See how dietary fat effects allergies, read the research, and make a smart decision on what to put on your plate tonight at dinner!
Fats found in fish oil may reduce risk of allergies
A high cell membrane level of eicosapentaenoic acid was inversely associated with allergic sensitisation, the adjusted odds ratio (OR) were 0.52 for the highest (vslowest) quartile. A similar effect was observed for allergic rhinitis with an OR of 0.50. A higher dietary intake of alpha-linolenic acid was associated with a decreased risk of allergic sensitisation and allergic rhinitis with ORs of 0.51 and 0.43, respectively, in the highest quartiles. No other dietary or cell membrane unsaturated fatty acid was significantly associated with the outcome variables, nor was the n-6/n-3 ratio. The strongest effects were observed among subjects under the age of 40 y. Conclusions: In this cross-sectional study among adults, a high content of n-3 fatty acids in RBC membranes (EPA) or in the diet (ALA) is associated with a decreased risk of allergic sensitisation and allergic rhinitis.
Fats found in fish oil associated with decreased prevalence of allergic rhinitis
This cross-sectional study investigated the association of intake of selected high-fat foods and specific types of fatty acids with the prevalence of allergic rhinitis in Japan where intake of fish is high. Methods: Study subjects were 1002 Japanese pregnant females. Results: Intake of eicosapentaenoic and docosahexaenoic acids was independently associated with a decreased prevalence of allergic rhinitis: the multivariate odds ratio for the highest quartile was 0.56. Conclusion: Our findings suggest that the intake of eicosapentaenoic and docosahexaenoic acids may be associated with a reduced prevalence of allergic rhinitis.
20-60 fold variation between different countries in prevalence of allergies
In recent years there has been a marked increase in the prevalence of asthma, rhinitis, and eczema. We have sug- gested that this is due to an increase in the consumption of linoleic acid and a decrease in the consumption of eicosapentaenoic acid. Linoleic acid is a precursor of PGE2, which in turn may promote allergic sensitization by inhibiting the formation of IFN-γ.1 The International Study of Asthma and Allergies in Childhood (ISAAC)2 has now reported that there is a 20-to 60-fold variation between different countries in the frequency of the symptoms of asthma, rhinitis, and eczema. Symptoms were most commonly reported in Australasia, the Americas, and Northern and Western Europe. In contrast, the lowest frequency of symptoms were observed in a number of Asian countries (including India and China), Eastern European countries (including Russia and Poland), and some Southern European coun- tries (including Greece). Differences in the consumption of linoleic acid could also explain some of the variation in the prevalence of the symptoms of asthma, rhinitis, and eczema reported in ISAAC. The countries with a low frequency of allergic disease differ in many respects, but they do share a low intake of linoleic acid in the diet. The main source of linoleic acid in the diet are vegetable oils, such as sunflower oil, safflower oil, and soybean oil. By using the food balance sheets the grams of fat per capita per day obtained from vegetable oils in Russia, India, and China in 1995 were 15.2, 18.2, and 15.0, respectively. This compares with values for the USA, UK, and France of 62.4, 45.8, and 46.2, respectively. Greece has a high intake of fat from vegetable oils (76.4 g per capita per day), but unlike the countries of Northern Europe or America, this comes overwhelmingly from olive oil, which contains oleic acid, a monosaturated fatty acid, and only contains low levels of linoleic acid.
Increase in incidence of allergies associated with fats found in vegetable oil
In many industrialized countries, such as the UK, USA and Australia, large increases in the intake of n-6 PUFA have occurred in the last 30 years (Roberts, 1991). In the UK, polyunsaturated fatty acid : saturated fatty acid intake doubled between 1972 and 1988. The intake of n-6 PUFA rose from 4 % of the dietary energy in the early 1970’s to 6 % at present (Department of Health, 1994). It has been suggested that the upsurge of asthma which has been observed in the UK, Australia and New Zealand is related to these increases in PUFA intake (Black & Sharpe, 1997). The unexplained increase in the incidence of eczema and allergic rhinitis, and regional differences of inflammatory disease within countries, may relate to n-6 PUFA intake (Lewis et al. 1996;Black & Sharpe, 1997). For example, the incidence of asthma is lower in Scotland and the north of England than in the south, and intakes of n-6 PUFA are highest in the south of England (Lewis et al. 1996). Similarly, the incidence of asthma was lower in the eastern part of Germany (where intakes of n-6 PUFA were lower) than in the western part of the country (where larger quantities of n-6 PUFA were consumed; Black & Sharpe, 1997). In southern Finland, the incidence of asthma in rural children is over three times higher than in children from the industrialized east of the country. The levels of n-6 PUFA in plasma cholesteryl esters are significantly greater in the former region, thus conferring a higher intake of n-6PUFA (Black & Sharpe, 1997).
Fats found in vegetable oil may promote allergies by increasing synthesis of prostaglandin E2
The last two decades have seen an increase in the prevalence of asthma, eczema, and allergic rhinitis in developed countries. This increase has been paralleled by a fall in the consumption of saturated fat and an increase in the amount of polyunsaturated fat in the diet. There is also evidence for a decrease in the consumption of oily fish which contain ω-3 PUFAs, such as eicosapentaenoic acid. In a number of countries, there are social class and regional differences in the prevalence of allergic disease, which are associated with differences in the con- sumption of PUFAs. Linoleic acid is a precursor of arachidonic acid, which can be converted to prostaglandin E2 (PGE2), whereas eicosapentaenoic acid inhibits the formation of PGE2. PGE2 acts on T-lymphocytes to reduce the formation of interferon-γ (IFN-γ) without affecting the formation of interleukin-4 (IL-4). This may lead to the development of allergic sensitization, since IL-4 promotes the synthesis of immunoglobulin E (IgE), whereas IFN-γ has the opposite effect. Changes in the diet may explain the increase in the prevalence of asthma, eczema and allergic rhinitis. The effects of diet may be mediated through an increase in the synthesis of prostaglandin E2 which in turn can promote the formation of immunoglobulin E.
Diet high in fats found in vegetable oil favors production of (Ig)E, may contribute to atopic disease
The increase in the prevalence of atopic diseases has recently been linked to altered consumption of polyunsaturated fatty acids (PUFAs). As typical Western diets contain almost 10 times more linoleic acid (18:2 ω-6) than α-linolenic acid (18:3 ω-3), it is the metabolism of the former that predominates. Subsequently produced arachidonic acid-derived eicosanoids alter the balance of T-helper cells type 1 and type 2 thus favouring the production of immunoglobulin (Ig)E. In atopic subjects, the impact of this excessive eicosanoid production may be further strengthened as a result of changes in cyclic nucleotide metabolism exacerbated by substrate availability. Dietary ω-3 fatty acids can have marked influence on both specific and nonspecific immune responses in modifying eicosanoid production and replacing ω-6 fatty acids in cell membranes. Therefore, it is concluded that careful manipulation of dietary PUFAs may play a key role in the successful management of inflammation associated with atopic diseases.
Intake of fats found in vegetable oil associated with increased risk of atopic disease
We wanted to evaluate the association between dietary fats, serum fatty acids, and the occurrence and development of atopic diseases. 231 sex- and age-matched pairs in 1980 and 154 pairs in 1986 were chosen, between whom we compared the dietary data, serum fatty acid composition, and occurrence of atopic diseases. Results: According to the cross-sectional data, the children with atopic disease consumed more margarine (mean 8.6 vs7.3 g/1000 kcal), and less butter (mean 9.4 vs11.6), than the nonatopic children. Differences supporting these dietary findings were similarly found in the serum fatty acid data. Conclusions: The diet of the atopic children differed from that of the nonatopic children in the consumption of polyunsaturated fat.
Children who consume margarine instead of butter more likely to suffer from allergies
Dietary fat consumption is hypothesized to influence atopy development by modulation of IgE production. Data of a cross-sectional health survey comprising 2,348 children age 5 to 14 yr were analyzed. Information on type of fat used as spread during the past 12 mo, children’s health, and sociodemographic factors were gathered by questionnaire. Compared with butter consumption, margarine consumption was associated with allergic sensitization (adjusted odds ratio 1.30) and with rhinitis symptoms during the past 12 mo (1.41). In conclusion, the sex difference in the association of margarine consumption with allergic sensitization was in accordance with the higher IgE concentrations and atopy prevalence in boys compared with girls. Increased intake of certain polyunsaturated fatty acids might further stimulate IgE production in boys.
Fat-rich and protein-rich foods associated with higher prevalence of asthma
In a population-based cross-sectional survey, the relationship was sought between food frequency and physician-diagnosed asthma and allergic rhinitis in 1166 adolescents. Asthma was associated with intakes of liver (OR = 2.32), deep-fried foods (OR = 2.13) and butcher’s meat (OR 1.84). In a similar analysis, allergic rhinitis was associated with liver (OR = 1.67). No protective effect was demonstrated for any of the food items examined. Protein-rich and fat-rich foods of animal origin were associated with a higher prevalence of asthma in teenagers.
Animal fats, butter risk factors; fish oil, hamburger protective factors for allergies
A family history of atopy, mother with a university degree, presence of cat at home during last 12 months and adenoidectomy were significant for increased doctor diagnosed allergic rhinitis risk. Additionally, although fish and other sea foods, fermented drinks made from millets and various seeds, animal fats and butter were independent risk factors for doctor diagnosed allergic rhinitis, fish oil and hamburger were protective foods for doctor diagnosed allergic rhinitis. Conclusions: Socio-economical, environmental factors, some dietary habits, but not Mediterranean diet may affect the prevalence of allergic rhinitis.
Saturated fats may increase risk of asthma; monounsaturated fats may protect
To examine the association between nutrient intake and physician-diagnosed asthma and allergic rhinitis, data from 1166 adolescents, 13–17 years of age, were analyzed. Results: In univariate analysis, total calorie and energy-adjusted fat intake were associated with the prevalence of asthma, whereas vitamin A and vitamin C intake showed negative association with asthma. Intake of saturated fats was associated with increased risk (OR = 2.02), while monounsaturated fats were inversely related to asthma (OR = 0.65). None of the nutritional factors was associated with allergic rhinitis. Conclusion: Results from this cross-sectional survey suggest that saturated and monounsaturated fats may have different effects on airway inflammation.
Frequent consumption of milk fat associated with reduced risk of asthma symptoms
Data from 2978 children participating in a prospective birth cohort study were used. Results: The prevalence of recent asthma at age 3 was lower in children who consumed (at age 2) full cream milk daily (3.4%) than in those who did not (5.6%) and in those who consumed butter daily (1.5%) than in those who did not (5.1%). The prevalence of recent wheeze was lower in children who consumed milk products daily (13.7%) than in those who did not (18.4%) and in children who consumed butter daily (7.7%) than in those who did not (15.4%). These effects remained in a logistic regression model including different foods and confounders (adjusted odds ratio (CI) for recent asthma: full cream milk daily vrarely 0.59, butter daily vrarely 0.28). Daily consumption of brown bread was also associated with lower rates of asthma and wheeze, whereas no associations were observed with the consumption of fruits, vegetables, margarine, and fish. Conclusions: In pre-school children, frequent consumption of products containing milk fat is associated with a reduced risk of asthma symptoms.
Margarine consumption may increase risk of allergies; Mediterranean diet may have protective affect
A cross-sectional survey was performed in 690 children aged 7–18 years in rural Crete. Parents completed a questionnaire on their child’s respiratory and allergic symptoms and a 58-item food frequency questionnaire. Results: The intake of grapes, oranges, apples, and fresh tomatoes—the main local products in Crete—had no association with atopy but was protective for wheezing and rhinitis. A high consumption of nuts was found to be inversely associated with wheezing (OR 0.46), whereas margarine increased the risk of both wheeze (OR 2.19) and allergic rhinitis (OR 2.10). A high level of adherence to the Mediterranean diet was protective for allergic rhinitis (OR 0.34) while a more modest protection was observed for wheezing and atopy. Conclusion: The results of this study suggest a beneficial effect of commonly consumed fruits, vegetables and nuts, and of a high adherence to a traditional Mediterranean diet during childhood on symptoms of asthma and rhinitis. Diet may explain the relative lack of allergic symptoms in this population.
Mediterranean diet associated with less asthma and rhinitis in children
A cross-sectional study was conducted in 2004 using a random sample of 1476 children. Dietary data of children’s intake in the last 12 months. A Mediterranean diet score was computed. Adherence to a Mediterranean dietary pattern was inversely associated with asthma ever (OR = 0.60), wheezing ever (0.64), rhinitis ever (0.41), current sneezing (0.71) and current itchy-watery eyes (0.63). Conclusions: Our findings suggest a protective effect of following a healthy dietary pattern on asthma and allergic rhinitis in Mexican children.
Butter and margarine may increase wheezing in children; Fruits and vegetables have protective effect
Baseline questionnaire data on individual and family characteristics were recorded by parents of 5,257 children. A total of 4,104 children (78.1%) were reinvestigated after 1 yr using a second parental questionnaire to record occurrence of respiratory symptoms over the intervening 12 months. Consumption of foods rich in antioxidants, such as vitamins C and E, animal fats, and food containing omega‐3 fatty acids were investigated using a food-frequency questionnaire. Frequency of use of fats was also evaluated. Intake of cooked vegetables, tomatoes, and fruit were protective factors for any wheeze in the last 12 months and shortness of breath with wheeze. Consumption of citrus fruit had a protective role for shortness of breath with wheeze. Consumption of bread and margarine was associated with an increased risk of wheeze, while bread and butter was associated with shortness of breath with wheeze. Dietary antioxidants in vegetables may reduce wheezing symptoms in childhood, whereas both butter and margarine may increase the occurrence of such symptoms.