Depression is a common mental health condition and its incidence increases exponentially with age(Reference Williamson1). A growing body of epidemiological evidence including both cross-sectional and longitudinal studies suggests a relationship between diet/nutrition and mental health. Considerable research effort has been devoted to analysing the possible association of dietary pattern with depressive symptoms(Reference Freeman2–Reference Kuczmarski, Sees and Hotchkiss5). In cross-sectional studies, poor habitual diet quality has been observed to be associated with high prevalence of mental disorders in Australian women(Reference Jacka, Pasco and Mykletun6); an unhealthy food consumption pattern was found to be associated with depressive symptoms in female but not male college students in three European countries(Reference Mikolajczyk, El Ansari and Maxwell4); and a healthy dietary pattern was found to be associated with lower prevalence of depressive status in male and female Japanese municipal employees(Reference Nanri, Kimura and Matsushita7).
A prospective study conducted by Akbaraly et al.(Reference Akbaraly, Brunner and Ferrie8) showed that a processed foods dietary pattern high in sweet deserts, fried food, processed meat, refined grains and high-fat dairy products was a risk factor for depression 5 years later as measured by the CES-D (Center for Epidemiologic Studies Depression Rating Scale), whereas a whole foods pattern high in vegetables, fruits and fish was protective in middle-aged (35–55 years old) participants.
The elderly are at higher risk of both depression and nutritional deficiency(Reference Williamson1). Wang(Reference Wang9) showed that 57 % of rural elderly Taiwanese had depressive symptoms. Many elderly also have depressed appetite, ageing-related anorexia, poor dental status and functional or cognitive impairments. They are more inclined to eat a simple and nutritionally inadequate diet, and therefore have increased risk of nutritional deficiency. Low dietary and blood levels of certain nutrients such as vitamin B6, vitamin B12, folic acid and n-3 fatty acids might be associated with increased risk of depressive symptoms(Reference Freeman2, Reference Kim, Stewart and Kim10). A recent study observed a longitudinal association of dietary total intake of vitamins B6, B12 and folate with depressive symptoms among older adults over time(Reference Skarupski, Tangney and Li11). Thus, it is hypothesized that what we eat may impact our psychological health by affecting nutrient levels in the blood. In addition, the psychological well-being of older adults could also be impacted by unfavourable socio-economic, environmental, lifestyle and health-related factors. Thus, the present study aimed to examine the longitudinal association of the frequencies of consumption of the major food categories with the risk of new depression in elderly Taiwanese.
Methods
Source of data and participants
Data used for this analysis were from the 1999 and 2003 ‘Survey of Health and Living Status of the Elderly in Taiwan’ (SHLSET), a prospective study undertaken by the Bureau of Health Promotion of Taiwan. The survey was initiated in 1989 and employed a multistage random sampling process to draw a national random sample of 4412 Taiwanese aged 60 years or older. A second sample of 2462 Taiwanese, 50–66 years old, was selected with the same process and added to the cohort in 1996 in order to maintain and extend the age range of the cohort. The combined cohort was interviewed every 3–4 years (1989, 1992, 1996, 1999, 2003 and 2007). The 1999 survey contained more detailed information on participants’ dietary pattern and nutritional status and thus was chosen as baseline of the present analysis. The 2003 survey served as endpoint. The completion rates were 90·3 % for the 1999 survey and 91·6 % for the 2003 survey. Of 4440 participants who completed the 1999 survey, 2890 met the age requirement (≥65 years) of the present study. After excluding 905 who had depressive symptoms (CES-D score ≥ 10) at baseline and 376 who failed to complete the 2003 survey or died, data from the remaining 1609 participants were analysed in the present study. The design and questionnaire of the survey is available at a government website(12) and described in a recent publication(Reference Tsai and Chang13). The protocol of SHLSET was reviewed and approved by government-appointed representatives and the study was conducted according to ethical standards set forth in the Helsinki Declaration. All participants gave informed consent and their anonymity was preserved at all times.
Study variables
In each survey, trained interviewers conducted in-home in-person interviews to elicit sociodemographic, anthropometric, health and health-care-related information from each participant. Among other questions, the questionnaire inquired about the consumption frequencies of the major food categories (including meat and poultry, fish, seafood, eggs, fruits, vegetables and infused camellia tea) during the 1999 interview by a specific question: ‘How many times per week do you consume each of the following foods?’ The frequencies provided for each food category were ‘every day or nearly every day’, ‘3–5 times/week’, ‘1–2 times/week’, ‘less than 1 time/week’ and ‘I do not eat such foods’. A separate question asked about the number of bowls of rice or noodles consumed each day. The food consumption questionnaire was pretested and validated with a 14 d food diary (analysis with Wilcoxon's signed-rank test showed good agreement between the two methods, all P < 0·05) prior to the survey (AC Tsai and MC Chang, unpublished results). In the present study, a frequency of ≥3 times/week was arbitrarily chosen as the cut-off point to designate more frequent consumption of a food category. A consumption of three bowls of rice/noodles per day was also the cut-off point for grain intake. Data gathered in the survey were found to have acceptable agreement with that obtained clinically(Reference Wu, Li and Ke14, Reference Goldman, Lin and Weinstein15).
The psychological health status was the dependent variable of the present study. The risk of having a depression was evaluated with CES-D10 in 1999 and in 2003. The ten-item CES-D (CES-D10) was shown to preserve the same sensitivity and specificity as the twenty-item scale and it performed well in cross-cultural and older population studies, including the elderly Chinese. The scale has a maximum score of 30. A score of 10 or higher was considered having a risk of depression. The cut-off point was shown to have good sensitivity (0·85) and specificity (0·80) in Chinese elderly(Reference Boey16, Reference Ofstedal, Zimmer and Lin17). Cognitive status was rated with the Short Portable Mental Status Questionnaire (SPMSQ)(Reference Pfeiffer18). Functional dependency was measured with the Instrumental Activities of Daily Living (IADL) scale. The IADL scale has two scores, one measures if the person has difficulty in carrying out each of six items and the other measures the degree of difficulty in performing the tasks. Participants were asked whether they had difficulty shopping, handling finances, transporting, housekeeping, using telephone or doing some heavy housework. An item that one ‘cannot do at all independently’ is considered ‘dependent’ for that item. Participants also rated the level of difficulty for performing each of the six items on a scale from 0 to 3 points (0 = no difficulty, 1 = some difficulty, 2 = much difficulty, 3 = cannot do). Individual scores were summed across each of the six items to yield a total score from 0 to 18, with higher scores reflecting a higher level of ADL difficulty(Reference Fitti and Kovar19, Reference Johnson, Lui and Yaffe20).
Statistical analysis
Univariate analysis was performed to evaluate the association of the consumption frequency of each item with current risk of depression (data not shown). Logistic regression analysis was performed to evaluate the association of baseline food consumption frequencies with the risk of new depression four years later in elderly who were without depressive symptoms (CES-D ≤ 9) at baseline. Because cognitive status has been shown to impact the scoring on the CES-D scale in the elderly, we analysed associations with and without this variable (SPMSQ) in separate regression models. Both regression models were adjusted for demographic status, lifestyle, socio-economic and health-related variables at endpoint. All statistical analyses were performed with the SPSS statistical software package version 15·0 (SPPSS Inc., Chicago, IL, USA). All values were weighting-adjusted according to study design. Statistical significance was evaluated at α = 0·05.
Results
The study included slightly more men (54·7 %) than women, which reflected the composition of the generation. Table 1 shows the characteristics of the participants according to depression status (CES-D score ≥10 v. ≤9) at baseline. Compared with those who had less risk of depression, those who had greater risk of depression were more likely to be female, older, have fewer years of formal education, be less satisfied with their economic status, do less physical activity and have poorer self-viewed health.
*Of 4440 participants who completed the 1999 survey, 2890 met the age requirement (≥65 years) of the present study. Among them, 905 who had depressive symptoms (Center for Epidemiologic Studies Depression Rating Scale, score ≥ 10) at baseline and 376 who failed to complete the 2003 survey or died, were excluded. The remaining 1609 participants were included in the present analysis.
Univariate analysis showed that more frequent consumption of all food categories examined was significantly (P < 0·05) associated with lower risk of depression (data not shown). Table 2 shows the results of logistic regression analyses. In a regression model without adjusting for cognitive status (SPMSQ score), frequent consumption of fruits and vegetables at baseline was associated with reduced risks of new depression four years later. However, only the consumption of vegetables was significantly associated with reduced risk of depression when the regression model was adjusted for cognitive status (SPMSQ score). Both models also controlled for age, gender and years of formal education at baseline, and economic status, living setting, smoking status, alcohol drinking, betel-nut chewing, functional status, physical exercise and the presence of co-morbidities (hypertension, diabetes, heart disease, cancer, stroke, chronic kidney disease, gout, joint pain/arthritis, gallbladder/liver disease, hip fracture and lower-back pain) at endpoint.
CES-D, Center for Epidemiologic Studies Depression Rating Scale; % Dep, % with depression symptoms; SPMSQ, Short Portable Mental Status Questionnaire.
*The model excluded those who had depressive symptoms (CES-D ≥ 10) at baseline and those who failed to complete or died before the 2003 survey. Demographic and food consumption frequencies were baseline (1999) data and all variables were endpoint (2003) data. The model was controlled for baseline age, gender and years of formal education, satisfaction with economic status, living setting, smoking status, alcohol drinking, betel-nut chewing, functional status, physical activity, cognitive status (SPMSQ score) and the presence of major chronic co-morbidities (hypertension, diabetes, heart disease, cancer, stroke, chronic kidney disease, gout, joint pain/arthritis, gallbladder/liver disease, hip fracture and lower-back pain) at endpoint. All values were weighting-adjusted according to study design.
Discussion
Results of the present study suggest that vegetables are protective against depressive symptoms over time in older adults. In a regression model that controlled for age, gender, years of formal education, satisfaction with economic status, living setting, smoking status, alcohol drinking, betel-nut chewing, functional status (IADL impairments), physical exercise, hypertension, diabetes, heart disease, cancer, stroke, chronic kidney disease, gout, joint pain/arthritis, gallbladder/liver disease, hip fracture, lower-back pain and cognitive status (SPMSQ score) at endpoint, more frequent consumption of vegetables was significantly associated with a reduced risk of depression four years later in older adults. Fruit consumption was significant only if the regression model was not adjusted for cognitive status.
In several cross-sectional studies, consumption of vegetables and/or fruits has been shown to be associated with lower risks of depression. Avila-Funes et al.(Reference Avila-Funes, Garant and Aguilar-Navarro21) found that intakes of fruits and vegetables (also meat and poultry, fish and dairy) were significantly lower in older Mexican who had depressive symptoms; Woo et al.(Reference Woo, Lynn and Lau3) observed an inverse association of fibre and vegetable intakes with depression in community-living elderly Chinese in Hong Kong; Verger et al.(Reference Verger, Lions and Ventelow22) observed that low consumption of fruits and vegetable was associated with an increased risk of depressive disorders; Konttinen et al.(Reference Konttinen, Mannisto and Sarlio-Lahteenkorva23) observed that lower consumption of fruits and vegetables was related to higher depressive symptoms in 25–64-year-old Finnish men and women; and Oishi et al.(Reference Oishi, Doi and Kawakami24) observed that high carbohydrate intake was inversely associated with depression. In addition to dietary components, healthier dietary patterns have also been observed to be associated with reduced risks of depression. Nanri et al.(Reference Nanri, Kimura and Matsushita7) observed that a healthy Japanese dietary pattern characterized by high intakes of fruits, vegetables, mushrooms and soya products was associated with fewer depressive symptoms in Japanese municipal employees. Kuczmarski et al.(Reference Kuczmarski, Sees and Hotchkiss5) observed that good diet quality (as indicated by the Healthy Eating Index) was significantly associated with reported symptoms of depression in African-American and white adults (30–64 years old) in the Baltimore area. Jacka et al.(Reference Jacka, Pasco and Mykletun6, Reference Jacka, Mykletun and Berk25) observed that a ‘traditional’ dietary pattern characterized by vegetables, fruits, meat, fish and whole grains was associated with lower odds for major depression or dysthymia and for anxiety disorders, whereas a ‘Western’ diet of processed or fried foods, refined grains, sugary products and beer was associated with higher psychological symptoms in adults. A Mediterranean dietary pattern with adequate intakes of fruits, nuts, vegetables, cereals, legumes and fish, important sources of nutrients, has been linked to a lower risk of depression(Reference Sanchez-Villegas, Henriquez and Bes-Rastrollo26).
There are only a few longitudinal studies that document the depression-protective effect of diet. Akbaraly et al.(Reference Akbaraly, Brunner and Ferrie8) observed that a processed foods dietary pattern (heavily loaded with sweetened desserts, fried food, processed meat, refined grains and high-fat dairy products) was a risk factor for depression five years later whereas a whole foods pattern (heavily loaded with vegetables, fruits and fish) was protective in middle-age persons (55·7 (sd 6) years). Sanchez-Villegas et al.(Reference Sanchez-Villegas, Delgado-Rodriguez and Alonso27) observed that a Mediterranean dietary pattern high in vegetables, fruits and nuts, cereal, legumes and fish and moderation in alcohol was linked to depression prevention in college graduates. These studies suggest a possible causal relationship between dietary patterns and the risk of depression but cannot pinpoint the food groups responsible for the effect. The present study has specifically identified a food group, vegetables, to be associated with reduced risk of depression four years later in older adults.
Although fruits and vegetables have similarities in chemical composition, these two food groups exhibited somewhat different degrees of association with the risk of depression in the present study. Both food groups were significantly associated with reduced risk of depression in a regression model without being adjusted for cognitive status. Adjustment of the regression model for cognitive status attenuated the association of depression with fruit consumption but not with vegetable consumption. This suggests that the association with fruits is mediated through cognitive status and fruit consumption may impact cognitive status. The mechanism of this relationship warrants further investigation.
In addition to vegetables and fruits, the present results also suggested that eggs may offer protection against depressive symptoms in older adults. Egg consumption was close to being statistically significant in both regression models (P = 0·087 without and 0·069 with adjustment for cognitive status). Eggs are a good source of high-quality amino acids and rich in vitamins, minerals, α-linolenic acid (an n-3 fatty acid) and natural antioxidants. Most of these food components have been implicated to play a role in reducing the risk of depression(Reference Kim, Stewart and Kim10, Reference Skarupski, Tangney and Li11).
Potential mechanism
The mechanism by which vegetables or ‘healthy dietary patterns’ reduces the risk of depression is not clearly known. Several dietary components such as the B-vitamins (especially B6, B12 and folate which are involved in the metabolism of homocysteine), n-3 fatty acids and antioxidants have often been implicated to play a role. The intakes and plasma levels of B6, B12 and folate have been found to be associated with depressive symptoms(Reference Kim, Stewart and Kim10, Reference Skarupski, Tangney and Li11) and supplementation with these vitamins has been shown to be effective in reducing the risk of symptoms. A prospective study has observed an association of vitamin B6, vitamin B12 and folate with depressive symptoms among older adults over time(Reference Merete, Falcon and Tucker28). People who consume vegetarian diets are associated with healthy mood states. Lucas et al.(Reference Lucas, Mirzaei and O'Reilly29) observed that higher α-linolenic acid and lower linoleic acid (an n-6 fatty acid) intakes reduce depression risk in a 10-year prospective study. Non-nutrient phytochemicals in fruits and vegetables could also play a role. These compounds have antioxidant properties. However, supplementation of α-tocopherol (a major antioxidant nutrient) did not reduce depressive status in the elderly although plasma vitamin E was lower in persons with depression(Reference Tiemeier, Hofman and Kiliaan30, Reference Owen, Batterham and Probst31).
It should also be mentioned that although the frequency of intake of vegetables (and maybe fruits and eggs) can predict future risk of depression in longitudinal studies, the possibility of reverse causality still cannot be totally excluded because the relationship between food and mood is bidirectional and both food pattern and depressive symptoms can be affected by events in daily life or the living environment(Reference Christensen and Pettijohn32). Additionally, dietary patterns suggest nutrient intakes but also reflect personality or mood, which is a variable that cannot be easily controlled in regression models. Therefore, there is always a possibility that the observed effect is at least partially due to personality/mood or the way foods are prepared or consumed(Reference Gibson33, Reference Kimura, Wada and Ishine34).
Strength and limitations
The primary strength of our study is that the observed associations are based on longitudinal data from a large, population-based study with validated dietary assessment. Study results should have good generalizability. The study analysed dietary groups instead of dietary patterns, making it possible to identify specific food groups associated with risk of depression. However, the study also has some limitations. First are differences in food groupings among studies that may make comparisons difficult. Second, the FFQ is a well-established method but is not without its shortcomings. Quantification of food intake is difficult, especially in the elderly, and the data set contained frequency but without quantity (such as servings or portion size), thus quantifying food intake was not possible. Third, the study data were self-reported and have the usual limitations; self-reports generally have acceptable accuracy but some shortcomings are unavoidable.
Conclusions
Results suggest that what we eat can influence our psychological health. More frequent consumption of vegetables appears protective against depressive symptoms over time in older persons. These results have practical implications in geriatric health promotion. Older people should be encouraged to consume more vegetables since ageing is associated with a decrease in vegetable consumption. However, confounding factors could not be totally ruled out and the biochemical mechanism involved is largely unknown. Further research, especially well-controlled interventional studies to help clarify the role of foods and nutrients on depression, is warranted.
Acknowledgements
The study was supported by a grant from the National Science Council of Taiwan (NSC 97-2320-B-468-003). None of the authors have any conflict of interest. A.C.T. conceived the idea, directed the study and drafted the manuscript. T.-L.C. and S.-H.C. performed statistical analyses and helped revise the manuscript. The authors wish to express their appreciation to the Bureau of Health Promotion of the Department of Health of Taiwan for providing the data sets for this analysis.