Mediterranean Diet and Endothelial Function: A Review of its Effects at Different Vascular Bed Levels
Abstract
:1. Introduction
2. Mediterranean Diet and Microvascular Endothelial Function
3. The Mediterranean Diet and Flow-Mediated Vasodilation of the Brachial Artery
4. Mediterranean Diet, Intima-Media Thickness and Atherosclerotic Plaques
5. Effect of Mediterranean Diet at Molecular and Cellular Levels
5.1. At the Molecular Level
5.1.1. Mediterranean Diet and Genotype Relationship
5.1.2. Effects of Mediterranean Diet on miRNAs
5.2. At the Cellular Level
5.2.1. The Positive Impact of the Mediterranean Diet on Endothelial Progenitor Cells
5.2.2. Release of Microparticles Regulated by the Mediterranean Diet
Author Contributions
Funding
Conflicts of Interest
References
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Authors (Ref) | Study Design | Population Health Status | Target | Sample Size | Duration | Type of Intervention | Type of Control | Main Findings |
---|---|---|---|---|---|---|---|---|
Fernandez et al. 2012 [10] | Parallel control trial | Metabolic syndrome patients | IRH by laser doppler | 45 | 12 weeks | Mediterranean diet + moderate-to-high-intensity training | Hypocaloric Mediterranean diet | IRH was only improved after the Mediterranean diet plus training intervention. |
Ruano et al. 2005 [8] | Crossover trial | Hypercholesterolemic | IRH by laser doppler | 21 | - | Olive oil (400 ppm of phenols) | Olive oil (80 ppm of phenols) | High-phenolic virgin olive oil improves IRH in the postprandium |
Marin et al. 2011 [13] | Crossover trial | Healthy older subjects | IRH by laser doppler | 20 | 4 | Mediterranean diet | Saturated fat diet and a low-fat, high-carbohydrate diet. | IRH was higher after consumption of the Mediterranean diet compared to the two control diets (p < 0.05). |
Klonizakis et al. 2013 [11] | Parallel | Healthy older subjects | CVC by laser doppler | 22 | 8 | Mediterranean diet + exercise | Non-Mediterranean diet + exercise | Mediterranean diet group showed greater improvement of endothelial function compared to non-Mediterranean diet group (p = 0.02) |
Rogerson et al. 2018 [12] | Parallel | Healthy young people | CVC by laser doppler | 24 | 4 weeks | Mediterranean diet | Vegan diet | Mediterranean diet led to improvements in microvascular function (p = 0.005) |
Torres Peña et al. 2018 [14] | Parallel | Coronary heart disease with and without T2DM and pre-diabetes | Brachial artery FMD | 805 | 1.5 years | Mediterranean diet | Low-fat diet | Mediterranean diet enhanced FMD in patients with diabetes (5.2 at 1.5 years vs. 3.8 at baseline; p = 0.04) and pre-diabetes (4.9 ± 0.4 vs. 3.8 ± 0.4; p = 0.04) Mediterranean diet induced an improvement in endothelial function after 1.5 years compared to low-fat diet in patients with diabetes (5.2 (Mediterranean diet) vs. 3.7 (Low-fat diet); p = 0.01) |
Rallidis et al. 2009 [15] | Parallel | Healthy with abdominal obesity | Brachial artery FMD | 90 | 2 months | Mediterranean diet plus close supervision | Mediterranean diet | The intervention increased FMD by 2.05%. Close adherence to a Mediterranean diet with dietitians’ advice improves endothelial function in obese individuals. |
Davis et al. 2017 [16] | Parallel | Healthy older subjects | Brachial artery FMD | 166 | 6 months | Mediterranean diet | Habitual diet | FMD was higher by 1.3% in the Mediterranean diet group. |
Ceriello et al. 2014 [17] | Parallel | T2DM | Brachial artery FMD | 24 | 3 months | Mediterranean diet | Low-fat diet | Mediterranean diet improved FMD compared to low-fat diet |
Buscemi et al. 2009 [18] | Parallel | Overweight/obese | Brachial artery FMD | 20 | 5 days and 60 days evaluation | Mediterranean diet | Very low-carbohydrate diet | Cardiovascular risk can be higher in the early days of a very low-carbohydrate diet compared to a Mediterranean diet. p = 0.007 for diet × time interaction |
Jaacks et al. 2018 [19] | Parallel | Overweight/obese | Brachial artery FMD | 30 | 8 weeks | Mediterranean diet. 3 arms: Mediterranean or habitual high-fat American-type diet + fish oil, walnuts and grape juice | High-fat American-type diet | No changes between groups were observed |
Thomazella et al. 2011 [20] | Parallel | Stable coronary heart disease | Brachial artery FMD | 40 | 3 months | Mediterranean diet | Low-fat Therapeutic Lifestyle Changes Diet | The 2 diets did not modify FMD in the brachial artery. |
Shai et al. 2010 [21] | Parallel | Obese | IMT | 140 | 2 years | Mediterranean diet; Low-carbohydrate diet | Low-fat diet | No differences in regression in intima-media thickness between groups. |
Gardener et al. 2014 [22] | Observational | Primary and secondary prevention; multiethnic | IMT | 1374 | - | Mediterranean diet adherence score ranges. | - | Moderate and strict adherence to a Mediterranean diet may protect against a higher burden of carotid atherosclerotic plaque. |
Murie-Fernández et al. 2011 [23] | Parallel | High-cardiovascular-risk asymptomatic subjects | IMT | 187 | 1 year | Mediterranean diet + virgin olive oil and Mediterranean diet + nuts | Low-fat diet | Mediterranean diets + virgin olive oil or nuts were not effective in inducing regression IMT after one year. However, they were effective among subjects with high baseline IMT |
Sala-Vila et al. 2014 [24] | Parallel | High-cardiovascular-risk asymptomatic subjects | IMT | 175 | 2.4 years | Mediterranean diet + virgin olive oil and Mediterranean diet + nuts | Low-fat diet | Compared with a control diet |
Giannini et al. 2013 [25] | Cross-sectional study | Hypercholesterolemic children | IMT | 68 | 12 months | Mediterranean diet | - | A reduction in IMT was documented after intervention |
Maiorino et al. 2016 [26] | Parallel | Newly diagnosed T2DM | IMT | 215 | 8.1 years | Mediterranean diet | Low-fat diet | Mediterranean diet is associated with a reduction in the progression of subclinical atherosclerotic disease, compared to control diet |
Gómez-Delgado et al. 2019 [27] | Intervention trial | Coronary heart disease patients | Genotyping of Apolipoprotein E genetic variants and the relationship with lipid metabolism | 506 | 3 years; postprandial state after 4 h | Mediterranean diet | Low-fat diet | After long-term consumption of a Mediterranean diet, subjects carrying the T allele have lower postprandial levels and smaller AUC in triglycerides, TRLs and large TRLs than patients carrying the CC allele. |
Corella et al. 2016. [28] | Longitudinal study | Free CVD patients (high-risk participants). | The study analyzed the relationship between CLOCK-rs4580704 gene variant and incidence of T2D and CVD. | 7098 | 4.8 years | Mediterranean diet supplemented with extra virgin olive oil or Mediterranean diet supplemented with mixed nuts | Low-fat diet | The study showed that the Mediterranean diet increased the protective effects of the G allele against T2D and demonstrated the association between the G allele and protection against stroke in T2D subjects |
Gómez-Delgado et al. 2018. [29] | Intervention trial | Coronary heart disease patients | Interaction between TERC gene variants with monounsaturated fatty acids and the effect on leukocyte telomere length, glucose metabolism and inflammation status | 926 | 12 months | Mediterranean diet | Low-fat diet | After consumption of a Mediterranean diet, subjects carrying the CC allele have a protective capacity slowing down telomeric shortening and decreasing the hs-CRP levels in CVD patients |
Gómez-Delgado et al. 2014 [30] | Intervention trial | Metabolic syndrome | Interaction between TNFα gene variation rs1800629 and the Mediterranean diet. Effect on triglycerides and inflammatory markers | 507 | 12 months | Mediterranean diet | Low-fat diet | The Mediterranean diet induced a silencing of a genetic variant of the TNF gene to improve the metabolism of triglycerides and the inflammatory markers associated with risk of endothelial dysfunction |
Jiménez-Morales et al. 2011 [31] | Metabolic syndrome | Interaction between NOS3 Glu298Asp polymorphism and the phenol content of virgin olive oil. Effect on postprandial endothelial dysfunction | 55 | Postprandial state at 4 h | High, medium and low polyphenol extra virgin olive oil intake | --- | Virgin olive oil with high content of polyphenols induces protection against the genetic variant NOS3 Glu298Asp, regulating NOS3 activity and decreasing the oxidative stress associated with endothelial damage. | |
D’Amore et al. 2016 [32] | Cross-sectional study | Metabolic syndrome | Deregulation of genes and microRNAs in response to extra virgin olive oil intake | 12 | Postprandial state at 4 h | High- and low-polyphenol extra virgin olive oil intake | ---- | The study showed the deregulation of miRNAs expressed differentially between healthy subjects and patients with metabolic syndrome. The deregulation of these miRNAs was associated with an anti-inflammatory, anti-oxidant status. |
Marques-Rocha et al. 2016 [33] | Cross-sectional study | Metabolic syndrome | Effect of dietary strategy for weight loss on inflammation-related microRNAs | 40 | 8 weeks | Hypocaloric diet based on the Mediterranean dietary pattern | ---- | Increased expression of miR-155-3p and decreased of Let-7b was observed in white blood cells. Changes in the expression profile were associated with atherogenic mechanisms related to disease development. |
Daimiel et al. 2020 [34] | Crossover trial | Healthy subjects | Postprandial deregulation of miRNAs related to cardiovascular disease | 12 | Postprandial state at 6 h | Low, medium and high content of total phenols in extra virgin olive oil | ---- | Deregulation of miRNAs in response to olive oil polyphenols was associated with improved lipid metabolism and reduced oxidative stress |
Fernandez et al. 2012 [10] | Parallel control trial | Metabolic syndrome patients | Effect of Mediterranean diet on endothelial progenitor cells (EPC) number. | 45 | 12 weeks | Mediterranean diet plus moderate-to-high intensity endurance training | Hypocaloric Mediterranean diet | Mediterranean diet improved the regenerative capacity of the endothelium and the cardiometabolic risk factors in metabolic syndrome patients, mediated by an increase in EPC. |
Cesari et al. 2017. [35] | Cross-sectional study | Elderly patients (nonagenarians) | Adherence of Mediterranean diet and endothelial progenitor cells (EPC) number. | 421 | Mediterranean diet | --- | Strict adherence to the Mediterranean diet and a high consumption of its foods induces an increase in EPCs in elderly patients, suggesting a lower cardiovascular risk. | |
Marín et al. 2011 [13] | Crossover trial | Healthy older subjects | Effect of Mediterranean diet on biomarkers of regenerative capacity of endothelium | 20 | 4 weeks | Mediterranean diet | Saturated fatty acid diet and low-fat, high-carbohydrate diet | The intake of the Mediterranean diet induced a decrease in microparticle levels and an increase in EPC, associated with an improvement in oxidative stress markers and high ischemic reactive hyperemia, suggesting an improvement in the regenerative capacity of the endothelium |
Maiorino et al. 2016 [26] | Parallel | Newly-diagnosed type 2 diabetes patients | Effect of Mediterranean diet on EPC and IMT | 215 | 4 years | Mediterranean diet | Low-fat diet | EPC levels increased with the Mediterranean diet and were associated with the regression of intima-media thickness and other markers of endothelial regeneration. |
Chiva-Blanch et al. 2016 [36] | Case-control study | Patients with cardiovascular events and at high risk of a cardiovascular event | Microparticles released from different vascular cells as biomarkers of endothelial damage. | 50 | 1 year | Mediterranean diet supplemented with virgin olive oil and Mediterranean diet supplemented with nuts | Low-fat diet | A Mediterranean diet rich in nuts promoted the reduction of endothelial damage markers, such as endothelial and platelet microparticles. |
Chiva-Blanch et al. 2016 [37] | Prospective study | High cardiovascular risk participants free of cardiovascular events | Long-term effect of a Mediterranean diet on microparticles derived from blood cells | 155 | 5 years | Mediterranean diet supplemented with virgin olive oil and Mediterranean diet supplemented with nuts | Low-fat diet | The Mediterranean diet induced changes in the microparticles, generating a lower prothrombotic and procoagulant endothelial environment and reducing the risk of cardiovascular events. |
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Torres-Peña, J.D.; Rangel-Zuñiga, O.A.; Alcala-Diaz, J.F.; Lopez-Miranda, J.; Delgado-Lista, J. Mediterranean Diet and Endothelial Function: A Review of its Effects at Different Vascular Bed Levels. Nutrients 2020, 12, 2212. https://doi.org/10.3390/nu12082212
Torres-Peña JD, Rangel-Zuñiga OA, Alcala-Diaz JF, Lopez-Miranda J, Delgado-Lista J. Mediterranean Diet and Endothelial Function: A Review of its Effects at Different Vascular Bed Levels. Nutrients. 2020; 12(8):2212. https://doi.org/10.3390/nu12082212
Chicago/Turabian StyleTorres-Peña, Jose D., Oriol A. Rangel-Zuñiga, Juan F. Alcala-Diaz, Jose Lopez-Miranda, and Javier Delgado-Lista. 2020. "Mediterranean Diet and Endothelial Function: A Review of its Effects at Different Vascular Bed Levels" Nutrients 12, no. 8: 2212. https://doi.org/10.3390/nu12082212
APA StyleTorres-Peña, J. D., Rangel-Zuñiga, O. A., Alcala-Diaz, J. F., Lopez-Miranda, J., & Delgado-Lista, J. (2020). Mediterranean Diet and Endothelial Function: A Review of its Effects at Different Vascular Bed Levels. Nutrients, 12(8), 2212. https://doi.org/10.3390/nu12082212