Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-23T05:42:29.377Z Has data issue: false hasContentIssue false

Fruit and vegetables and cardiovascular disease: epidemiological evidence from the non-Western world

Published online by Cambridge University Press:  01 February 2008

Luc Dauchet*
Affiliation:
INSERM U557, Bobigny, INRA, U1125, Bobigny CNAM, EA3200, Bobigny; Univ Paris 13, Bobigny CRNH IdF, Unité de Recherche en Epidémiologie Nutritionnelle Bobigny, F-93017France Department of Epidemiology and Public HealthRouen University Hospital1 rue Germont Rouen, F-7600France Institut Pasteur de LilleINSERM U7441 rue du professeur Calmette Lille, F-59009France
Jean Dallongeville
Affiliation:
INSERM U557, Bobigny, INRA, U1125, Bobigny CNAM, EA3200, Bobigny; Univ Paris 13, Bobigny CRNH IdF, Unité de Recherche en Epidémiologie Nutritionnelle Bobigny, F-93017France Department of Epidemiology and Public HealthRouen University Hospital1 rue Germont Rouen, F-7600France Institut Pasteur de LilleINSERM U7441 rue du professeur Calmette Lille, F-59009France
Rights & Permissions [Opens in a new window]

Extract

Observational studies have shown a more favourable cardiovascular risk profile in consumers of fruit and vegetables than in non-consumers. Fruit and vegetable intake is usually associated with lower levels of serum cholesterol1 and lower blood pressure2. Furthermore, the increase in cardiovascular risk factors with ageing tends to be slower in fruit and vegetable consumers3,4 resulting in less coronary and cerebrovascular events58.

Type
Commentary
Copyright
Copyright © The Authors 2007

In most instances, these observations were obtained in developed countries, mostly in North America, where nutritional habits may differ substantially from those in other parts of the world. Fruit and vegetable consumption is usually associated with healthy behaviours in high-income countries; consumers of fruit and vegetables tend to smoke less, to exercise more frequently and are usually better educated than non-consumersReference Joshipura, Ascherio, Manson, Stampfer, Rimm, Speizer, Hennekens, Spiegelman and Willett9, resulting in complex interactions. Although statistical adjustment for lifestyle factors has been performed, residual effects and additional confounders that might have not been anticipated may still explain the association between fruit and vegetable intake and CVD. Finally, high intakes of fruit and vegetables are usually consumed as part of a prudent diet further complicating the assessment of the relationships between a particular food and chronic diseasesReference Hu, Rimm, Stampfer, Ascherio, Spiegelman and Willett10, Reference Fung, Willett, Stampfer, Manson and Hu11. For these reasons, the assessment of the true contribution of fruit and vegetables to cardiovascular event occurrence remains uncertain in observational epidemiological studies.

Randomised controlled trials increasing fruit and vegetable intake are another strategy to analyse the relationship between fruit and vegetables and CVD. The results of intervention studies support the concept of a genuine effect of fruit and vegetables on blood pressure. In the DASH study 459 adults were enrolled for an 8-week strictly controlled dietary intervention. In the pre-randomisation phase, the subjects were fed for 3 weeks a control diet that was low in fruit, vegetables and dairy products, with a fat content typical of the average diet in the USA. They were then randomly assigned to receive for 8 weeks a control diet, a diet rich in fruit and vegetables or a ‘combination’ diet rich in fruit, vegetables and low-fat dairy products and with reduced saturated and total fat. Sodium intake and body weight were maintained at constant levels. The fruit-and-vegetables diet reduced systolic blood pressure by 2·8 mm Hg more (P < 0·001) and diastolic blood pressure by 1·1 mm Hg more than the control diet (P = 0·07). The combination diet reduced systolic and diastolic blood pressure by 5·5 and 3·0 mm Hg more, respectively, than the control diet (P < 0·001 for each)Reference Appel, Moore and Obarzanek12. In contrast, the LDL-cholesterol level was non-significantly decreased by 0·05 mmol/lReference Obarzanek, Sacks and Vollmer13. Like observational studies, nutritional intervention trials present some limitations that hamper their interpretation. Firstly, true double-blind controlled trials are not feasible in the context of interventions with food items, leaving the possibility for biases in the assessment of end-points. Secondly, increased consumption of fruit and vegetables might induce changes in other components of the diet. For instance, in the DASH trial, fruit and vegetables were substituted by snacks to achieve equivalence of energy intake in the control and experimental diet. Thirdly, results of highly controlled intervention trials cannot easily be extrapolated to the general population or to draw public health policies. Finally, the difficulty of achieving great modification of diet in long-term studies hampers the interpretation of the results. For example, in the ‘Women's Health Initiative Randomized Controlled Dietary Modification Trial’Reference Howard, Van Horn and Hsia14, intensive behaviour modifications were designed to reduce total fat intake and increase intakes of vegetables, fruits and grains. During the follow-up fruit and vegetable consumption remained higher in the intervention group, but was actually only slightly more than one portion per day more than in the control group. Therefore, no significant differences in CHD, stroke and CVD rates were observed between groups. Thus, until now there is no definitive evidence from intervention trials that fruit and vegetable consumption decreases CVD incidence.

Analyses of association of fruit and vegetable intake with cardiovascular risk factors in non-Western countries are necessary to understand the complexity of the relations between fruit and vegetable and occurrence of chronic diseases and also to explore the consistency of these associations across countries. The later point represents an important criterion in the appraisal of the causal relationship between nutritional factors and chronic diseases.

In this issue of the British Journal of Nutrition, Radhika et al. Reference Radhika, Sudha, Mohan Sathya, Ganesan and Mohan15 analysed the relation between fruit and vegetable intake and cardiovascular risk factors (blood pressure, obesity, cholesterol) in a cross-sectional sample of Southern India inhabitants. Their results showed a strong inverse correlation between fruit and vegetable consumption and CVD risk factors, consistent with earlier studies from the Western world. As mentioned earlier, our understanding of the possible effect of fruit and vegetable consumption and CVD occurrence is based mainly on observational cohort data from Western countries where specific combinations of confounders may contribute to the association. Therefore, the consistent findings of Radhika et al. Reference Radhika, Sudha, Mohan Sathya, Ganesan and Mohan15 in subjects with different dietary and lifestyle habits and thus with different confounder background may be interpreted as additional evidence of a possible causal relation. In conclusion, analyses of cohort studies in non-Western populations should help to improve our understanding of the relation between fruit and vegetable intake and chronic diseases.

References

1Djousse, L, Arnett, DK, Coon, H, Province, MA, Moore, LL & Ellison, RC (2004) Fruit and vegetable consumption and LDL cholesterol: the National Heart, Lung, and Blood Institute Family Heart Study. Am J Clin Nutr 79, 213217.CrossRefGoogle ScholarPubMed
2Psaltopoulou, T, Naska, A, Orfanos, P, Trichopoulos, D, Mountokalakis, T & Trichopoulou, A (2004) Olive oil, the Mediterranean diet, and arterial blood pressure: the Greek European Prospective Investigation into Cancer and Nutrition (EPIC) study. Am J Clin Nutr 80, 10121018.CrossRefGoogle ScholarPubMed
3Miura, K, Greenland, P, Stamler, J, Liu, K, Daviglus, ML & Nakagawa, H (2004) Relation of vegetable, fruit, and meat intake to 7-year blood pressure change in middle-aged men: the Chicago Western Electric Study. Am J Epidemiol 159, 572580.CrossRefGoogle ScholarPubMed
4Dauchet, L, Kesse-Guyot, E, Czernichow, S, et al. (2007) Dietary patterns and blood pressure change over 5-y follow-up in the SU.VI.MAX cohort. Am J Clin Nutr 85, 16501656.CrossRefGoogle ScholarPubMed
5Dauchet, L, Amouyel, P, Hercberg, S & Dallongeville, J (2006) Fruit and vegetable consumption and risk of coronary heart disease: a meta-analysis of cohort studies. J Nutr 136, 25882593.CrossRefGoogle ScholarPubMed
6Dauchet, L, Amouyel, P & Dallongeville, J (2005) Fruit and vegetable consumption and risk of stroke: a meta-analysis of cohort studies. Neurology 65, 11931197.CrossRefGoogle ScholarPubMed
7He, FJ, Nowson, CA & MacGregor, GA (2006) Fruit and vegetable consumption and stroke: meta-analysis of cohort studies. Lancet 367, 320326.CrossRefGoogle ScholarPubMed
8He, FJ, Nowson, CA, Lucas, M & MacGregor, GA (In the Press) Increased consumption of fruit and vegetables is related to a reduced risk of coronary heart disease: meta-analysis of cohort studies. J Hum Hypertens.Google Scholar
9Joshipura, KJ, Ascherio, A, Manson, JE, Stampfer, MJ, Rimm, EB, Speizer, FE, Hennekens, CH, Spiegelman, D & Willett, WC (1999) Fruit and vegetable intake in relation to risk of ischemic stroke. JAMA 282, 12331239.CrossRefGoogle ScholarPubMed
10Hu, FB, Rimm, EB, Stampfer, MJ, Ascherio, A, Spiegelman, D & Willett, WC (2000) Prospective study of major dietary patterns and risk of coronary heart disease in men. Am J Clin Nutr 72, 912921.CrossRefGoogle ScholarPubMed
11Fung, TT, Willett, WC, Stampfer, MJ, Manson, JE & Hu, FB (2001) Dietary patterns and the risk of coronary heart disease in women. Arch Intern Med 161, 18571862.CrossRefGoogle ScholarPubMed
12Appel, LJ, Moore, TJ, Obarzanek, E, et al. (1997) A clinical trial of the effects of dietary patterns on blood pressure. DASH Collaborative Research Group. N Engl J Med 336, 11171124.Google ScholarPubMed
13Obarzanek, E, Sacks, FM, Vollmer, WM, et al. (2001) Effects on blood lipids of a blood pressure-lowering diet: the Dietary Approaches to Stop Hypertension (DASH) Trial. Am J Clin Nutr 74, 8089.CrossRefGoogle ScholarPubMed
14Howard, BV, Van Horn, L, Hsia, J, et al. (2006) Low-fat dietary pattern and risk of cardiovascular disease: the Women's Health Initiative Randomized Controlled Dietary Modification Trial. JAMA 295, 655666.CrossRefGoogle ScholarPubMed
15Radhika, G, Sudha, V, Mohan Sathya, R, Ganesan, A & Mohan, V (2007) Association of fruit and vegetable intake with cardiovascular risk factors in urban south Indians. Br J Nutr 95, 000000.Google Scholar