.10) or AIx (-2.2%; p = 0.23) compared to placebo. Dark chocolate significantly improved FMD (+0.96%; p = 0.04) and AIx (-4.6%; p = 0.02). Differences in improvements in FMD (+ 0.21%; p = 0.65) or Aix (-2.4%; p = 0.20) between pure epicatechin and dark chocolate were not significant. The bioavailability of epicatechin did not differ between pure epicatechin and dark chocolate (p = 0.14). CONCLUSIONS: Despite differences in epicatechin dose, improvements in vascular function after pure epicatechin and chocolate were similar and the bioavailability did not differ, suggesting a role for epicatechin.
RCT Entities:
SCOPE: Cocoa, rich in flavan-3-ols, improves vascular function, but the contribution of specific flavan-3-ols is unknown. We compared the effects of pure epicatechin, a major cocoaflavan-3-ol, and chocolate. METHODS AND RESULTS: In a randomized crossover study, twenty healthy men (40-80 years) were supplemented with: (1) 70g dark chocolate (150 mg epicatechin) with placebo capsules; (2) pure epicatechin capsules (2 × 50 mg epicatechin) with 75g white chocolate; and (3) placebo capsules with 75 g white chocolate (0 mg epicatechin). Vascular function (flow-mediated dilation (FMD) and augmentation index (AIx)) were measured before and 2 hours after interventions. Epicatechin metabolites time-profiles were measured in blood to calculate the bioavailability. Pure epicatechin did not significantly improve FMD (+0.75%; p = 0.10) or AIx (-2.2%; p = 0.23) compared to placebo. Dark chocolate significantly improved FMD (+0.96%; p = 0.04) and AIx (-4.6%; p = 0.02). Differences in improvements in FMD (+ 0.21%; p = 0.65) or Aix (-2.4%; p = 0.20) between pure epicatechin and dark chocolate were not significant. The bioavailability of epicatechin did not differ between pure epicatechin and dark chocolate (p = 0.14). CONCLUSIONS: Despite differences in epicatechin dose, improvements in vascular function after pure epicatechin and chocolate were similar and the bioavailability did not differ, suggesting a role for epicatechin.
Authors: Wendy J Hollands; Stefan Voorspoels; Griet Jacobs; Kjersti Aaby; Ane Meisland; Rocio Garcia-Villalba; Francisco Tomas-Barberan; Mariusz K Piskula; Deborah Mawson; Irena Vovk; Paul W Needs; Paul A Kroon Journal: J Chromatogr A Date: 2017-03-18 Impact factor: 4.759
Authors: Tess De Bruyne; Bieke Steenput; Lynn Roth; Guido R Y De Meyer; Claudia Nunes Dos Santos; Kateřina Valentová; Maija Dambrova; Nina Hermans Journal: Nutrients Date: 2019-03-08 Impact factor: 5.717
Authors: Susan B Roberts; Maria A Franceschini; Rachel E Silver; Salima F Taylor; Augusto Braima de Sa; Raimundo Có; Aliu Sonco; Amy Krauss; Amy Taetzsch; Patrick Webb; Sai Krupa Das; C-Y Chen; Beatrice L Rogers; Edward Saltzman; Pei-Yi Lin; Nina Schlossman; William Pruzensky; Carlito Balé; Kenneth Kwan Ho Chui; Paul Muentener Journal: BMJ Date: 2020-07-22