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Dietary and circulating antioxidant vitamins in relation to carotid plaques in middle-aged women^1,2,3

¹ From the Dietology Unit, A Cardarelli Hospital, Naples (AI); the Epidemiology Unit, National Cancer Institute, Naples (EC); and the Departments of Clinical and Experimental Medicine (SP, RG, GC, MDM, and PR) and Biochemistry and Biotechnologies in Medicine (LS and FZ), Federico II University, Naples.

² Supported by funds from the Consiglio Nazionale delle Ricerche "Progetto finalizzato Biotecnologie," Rome; PRIN 1997, Ministero dell’Università e della Ricerca scientifica e tecnologica; and Regione Campania "Fondi ricerca sanitaria finalizzata." The Progetto Atena was supported by funds from the Consiglio Nazionale delle Ricerche "Progetto finalizzato FATMA."

³ Address reprint requests to P Rubba, Department of Clinical and Experimental Medicine, Federico II University, Via S Pansini, 5, 80131 Naples, Italy. E-mail: rubba{at}unina.it.

	ABSTRACT

TOP ABSTRACT INTRODUCTION SUBJECTS AND METHODS RESULTS DISCUSSION REFERENCES

 
Background: The results of the few studies conducted on the relation between antioxidant vitamins and carotid atherosclerosis have been inconclusive.

Objective: We evaluated the association between preclinical carotid atherosclerosis, as determined by high-resolution B-mode ultrasound, and both the intake amounts and plasma concentrations of antioxidant vitamins.

Design: Among 5062 participants in Progetto Atena, a population-based study on the etiology of cardiovascular disease and cancer in women, 310 women were examined by B-mode ultrasound to detect early signs of carotid atherosclerosis. The participants answered a food-frequency questionnaire, and their plasma concentrations of vitamin E, vitamin A, and carotenoids were measured. None of the women took vitamin supplements.

Results: The occurrence of atherosclerotic plaques at the carotid bifurcation was inversely associated with tertiles of vitamin E intake; the test for a linear trend across tertiles was significant (P < 0.05). Similarly, the ratio of plasma vitamin E to plasma cholesterol was inversely related to the presence of plaques at the carotid bifurcation; the test for a linear trend across tertiles was significant (P < 0.02). No association was found between the intake of other antioxidant vitamins (vitamins A and C and carotenoids) or their plasma concentrations and the presence of carotid plaques.

Conclusions: An inverse association was found between both the intake amount and plasma concentration of vitamin E and preclinical carotid atherosclerosis in middle-aged women. This association was independent of other cardiovascular risk factors, was not related to vitamin supplements, and supports the hypothesis that low vitamin E intake is a risk factor for early atherosclerosis.

Key Words: Vitamin E • antioxidants • carotid arteries • carotid bifurcation • atherosclerosis • ultrasound • Progetto Atena • women

	INTRODUCTION

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In the oxidation hypothesis of atherosclerosis, antioxidant protection may play a role in preventing the formation of early lesions (1). However, the wealth of data regarding the preventive role of dietary or serum antioxidants has yielded conflicting results (2–7). A possible explanation for this inconsistency is that most authors considered overt ischemia (myocardial infarction, angina, stroke, transient ischemic attack) rather than preclinical atherosclerosis as an endpoint.

Carotid intima-media thickness (IMT) is a well-recognized marker of early, generalized atherosclerosis and is widely used in epidemiologic studies (8, 9). Increased IMT is correlated with coronary atherosclerosis (10). The relation between dietary antioxidants and the thickness of carotid artery walls has been evaluated in a few studies, some focusing on intakes and others on serum concentrations (11–14).

However, the relation between antioxidant vitamin intake, plasma vitamin concentrations, and carotid atherosclerosis has not yet been evaluated. The aim of this study was to investigate whether the dietary intake of antioxidant vitamins and the plasma concentrations of vitamin A, carotenoids, and vitamin E are associated with the presence of plaques in the common carotid arteries and carotid bifurcation in a sample of middle-aged women.

	SUBJECTS AND METHODS

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Subjects
Progetto Atena is a prospective study carried out in the area of Naples. The general objective of the project is to investigate the causes of chronic diseases that have a major impact on women. The total study cohort, who were enrolled over a 4-y period, comprised 5062 healthy women aged 30–69 y (15). Potential participants with a previous diagnosis of myocardial infarction, stroke, or major cancers were excluded. During a 6-mo period, the oldest 3 participants (potentially at higher risk for carotid lesions) among those scheduled for the day were asked to undergo a free vascular examination (high-resolution ultrasound of the carotid arteries); 310 women underwent this additional investigation. In 3 women, vitamin intakes and concentrations were not determined; thus, the remaining 307 women were included in the present analysis. The study was performed in accord with the Helsinki Declaration of 1975 as revised in 1983, and all of the women gave their informed, written consent.

Questionnaires
The choice of information collected through questionnaires (15) about demographic background, occupation, medical history, drug use, and personal habits such as smoking and alcohol consumption was largely based on the type of information that was collected in the major Italian population studies on cardiovascular disease. In particular, usual dietary intakes, defined as the average intake over the past year, were estimated with the use of a 138-item semiquantitative food-frequency questionnaire that was designed on the basis of several validity and reliability studies (16, 17). A random sample (10%) of the cohort was interviewed with the use of a 24-h recall method to improve the final estimation of frequency and quantity (18, 19).

The questionnaires were administered by trained interviewers. Participants were asked how often, on average, they consumed a specified portion size of each food during the previous year.

Daily nutrient intake was calculated by multiplying the nutrient content of the specified portion of each food item by the frequency of its daily consumption and then summing the results of all the items. Food values for energy and vitamins were taken from the food composition tables and databases for epidemiologic studies in Italy (20).

Clinical and biochemical assessment
Standard procedures were used for blood pressure measurements, and the training and supervision of observers were identical with those used in similar epidemiologic studies (21). Body mass index was calculated as weight (in kg) divided by height squared (in m²).

To reduce the influence of circadian variation, all blood specimens were collected between 0800 and 0930 after the subjects had fasted overnight. Samples were processed for determination of serum cholesterol and triacylglycerol by enzymatic methods (22, 23). HDL cholesterol was precipitated by phosphotungstate (24). LDL cholesterol was calculated according to the Friedewald formula.

(1)

Plasma vitamin A, vitamin E, and carotenoids were extracted and analyzed with the use of a normal-phase, gradient HPLC system; a slight modification in the elution procedure allowed us to evaluate the 3 analytes simultaneously (25, 26). The ratios of plasma vitamin A and vitamin E to cholesterol were also calculated to normalize vitamin concentrations for circulating lipids (27).

High-resolution ultrasound of the carotid arteries
All carotid ultrasound examinations were performed by an internationally certified sonographer (GC) using the Biosound 2000 II SA (Biosound Inc, Indianapolis). This system, which is equipped with an 8-MHz annular array mechanical transducer and features pulsed-wave Doppler and spectrum-analysis capabilities, provides high-resolution ultrasonic images with 0.3-mm axial resolution and 256 degrees of gray level. The ultrasound imaging examinations followed a standardized protocol developed by the Division of Vascular Ultrasound Research at the Bowman Gray School of Medicine (28). The key feature of the protocol in the present study was the identification of 2 anatomical landmarks, the dilation of the bulb and the arch of the flow divider, to measure IMT in 2 carotid segments, the distal 1 cm of the common carotid artery and the carotid bifurcation. The ultrasound examination required that the arterial walls (near and far walls) of these segments be visualized on both the right and left sides in a sequential manner. Both the near and the far walls of the common carotid artery and bifurcations were longitudinally scanned in the anterior, lateral, and posterolateral projection to assess the occurrence of plaques. Plaques were defined as focal echo-structures encroaching into the vessel lumen where the IMT was > 1.2 mm. A cutoff of 1.2 mm was chosen because it was used previously in randomized clinical trials (29, 30) and because it corresponded to the 90th percentile of the mean IMT of a random sample of 170 Neapolitan women. The quantification of plaque thickness was made by measuring the IMT at the site of the maximal encroachment perpendicular to the vessel wall. At the time of the examination, the sonographer used the electronic caliper of the ultrasound equipment (Biosound 2000 II SA) to make measurements. In a previous study by our group (31), the within-subject CV for IMT was < 6%.

Statistical analysis
Descriptive analyses were reported for all the continuous variables; analysis of covariance was used to obtain age-adjusted means of physical and biochemical variables. Intake amounts and plasma concentrations were examined in tertiles. The highest tertile for each group was considered as the reference, with an odds ratio (OR) of 1, and the remaining tertiles were compared with the highest tertile. ORs for the presence of carotid plaques were calculated by logistic regression. To adjust for the fact that three 95% CIs were calculated for each variable, the 97.5% CIs were computed from the SE of the regression coefficient. All analyses were performed with the use of SPSS for WINDOWS 95, version 7.0 (SPSS Inc, Chicago).

	RESULTS

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Of the 307 women who participated in the present study, 12% had atherosclerotic plaques localized only at the common carotid artery, 25% had plaques only at the carotid bifurcation, 29% had plaques on both sites, and 34% had no plaques. The cardiovascular risk profile of the Progetto Atena study population, divided into the subsample who underwent a high-resolution ultrasound examination of the carotid arteries (age range: 35–69 y) and the remaining cohort, is shown in Table 1. After adjustment for age, there were no significant differences in cardiovascular risk profile between the subsample and the remaining cohort.

The percentages of women with plaques at the carotid bifurcation or at the common carotid artery are shown in Table 3 by tertile of daily intake of vitamin C, vitamin A, and vitamin E; by tertile of plasma concentrations of vitamin A and carotenoids; and by tertile of the ratio of plasma vitamin E to plasma cholesterol. Also shown in this table are the associations between plaques at these 2 locations and the various tertiles after adjustment for age, smoking status, body mass index, systolic blood pressure, alcohol intake, and glucose concentration.

A significant association was found between low ratios of plasma vitamin E to plasma cholesterol and ultrasound evidence of plaques at the carotid bifurcation. The lowest tertile had an OR of 2.16 (97.5% CI: 1.06, 4.39). There was a significant linear trend across tertiles (P < 0.02). In the subgroup analysis of postmenopausal women, the OR of the lowest tertile was 2.01 (97.5% CI: 0.90, 4.51) and the P value for the linear trend across tertiles was 0.06.

There was no significant association between different tertiles of plasma vitamin A concentrations and carotid plaques, even when considering the ratio of plasma vitamin A to plasma cholesterol: the ORs and 97.5% CIs for the middle and lowest tertiles were 1.72 (0.85, 3.48) and 1.32 (0.67, 2.61), respectively. No association was found between either the intakes or the plasma concentrations of antioxidant vitamins and the presence of plaques in the common carotid artery.

	DISCUSSION

TOP ABSTRACT INTRODUCTION SUBJECTS AND METHODS RESULTS DISCUSSION REFERENCES

 
To our knowledge, this is the first study that combines information on the dietary intakes of antioxidant vitamins and determination of their plasma concentrations with high-resolution ultrasound imaging of carotid atherosclerosis. It shows an inverse association between both the intake and the plasma concentration of vitamin E and the presence of carotid plaques, independently of other conventional risk factors.

Only a few studies have addressed the relation between antioxidant vitamins and carotid atherosclerosis. However, the methods used in those studies were quite different from ours: some studies focused on antioxidant vitamin intake as assessed by food-frequency questionnaires, some analyzed serum concentrations, and some verified the effect of vitamin E supplements on carotid atherosclerosis. In a cross-sectional study of the Atherosclerosis Risk in Communities (ARIC) population, dietary consumption of vitamins C and E was inversely associated with the thickness of the carotid artery wall in older women, although the use of dietary supplements partly accounted for this association (11). In a case-control study of subjects selected from the ARIC study cohort, serum -tocopherol concentrations were unrelated to carotid IMT (14). The effect of supplementary antioxidant vitamin intake on carotid atherosclerosis was analyzed in primates with experimentally induced atherosclerosis (33) and in humans and yielded conflicting results: reduced progression of carotid IMT (34), no effect on carotid IMT changes in women but a beneficial effect of vitamin E + vitamin C in men (35), and a neutral effect on the progression of atherosclerosis (36). Vitamin E supplementation had various effects with regard to the modification of cardiovascular risk in patients with clinically overt heart diseases (37–41).

In the present study, a low dietary intake of vitamin E was associated with an increased risk of plaques at the carotid bifurcation, particularly in postmenopausal women, whereas no relation was found for plaques at the common carotid artery. From the analysis of the Progetto Atena food-frequency questionnaires and on the basis of dietary survey data (42), women in southern Italy obtain their vitamin E mainly from fresh vegetables, legumes, and olive oils. In addition, there is a high intake of monounsaturated fatty acids from olive oil, whereas the consumption of polyunsaturated fatty acids is relatively low (43).

A possible explanation for the association between vitamin E and plaques at the carotid bifurcation and for the lack of association for plaques at the common carotid artery is that early atherosclerosis usually begins at the bifurcations. The common carotid artery and the carotid bifurcation have different geometries, shear stresses, extracellular matrices, and cell compositions, and the mechanisms that regulate lesion development are also different. In addition, atherosclerotic plaques are known to develop mostly at the carotid bifurcation, where there is, on average, a greater wall thickness and therefore a higher likelihood of atherosclerotic lesion development (44).

Interesting data also come from the analysis of plasma antioxidant vitamin concentrations. It should be kept in mind that in epidemiologic studies it is important to adjust the plasma concentrations of vitamins A and E in relation to the plasma concentrations of lipoproteins. In particular, plasma concentrations of vitamin E are markedly influenced by both LDL and VLDL concentrations not only in hyperlipidemic patients but also in the general population. A simple way of dealing with this problem is to use the ratio of vitamin E to total cholesterol (27).

In the present study, lower plasma concentrations of vitamin E (adjusted for cholesterol) were found to be associated with an increased risk of plaques at the carotid bifurcation. Other plasma antioxidant vitamin concentrations (and the plasma ratio of vitamin A to cholesterol) showed no association with carotid plaques.

We could not rule out the possibility that the intake and the plasma concentration of vitamin E could reflect a healthier diet and that something other than vitamin E may be responsible for the apparent benefit on the development of carotid plaques. However, the lack of association between higher intakes of vitamin E or plasma concentrations of other antioxidant vitamins (ie, vitamins A and C, which are also considered markers of a healthier diet) and carotid plaques argue against this hypothesis. It should be remembered that none of the women in our study population took vitamin supplements.

Although recent studies on the association between vitamin E and atherosclerosis have been inconclusive, we have provided consistent evidence that both low intakes and low plasma concentrations of vitamin E are associated with early atherosclerotic carotid lesions. Therefore, a possible explanation for the benefit of vitamin E intake found in epidemiologic studies on healthy people without established atherosclerotic lesions and for the lack of benefit in clinical trials studying the effect of vitamin E supplementation in patients with clinically overt cardiovascular disease may be that the vascular protection occurs at early stages of atherosclerosis. The evidence of detectable arterial damage in the subjects in the lowest tertile of vitamin E intake and plasma concentration indicates that only individuals with an inadequate intake or a low plasma concentration of vitamin E are expected to benefit from an increase of vitamin E intake, either through dietary changes or supplementation. Thus, before advising subjects to change their diet or take antioxidant vitamin supplements, it would be helpful to evaluate their intakes and plasma concentrations, because knowing which individuals have the lowest intakes or plasma concentrations of vitamin E would help us identify those who could benefit the most from this type of intervention (45).

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