Hostname: page-component-78c5997874-lj6df Total loading time: 0 Render date: 2024-11-10T22:00:57.516Z Has data issue: false hasContentIssue false
  • English
  • Français

Food-based diet quality score in relation to depressive symptoms in young and middle-aged Japanese women

Published online by Cambridge University Press:  09 August 2017

Hiroka Sakai ,
Kentaro Murakami ,
Satomi Kobayashi ,
Hitomi Suga Open the ORCID record for Hitomi Suga [Opens in a new window] ,
Satoshi Sasaki  and
the Three-generation Study of Women on Diets and Health Study Group
Hiroka Sakai
Affiliation:
Department of Nutrition, School of Human Cultures, University of Shiga Prefecture, Shiga 522 8533, Japan
Kentaro Murakami*
Affiliation:
Interfaculty Initiative in Information Studies, University of Tokyo, Tokyo 113 0033, Japan
Satomi Kobayashi
Affiliation:
Department of Social and Preventive Epidemiology, School of Public Health, University of Tokyo, Tokyo 113 0033, Japan
Hitomi Suga
Affiliation:
Department of Social and Preventive Epidemiology, Graduate School of Medicine, University of Tokyo, Tokyo 113 0033, Japan
Satoshi Sasaki
Affiliation:
Department of Social and Preventive Epidemiology, School of Public Health, University of Tokyo, Tokyo 113 0033, Japan
*
*Corresponding author: Dr K. Murakami, fax +81 3 5841 7873, email kenmrkm@m.u-tokyo.ac.jp
Rights & Permissions [Opens in a new window]

Abstract

Only a few studies have focused on the association between overall diet, rather than intakes of individual nutrients or foods, and depressive symptoms in Japanese. This cross-sectional study examined associations between a diet quality score and depressive symptoms in 3963 young (age 18 years) and 3833 middle-aged (mean age 47·9 (sd 4·2) years) Japanese women. Dietary information was collected using a diet history questionnaire. A previously developed diet quality score was computed mainly based on the Japanese Food Guide Spinning Top. The prevalence of depressive symptoms was 22·0 % for young women and 16·8 % for middle-aged women, assessed as a Center for Epidemiologic Studies Depression (CES-D) score ≥23 and ≥19, respectively. As expected, the diet quality score was associated positively with intakes of ‘grain dishes’, ‘vegetable dishes’, ‘fish and meat dishes’, ‘milk’ and ‘fruits’ and inversely with intakes of energy from ‘snacks, confection and beverages’ and Na from seasonings. After adjustment for potential confounders, OR for depressive symptoms in the highest v. lowest quintiles of the diet quality score was 0·65 (95 % CI 0·50, 0·84) in young women (Pfor trend=0·0005). In middle-aged women, the corresponding value was 0·59 (95 % CI 0·45, 0·78) (Pfor trend<0·0001). Analyses where the diet quality and CES-D scores were treated as continuous variables also showed inverse associations. In conclusion, this cross-sectional study showed that a higher diet quality score was associated with a lower prevalence of depressive symptoms in young and middle-aged Japanese women. Prospective studies are needed to confirm a public health relevance of this finding.

Keywords

Depressive symptomsJapanese Food Guide Spinning TopDiet quality scoreJapanese womenCross-sectional design
Type
Full Papers
Information
British Journal of Nutrition , Volume 117 , Issue 12 , 28 June 2017 , pp. 1674 - 1681
Copyright
Copyright © The Authors 2017 

Depression is a common mental disorder( Reference Doris, Ebmeier and Shajahan 1 ). In Japan, the number of patients of depression has been increasing( 2 ), although a cross-national analysis based on data from selected eighteen countries has shown that Japan is among the lowest for the prevalence of major depressive episodes( Reference Bromet, Andrade and Hwang 3 ). Emerging evidence suggests that intakes of specific nutrients (such as folate( Reference Tolmunen, Hintikka and Ruusunen 4 , Reference Murakami, Mizoue and Sasaki 5 ) and long-chain n-3 PUFA( Reference Colangelo, He and Whooley 6 , Reference Grosso, Micek and Marventano 7 )) and foods (such as fish( Reference Grosso, Micek and Marventano 7 Reference Li, Liu and Zhang 9 ) and fruit and vegetable( Reference Mihrshahi, Dobson and Mishra 10 , Reference Kingsbury, Dupuis and Jacka 11 )) are associated with a lower risk of depressive symptoms. However, given that people eat foods and thus nutrients in combination, an inherent limitation of the study of single nutrients or foods in isolation is no consideration of complicated interactions and cumulative effects that individual dietary components involve( Reference Hu 12 ). Accordingly, focus has shifted in recent years towards overall diet and dietary patterns( Reference Lai, Hiles and Bisquera 13 Reference Sanhueza, Ryan and Foxcroft 16 ).

Two main approaches are used to identify patterns of dietary intake. One is the a posteriori approach, which uses statistical techniques based on dietary intake reported by a population( Reference Ocke 17 ). Another is the a priori approach, which uses diet quality scores or indices based on dietary guidelines( Reference Ocke 17 ). Many Western studies have investigated associations between overall diet and depressive symptoms using either of the approaches. Generally, a healthy dietary pattern, characterised by higher intakes of fruit, vegetables, fish and whole grains, has been associated with a lower risk of depressive symptoms( Reference Jacka, Mykletun and Berk 18 Reference Lai, Hure and Oldmeadow 24 ).

The associations of dietary intake with depressive symptoms observed in Western populations may not be applicable to Japanese people, given differences in dietary habits. The diets consumed by Japanese are typically characterised by high intakes of rice, soya products, fish, seaweeds and green tea and low intakes of animal fat and soft drinks( 25 ). Actually, previous Japanese studies have shown inverse associations of intakes of fish( Reference Miyake, Tanaka and Okubo 8 ), seaweed( Reference Miyake, Tanaka and Okubo 26 ), soya products( Reference Miyake, Tanaka and Okubo 27 ) and green tea( Reference Niu, Hozawa and Kuriyama 28 , Reference Pham, Nanri and Kurotani 29 ) with the prevalence of depressive symptoms. To our knowledge, however, only a few studies have focused on the association between dietary patterns and depressive symptoms in Japanese( Reference Miki, Kochi and Kuwahara 30 Reference Nanri, Kimura and Matsushita 32 ). Furthermore, the findings from these studies are not readily applicable to, for example, the development of dietary recommendations or public health messages because of the use of data-driven approach for dietary patterns.

We previously developed a diet quality score mainly based on the Japanese Food Guide Spinning Top, using intakes of ‘grain dishes’, ‘vegetable dishes’, ‘fish and meat dishes’, ‘milk’, ‘fruits’, ‘snacks, confection and beverages’ and seasonings( Reference Kuriyama, Murakami and Livingstone 33 ). Although depressive symptoms were not specifically considered in its development, the diet quality score was associated with nutrient intake patterns possibly favourable for the prevention of depressive symptoms( Reference Kuriyama, Murakami and Livingstone 33 ), including lower intakes of total and saturated fats( Reference Miyake, Tanaka and Okubo 8 ) and higher intakes of dietary fibre( Reference Gangwisch, Hale and Garcia 34 ), Ca( Reference Miyake, Tanaka and Okubo 35 ), Mg( Reference Jacka, Overland and Stewart 36 , Reference Jacka, Maes and Pasco 37 ), Fe( Reference Woo, Lynn and Lau 38 ), folate( Reference Tolmunen, Hintikka and Ruusunen 4 , Reference Murakami, Mizoue and Sasaki 5 ) and vitamin C( Reference Oishi, Doi and Kawakami 39 ). Therefore, the aim of this cross-sectional study in young and middle-aged Japanese women was to examine the hypothesis that a higher diet quality score is associated with a lower prevalence of depressive symptoms.

Methods

Survey design and analytic sample

This cross-sectional study was based on data obtained from the Three-generation Study of Women on Diets and Health, details of which have been described elsewhere( Reference Kuriyama, Murakami and Livingstone 33 , Reference Kobayashi, Asakura and Suga 40 ). In brief, a total of 7016 Japanese dietetic students from eighty-five higher education institutions in thirty-five (of forty-seven) prefectures in Japan were asked to answer two questionnaires on dietary habits and other lifestyle factors during the orientation session or first lecture designed for freshmen in April 2011 or 2012. Each student was also asked to directly distribute the questionnaires to his or her mother (and grandmother or female acquaintance aged 65–89 years) and invite them to participate in the study. A total of 4933 students (including 4656 women and 277 men; response rate: 70·3 %), 4044 mothers (response rate: 57·6 %) and 2332 women from grandmother’s generation (response rate: 33·2 %) answered both questionnaires. The present study was conducted according to the guidelines laid down in the Declaration of Helsinki and all procedures involving human subjects were approved by the Ethics Committee of the University of Tokyo Faculty of Medicine. Written informed consent was obtained from each participant, and also from a parent for participants aged <20 years.

In the present study, we selected female students aged 18 years (n 4065) and all mothers (n 4044) for the analyses of young and middle-aged women, respectively; we did not use data from grandmother’s generation mainly because of the use of different dietary assessment method as well as a low response rate. We then excluded students who answered the questionnaires more than 1 month after the start of the course to minimise the influence of dietetic education (n 56); subjects living in eastern Japan who participated in the 2011 data collection period, because it was assumed that they could not report their usual dietary habits and lifestyle because of the occurrence of the Great East Japan Earthquake in March 2011 (n 39 and 63 for young and middle-aged women, respectively); and those from one institution at which the response rate was extremely low (2 %; n 2 for both young and middle-aged women). We further excluded those with missing information on the variables of interest (n 5 and 146 for young and middle-aged women, respectively). Consequently, the final analysis sample sizes were 3963 and 3833 for young and middle-aged women, respectively.

Dietary assessment

Dietary habits during the preceding month were assessed using a comprehensive diet history questionnaire (DHQ). Responses to the DHQ and also to the lifestyle questionnaire were checked by survey staff at the study centre. If any missing or erroneous responses were given to questions considered essential for analysis, the subject was asked to complete the questions again. Details of the DHQ’s structure and calculation method of dietary intake have been published elsewhere( Reference Kobayashi, Honda and Murakami 41 Reference Sasaki, Yanagibori and Amano 43 ). In brief, the DHQ is a structured, self-administered questionnaire which asks about the consumption frequency and portion size of selected foods commonly consumed in Japan, as well as general dietary behaviour and usual cooking methods. Estimates of daily intake of foods (151 items in total), energy and selected nutrients were calculated using an ad hoc computer algorithm for the DHQ based on the Standard Tables of Food Composition in Japan( 44 ). To minimise the influence of dietary misreporting( Reference Livingstone and Black 45 , Reference Murakami, Sasaki and Uenishi 46 ), energy-adjusted values of dietary intake based on the density method were used (i.e. percentage of energy for energy-providing nutrients and amount per 4184 kJ of energy for foods and other nutrients). The validity of the DHQ was examined in ninety-two women aged 31–69 years using a 16-d weighed dietary record as reference( Reference Kobayashi, Honda and Murakami 41 , Reference Kobayashi, Murakami and Sasaki 42 ). In brief, the median of Spearman’s correlation coefficients for food groups was 0·43 (range: −0·09–0·77), and the median of Pearson’s correlation coefficients for nutrients was 0·57 (range: 0·27–0·87).

Calculation of diet quality score

Using dietary information derived from the DHQ, a previously developed diet quality score was computed. The calculation method for the diet quality score has been described in detail elsewhere( Reference Kuriyama, Murakami and Livingstone 33 ) and in the online Supplementary Table S1. In brief, the diet quality score (which is described as ‘the modified score’ in the previous publication( Reference Kuriyama, Murakami and Livingstone 33 )) is based on six components recommended in the Japanese Food Guide Spinning Top as well as Na from seasonings (seven components in total). When intake was within the recommended range, a score of 10 was assigned to that component. Energy-adjusted values of dietary intake based on the density method were calculated to obtain the values per 7531 kJ of energy to allow comparison with the recommended values. The recommended range was as follows: ≥4 servings/7531 kJ for ‘grain dishes’, ≥5 servings/7531 kJ for ‘vegetable dishes’, ≥3 servings/7531 kJ for ‘fish and meat dishes’, ≥2 servings/7531 kJ for ‘milk’, ≥2 servings/7531 kJ for ‘fruits’, ≤837 kJ/7531 kJ for energy from ‘snacks, confection and beverages’ and ≤10th percentile (i.e. 2619 mg/7531 kJ for young women and 3108 mg/7531 kJ for middle-aged women) for Na from seasonings. For a subject who fell short of or exceeded the recommended value, the score was calculated proportionately between 0 and 10 (the scoring system is shown in the online Supplementary Table S1). The seven scores were then summed to provide the diet quality score, which ranged from 0 to 70.

Assessment of depressive symptoms

Depressive symptoms were assessed using the Japanese version( Reference Shima, Shikano and Kitamura 47 ) of the Center for Epidemiologic Studies Depression (CES-D) scale( Reference Radloff 48 ). This scale is composed of twenty items addressing six symptoms of depression, including depressed mood, guilt or worthlessness, helplessness or hopelessness, psychomotor retardation, loss of appetite and sleep disturbance experienced during the preceding week. Each item was scored on a scale of 0–3 according to the frequency of the symptom and total CES-D score was calculated, which ranged from 0 to 60. The criterion validity of the CES-D scale has been well established in Western( Reference Radloff 48 ) and Japanese( Reference Shima, Shikano and Kitamura 47 ) subjects. Because of a previously demonstrated over-rating of symptoms by the Japanese( Reference Wada, Tanaka and Theriault 49 , Reference Nagase, Uchiyama and Kaneita 50 ), particularly younger people( Reference Iwata, Saito and Roberts 51 , Reference Hamazaki, Natori and Kurihara 52 ), prevalent cases of depressive symptoms were defined as having a CES-D score of ≥23( Reference Wada, Tanaka and Theriault 49 ) for young women and ≥19( Reference Wada, Tanaka and Theriault 49 ) for middle-aged women, rather than a widely used cutoff point of ≥16( Reference Shima, Shikano and Kitamura 47 , Reference Radloff 48 ). The use of the cutoff points ≥16 for both age groups, ≥19 for young women and ≥23 for middle-aged women did not change the conclusion on the association between the diet quality score and depressive symptoms (data not shown).

Assessment of other variables

Age at the time of the study was computed based on birth date. BMI was computed as self-reported body weight (kg) divided by the square of self-reported body height (m). Information on current smoking and use of any type of prescribed medicine (both yes or no) was also used. Physical activity was computed as the total metabolic equivalent-hours score per d on the basis of the frequency and duration of seven activities (walking, bicycling, standing, running, high-intensity activities, sleeping and sedentary activity) over the preceding month( Reference Ainsworth, Haskell and Herrmann 53 ). For middle-aged women only, education level (low (≤12 years), middle (13–15 years) or high (≥16 years)), occupation (housewife, part-time job or full-time job), and marital status (married or unmarried) were considered. Living alone (yes or no) was considered for young women, but not for middle-age women because almost all lived with family. Self-reported level of stress was classified as very low, low, normal, high or very high. Dietary reporting status was evaluated on the basis of the ratio of reported energy intake (EI):BMR (Goldberg’s cut-off)( Reference Black 54 ). A detailed description of the procedure has been published elsewhere( Reference Kuriyama, Murakami and Livingstone 33 ). In brief, BMR was estimated according to an equation specifically developed for Japanese women( Reference Ganpule, Tanaka and Ishikawa-Takata 55 , Reference Miyake, Tanaka and Ohkawara 56 ). Subjects were identified as plausible, under- and over-reporters of EI according to whether the individual’s ratio was within, below or above the 95 % confidence limits for agreement between EI:BMR and a physical activity level for sedentary lifestyle (i.e. 1·55)( Reference Black 54 ). As a result, under-reporters, plausible reporters and over-reporters were defined as having an EI:BMR<1·09, 1·09–2·21 and >2·21, respectively.

Statistical analysis

All statistical analyses were performed using SAS statistical software version 9.4 (SAS Institute Inc.). All reported P values are two-tailed, and P<0·05 was regarded as statistically significant. We decided a priori to conduct analyses for young and middle-aged women separately, mainly because of the differences in potential confounding factors that should be considered. We did not conduct any formal tests for interaction across age groups. Descriptive data are shown as means and standard deviations for continuous variables and numbers and percentages of subjects for categorical variables. Differences in characteristics between subjects with and without depressive symptoms were evaluated using an independent t test (for continuous variables) and the χ 2 test (for categorical variables). The diet quality score was categorised at quintile points on the basis of the distribution of young and middle-aged women. Associations between selected variables and diet quality score (in quintiles) were examined by a linear trend test (for continuous variables) and a Mantel–Haenszel χ 2 test (for categorical variables).

Crude and multivariate adjusted OR and 95 % CI for depressive symptoms for each quintile category of the diet quality score were calculated using logistic regression. The lowest quintile category of diet quality score was used as a reference category. Potential confounding factors considered were BMI, current smoking, medication use, self-reported level of stress, dietary reporting status, physical activity and EI. Adjustment for EI was due to a significant difference in EI between subjects with and without depressive symptoms (as described in Table 1), despite the use of energy-adjusted values for the calculation of the diet quality score. Further adjustment was made for living status in young women and age, education, occupation and marital status in middle-aged women. Further adjustment for the presence of child’s depressive symptoms in the analysis of middle-aged women and that of mother’s depressive symptoms in the analysis of young women did not change the results materially (data not shown). We tested for linear trends with increasing levels of diet quality score by assigning each subject the median value for the category and modelling this value as a continuous variable. These analyses were repeated after excluding under- and over-reporters of EI.

Table 1 Basic characteristics of young and middle-aged Japanese women (Mean values and standard deviations; percentages)

EI, energy intake.

* Subjects with a Center for Epidemiologic Studies Depression score ≥23 for young women and ≥19 for middle-aged women.

Subjects with a Center for Epidemiologic Studies Depression score <23 for young women and <19 for middle-aged women.

P values for difference between subjects with and without depressive symptoms based on the independent t test for continuous variables and the χ 2 test for categorical variables.

§ Under-reporting was defined as subjects with a ratio of reported EI:BMR <1·09; plausible reporting as an EI:BMR of 1·09–2·21; and over-reporting as an EI:BMR >2·21.

|| The diet quality score (0–70) was developed based on the Japanese Food Guide Spinning Top with some modifications, and calculated using intakes of ‘grain dishes’, ‘vegetable dishes’, ‘fish and meat dishes’, ‘milk’, ‘fruits’, energy from ‘snacks, confection and beverages’ and Na from seasonings (see online Supplementary Table S1 for more details).

Results

All of the young women were 18 years old while mean age of the middle-aged women was 47·9 (sd 4·2) years. The prevalence of depressive symptoms was 22·0 % for young women and 16·8 % for middle-aged women. Young and middle-aged women with depressive symptoms were more likely to use medication and have higher levels of stress and had a higher mean value of EI and a lower mean value of the diet quality score (Table 1). In addition, middle-aged women with depressive symptoms were more likely to be younger, have lower education and be unmarried (data not shown).

As expected, the diet quality score was associated positively with intakes of ‘grain dishes’, ‘vegetable dishes’, ‘fish and meat dishes’, ‘milk’ and ‘fruits’ and inversely with intakes of energy from ‘snacks, confection and beverages’ and Na from seasonings in both age groups (Table 2). For food group level, a higher diet quality score was characterised particularly by higher intakes of dairy products, fruit, seaweed, soya products and vegetables and lower intakes of confectioneries, sugar and soft drinks (online Supplementary Table S2). For nutrient intakes, the diet quality score was associated inversely with total and saturated fats and positively with EPA+DHA, dietary fibre and micronutrients examined (online Supplementary Table S3). There were significant associations between the diet quality score and most of the potential confounding factors considered in both young and middle-aged women (online Supplementary Tables S4 and S5, respectively).

Table 2 Descriptive statistics of the diet quality score in young and middle-aged Japanese womenFootnote * (Mean values and standard deviations)

* The diet quality score (0–70) was developed based on the Japanese Food Guide Spinning Top with some modifications, and calculated using intakes of ‘grain dishes’, ‘vegetable dishes’, ‘fish and meat dishes’, ‘milk’, ‘fruits’, energy from ‘snacks, confection and beverages’ and Na from seasonings (see online Supplementary Table S1 for more details).

A liner trend test was used with the median value in each quintile category of the diet quality score as a continuous variable in linear regression.

Per 7531 kJ of energy.

Table 3 shows the association between the diet quality score and depressive symptoms. In young women, with adjustment for potential confounding factors (i.e. BMI, current smoking, medication use, self-reported level of stress, dietary reporting status, physical activity, EI and living alone), a higher diet quality score was associated with a lower prevalence of depressive symptoms. A similar inverse association was also observed in middle-aged women after adjustment for potential confounding factors (i.e. age, education, occupation, marital status and the variables listed above except for living alone). After excluding under- and over-reporters of EI (n 1001 for young women and n 728 for middle-aged women), the inverse associations did remain in both age groups. Further, the analysis where both the diet quality score and CES-D score were treated as continuous variables did not change the conclusion (online Supplementary Table S6).

Table 3 Associations between the diet quality score and depressive symptoms in young and middle-aged Japanese womenFootnote * (Odds ratios and 95 % confidence intervals)

Ref., reference.

* The diet quality score (0–70) was developed based on the Japanese Food Guide Spinning Top with some modifications, and calculated using intakes of ‘grain dishes’, ‘vegetable dishes’, ‘fish and meat dishes’, ‘milk’, ‘fruits’, energy from ‘snacks, confection and beverages’ and Na from seasonings (see online Supplementary Table S1 for more details).

Plausible energy intake reporters were defined as subjects with a ratio of energy intake:BMR of 1·09–2·21.

Adjustment was made for BMI (kg/m2, continuous), current smoking (yes or no), medication use (yes or no), self-reported level of stress (very low, low, normal, high or very high), dietary reporting status (under-reporting, plausible reporting or over-reporting; only in the analysis including all subjects), physical activity (total metabolic equivalent-h/d, continuous) and energy intake (kJ/d, continuous). For young women, additional adjustment was made for living alone (yes or no). For middle-aged women, additional adjustment was made for age (years, continuous), education (low, middle or high), occupation (housewife, part-time job or full-time job) and marital status (married or unmarried).

§ Depressive symptoms were defined as present when subjects had a Center for Epidemiologic Studies Depression score ≥23 for young women and ≥19 for middle-aged women.

|| Logistic regression models were used with the median value in each quintile category of the diet quality score as a continuous variable in logistic regression.

Discussion

To our knowledge, this is the first study to examine a diet quality score, mainly based on the Japanese Food Guide Spinning Top, using intakes of ‘grain dishes’, ‘vegetable dishes’, ‘fish and meat dishes’, ‘milk’, ‘fruits’, energy from ‘snacks, confection and beverages’ and Na from seasonings, in relation to depressive symptoms in young and middle-aged women from a variety of regions in Japan. We found that a higher diet quality score, characterised particularly by higher intakes of dairy products, fruit, seaweed, soya products, vegetables, EPA+DHA, dietary fibre, Ca, Mg, Fe, folate and vitamin C and lower intakes of confectioneries, sugar, soft drinks and total and saturated fats, was associated with a lower prevalence of depressive symptoms.

Our findings are generally consistent with previous Western studies( Reference Jacka, Mykletun and Berk 18 Reference Lai, Hure and Oldmeadow 24 ) in that a healthy dietary pattern is inversely associated with depressive symptoms. In this study, however, a higher diet quality score was characterised by higher intakes of, for example, seaweed and soya products, foods seldom consumed in Western countries. Thus, healthy diets are country specific, and their health effects should be investigated in each country.

Only a few studies have examined associations between dietary patterns assessed by a data-driven statistical approach and depressive symptoms in Japanese. In a cross-sectional study in 309 men and 212 women aged 21–67 years, a healthy Japanese dietary pattern characterised by higher intakes of vegetables, fruit, mushrooms and soya products was associated with a lower prevalence of depressive symptoms( Reference Nanri, Kimura and Matsushita 32 ). Another cross-sectional study in 1792 men and 214 women aged 19–69 years showed that a dietary pattern characterised by higher intakes of folate, vitamin C, Mg, Ca, Fe and Zn was associated with a lower prevalence of depressive symptoms( Reference Miki, Kochi and Kuwahara 30 ). These findings are generally consistent with the present observation. Conversely, a prospective study showed no clear associations of a healthy pattern (characterised by higher intakes of vegetables, seaweed, mushrooms, soya products, potatoes, fish and fruits and lower intakes of soft drinks and confectioneries) or a traditional Japanese pattern (characterised by higher intakes of rice, miso soup and pickled vegetables and lower intakes of bread, confectioneries and dairy products) during pregnancy with the risk of postpartum depression in 865 women (mean age: 29·9 (sd 4·0) years)( Reference Okubo, Miyake and Sasaki 31 ). The discrepant findings may be because of the differences in the population and the outcome examined, as well as the study design.

A range of individual dietary components may have a potential role on the development or prevention of depression. For example, decreased intake of B vitamins, particularly folate, may result in the accumulation of homocysteine and in a decreased synthesis of monoamines in the brain, likely contributing to mechanisms related to the origins of depression( Reference Bjelland, Ueland and Vollset 57 , Reference Gilbody, Lightfoot and Sheldon 58 ). In addition, long-chain n-3 PUFA, particularly EPA and DHA, may play an important role in neurotransmitter synthesis, degradation, release, reuptake and binding, resulting in a pattern of neurotransmitter activity that has been associated with depression( Reference Freeman 59 , Reference Appleton, Rogers and Ness 60 ). In this study, the diet quality score was positively associated with the intakes of specific dietary components whose higher intakes were previously suggested to lower the risk of depressive symptoms. These include dairy products( Reference Miyake, Tanaka and Okubo 35 , Reference Cui, Huang and Momma 61 ), fruit( Reference Mihrshahi, Dobson and Mishra 10 , Reference Kingsbury, Dupuis and Jacka 11 ), seaweed( Reference Miyake, Tanaka and Okubo 26 ), soya products( Reference Miyake, Tanaka and Okubo 27 ), vegetables( Reference Mihrshahi, Dobson and Mishra 10 , Reference Kingsbury, Dupuis and Jacka 11 ), EPA+DHA( Reference Colangelo, He and Whooley 6 , Reference Grosso, Micek and Marventano 7 ), dietary fibre( Reference Gangwisch, Hale and Garcia 34 ), Ca( Reference Miyake, Tanaka and Okubo 35 ), Mg( Reference Jacka, Overland and Stewart 36 , Reference Jacka, Maes and Pasco 37 ), Fe( Reference Woo, Lynn and Lau 38 ), folate( Reference Tolmunen, Hintikka and Ruusunen 4 , Reference Murakami, Mizoue and Sasaki 5 ) and vitamin C( Reference Oishi, Doi and Kawakami 39 ). The score was also inversely associated with intakes of confectioneries and sugar (as a source of added sugar)( Reference Gangwisch, Hale and Garcia 34 ), soft drinks( Reference Yu, He and Zhang 62 , Reference Shi, Taylor and Wittert 63 ) and total and saturated fats( Reference Miyake, Tanaka and Okubo 8 ), and higher intakes of these foods and nutrients have been suggested to increase the risk. Overall or cumulative effects derived from these individual dietary components may explain the association between the diet score and depressive symptoms observed in this study.

Several limitations of the present study should be acknowledged. First, because exposure and outcome were assessed at the same time, the results of this cross-sectional study are susceptible to reverse causation. As a result, we cannot exclude the possibility that depressive symptoms may lead to a lower diet quality. The relationship between dietary intake and mental health is complex and likely bidirectional, and the temporal direction of the association between diet quality and depressive symptoms could be both ways( Reference Jacka, Cherbuin and Anstey 64 ). In any case, only a prospective study would provide better understanding of the relationship between diet quality and depressive symptoms.

Second, given the proportion of Japanese adolescents who study in college or university (57 %)( 65 ), our subjects (i.e. dietetic students and their mothers) are likely to have a relatively high socio-economic status. Further, dietetic students may be more conscious of their diet than the general population, whereas the present study was conducted in most institutions within 1 month after the dietetic course began to minimise the influence of dietetic education. In addition, the response rate was not high in mothers (57·6 %) compared with students (70·3 %), which may have caused self-selection bias. Therefore, our results might not be applicable to the general Japanese population.

Third, depressive symptoms were assessed by using the CES-D rather than a clinically administered structured diagnostic interview. CES-D is not a comprehensive psychiatric assessment. The absence of a clinical diagnosis may have led to the inclusion of subjects with chronic fatigue syndrome or atypical depression, resulting in an overestimation of the prevalence of depressive symptoms. Nevertheless, the prevalence of depressive symptoms assessed as a CES-D score ≥16 in the present populations (50 % for young women and 27 % for middle-aged women) was generally comparable with that observed in undergraduate students (50 %)( Reference Hamazaki, Natori and Kurihara 52 ) and in a representative sample of women aged 30–59 years (31 %)( Reference Nagase, Uchiyama and Kaneita 50 ).

Fourth, all self-reported dietary assessment methods are susceptible to both random and systematic measurement errors( Reference Livingstone and Black 45 ). To minimise these, we evaluated dietary habits during the preceding month using a well-established dietary assessment questionnaire with reasonable validity in terms of commonly studied nutritional factors (DHQ)( Reference Kobayashi, Honda and Murakami 41 Reference Sasaki, Yanagibori and Amano 43 ), as well as the use of energy-adjusted dietary variables( Reference Livingstone and Black 45 , Reference Murakami, Sasaki and Uenishi 46 ). However, reporting bias in dietary questionnaires can differ by type of foods and therefore cannot be entirely adjusted for by the energy adjustment. Nevertheless, it should be noted that the present results did not change materially after excluding under- and over-reporters of EI. Finally, although we tried to adjust for a range of potential confounding factors, residual confounding factors could not be ruled out.

In conclusion, this cross-sectional study showed that a higher diet quality score, mainly characterised by higher intakes of dairy products, fruit, seaweed, soya products, vegetables, EPA+DHA, dietary fibre, Ca, Mg, Fe, folate and vitamin C and lower intakes of confectioneries, sugar, soft drinks and total and saturated fats, was associated with a lower prevalence of depressive symptoms in young and middle-aged Japanese women. A diet quality score of ≥39 for young women and ≥41 for middle-aged women (i.e. those in quintiles 3–5 of the score) may be preferable for the prevention of depressive symptoms. Prospective studies are needed to confirm a public health relevance of the present finding.

Acknowledgements

The authors thank Yuki Kataya and Naoko Minobe (Department of Nutrition, School of Human Cultures, University of Shiga Prefecture, Japan) for assistance with manuscript preparation. The authors also thank the members of the Three-generation Study of Women on Diets and Health Study Group, as listed elsewhere( Reference Kobayashi, Asakura and Suga 40 ).

This work was supported in part by the Grants-in Aid for Young Scientists (to K. M., grant no. 15K16213) from the Ministry of Education, Culture, Sports, Science and Technology of Japan and the Grants-in-Aid for Scientific Research (to S. S., grant no. 22240077) from the Japan Society for the Promotion of Science. The Ministry of Education, Culture, Sports, Science and Technology of Japan and the Japan Society for the Promotion of Science had no role in the design, analysis or writing of this article.

H. S. contributed to the conceptualisation of the study question, conducted the statistical analysis and prepared the first draft of the manuscript; K. M. contributed to the concept and design of the survey, conceptualised the study question, interpreted the data, provided input into the final draft of the manuscript, prepared the revised version of the manuscript and had primary responsibility for the final content of the manuscript; S. K., H. S. and S. S. contributed to the concept and design of the survey, coordination of the fieldwork, data collection and management, and provided input into the final draft of the manuscript. All authors read and approved the final manuscript.

The authors declare that there are no conflicts of interest.

Supplementary material

For supplementary material/s referred to in this article, please visit https://doi.org/10.1017/S0007114517001581

References

1. Doris, A, Ebmeier, K & Shajahan, P (1999) Depressive illness. Lancet 354, 13691375.Google Scholar
2. Ministry of Education, Culture, Sports, Science and Technology (2014) Patient survey. http://www.mhlw.go.jp/toukei/list/10-20.html (accessed April 2017) (in Japanese).Google Scholar
3. Bromet, E, Andrade, LH, Hwang, I, et al. (2011) Cross-national epidemiology of DSM-IV major depressive episode. BMC Med 9, 90.Google Scholar
4. Tolmunen, T, Hintikka, J, Ruusunen, A, et al. (2004) Dietary folate and the risk of depression in Finnish middle-aged men. A prospective follow-up study. Psychother Psychosom 73, 334339.CrossRefGoogle Scholar
5. Murakami, K, Mizoue, T, Sasaki, S, et al. (2008) Dietary intake of folate, other B vitamins, and ω-3 polyunsaturated fatty acids in relation to depressive symptoms in Japanese adults. Nutrition 24, 140147.CrossRefGoogle ScholarPubMed
6. Colangelo, LA, He, K, Whooley, MA, et al. (2009) Higher dietary intake of long-chain ω-3 polyunsaturated fatty acid is inversely associated with depressive symptoms in women. Nutrition 25, 10111019.CrossRefGoogle ScholarPubMed
7. Grosso, G, Micek, A, Marventano, S, et al. (2016) Dietary n-3 PUFA, fish consumption and depression: a systematic review and meta-analysis of observational studies. J Affect Disord 205, 269281.CrossRefGoogle ScholarPubMed
8. Miyake, Y, Tanaka, K, Okubo, H, et al. (2013) Fish and fat intake and prevalence of depressive symptoms during pregnancy in Japan: baseline data from the Kyushu Okinawa Maternal and Child Health Study. J Psychiatr Res 47, 572578.CrossRefGoogle ScholarPubMed
9. Li, F, Liu, X & Zhang, D (2016) Fish consumption and risk of depression: a meta-analysis. J Epidemiol Community Health 70, 299304.Google Scholar
10. Mihrshahi, S, Dobson, AJ & Mishra, GD (2015) Fruit and vegetable consumption and prevalence and incidence of depressive symptoms in mid-age women: results from the Australian longitudinal study on women’s health. Eur J Clin Nutr 69, 585591.Google Scholar
11. Kingsbury, M, Dupuis, G, Jacka, F, et al. (2016) Associations between fruit and vegetable consumption and depressive symptoms: evidence from a national Canadian longitudinal survey. J Epidemiol Community Health 70, 155161.CrossRefGoogle ScholarPubMed
12. Hu, FB (2002) Dietary pattern analysis: a new direction in nutritional epidemiology. Curr Opin Lipidol 13, 39.Google Scholar
13. Lai, JS, Hiles, S, Bisquera, A, et al. (2014) A systematic review and meta-analysis of dietary patterns and depression in community-dwelling adults. Am J Clin Nutr 99, 181197.Google Scholar
14. Quirk, SE, Williams, LJ, O’Neil, A, et al. (2013) The association between diet quality, dietary patterns and depression in adults: a systematic review. BMC Psychiatry 13, 175.Google Scholar
15. Rahe, C, Unrath, M & Berger, K (2014) Dietary patterns and the risk of depression in adults: a systematic review of observational studies. Eur J Nutr 53, 9971013.Google Scholar
16. Sanhueza, C, Ryan, L & Foxcroft, DR (2013) Diet and the risk of unipolar depression in adults: systematic review of cohort studies. J Hum Nutr Diet 26, 5670.Google Scholar
17. Ocke, MC (2013) Evaluation of methodologies for assessing the overall diet: dietary quality scores and dietary pattern analysis. Proc Nutr Soc 72, 191199.Google Scholar
18. Jacka, FN, Mykletun, A, Berk, M, et al. (2011) The association between habitual diet quality and the common mental disorders in community-dwelling adults: the Hordaland Health study. Psychosom Med 73, 483490.CrossRefGoogle ScholarPubMed
19. Akbaraly, TN, Brunner, EJ, Ferrie, JE, et al. (2009) Dietary pattern and depressive symptoms in middle age. Br J Psychiatry 195, 408413.Google Scholar
20. Samieri, C, Jutand, MA, Feart, C, et al. (2008) Dietary patterns derived by hybrid clustering method in older people: association with cognition, mood, and self-rated health. J Am Diet Assoc 108, 14611471.Google Scholar
21. Rienks, J, Dobson, AJ & Mishra, GD (2012) Mediterranean dietary pattern and prevalence and incidence of depressive symptoms in mid-aged women: results from a large community-based prospective study. Eur J Clin Nutr 67, 7582.Google Scholar
22. Akbaraly, TN, Sabia, S, Shipley, MJ, et al. (2013) Adherence to healthy dietary guidelines and future depressive symptoms: evidence for sex differentials in the Whitehall II study. Am J Clin Nutr 97, 419427.Google Scholar
23. Sanchez-Villegas, A, Henriquez-Sanchez, P, Ruiz-Canela, M, et al. (2015) A longitudinal analysis of diet quality scores and the risk of incident depression in the SUN Project. BMC Med 13, 197.Google Scholar
24. Lai, JS, Hure, AJ, Oldmeadow, C, et al. (2015) Prospective study on the association between diet quality and depression in mid-aged women over 9 years. Eur J Nutr 15, 19.Google Scholar
25. Ministry of Health, Labour and Welfare, Japan (2014) The National Health and Nutrition Survey in Japan, 2012. http://www.mhlw.go.jp/bunya/kenkou/eiyou/h24-houkoku.html (accessed January 2017) (in Japanese).Google Scholar
26. Miyake, Y, Tanaka, K, Okubo, H, et al. (2014) Seaweed consumption and prevalence of depressive symptoms during pregnancy in Japan: Baseline data from the Kyushu Okinawa Maternal and Child Health Study. BMC Pregnancy Childbirth 14, 301.CrossRefGoogle ScholarPubMed
27. Miyake, Y, Tanaka, K, Okubo, H, et al. (2016) Soy isoflavone intake and prevalence of depressive symptoms during pregnancy in Japan: baseline data from the Kyushu Okinawa Maternal and Child Health Study. Eur J Nutr (Epublication ahead of print version 15 October 2016).Google Scholar
28. Niu, K, Hozawa, A, Kuriyama, S, et al. (2009) Green tea consumption is associated with depressive symptoms in the elderly. Am J Clin Nutr 90, 16151622.Google Scholar
29. Pham, NM, Nanri, A, Kurotani, K, et al. (2014) Green tea and coffee consumption is inversely associated with depressive symptoms in a Japanese working population. Public Health Nutr 17, 625633.Google Scholar
30. Miki, T, Kochi, T, Kuwahara, K, et al. (2015) Dietary patterns derived by reduced rank regression (RRR) and depressive symptoms in Japanese employees: The Furukawa nutrition and health study. Psychiatry Res 229, 214219.CrossRefGoogle ScholarPubMed
31. Okubo, H, Miyake, Y, Sasaki, S, et al. (2011) Dietary patterns during pregnancy and the risk of postpartum depression in Japan: the Osaka Maternal and Child Health Study. Br J Nutr 105, 12511257.Google Scholar
32. Nanri, A, Kimura, Y, Matsushita, Y, et al. (2010) Dietary patterns and depressive symptoms among Japanese men and women. Eur J Clin Nutr 64, 832839.Google Scholar
33. Kuriyama, N, Murakami, K, Livingstone, MB, et al. (2016) Development of a food-based diet quality score for Japanese: associations of the score with nutrient intakes in young, middle-aged, and older Japanese women. J Nutr Sci 5, e41.CrossRefGoogle ScholarPubMed
34. Gangwisch, JE, Hale, L, Garcia, L, et al. (2015) High glycemic index diet as a risk factor for depression: analyses from the Women’s Health Initiative. Am J Clin Nutr 102, 454463.Google Scholar
35. Miyake, Y, Tanaka, K, Okubo, H, et al. (2015) Intake of dairy products and calcium and prevalence of depressive symptoms during pregnancy in Japan: a cross-sectional study. BJOG 122, 336343.Google Scholar
36. Jacka, FN, Overland, S, Stewart, R, et al. (2009) Association between magnesium intake and depression and anxiety in community-dwelling adults: the Hordaland Health Study. Aust N Z J Psychiatry 43, 4552.Google Scholar
37. Jacka, FN, Maes, M, Pasco, JA, et al. (2012) Nutrient intakes and the common mental disorders in women. J Affect Disord 141, 7985.CrossRefGoogle ScholarPubMed
38. Woo, J, Lynn, H, Lau, WY, et al. (2006) Nutrient intake and psychological health in an elderly Chinese population. Int J Geriatr Psychiatry 21, 10361043.Google Scholar
39. Oishi, J, Doi, H & Kawakami, N (2009) Nutrition and depressive symptoms in community-dwelling elderly persons in Japan. Acta Med Okayama 63, 917.Google Scholar
40. Kobayashi, S, Asakura, K, Suga, H, et al. (2013) High protein intake is associated with low prevalence of frailty among old Japanese women: a multicenter cross-sectional study. Nutr J 12, 164.Google Scholar
41. Kobayashi, S, Honda, S, Murakami, K, et al. (2012) Both comprehensive and brief self-administered diet history questionnaires satisfactorily rank nutrient intakes in Japanese adults. J Epidemiol 22, 151159.Google Scholar
42. Kobayashi, S, Murakami, K, Sasaki, S, et al. (2011) Comparison of relative validity for food group intake estimated by comprehensive and brief-type self-administered diet history questionnaires against 16 d dietary records in Japanese adults. Public Health Nutr 14, 12001211.Google Scholar
43. Sasaki, S, Yanagibori, R & Amano, K (1998) Self-administered diet history questionnaire developed for health education: a relative validation of the test-version by comparison with 3-day diet record in women. J Epidemiol 8, 203215.CrossRefGoogle ScholarPubMed
44. Science and Technology Agency (2005) Standard Tables of Food Composition in Japan, Fatty Acid Section, 5th rev. and enlarged ed. Tokyo: Printing Bureau of the Ministry of Finance (in Japanese).Google Scholar
45. Livingstone, MB & Black, AE (2003) Markers of the validity of reported energy intake. J Nutr 133, 895S920S.Google Scholar
46. Murakami, K, Sasaki, S, Uenishi, K, et al. (2012) The degree of misreporting of the energy-adjusted intake of protein, potassium, and sodium does not differ among under-, acceptable, and over-reporters of energy intake. Nutr Res 32, 741750.Google Scholar
47. Shima, S, Shikano, T, Kitamura, T, et al. (1985) New self-rating scale for depression. Clin Psychiatry 27, 717723 (in Japanese).Google Scholar
48. Radloff, LS (1977) The CES-D scale: a self-report depression scale for research in the general population. Appl Psychol Meas 1, 385401.CrossRefGoogle Scholar
49. Wada, K, Tanaka, K, Theriault, G, et al. (2007) Validity of the Center for Epidemiologic Studies Depression Scale as a screening instrument of major depressive disorder among Japanese workers. Am J Ind Med 50, 812.Google Scholar
50. Nagase, Y, Uchiyama, M, Kaneita, Y, et al. (2009) Coping strategies and their correlates with depression in the Japanese general population. Psychiatry Res 168, 5766.Google Scholar
51. Iwata, N, Saito, K & Roberts, RE (1994) Responses to a self-administered depression scale among younger adolescents in Japan. Psychiatry Res 53, 275287.Google Scholar
52. Hamazaki, K, Natori, T, Kurihara, S, et al. (2015) Fish consumption and depressive symptoms in undergraduate students: a cross-sectional analysis. Eur Psychiatry 30, 983987.Google Scholar
53. Ainsworth, BE, Haskell, WL, Herrmann, SD, et al. (2011) 2011 Compendium of physical activities: a second update of codes and MET values. Med Sci Sports Exerc 43, 15751581.Google Scholar
54. Black, AE (2000) Critical evaluation of energy intake using the Goldberg cut-off for energy intake:basal metabolic rate. A practical guide to its calculation, use and limitations. Int J Obes Relat Metab Disord 24, 11191130.CrossRefGoogle Scholar
55. Ganpule, AA, Tanaka, S, Ishikawa-Takata, K, et al. (2007) Interindividual variability in sleeping metabolic rate in Japanese subjects. Eur J Clin Nutr 61, 12561261.Google Scholar
56. Miyake, R, Tanaka, S, Ohkawara, K, et al. (2011) Validity of predictive equations for basal metabolic rate in Japanese adults. J Nutr Sci Vitaminol (Tokyo) 57, 224232.Google Scholar
57. Bjelland, I, Ueland, PM & Vollset, SE (2003) Folate and depression. Psychother Psychosom 72, 5960.Google Scholar
58. Gilbody, S, Lightfoot, T & Sheldon, T (2007) Is low folate a risk factor for depression? A meta-analysis and exploration of heterogeneity. J Epidemiol Community Health 61, 631637.Google Scholar
59. Freeman, MP (2000) Omega-3 fatty acids in psychiatry: a review. Ann Clin Psychiatry 12, 159165.Google Scholar
60. Appleton, KM, Rogers, PJ & Ness, AR (2008) Is there a role for n-3 long-chain polyunsaturated fatty acids in the regulation of mood and behaviour? A review of the evidence to date from epidemiological studies, clinical studies and intervention trials. Nutr Res Rev 21, 1341.Google Scholar
61. Cui, Y, Huang, C, Momma, H, et al. (2017) Consumption of low-fat dairy, but not whole-fat dairy, is inversely associated with depressive symptoms in Japanese adults. Soc Psychiatry Psychiatr Epidemiol (Epublication ahead of print version 9 January 2017).Google Scholar
62. Yu, B, He, H, Zhang, Q, et al. (2015) Soft drink consumption is associated with depressive symptoms among adults in China. J Affect Disord 172, 422427.Google Scholar
63. Shi, Z, Taylor, AW, Wittert, G, et al. (2010) Soft drink consumption and mental health problems among adults in Australia. Public Health Nutr 13, 10731079.Google Scholar
64. Jacka, FN, Cherbuin, N, Anstey, KJ, et al. (2015) Does reverse causality explain the relationship between diet and depression? J Affect Disord 175, 248250.Google Scholar
65. Ministry of Education, Culture, Sports, Science and Technology (2014) General survey of school. http://www.mext.go.jp/component/b_menu/houdou/__icsFiles/afieldfile/2014/08/07/ 1350732_01.pdf (accessed January 2017) (in Japanese).Google Scholar
Figure 0

Table 1 Basic characteristics of young and middle-aged Japanese women (Mean values and standard deviations; percentages)

Figure 1

Table 2 Descriptive statistics of the diet quality score in young and middle-aged Japanese women* (Mean values and standard deviations)

Figure 2

Table 3 Associations between the diet quality score and depressive symptoms in young and middle-aged Japanese women* (Odds ratios and 95 % confidence intervals)

Supplementary material: PDF

Sakai supplementary material

Tables S1-S6

Download Sakai supplementary material(PDF)
PDF 135.4 KB