The worldwide suicide rate has increased by 60% over the past 45 years, 1 making it the tenth leading cause of death, Reference Hawton and van Heeringen2 and therefore a globally important public health issue. In Japan, suicide rates (per 100 000) were 36.2 in men and 13.2 in women in 2009, 3 and more than 30 000 suicidal deaths have been recorded each year since 1998, 4 with those aged 40-69 accounting for over half of the total. 4 Suicide is known to be associated with psychosocial factors, 1 but epidemiological evidence linking suicide to other environmental factors is limited. As regards diet, a modifiable factor that could influence mental health, a few studies to date have examined specific nutrients and foods including fish and omega-3 fatty acids, Reference Hakkarainen, Partonen, Haukka, Virtamo, Albanes and Lonnqvist5-Reference Poudel-Tandukar, Nanri, Iwasaki, Mizoue, Matsushita and Takahashi7 coffee, Reference Kawachi, Willett, Colditz, Stampfer and Speizer8-Reference Tanskanen, Tuomilehto, Viinamaki, Vartiainen, Lehtonen and Puska10 alcohol Reference Akechi, Iwasaki, Uchitomi and Tsugane11-Reference Turvey, Conwell, Jones, Phillips, Simonsick and Pearson18 and tryptophan Reference Voracek and Tran19 in relation to suicide risk.
A great deal of interest has been directed in recent years towards the analysis of dietary patterns in the field of nutritional epidemiology. A dietary pattern is a comprehensive variable that integrates the consumption of several foods or food groups. Given that individuals consume food as part of a diet and not as single items or nutrients, these patterns are expected to have a greater impact on disease risk than any individual item; Reference Hu20 further, dietary pattern analysis can clarify the actual effect of the overall consumed diet. Additionally, even in cases where few dietary factors associated with a disease can be identified, such dietary pattern analysis may still prove useful. Reference Hu20 Previous studies have reported an inverse association between depression, which is an important factor as a cause of suicide, and dietary patterns characterised by high intake of vegetables, fruits and fish. Reference Akbaraly, Brunner, Ferrie, Marmot, Kivimaki and Singh-Manoux21-Reference Samieri, Jutand, Feart, Capuron, Letenneur and Barberger-Gateau25 However, to the best of our knowledge, no study has yet examined the association between overall dietary patterns and suicide risk. We therefore prospectively investigated the association between major dietary patterns and suicide risk, using data from a large-scale, population-based cohort study in Japan.
Method
Study population
The Japan Public Health Center-based (JPHC) Prospective Study was launched in 1990 and 1993 for cohorts I and II respectively. Reference Tsugane and Sobue26 Participants in cohort I were residents of five Japanese Public Health Center areas aged 40-59 years and those in cohort II were residents of six other Japanese Public Health Center areas aged 40-69 years. The study sites are scattered across Japan but are mainly in rural areas. The participants were informed of the objectives of the study and those who completed the survey questionnaire were regarded as consenting to participation. This survey was conducted at baseline as well as at 5- (second) and 10-year (third) follow-up sessions. Each survey gathered information on medical history and health-related behaviours, including smoking, drinking and dietary habits. This study was approved by the Institutional Review Board of the National Cancer Center of Japan.
Of the study population at baseline (n = 140 420), 103 782 participants responded to the second survey, and of these, 102 695 completed the food frequency questionnaire (FFQ) at the second survey. After exclusion of 1065 participants who reported extreme total energy intake (outside of mean plus or minus 3 standard deviations (s.d.), according to gender), 101 630 participants (47 408 men and 54 222 women) were ultimately included in analysis of dietary patterns. We further excluded 12 593 participants who did not respond to the baseline survey, leaving a total of 89 037 participants (40 752 men and 48 285 women) ultimately enrolled to assess the association between dietary patterns and suicide risk. Participants who completed the questionnaire at the second survey, compared with those who did not, were less likely, at baseline, to be a smoker, a drinker of alcohol (women only) and physically inactive at leisure (men only).
Food frequency questionnaire
Although participants completed self-administered questionnaires at the first, second and third surveys, we used data from the second survey as our baseline, because the questionnaire used for that particular survey contained more comprehensive information on food intake than did the first. At the second survey, an FFQ was used to assess the average intake of 147 food and beverage items over the previous year. Reference Sasaki, Kobayashi, Ishihara and Tsugane27 For most food items, nine options were available for describing consumption frequency: rarely (<once/month), 1-3 times/month, 1-2 times/week, 3-4 times/week, 5-6 times/week, once a day, 2-3 times/day, 4-6 times/day, and ⩾7 times/day. Slightly different options were used for beverage intake. A standard portion size was specified for each food item and the respondents were asked to assess their usual portion size relative to a standard specified for each food item using three options (less than half, standard, more than 1.5 times). Daily intake of most foods was calculated by multiplying the daily consumption frequency and the standard portion size by the individual's usual portion size. The validity and reproducibility of the FFQ had already been established as reasonable. Reference Ishihara, Sobue, Yamamoto, Yoshimi, Sasaki and Kobayashi28-Reference Sasaki, Kobayashi and Tsugane30
Dietary patterns
Details regarding the identification of dietary patterns have been described elsewhere. Reference Nanri, Shimazu, Ishihara, Takachi, Mizoue and Inoue31 Briefly, we used 134 food and beverage items of the FFQ to derive dietary patterns. Some foods or food groups that were similar in nutritional content or culinary use were combined, leaving a total of 48 food groups. We performed principal component analysis based on log-transformed intakes of these 48 food groups. The factors were then rotated by orthogonal transformation (varimax rotation) to maintain uncorrelated factors and increased interpretability. We determined three factors with eigenvalues, the scree test and the interpretability of the factors. Dietary patterns were named according to food items that had the highest weight on each of the three factors. The factor scores for each dietary pattern were calculated for each participant by summing the intakes of food items weighted by their factor loadings. The scores were energy-adjusted using the residual method. The validity and reproducibility of the identified dietary patterns have been determined to be acceptable. Reference Nanri, Shimazu, Ishihara, Takachi, Mizoue and Inoue31
Follow-up and outcome
The participants' residency and vital status were followed up using the residential registry. Causes of death were confirmed via death certificates (with permission) and were defined according to the ICD-10, 32 the focus of the present study being death from suicide (ICD-10: X60 to X84).
Statistical analysis
Person-years of follow-up were calculated for each person starting from the date of response to the second survey questionnaire until either the date of death or 31 December 2005, whichever came first. Participants were divided into quartiles of factor scores for each dietary pattern based on the separate distribution for men and women. Confounding variables considered were as follows: age (years, continuous), study area (11 areas), body mass index (<21, 21.0-22.9, 23.0-24.9, 25.0-26.9 or ⩾27.0 kg/m2), smoking status (lifetime non-smoker, former smoker or current smoker with a consumption of either <20 or ⩾20 cigarettes/day), total physical activity (metabolic equivalent task h/day, quartiles), history of diabetes mellitus (yes or no), history of hypertension (yes or no), total energy intake (kcal/day), mental stress in daily life (low, medium and high), living status (alone, with spouse only, child(ren)/parent(s) with spouse, child(ren)/parent(s) without spouse, or other), history of serious disease including cancer, cerebrovascular disease, myocardial infarction, chronic liver disease and renal disease before follow-up (yes or no), and occupation (full-time agriculture/forestry/fishery, full-time salaried/self-employed/professional, multiple occupations, full-time housework/unemployed or other). Mental stress was assessed by using a single question (‘How much stress do you feel in your daily life?’) with three options (low, medium and high). An indicator variable for missing data was created for each covariate.
We analysed data from cohort I and cohort II combined because the interaction by cohort type on the association between dietary patterns and suicide risk was not statistically significant. Cox proportional hazard regression analysis was used to estimate hazard ratios and 95% confidence intervals of mortality from suicide for quartiles of scores for each dietary pattern, taking the lowest quartile category as reference. To minimise a potential influence of mental illness at baseline, we excluded deaths from suicide during the first 3 years of follow-up. The first model was adjusted for age, and the second model was further adjusted for smoking status, total physical activity, history of diabetes mellitus, history of hypertension, total energy intake, mental stress, living status and history of serious disease. Study areas were included as strata in the model. Trend association was assessed by assigning ordinal numbers (0-3) to quartile categories of each dietary pattern. Further, because of the relatively low number of suicides, we also analysed data for men and women combined. Additionally, we analysed the association between dietary patterns and suicide by self-reported mental stress (low, medium or high) at baseline.
We also conducted a sensitivity analysis by further adding educational-level data (junior high school education, high school education or any college or higher education) using the cohort I data, which included this information. We tested the proportional hazard assumption by using the time-dependent covariate method and found no violation of proportionality. All analyses were performed using SAS version 9.1 on Windows.
Results
Dietary patterns
We identified three dietary patterns by principal component analysis (online Table DS1). The first factor was a prudent dietary pattern characterised by high intake of vegetables, fruits, soy products, potatoes, seaweed, mushrooms and fish. The second factor was a Westernised dietary pattern characterised by high intake of meat, processed meat, bread, dairy products, coffee, black tea, soft drink, dressing, sauce and mayonnaise. The third factor was a traditional Japanese dietary pattern characterised by high intake of salmon, salty fish, oily fish, seafoods other than fish and pickles. The prudent, Westernised and traditional Japanese patterns respectively accounted for 19.7%, 5.4% and 4.1% of the variance in food intake in men, and 19.6%, 5.5% and 3.8% in women. In total, these patterns explained 29.2% and 28.9% of the variability in intake in men and women respectively.
Characteristics of study participants
Characteristics according to the quartile categories of dietary pattern scores are shown in Table 1. Men and women with a higher score for the prudent dietary pattern were more likely to be older but were less likely than those with lower scores to be smokers or to report high mental stress. Those with a higher score for the prudent dietary pattern were also more likely to have hypertension and diabetes. However, after adjustment for age, the prevalence of hypertension in the lowest and the highest category of the prudent dietary pattern was 17.2% and 19.0% in men and 16.7% and 19.1% in women. The corresponding values for diabetes were 5.9% and 9.4% in men and 3.1% and 4.1% in women. The Westernised dietary pattern among men and women was inversely associated with age, total physical activity and a history of hypertension, diabetes mellitus or serious disease but was positively associated with high mental stress. Further, body mass index tended to be higher in men with an elevated score for the Westernised dietary pattern and lower in men and women with an elevated score for the traditional Japanese dietary pattern.
Prudent dietary pattern | Westernised dietary pattern | Traditional Japanese dietary pattern | ||||
---|---|---|---|---|---|---|
Q1 (low) | Q4 (high) | Q1 (low) | Q4 (high) | Q1 (low) | Q4 (high) | |
Men | ||||||
Participants, n | 10 188 | 10 188 | 10 188 | 10 188 | 10 188 | 10 188 |
Age, years: mean (s.d.) | 55.4 (7.8)Footnote a | 59.9 (7.9) | 60.1 (7.6) | 54.3 (7.5) | 57.8 (8.4) | 57.6 (7.7) |
Body mass index, kg/m2: mean (s.d.) | 23.6 (3.0) | 23.5 (2.9) | 23.2 (2.9) | 23.9 (2.9) | 24.1 (3.0) | 23.2 (2.8) |
Total physical activity, MET h/day: mean (s.d.) | 33.5 (6.7) | 33.3 (6.7) | 34.4 (6.8) | 32.5 (6.5) | 33.5 (6.6) | 33.9 (6.8) |
Total energy intake, kcal/day: mean (s.d.) | 2306 (908) | 1950 (589) | 2174 (782) | 2187 (729) | 2179 (847) | 2124 (658) |
Current smoker,Footnote a % | 56.5 | 33.5 | 45.0 | 45.9 | 38.0 | 51.4 |
History of hypertension, % | 17.0 | 24.1 | 24.1 | 16.1 | 21.9 | 21.1 |
History of diabetes mellitus, % | 5.7 | 10.2 | 7.9 | 6.7 | 7.7 | 5.7 |
History of serious disease,Footnote b % | 8.2 | 12.4 | 11.0 | 8.1 | 9.2 | 9.2 |
Mental stress,Footnote a high: % | 21.0 | 15.9 | 14.2 | 22.5 | 16.4 | 18.0 |
Living status,Footnote a alone: % | 6.1 | 1.8 | 3.6 | 3.5 | 4.7 | 2.4 |
Occupation,Footnote a housework/unemployed: % | 6.6 | 16.1 | 12.2 | 7.5 | 11.5 | 9.4 |
Women | ||||||
Participants, n | 12 071 | 12 072 | 12 072 | 12 072 | 12 071 | 12 071 |
Age, years: mean (s.d.) | 56.7 (8.2) | 58.6 (7.8) | 60.6 (7.4) | 54.2 (7.5) | 58.5 (8.4) | 57.5 (7.7) |
Body mass index, kg/m2: mean (s.d.) | 23.5 (3.2) | 23.5 (3.2) | 23.5 (3.2) | 23.4 (3.1) | 23.7 (3.3) | 23.4 (3.1) |
Total physical activity, MET h/day: mean (s.d.) | 32.5 (5.8) | 32.8 (5.6) | 32.7 (5.8) | 32.5 (5.6) | 32.6 (5.7) | 32.6 (5.7) |
Total energy intake, kcal/day: mean (s.d.) | 2025 (842) | 1681 (506) | 1875 (698) | 1886 (624) | 1866 (769) | 1767 (550) |
Current smoker,Footnote a % | 9.4 | 3.1 | 3.1 | 7.8 | 5.5 | 5.2 |
History of hypertension, % | 18.4 | 23.2 | 25.7 | 14.9 | 22.5 | 21.3 |
History of diabetes mellitus, % | 3.3 | 4.9 | 5.0 | 2.4 | 3.9 | 4.0 |
History of serious disease,Footnote b % | 6.1 | 7.5 | 7.6 | 5.7 | 6.9 | 6.6 |
Mental stress,Footnote a high: % | 19.4 | 15.7 | 14.2 | 19.8 | 16.9 | 16.7 |
Living status,Footnote a alone: % | 7.0 | 7.0 | 7.3 | 5.6 | 10.1 | 4.1 |
Occupation,Footnote a housework/unemployed: % | 28.2 | 41.1 | 35.8 | 31.9 | 35.9 | 31.6 |
MET, metabolic equivalent task.
a. Categorical variables that included two or more categories were categorised into two categories for each variable (smoking status: current smoker or others; mental stress: high and others; living status: alone and others; occupation: full-time housework/unemployed and others).
b. Serious disease including cancer, cerebrovascular disease, myocardial infarction, chronic liver disease and renal disease.
Dietary patterns and suicide
Of 249 cases of death by suicide (171 men and 78 women) identified during the 767 866 person-years of follow-up (mean 8.6 years), 163 cases (107 men and 56 women) identified after the fourth year of follow-up were used in the present analysis. Hazard ratios of suicide according to quartile categories of each dietary pattern score are shown in Table 2 (see online Table DS2 for a more detailed version of the table which also includes data for men and women combined). Men and women in the highest category of the prudent dietary pattern had a decreased risk of suicide compared with those in the lowest. Among men, the multivariate-adjusted hazard ratio of suicide for the highest v. lowest quartile category of the dietary pattern was 0.47 (95% CI 0.25-0.89, P for trend 0.04). Among women, although an inverse association between the prudent dietary pattern and suicide risk was not significant in the model adjusted for covariate, the hazard ratio of suicide for the highest quartile category was 54% lower than that for the lowest category.
When data for men and women were combined (Table DS2), the multivariate-adjusted hazard ratios (95% CI) of suicide for the lowest through the highest quartile category of the prudent dietary pattern score were 1.00 (reference), 0.71 (0.47-1.07), 0.79 (0.53-1.19) and 0.46 (0.28-0.75) (P for trend 0.005). In analyses stratified by mental stress, a decreased risk of suicide associated with the highest category of the prudent dietary pattern was observed among participants with low and medium mental stress, but not among those with high mental stress (Table DS2). Further, when we repeated the analysis using cohort I data after adding educational level as covariate, the same inverse association between the prudent dietary pattern and suicide risk was observed (data not shown). Neither the Westernised nor the traditional Japanese dietary patterns were appreciably associated with suicide risk.
Discussion
Main findings
In a large-scale, population-based, prospective study among Japanese adults, a prudent dietary pattern characterised by a high intake of vegetables, fruits, soy products, potatoes, seaweed, mushrooms and fish was significantly associated with a decreased risk of suicide in all participants. To our knowledge, this is the first study to examine the association between dietary patterns and suicide risk.
Findings from other studies
The inverse association reported in the present study between a prudent dietary pattern and suicide risk is in line with previous findings of an inverse association between similar dietary patterns and depression, Reference Akbaraly, Brunner, Ferrie, Marmot, Kivimaki and Singh-Manoux21-Reference Samieri, Jutand, Feart, Capuron, Letenneur and Barberger-Gateau25 which is a major precondition of suicide. Reference Hawton and van Heeringen2 In a cross-sectional study in elderly people in France, a healthy cluster characterised by high intakes of fruits and vegetables was associated with a lower score on the Center for Epidemiologic Studies Depression Scale than that of participants in other clusters (small eaters, biscuits and snacking, charcuterie and starchy foods, and pizza and sandwiches) among elderly women. Reference Samieri, Jutand, Feart, Capuron, Letenneur and Barberger-Gateau25 Two studies among workers have respectively reported an inverse association between a whole-food pattern (high intake of vegetables, fruits and fish) and subsequent depression in the UK Reference Akbaraly, Brunner, Ferrie, Marmot, Kivimaki and Singh-Manoux21 and an inverse association between a healthy Japanese dietary pattern (high intake of vegetables, fruits, soy products and mushrooms) and depression in Japan. Reference Nanri, Kimura, Matsushita, Ohta, Sato and Mishima24 In an Australian study conducted among women aged 20-93 years, a traditional dietary pattern characterised by vegetables, fruits, meat, fish and whole grains was associated with a lower prevalence of depression. Reference Jacka, Pasco, Mykletun, Williams, Hodge and O'Reilly23 Another study among Norwegian adults also observed an inverse association between a healthy dietary pattern (high intake of vegetables, salads, fruits, rice, pasta, cereals and fish) and depression. Reference Jacka, Mykletun, Berk, Bjelland and Tell22 The results reported in these depression studies support our present findings.
Quartiles of dietary pattern scores | |||||
---|---|---|---|---|---|
Q1 (low) | Q2 | Q3 | Q4 (high) | Trend P Footnote a | |
Men | |||||
Prudent dietary pattern | |||||
Deaths, n | 35 | 28 | 29 | 15 | |
Age-adjusted HR (95% CI) | 1.00 (ref) | 0.80 (0.48-1.31) | 0.84 (0.51-1.38) | 0.47 (0.26-0.87) | 0.03 |
Multivariate-adjustedFootnote b HR (95% CI) | 1.00 (ref) | 0.82 (0.49-1.35) | 0.86 (0.52-1.43) | 0.47 (0.25-0.89) | 0.04 |
Westernised dietary pattern | |||||
Deaths, n | 27 | 28 | 31 | 21 | |
Age-adjusted HR (95% CI) | 1.00 (ref) | 1.03 (0.61-1.76) | 1.18 (0.69-2.02) | 0.86 (0.47-1.59) | 0.83 |
Multivariate-adjustedFootnote b HR (95% CI) | 1.00 (ref) | 1.04 (0.61-1.78) | 1.22 (0.71-2.08) | 0.92 (0.49-1.70) | 0.98 |
Traditional Japanese dietary pattern | |||||
Deaths, n | 24 | 20 | 27 | 36 | |
Age-adjusted HR (95% CI) | 1.00 (ref) | 0.73 (0.37-1.46) | 0.88 (0.44-1.75) | 1.07 (0.54-2.12) | 0.45 |
Multivariate-adjustedFootnote b HR (95% CI) | 1.00 (ref) | 0.74 (0.37-1.47) | 0.89 (0.45-1.77) | 1.09 (0.55-2.15) | 0.44 |
Women | |||||
Prudent dietary pattern | |||||
Deaths, n | 22 | 11 | 14 | 9 | |
Age-adjusted HR (95% CI) | 1.00 (ref) | 0.51 (0.25-1.05) | 0.65 (0.33-1.27) | 0.42 (0.19-0.93) | 0.04 |
Multivariate-adjustedFootnote b HR (95% CI) | 1.00 (ref) | 0.54 (0.26-1.13) | 0.70 (0.35-1.41) | 0.46 (0.20-1.05) | 0.09 |
Westernised dietary pattern | |||||
Deaths, n | 19 | 17 | 13 | 7 | |
Age-adjusted HR (95% CI) | 1.00 (ref) | 1.07 (0.55-2.08) | 1.02 (0.49-2.14) | 0.71 (0.28-1.84) | 0.59 |
Multivariate-adjustedFootnote b HR (95% CI) | 1.00 (ref) | 1.10 (0.57-2.15) | 1.01 (0.48-2.15) | 0.71 (0.27-1.84) | 0.57 |
Traditional Japanese dietary pattern | |||||
Deaths, n | 11 | 11 | 18 | 16 | |
Age-adjusted HR (95% CI) | 1.00 (ref) | 0.73 (0.31-1.71) | 1.00 (0.46-2.17) | 0.74 (0.33-1.65) | 0.65 |
Multivariate-adjustedFootnote b HR (95% CI) | 1.00 (ref) | 0.76 (0.33-1.80) | 1.03 (0.47-2.26) | 0.76 (0.34-1.72) | 0.69 |
a. Based on Cox proportional hazards model, assigning ordinal numbers 0-3 to the quartile categories of each dietary pattern.
b. Adjusted for age (year), body mass index (<21, 21-22.9, 23-24.9, 25-26.9 or ⩾27 kg/m2), smoking status (never, past, current with a consumption of <20 or ⩾20 cigarettes/day), total physical activity (quartile of metabolic equivalent task h/day), history of diabetes mellitus (yes or no), history of hypertension (yes or no), total energy intake (kcal/day), mental stress (low, medium and high), living status (spouse only, single, child(ren)/parent(s) with spouse, or child(ren)/parent(s) without spouse), history of serious disease (yes or no), occupation (full-time agriculture/forestry/fishery, full-time salaried/self-employed/professional, multiple occupations, full-time housework/unemployed, or other). Study areas were included as strata in the model.
Prudent dietary pattern and suicide
Although the mechanisms linking the prudent dietary pattern to suicide risk are unclear, several explanations have been posited. Fruits and vegetables were major and common contributors to dietary patterns associated with a decreased risk of suicide in the present study, and with a reduced prevalence or risk of depression in previous studies. Reference Akbaraly, Brunner, Ferrie, Marmot, Kivimaki and Singh-Manoux21-Reference Samieri, Jutand, Feart, Capuron, Letenneur and Barberger-Gateau25 These foods are rich in nutrients such as folate and antioxidant vitamins (vitamin C and carotene), which have been shown to be associated with decreased prevalence of depressive symptoms. Reference Gilbody, Lightfoot and Sheldon33,Reference Murakami, Mizoue, Sasaki, Ohta, Sato and Matsushita34 In the present study, both men and women with higher scores for a prudent dietary pattern consumed greater amounts of these nutrients than those with lower scores; the respective mean intakes for the lowest and highest quartile categories of the dietary pattern were 315 and 447 μg for folate, 80 and 162 mg for vitamin C and 1813 and 4646 μg for β-carotene in men and 361 and 467 μg for folate, 117 and 189 mg for vitamin C, and 2914 and 5178 μg for β-carotene in women (all P for trend <0.001). Folate is involved in the metabolism of monoamines such as serotonin in the brain and is hypothesised to protect brain functions by reducing levels of homocysteine, which exerts neurotoxic effects through several mechanisms. Reference Bottiglieri35 Further, oxidative stress is hypothesised to be caused by reactive oxygen species, and defective antioxidant defences may therefore be involved in the pathophysiology of neuropsychiatric disorders. Reference Bilici, Efe, Koroglu, Uydu, Bekaroglu and Deger36 In this context, antioxidant vitamins such as vitamin C may help reduce risk of mood disorders. These nutrients or some combination of them may therefore have a beneficial effect on suicide risk.
Other dietary patterns
Previous depression studies have observed a positive association between depressive symptoms and both processed food (high intake of sweetened desserts, fried food, processed meat, refined grain and high-fat dairy products) Reference Akbaraly, Brunner, Ferrie, Marmot, Kivimaki and Singh-Manoux21 and Western (high intake of meat pies, processed meats, pizza, chips, hamburgers, refined grains, sugar products and beer) Reference Jacka, Pasco, Mykletun, Williams, Hodge and O'Reilly23 dietary patterns. However, other similar studies have found no such association. Reference Jacka, Mykletun, Berk, Bjelland and Tell22,Reference Nanri, Kimura, Matsushita, Ohta, Sato and Mishima24,Reference Samieri, Jutand, Feart, Capuron, Letenneur and Barberger-Gateau25 Further, our study noted no association between a Westernised dietary pattern (high intake of meat, processed meat, bread, dairy products, coffee and alcohol) and suicide risk. It has been suggested that inflammatory processes may play a role in the pathogenesis of depression, Reference Bremmer, Beekman, Deeg, Penninx, Dik and Hack37,Reference Gimeno, Kivimaki, Brunner, Elovainio, De Vogli and Steptoe38 and some Western studies Reference Fung, Rimm, Spiegelman, Rifai, Tofler and Willett39,Reference Lopez-Garcia, Schulze, Fung, Meigs, Rifai and Manson40 showed that a Western dietary pattern characterised by a high intake of meat, refined grains and fats was associated with increased inflammation. In contrast, no such association between similar dietary patterns and inflammation was observed in previous Japanese studies, Reference Nanri, Yoshida, Yamaji, Mizoue, Takayanagi and Kono41 possibly because of the lower consumption of fat and meat among Japanese compared with Western populations. Moreover, other foods and nutrients contributing to this dietary pattern such as tryptophan (included in meat) Reference Voracek and Tran19 and coffee Reference Kawachi, Willett, Colditz, Stampfer and Speizer8,Reference Klatsky, Armstrong and Friedman9 have been shown to be associated with a decreased risk of suicide. The effect of individual foods might therefore be negated by their simultaneous consumption with other items, cancelling out their effect.
We observed no association between a traditional Japanese dietary pattern, characterised by a high intake of fish and seafood, and suicide risk. Several studies have reported a decreased risk of suicide or suicidal ideation associated with a higher intake of fish or higher level of omega-3 fatty acids. Reference Hirayama6,Reference Huan, Hamazaki, Sun, Itomura, Liu and Kang42-Reference Tanskanen, Hibbeln, Hintikka, Haatainen, Honkalampi and Viinamaki45 In contrast, we previously observed no reduction in suicide risk among those with a higher intake of fish in the same study population. Reference Poudel-Tandukar, Nanri, Iwasaki, Mizoue, Matsushita and Takahashi7 Similarly, a Finnish study found no association between fish or omega-3 fatty acid intake and suicide. Reference Hakkarainen, Partonen, Haukka, Virtamo, Albanes and Lonnqvist5 Although we have no plausible explanation for the inconsistent results, the difference in the amount of fish intake among study populations may account for these findings. If there is a threshold above which fish intake offers no additional benefit to mood then the association with fish intake, or a dietary pattern characterised by fish, may not be observed in populations with a high fish intake, such as the Japanese.
Strengths and limitations
The strengths of the present study include its large sample size, its population-based prospective design, the relatively few participants lost during follow-up, its use of a validated FFQ and its extensive adjustment for potentially important confounding factors including self-reported mental stress, living status and educational level. Death registration in Japan, which we used to identify the causes of death, is believed to be exhaustive. However, several limitations to the present study also warrant mention.
First, dietary intake was assessed only at one time point, and long-term habits may therefore not be accurately reflected. Repeated assessment of diet over a long period of time before suicide would likely provide a better estimate of the exposure status. Second, mental illness including depression status was not assessed in the JPHC study, and therefore the presence of depression at the time of baseline dietary assessment might have influenced both dietary patterns and future suicide risk. However, we analysed data with exclusion of deaths from suicide during the first 3 years of follow-up to minimise such an influence. Moreover, we observed an association between a prudent dietary pattern and suicide in participants with low or medium mental stress but not in those with high mental stress.
Third, because we had no information on other potential confounding factors including substance misuse and family history of suicidal behaviour, we cannot completely rule out bias because of these confounders. Fourth, the principal component analysis requires subjective decisions in determining the number of factors to retain, choosing the method of rotation of the initial factors and labelling the dietary patterns. Reference Hu20 However, we maintain that the validity and reproducibility of the three dietary patterns derived from the subsample was acceptable. Reference Nanri, Shimazu, Ishihara, Takachi, Mizoue and Inoue31 Fifth, participants with a higher score for a traditional Japanese dietary pattern might have better psychosocial environments and lifestyles in terms of healthcare preference and availability, caring by and for family members, use of technology, exercise pattern and religion/faith than those with a lower score. However, we did not obtain such information. Sixth, although changes in economic situation during the follow-up period might have influenced the suicide rate in this cohort, they might not have changed the association between dietary patterns and suicide risk. Seventh, there might have been some reporter bias where participants intentionally or unintentionally gave erroneous information as we used self-administered questionnaires.
Finally, because respondents to the second survey appear to be more health conscious compared with non-respondents, the present finding may not represent the whole study population. In addition, because study participants were aged 45-74 years, caution is required to apply the present findings to younger age groups. Moreover, the healthcare system in Japan, with universal health coverage assuring access to a wide array of health services for the whole population, contrasts with, for example, that in the USA (private system). As the differences in healthcare systems among countries might influence suicide risk, the extrapolation of the present findings to populations with other types of healthcare system may be inappropriate.
Implications
A prudent dietary pattern, characterised by a high intake of vegetables, fruits, soy products, potatoes, seaweed, mushrooms and fish, was associated with a decreased risk of suicide among Japanese adults. The present findings suggest that a prudent dietary pattern is important in preventing suicide. Further research among populations with different social background will be required to confirm our findings.
Funding
The study was supported by Grants-in-Aid for Cancer Research (19shi-2) and a Health Sciences Research Grant (Research on Comprehensive Research on Cardiovascular Diseases H19-016) from the Ministry of Health, Labour and Welfare of Japan.
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