Intended for healthcare professionals

Paper

Dietary fat intake and risk of stroke in male US healthcare professionals: 14 year prospective cohort study

BMJ 2003; 327 doi: https://doi.org/10.1136/bmj.327.7418.777 (Published 02 October 2003) Cite this as: BMJ 2003;327:777
  1. Ka He (hpkhe{at}channing.harvard.edu), research associate1,
  2. Anwar Merchant, research associate1,
  3. Eric B Rimm, associate professor1,
  4. Bernard A Rosner, professor2,
  5. Meir J Stampfer, professor1,
  6. Walter C Willett, professor1,
  7. Alberto Ascherio, associate professor1
  1. 1 Department of Nutrition, Harvard School of Public Health, 665 Huntington Avenue, Boston, MA 02115, USA
  2. 2 Department of Biostatistics, Harvard School of Public Health
  1. Correspondence to: K He
  • Accepted 18 July 2003

Abstract

Objective To examine the association between intake of total fat, specific types of fat, and cholesterol and risk of stroke in men.

Design and setting Health professional follow up study with 14 year follow up.

Participants 43 732 men aged 40–75 years who were free from cardiovascular diseases and diabetes in 1986.

Main outcome measure Relative risk of ischaemic and haemorrhagic stroke according to intake of total fat, cholesterol, and specific types of fat.

Results During the 14 year follow up 725 cases of stroke occurred, including 455 ischaemic strokes, 125 haemorrhagic stokes, and 145 strokes of unknown type. After adjustment for age, smoking, and other potential confounders, no evidence was found that the amount or type of dietary fat affects the risk of developing ischaemic or haemorrhagic stroke. Comparing the highest fifth of intake with the lowest fifth, the multivariate relative risk of ischaemic stroke was 0.91 (95% confidence interval 0.65 to 1.28; P for trend = 0.77) for total fat, 1.20 (0.84 to 1.70; P = 0.47) for animal fat, 1.07 (0.77 to 1.47; P = 0.66) for vegetable fat, 1.16 (0.81 to 1.65; P = 0.59) for saturated fat, 0.91 (0.65 to 1.28; P = 0.83) for monounsaturated fat, 0.88 (0.64 to 1.21; P = 0.25) for polyunsaturated fat, 0.87 (0.62 to 1.22; P = 0.42) for trans unsaturated fat, and 1.02 (0.75 to 1.39; P = 0.99) for dietary cholesterol. Intakes of red meats, high fat dairy products, nuts, and eggs were also not appreciably related to risk of stroke.

Conclusions These findings do not support associations between intake of total fat, cholesterol, or specific types of fat and risk of stroke in men.

Introduction

Strong evidence indicates that type of dietary fat is more important than total fat intake in predicting risk of coronary heart disease, as different types of fat or fatty acids may play different or opposite roles. Monounsaturated and polyunsaturated fats seem to have beneficial effects, but saturated fat and trans unsaturated fatty acids increase risk of coronary heart disease.1 However, these associations do not seem to apply to stroke. Previous studies have even suggested an inverse relation between saturated fat or trans unsaturated fat intake and risk of stroke,2 3 but the mechanisms remain unclear. Although epidemiological studies indicated beneficial effects of some specific fatty acids such as long chain omega 3 polyunsaturated fatty acid, α linolenic acid, and linoleic acid on ischaemic stroke,46 few studies have directly related intake of dietary fat to risks of subtypes of stroke, and the results have been inconsistent. We prospectively examined the associations between intakes of total fat and specific types of fat and the risk of subtypes of stroke in the health professional follow up study.

Methods

Study population

The health professional follow up study is a cohort of 51 529 male US healthcare professionals, aged 40–75 years in 1986, who responded to a mailed questionnaire including a comprehensive survey of diet, lifestyle characteristics, and medical history. Non-dietary variables are updated every other year and dietary information every four years. For this analysis, we followed participants from 1986 to 2000. We excluded men who at baseline reported a previous diagnosis of cardiovascular diseases or diabetes mellitus. We also excluded men who had incomplete information (≥70 blanks out of 131 listed food items) or implausible total daily energy intake (≤800 or ≥) 4200 kcal (≤ 3.34 or ≥ 17.56 MJ). A total of 43 732 men remained in the analyses. The response to the questionnaires constituted the participants' informed consent

Dietary assessment

We assessed dietary intake by using semiquantitative food frequency questionnaires in 1986, 1990, and 1994.7 We asked participants to record the frequency of consumption of specified portions of each selected food during the previous year by using one of nine options ranging from “never or < 1/month” to “≥ 6/day.” We also inquired about types of fat, oil, or margarine used in food preparation and at the table. We obtained values for the amounts of nutrients, including specific types of fat, in foods from the Harvard University food composition database, which was updated over time with data from the US Department of Agriculture, manufacturers, and published reports. We based values for total trans isomer contents in food in part on analyses by Enig et al and Slover et al.8 9 To assess the effects of food groups rich in fat or cholesterol, we defined red meat as beef, pork, or lamb as a main dish; beef, pork, or lamb as a sandwich or mixed dish; hamburgers; hot dogs; processed meat; and bacon. We defined high fat dairy food as whole milk, ice cream, hard cheese, butter, and sour cream.

The validity of the food frequency questionnaire has been evaluated in a subcohort. After adjustment for energy and de-attenuation for within person variation, the Pearson correlation between the questionnaire and the average of two single week diet records six months apart was 0.67 for total fat, 0.75 for saturated fat, 0.37 for polyunsaturated fat, 0.68 for monounsaturated fat, and 0.76 for cholesterol.10 In addition, a Spearman correlation of 0.34 was obtained for the comparison of intake of trans unsaturated fatty acids as a percentage of total fat calculated from the questionnaire with the trans isomer composition of adipose aspirates.11

Outcome assessment

We considered as endpoints all incident fatal and non-fatal strokes occurring between the return of the baseline questionnaire and 31 January 2000. A physician blinded to risk factor status reviewed participants' medical records, for which permission was obtained, when incident strokes were reported on a follow up questionnaire. Fatal stroke was reported by next of kin or colleagues or obtained from postal authorities or the national death index. All fatal cases have been confirmed by medical records, autopsy report, or death certificate. We classified cases into ischaemic (embolism or thrombosis), haemorrhagic (subarachnoid and intracerebral), or unknown type of stroke according to the criteria of the national survey of stroke.12

Statistical analyses

We calculated follow up time for each participant from the date of return of the first questionnaire to the date of the first stroke, death, or end of the follow up. We divided participants into fifths according to their intake of each type of fat. We calculated incidence rates as the number of events divided by the follow up time in each fifth. We estimated relative risks with rate ratios comparing the incidence of stroke in a particular fifth of dietary intake with that of the lowest fifth. To estimate age and smoking adjusted relative risks and 95% confidence intervals we used the Mantel-Haenszel method by stratifying data according to age (five year categories) and smoking status. To further adjust for other covariates we used Cox's proportional hazards models with age (months) as the time variable. In addition to determining the effects of each type of fat individually, we examined the possible confounding by intake of other fat subtypes in secondary analyses. Nutrient intakes were adjusted for energy by regression analysis or used as a nutrient density (nutrient/energy), and we included total energy intake in all regression models. We used the Mantel extension test to test for linear trends,13 and we included the median values for each fifth in the model as a continuous variable.

To account for changes in diet during the follow up and to best represent long term intake, we used the cumulative average of nutrient intakes derived from all previous food frequency questionnaires. To determine the difference between long term and most recent fat intake, we used the baseline intake and the most recent intake in relation to incidence of stroke. The detail of this method has been previously described.4 We used the Keys equation to predict serum cholesterol from dietary intake of cholesterol and saturated and polyunsaturated fat.14 As participants were likely to change their diets after they developed some diseases or health conditions, we stopped updating individual dietary information if a participant had diabetes mellitus, coronary heart disease, transient ischaemic attack, peripheral arterial disease, or a diagnosis of hypercholesterolaemia.

Results

During the 14 year follow up we documented 725 cases, including 455 ischaemic strokes, 125 haemorrhagic strokes, and 145 strokes of unknown type. In both age and smoking adjusted analyses and multivariate analyses, intakes of total fat, animal fat, vegetable fat, saturated fat, monounsaturated fat, polyunsaturated fat, trans unsaturated fat, or cholesterol or the score from the Keys equation were not significantly associated with risk of ischaemic or haemorrhagic stroke. Also, none of the trends across fifths was statistically significant (table 1). After further adjustment for intakes of other fat subtypes, the results were not appreciably altered. In addition, none of the specific types of fat intake was significantly related to risk of total stroke (data not shown).

Table 1

Relative risks of stroke (95% confidence intervals) according to fifths of total fat, specific types of fat, dietary cholesterol, and Keys score

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To evaluate the effects of long term and short term dietary intakes, we examined these associations by using baseline intakes and the most recent intakes separately. The multivariate estimations were similar to those obtained using cumulative average diet, and none of the associations was statistically significant (table 2).

Table 2

Relative risks of ischaemic stroke according to intakes of total energy, total fat, specific types of fat, and cholesterol as continuous variables in different models

View this table:

We have reported earlier that intakes of long chain omega 3 fatty acids from seafood were inversely associated with ischaemic but not haemorrhagic stroke.4 However, neither total omega 3 nor omega 6 polyunsaturated fatty acid intake was significantly related to ischaemic or haemorrhagic stroke in this study (data not shown).

We further evaluated risk of strokes according to consumption of selected foods rich in fat or cholesterol, including red meat, high fat dairy products, nuts, and eggs. We found no significant associations with ischaemic or haemorrhagic stroke (table 3).

Table 3

Relative risks of stroke (95% confidence intervals) according to categories of consumption of red meat, high fat dairy products, nuts, and eggs

View this table:

Discussion

We observed no statistically significant associations in this large cohort between intake of total fat, specific types of fat, or cholesterol and risk of ischaemic, haemorrhagic, or total stroke. In addition, consumption of red meats, high fat dairy products, nuts, or eggs did not seem to be related to risk of stroke.

Strengths and weaknesses of the study

Our findings are unlikely to be explained by recall or selection bias, because of the prospective nature of the study design and minimal loss to follow up. The results are also unlikely to be due to confounding, as the relative risk estimates did not materially change after simultaneous adjustment for the potential confounding variables. However, as in any observational study, residual confounding from some unknown factors could not be excluded.

The food frequency questionnaire that we used in the dietary assessment has been previously evaluated as a reasonable reflection of long term diet, including fat intakes.7 In addition, we reduced error in dietary assessment by using repeated measurements. The questionnaire's validity is further supported by the fact that it has predicted risk of coronary heart disease in this cohort.15 Participants might change their diets after developing some diseases that predispose them to stroke. After the dietary recommendation in the past decades, the most likely changes would be reduction in total fat, saturated fat, and cholesterol intakes. These dietary changes would dilute a possible positive association between these nutrients and risk of stroke. To reduce bias from this source, we excluded men with cardiovascular diseases or diabetes mellitus at baseline and stopped updating individual dietary information once a participant reported any cardiovascular disease, diabetes, or hypercholesterolaemia during the follow up period. The fact that the associations remained similar when we used baseline diet, most recent diet, or cumulative average diet further suggested that the observed associations were unlikely to be substantially attenuated.

Ischaemic stroke

Saturated fat intake has been found to be positively related to carotid artery wall thickness, a marker of atherosclerosis and a potential risk factor for stroke.16 Polyunsaturated fat intake was inversely associated with this marker. However, epidemiological data on dietary fat and risk of stroke have produced inconsistent results. Whereas saturated fat intake was positively correlated with total mortality from stroke in an ecological study,17 and the results of several prospective studies have supported beneficial effects of long chain omega 3 polyunsaturated fatty acids, α linolenic acid, and linoleic acid on ischaemic stroke,46 opposite results were reported from the Framingham heart study.2 In that study total fat, saturated fat, and monounsaturated fat, but not polyunsaturated fat, were inversely associated with risk of ischaemic stroke.

Although ischaemic heart disease and stroke share many of the same risk factors, the association of blood cholesterol with stroke remains controversial. A meta-analysis including 45 prospective cohorts found no association between blood cholesterol and stroke.18 However, most studies did not distinguish ischaemic stroke from haemorrhagic stroke, which contributes approximately 20% of all strokes in Western countries, and this would probably dilute any association between blood cholesterol and ischaemic stroke. No significant association between reduction in blood cholesterol and risk of stroke was reported in an overview of trials of cholesterol lowering treatment involving more than 36 000 patients.19 However, in recent trials of cholesterol lowering treatment in patients with cardiovascular disease, the incidence of stroke was reduced in the treated groups.20 Overall, it seems that serum lipid concentration is not a strong predictor of total stroke, probably because a substantial proportion of ischaemic strokes are caused by embolism or other mechanisms that are not directly related to atherosclerosis. In addition, nitric oxide and inflammation may play important roles in the pathogenesis of ischaemic stroke,21 22 and the findings of the beneficial effects of unsaturated fatty acids on ischaemic stroke may be in part due to their favourable effects on platelet aggregation and endothelial function.46 23 24

What is already known on this topic

The associations between different types of fat and coronary heart disease do not seem to apply to stroke

Ecological data indicate that dietary fat intake is inversely related to risk of stroke

What this study adds

Intake of total fat, cholesterol, or major specific types of fat was not associated with risk of stroke

Consumptions of red meats, high fat dairy products, nuts, and eggs were also not appreciably related to risk of stroke

Haemorrhagic stroke

The association between dietary fat intake and risk of haemorrhagic stroke is far from clear. In the nurses' health study, Iso et al observed an inverse association between risk of intraparenchymal haemorrhagic stroke and intake of saturated fat or trans unsaturated fat but no associations with total fat, polyunsaturated fat, monounsaturated fat, or dietary cholesterol.3 Although we did not observe any significant association between dietary fat intake and risk of haemorrhagic stroke, we could not exclude any important association because of the modest number of cases of haemorrhagic stroke. Further studies are needed.

Conclusion

Our findings from this large cohort of middle aged US male healthcare professionals without a history of cardiovascular disease or diabetes mellitus indicate that intakes of total fat, specific types of fat, or dietary cholesterol do not seem to be related to the development of stroke.

We thank the participants of the health professional follow up study for their continuing participation and cooperation.

Footnotes

  • Contributors KH contributed to the study concept and design and the analysis and interpretation of the data and drafted the manuscript. AM contributed to data analysis and interpretation. EBR contributed to the study concept and design, analysis and interpretation of the data, and funding. BAR contributed to data analysis and interpretation and editing of the manuscript. MJS contributed to the study concept and design, data analysis and interpretation, and editing of the manuscript. WCW contributed to the study concept and design, analysis and interpretation of the data, editing of the manuscript, and funding. AA contributed to the study concept and design, analysis and interpretation of the data, funding, and editing of the manuscript and supervised the study. AA is the guarantor of this study.

  • Funding This work was supported by the research grant HL35464 and CA55075 from the National Institutes of Health. KH was a recipient of the Arthur T Lyman and Henry S Grew memorial scholarship and the Stares fellowship from Harvard University when he conducted this study.

  • Competing interests None declared.

  • Ethical approval Harvard School of Public Health institutional review board approved the study design, data collection, and analysis plan.

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