Abstract
Medical nutrition therapy and exercise therapy are the cornerstones of treatment for patients with type 2 diabetes; however, there has not been a nationwide study on the actual dietary intake and physical activity status of patients since the 2000s. We aimed to clarify this in Japanese patients with type 2 diabetes using data from the Japan Diabetes Complication and its Prevention prospective (JDCP), a nationwide study launched in 2007. A total of 1992 patients with type 2 diabetes, aged 40–75 years, completed either the Brief-type, self-administered Diet History Questionnaire (1643 patients) or International Physical Activity Questionnaire (1834 patients), and their data were analyzed in this study. Mean daily energy intake for all participants was 1686.8 kcal/day, and the mean proportions of carbohydrate, protein, and fat comprising total energy intake were 60.2, 16.2, and 23.6%, respectively. The patients in this study had similar energy and nutrient intake status to patients in the 1996 Japan Diabetes Complications Study; however, Japanese patients still had higher carbohydrate and lower fat consumption than patients with diabetes in Western countries. The physical activity questionnaire reported that 31.0% of patients did not have exercise habits; this was particularly noticeable in female patients and patients under the age of 65. BMI increased from 22.7 to 24.1 kg/m2 in men and 23.2 to 24.8 kg/m2 in women from 1996 to 2007, respectively. Further research is required to investigate how dietary intake and physical activity associates with the risk of developing complications in type 2 diabetes patients.
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Introduction
Medical nutrition therapy (MNT) and exercise therapy are the cornerstones of treatment for all patients with type 2 diabetes, for controlling diabetes and preventing complications [1]. Previous studies reported that educating patients on the importance of performing and adhering to both MNT and exercise therapy is effective in improving weight control and HbA1c, lipid and blood pressure levels in patients with type 2 diabetes [2, 3]. In a cross-sectional study of outpatients with type 2 diabetes, the prevalence of obesity was high in patients with a combination of high energy intake and low physical activity [4]. Additionally, patients with type 2 diabetes who received lifestyle interventions, including both MNT and exercise therapy, had significantly lower numbers of prescription drugs and hospitalization rates [5]. To help provide more effective treatment for patients with type 2 diabetes, a lot of research into MNT and exercise therapy has been conducted worldwide [1, 6, 7].
In Japan, a nationwide report on dietary intake and physical activity in patients with type 2 diabetes was conducted in 1996, as part of the Japan Diabetes Complications Study (JDCS) [8,9,10]. A report on type 2 diabetes in elderly Japanese patients was conducted in 2001, as part of the Japanese Elderly Diabetes Intervention Trial (J-EDIT) [11,12,13]. However, since these studies, there have been no other nationwide surveys on dietary intake and physical activity in Japanese patients with type 2 diabetes.
Several studies on changes in energy and nutrient intake have been conducted in Europe and America. A National Health and Nutrition Examination Survey in the United States reported that energy intake was increased by 206 kcal, salt intake increased by about 339 mg, and fiber intake decreased by 0.9 g between 1988 and 2012 in patients with type 2 diabetes [14]. In addition, a study in Spain reported that protein intake in patients with type 2 diabetes decreased by 6.9% in men and 1.4% in women, and fat intake increased by 3.2% in men and 5.5% in women between 1993 and 2000; although the study size was small at 200 participants [15]. According to the National Health and Nutrition Survey in Japan, Japanese adults have decreased their energy (− 151 g/day) and carbohydrate (− 24.9 g/day) intakes, and increased their protein (12.7 g/day), and salt (3.8 g/day) intakes over the last 20 years [16]. In addition, meat intake was reported to be greater than fish, rice intake was decreased, and the intake of wheat products was increased [16]. MNT is fundamental for self-management, education, and support in the treatment of diabetes [1, 6, 7]; therefore, it is necessary to clarify the actual dietary intake over recent years in order to provide effective dietary guidance and MNT for Japanese patients with type 2 diabetes.
The World Health Organization estimated that insufficient physical activity accounts for about 27% of the causes of diabetes [17], and recommends increasing physical activity [18]. In Western countries, the percentage of patients with type 2 diabetes with regular exercise habits varies from 10 to 80% [19]. A recent nationwide survey in Japan revealed that more than 1/3 of patients with type 2 diabetes perform equal to, or less than, 1 h of 3–5 Mets of leisure, exercise, or movement throughout each day [20]. Further studies are needed to quantitatively assess the amount and intensity of physical activity required in patients with type 2 diabetes to help control their weight. In this study, we investigated the dietary intake status and physical activity status of Japanese patients with type 2 diabetes in a large nationwide study: the Japan Diabetes Complication and its Prevention prospective (JDCP) study, which was launched in 2007.
Patients and methods
Study population
The JDCP study is a nationwide cohort survey of Japanese patients with type 1 or 2 diabetes from outpatient clinics in 464 universities, general hospitals and clinics offering specialist diabetes care. Participants were patients previously diagnosed with type 1 or 2 diabetes, aged ≥ 40 to < 75 years. The study procedure has been published elsewhere [21,22,23,24,25]. The protocol for the study was in accordance with the Declaration of Helsinki and the Ethical Guidelines for Clinical/Epidemiological Studies of the Japanese Ministry of Health Labor and Welfare, and received ethical approval from the institutional review boards of the Japan Diabetes Society Research Ethics Committee and all of the participating institutes. The study was registered with the UMIN Clinical Trial Registry (registry ID, UMIN 000016519).Written informed consent was obtained from all enrolled patients. A total of 7700 patients who met the study inclusion criteria and gave informed consent were enrolled from June 2007 to November 2009. The final number of patients included in this study was 6338, after excluding those who met the criteria as follows: (i) unable to regularly attend their outpatient diabetes clinic; (ii) have proliferative retinopathy; (iii) undergoing dialysis; (iv) diagnosed with malignancy in the last 5 years; and (v) judged to be ineligible for study entry by the study investigators. The dietary survey and physical activity survey were performed at the beginning of the study. Nutrition and food intakes were assessed using the Brief-type, self-administered Diet History Questionnaire (BDHQ) [26, 27]. Physical activity was surveyed using the International Physical Activity Questionnaire (IPAQ) [28, 29]. A total of 1992 patients completed either the BDHQ (1643 patients) or IPAQ (1834 patients), and their data were analyzed in the present study.
Dietary assessment
The BDHQ is a self-administered questionnaire, composed of 58 food and beverage items of each food or food group from selected commonly consumed foods, and is used to estimate dietary intake. General dietary behavior and cooking methods are also surveyed in the BDHQ. Estimates of daily intake of foods and beverages, energy, and nutrients were calculated using an ad hoc computer algorithm for the BDHQ; it incorporates sex-specific portion sizes, determined mainly based on recipe books for Japanese dishes [26]. The nutrient composition of each food item was based on the Standard Tables of Food Composition in Japan [30], edited by the Japanese Ministry of Education, Culture, Sports, Science, and Technology. The details and validity of the BDHQ have been previously reported [26, 27]. The BDHQ was externally validated by comparison with the 16 day weighed dietary records of 92 women and 92 men [26, 27]. The median of Spearman correlation coefficients for food groups was 0.48 in men and 0.44 in women (range 0.22–0.83 and 0.14–0.82 in men and women, respectively) [26] and the median of Pearson correlation coefficients for nutrients was 0.56 in men and 0.54 in women (range 0.19–0.81 and 0.27–0.84 in men and women, respectively) [27].
Physical activity assessment
The short version of the International Physical Activity Questionnaire (IPAQ) assessed the amount and type of physical activity accomplished over the previous 7 day period [28]. It is a self-administered questionnaire and includes questions on how much time was spent performing both vigorous and moderate physical activities, and walking. Questions include all levels of activity, including those accomplished during leisure time, housework, gardening, work- and travel-related activities. A previous report confirmed that the IPAQ was a reliable form of activity measurement (p = 0.76) and of a similar standard to other methods of assessment (concurrent = 0.58; criterion = 0.30 against the Computer Science Accelerometer) [28].
The total amount of physical activity performed over 7 days was assessed using the IPAQ data. The number of reported minutes per week in each activity domain was weighted against a metabolic equivalent (MET) energy expenditure estimate. The frequency (days per week) and duration (minutes per day) of either walking, moderate intensity exercise or vigorous intensity exercise was assessed. The total amount of physical activity expended by a participant was determined by weighting each activity by the energy used to complete the exercise, which is defined in METs: 3.3 for walking, 4.0 for moderate exercise and 8.0 for vigorous exercise. A combined score of MET-minutes was determined by multiplying the METs by the number of minutes the activity was performed during one week. Current guidelines for physical activity suggest that regular exercise is the key to good health; therefore, both the total amount and the number of days/sessions were included in the IPAQ analysis calculations. Participants were grouped into three categories, based on their levels of participation in physical activity: (i) high; vigorous intensity activity over a minimum of 3 days, with a minimum of 1500 MET-min/week, or any combination of walking, moderate intensity or vigorous intensity activities, performed over at least 7 days, achieving a minimum of 3000 MET-min/week, (ii) moderate; vigorous intensity activity of at least 20 min per day, performed over 3 days, 5 or more days of moderately intense exercise, and/or walking for a minimum of at least 30 min per day, or 5 or more days of any combination of walking, moderate intensity or vigorous intensity activities, achieving at least 600 MET-min/week, and (iii) low; any participant whose level of physical activity was less than (i) and (ii) [31].
Other assessments
Other assessments included a physical examination, blood pressure, and laboratory tests, including measurements of HbA1c, fasting plasma glucose/postprandial plasma glucose, serum lipids/creatinine/urea nitrogen and urine analyses [21]. History of dyslipidemia, hypertension, stroke, and myocardial infarction, family history of diabetes, alcohol intake, smoking status, status of using oral hypoglycemic agents (OHA), insulin, and antihypertensive agents were also surveyed.
Statistical analysis
Continuous variables were presented as mean ± SD and categorical variables were presented as percentages. For dietary intake and physical activity in type 2 diabetes patients, we presented data using the following subgroups, in addition to overall data: sex, age (< 65 years, ≥ 65 years), HbA1c (< 7.0%, ≥ 7.0%), and duration of diabetes (< 10 years, ≥ 10 years). Continuous variables were examined using the independent-samples t test and the χ2 test was used to compare categorical data. All statistical analyses were performed using SPSS Statistics Version 25 (IBM, Armonk, NY, USA).
Results
The characteristics of the 1992 type 2 diabetes patients in this study are shown in Table 1. The mean BMI was 24.4 ± 3.8 kg/m2, and 60.2% of the patients were men. The mean age was 61.5 ± 7.8 years, mean duration of diabetes was 10.9 ± 8.0 years, and mean HbA1c value was 7.4 ± 1.2%. The prevalence of participants who were only treated by medical nutrition therapy was 11.6%.
The nutritional intake per day and the percentage of participants who met the nutritional recommendations by the Japan Diabetes Society (JDS) [7] are shown in Table 2. The mean daily energy intake for all participants was 1686.8 ± 554.8 kcal/day, and the mean proportions of carbohydrate, protein, and fat comprising total energy intake were 60.2 ± 7.9, 16.2 ± 3.4, and 23.6 ± 5.7%, respectively. Mean fiber and salt intakes were 13.1 ± 5.5 and 10.8 ± 3.7 g/day, respectively, and the prevalence of patients meeting the recommendations set by the JDS for fiber (≥ 20 g) and salt intakes (men < 7.5 g, women < 6.5 g) [7] were 10.5% and 13.8%, respectively. We also evaluated energy and nutritional intakes according to sex, age, HbA1c level, and diabetes duration in patients. The mean energy and nutrients intake values were similar for each evaluation, except for energy intake between the different genders: men consumed 330 kcal/day more energy than the women (1821.8 ± 574.7 and 1491.2 ± 459.0 g/day, respectively, p < 0.001; Table 2). The percentage of patients who met JDS recommendations [7], and percentage of patients who consumed fiber equal to or more than 20 g was low in patients younger than 65 years (age < 65 years: 8.5% and age ≥ 65 years: 13.7%, respectively, p = 0.001).
Selected food group intake per day is shown in Table 3. The mean intake of green-yellow vegetables and other vegetables for all participants was 125.1 ± 81.8 and 165.8 ± 98.4 g/day, respectively. For the protein source, the consumption of fish (93.5 g/day) and soybean products (68.2 g/day) were greater than the consumption of meat (54.1 g/day) and eggs (33.3 g/day). Male patients consumed approximately eightfold more alcoholic beverages than female patients (162.1 ± 262.5 and 20.3 ± 85.8 g/day, respectively, p < 0.001), and patients younger than 65 years consumed approximately 1.6-fold more alcoholic beverages than patients who were equal to or older than 65 years (122.1 ± 247.8 and 76.3 ± 166.1 g/day, respectively, p < 0.001). The mean total vegetable intake was low in patients younger than 65 years (276.3 g/day) compared with patients equal to or older than 65 years (313.4 g/day, p < 0.001); however, the characteristics of food intake did not differ greatly among the patient groups.
The physical activity characteristics of patients with type 2 diabetes are shown in Table 4. The mean weekly physical activity for all participants was 2186.8 ± 2523.6 METs min/week, and the prevalence of physical activity regarded as high, moderate, or low level was 23.8%, 45.3%, and 31.0%, respectively. The prevalence of all patients achieving: (i) vigorous intensity activity on at least 3 days, with a minimum total physical activity of at least 1500 MET-min/week, was 11.9%; (ii) 7 or more days of any combination of walking, moderate intensity or vigorous intensity activities: a minimum total physical activity of at least 3000 MET-min/week, was 21.4%; (iii) 3 or more days of vigorous intensity activity of at least 20 min per day, was 12.2%; (iv) 5 or more days of moderate intensity activity and/or walking of at least 30 min per day, was 63.8%; and (v) 5 or more days of any combination of walking, moderate intensity or vigorous intensity activities, with a minimum total physical activity of at least 600 MET-min/week, was 66.5%. The weekly physical activity in female patients was lower than in male patients (1948.3 ± 2209.3 and 2344.5 ± 2700.9 METs min/week, respectively, p < 0.001). The weekly physical activity in patients younger than 65 year was lower than in patients equal to or older than 65 year (2067.8 ± 2427.6 and 2366.8 ± 2653.7 METs min/week, respectively, p = 0.013). The percentage of female patients with low physical activity was higher than for male patients (34.3% and 28.8%, respectively) and patients younger than 65 years had a higher rate of low physical activity compared with patients who were equal to or older than 65 years old (33.7% and 26.8%, respectively).
Discussion
In the present study, we determined the actual dietary intake and physical activity status among Japanese patients with type 2 diabetes as part of the JDCP study, a nationwide large-scale survey launched in 2007. The overall, mean daily energy intake for JDCP participants was 1686.8 kcal/day, and the mean proportions of carbohydrate, protein, and fat comprising the total energy intake were 60.2, 16.2, and 23.6%, respectively. Mean fiber and salt intakes were 13.1 and 10.8 g/day, respectively. In 1996, the JDCS reported that the mean daily energy intake for Japanese patients with type 2 diabetes was 1737 kcal/day, the mean proportions of carbohydrate, protein, and fat comprising total energy intake were 56.7, 15.7, and 27.6%, respectively, and mean fiber and salt intakes were 14.7 and 10.7 g/day, respectively. The results are similar between the two studies, although the fat intake ratio and fiber intake was slightly lower in the JDCP study compared to the JDCS. It is important to note there were differences in measurement methods between the studies; however, the results indicate that the dietary intake of Japanese patients with type 2 diabetes remains substantially unchanged. Compared with diabetic patients in Western countries, the carbohydrate consumption was still higher and the fat consumption lower in Japanese patients with type 2 diabetes: 37–50%, and 35–45%, respectively, in Western countries [8]. The trends in dietary intake status were similar, regardless of gender, age, HbA1c level, and duration of diabetes.
The consumption of fish (93.5 g) and soybean products (68.2 g) were greater than the consumption of meat (54.1 g) and eggs (33.3 g); these trends were also observed in the JDCS patients [8]. The results were regardless of sex, age, HbA1c level and diabetes duration, suggesting that dietary content and food patterns among Japanese patients with type 2 diabetes were similar to those in Western countries. The trends are reported to decrease the risk of obesity [32] and type 2 diabetes [33]. Previously, an 8-year nationwide cohort study reported that an elevated incidence of CHD in Japanese patients with type 2 diabetes was associated with high meat intake [34]. In addition, a previous study reported that in Western female nurses with type 2 diabetes, participants with the highest intake of red meat (203 g/ day) had a 1.5-fold higher risk of CHD compared with the lowest intake (47 g/day) [35, 36]. Though it is necessary to note the differences in measurement methods for meat intake among studies, it is suggested that the Japanese patients with type 2 diabetes had a higher incidence of CHD with lower meat consumption compared with the Western female nurses with type 2 diabetes. The results suggest that Japanese patients with type 2 diabetes must pay attention to the source and amount of protein in their diet.
The mean sodium intake in this study was 10.8 g/day, whereas the mean salt intake in the JDCS was 10.7 g/day [8]. The National Health and Nutrition Survey in Japan reported that salt intake in the general Japanese population was 13.7 g/day in 1996 and 11.1 g/day in 2007 [16]. Although differences in the questionnaires used to assess dietary intake can influence the results, it is suggested that the salt intake of Japanese patients with type 2 diabetes is lower than the general Japanese population’s intake over the last 10 years. A systematic review has shown that Japan is one of the world’s highest consumers of dietary salt [37] and, over the past 10 years, salt intake has not decreased in Japanese patients with type 2 diabetes, even though it has decreased in the general Japanese population. The salt intake is higher in Japanese patients with type 2 diabetes than in patients with diabetes in the United States, which is reported to be 6.5–8.5 g/day [38]. According to the JDCS, the incidence of CVD after an 8-year follow-up was increased 1.7-fold in Japanese patients with type 2 diabetes with high salt intake (15.0 g/day) compared with low salt intake (7.1 g/day). Among patients who had levels of HbA1c ≥ 9.0%, the hazard ratio for CVD in the low vs high salt intake group was dramatically elevated compared with patients with HbA1c levels < 9.0% (1.2 and 9.9, respectively) [39]. In elderly Japanese patients with type 2 diabetes, a high salt intake combined with low vegetable intake was associated with an elevated incidence of diabetic retinopathy [40]. The results suggest that a further decrease in dietary salt intake is needed for Japanese patients with diabetes to appropriately manage their existing diabetic conditions.
Only 10.5% of the JDCP patients met the daily recommendations for fiber set by JDS (≥ 20 g) [7]: the mean fiber intake was 13.1 g/day. The mean fiber intake of JDCS patients was 14.7 g/day, and 15% ingested 20 g or more of fiber per day [8]. The percentage of patients ingesting 20 g or more of fiber was low in patients younger than 65 years (age < 65 years: 8.5% and age ≥ 65 years: 13.7%, respectively, p = 0.001). The results suggest that fiber intake in Japanese patients with type 2 diabetes was continuously below the recommended amount from 1996 to 2007. The mean fiber intake values were similar to those in Western type 2 diabetes patients (11.4–20.5 g/day) [38, 41, 42] and the general Japanese population (15.2 g/day) [16]. The mean vegetable intake for all participants was less than 300 g/day in this study, compared with 324 g/day in JDCS patients surveyed in 1996 [8]. The mean total vegetable intake was low in patients younger than 65 years (276.3 g/day) compared with patients equal to or older than 65 years (313.4 g/day). Low fiber and vegetable intakes contribute to an increased risk of developing diabetic retinopathy and stroke among patients with type 2 diabetes [43, 44]. Increasing fiber intake is continuously recommended to keep diabetes under control, especially for patients younger than 65 years.
Physical activity in patients with type 2 diabetes was also observed and the prevalence of patients who engaged in high, moderate, and low level physical activity was 23.8%, 45.3%, and 31.0%, respectively. The results show that about 30% of Japanese patients with type 2 diabetes do not have any exercise habits, including habitual aerobic exercise. The prevalence of no exercise habits was lower than in patients with diabetes in Australia (57%) [45] and similar to patients with diabetes in Hong Kong (29%) [46]. A previous study reported that the Japanese population are particularly inactive compared to the rest of the world [47]. It is important to raise awareness of the importance of physical activity in Japanese patients with type 2 diabetes, paying particular attention to the group in which physical activity was low. In addition, there are gender differences in physical activity status. Our study showed that weekly physical activity in female patients was lower than in male patients (1948.3 ± 2209.3 and 2344.5 ± 2700.9 METs min/week, respectively, p < 0.001) and the percentage of female patients with low physical activity was higher than for male patients (34.2% and 28.8%, respectively). This trend is similar for patients with diabetes in Hong Kong [46]; however, the gender difference in physical activity is reduced in the United States [48]. According to the National Health and Nutrition Survey in Japan of 2007, the percentage of Japanese people regularly engaging in exercise was 29.1% for men, and 25.6% for women, indicating that exercise is not sufficiently widespread, especially among women [49]. In terms of age, Japanese people aged 60 and over were more likely to have exercise habits (men in their 60s: 36.3%, women in their 60s: 40.0%). The age groups with the lowest exercise habits were males in their 30s (18.8%) and females in their 20s (14.1%); exercise habits were more commonly observed in the older participants [49]. This trend is consistent with the results of our current JDCP study: patients younger than 65 years had a higher rate of low physical activity compared with patients equal to or older than 65 years (33.7% and 26.8%, respectively). It is essential to consider these results and increase physical activity in future exercise therapies for Japanese type 2 diabetes patients, especially in women and young patients with type 2 diabetes.
The BMI of Japanese patients with type 2 diabetes increased from 22.7 to 24.1 kg/m2 in men and 23.2 to 24.8 kg/m2 in women from 1996 to 2007 [8, 50]; however, there was little difference in BMI in the general Japanese population between 1996 (men 23.0 kg/m2 and women 22.5 kg/m2) and 2007 (men 23.6 kg/m2 and women 22.3 kg/m2) [49]. The mean proportions of carbohydrate, protein, and fat comprising total energy intake in the general Japanese population during 1996–2007 was similar to that in Japanese patients with type 2 diabetes, with no significant changes: carbohydrate, 58.4% energy and 60.1% energy in 1996 and 2007, respectively; protein, 16.3% energy and 15.0% energy in 1996 and 2007, respectively; fat, 25.3% energy and 24.6% energy in 1996 and 2007, respectively [16]. The mean energy intake of the general Japanese population decreased from 2029 to 1913 kcal/day from 1996 to 2007, respectively [16], whereas Japanese patients with type 2 diabetes from 2007 (JDCP study) had similar energy and nutrient intake status to patients in 1996 (JDCS) [8]. There were no significant differences in physical activity levels and patterns between the general population and patients with diabetes, and the recommended physical activity goals were not achieved, regardless of the presence or absence of diabetes [51, 52]. In addition, the number of steps taken per day by the general Japanese population has substantially decreased for both men and women from 1996 to 2007 (men 7983 and 7427 steps; and women 7007 and 6595 steps, respectively) [49]. Japanese people have become more sedentary since the end of World War II, due to dramatic changes in lifestyle [53]. It can be speculated that during the 10 years from 1996 to 2007, the BMI of Japanese patients with type 2 diabetes has increased because energy intake has remained unchanged despite the decrease in physical activity levels, whereas the BMI of the general Japanese population remained unchanged because both their physical activity levels and energy intakes decreased. In particular, women with type 2 diabetes had a higher BMI (24.8 kg/m2) in the JDCP study surveyed in 2007 than in the JDCS surveyed in 1996 (23.2 kg/m2), though the mean energy intake of women with type 2 diabetes was lower in the JDCP study (1491 kcal) compared with the JDCS (1643 kcal), albeit the comparison was through different dietary intake questionnaires [8]. In our current JDCP study, the weekly physical activity was lower in female patients than male patients (1948 and 2345 METs min/week, respectively) and the percentage of female patients with low physical activity was higher than for male patients (34.2% and 28.8%, respectively). The balance between dietary energy intake and energy expenditure based on physical activity is important for patients with type 2 diabetes, especially in female patients.
The present study had several limitations. First, self-recording questionnaires can lead to inaccuracies in participants' reported dietary composition and physical activity status. Previous data suggests that being a woman, being obese, or desiring to reduce bodyweight increase the likelihood of under reporting energy intake [54]. The estimated physical activity levels from the IPAQ are related to over reporting physical activity, leading to an underestimation of the prevalence of insufficient activity [55, 56]. Japanese type 2 diabetic patients had a much lower BMI compared with Western patients [50]. Secondly, 27.6% of participants completed the BDHQ and 30.8% of participants completed the IPAQ; therefore, the differences between those who did and did not complete the questionnaires could have potentially influenced the cross-study comparisons of dietary intake.
In conclusion, we determined the actual dietary intake and physical activity status among Japanese patients with type 2 diabetes under the nationwide JDCP study, launched in 2007. Patients in the JDCP study had similar energy and nutrient intake status to patients in the JDCS, carried out 1996, and had higher carbohydrate consumption and lower fat consumption compared with diabetic patients in Western countries. The JDCP patients consumed excess salt and inadequate fiber intake, suggesting that further decreasing dietary salt intake and increasing fiber intake is necessary. Our study revealed that about 30% of Japanese patients with type 2 diabetes did not have exercise habits; this was particularly noticeable in female patients and patients under the age of 65. The BMI of Japanese patients with type 2 diabetes increased from 22.7 to 24.1 kg/m2 in men and 23.2 to 24.8 kg/m2 in women from 1996 to 2007. The reason for this increment is suggested to be due to energy intake remaining unchanged despite a decrease in physical activity level. The balance between dietary energy intake and energy expenditure based on physical activity has become more important in patients with type 2 diabetes in recent years. Based on our findings, more research is needed to investigate how food and nutritional intakes and physical activity among type 2 diabetes patients are associated with the risk of developing complications. It is also necessary to examine how the combination of dietary intake and physical activity is related to the development of complications.
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Acknowledgements
We thank all the patients, staff and the diabetologists all over Japan for their long-standing collaboration in this study. We thank Satoshi Sasaki, M.D., Ph.D., Professor in the Department of Social and Preventive Epidemiology, School of Public Health, the University of Tokyo, for helpful nutritional advice. Thanks are also extended to Ms. Mami Haga, Niigata University, for their excellent secretarial assistance.
JDCP Study Investigators JDCP Study Working Groups (representatives shown with an asterisk [*]). Nephropathy: Kazunori Utsunomiya, Daisuke Koya, Kenichi Shikata*. Retinopathy: Shigehiko Kitano*, Yukihiro Sato, Hidetoshi Yamashita, Satoshi Kato (2021–). Neuropathy: Jiro Nakamura*, Masayuki Baba. Macrovascular disease: Hitoshi Shimano, Yoshimitsu Yamasaki*, Naruhito Yoshioka. Diet therapy: Satoshi Sasaki, Jo Sato, Kinsuke Tsuda*. Exercise therapy: Yoshiharu Oshida, Hirohito Sone*. Epidemiology/statistics: Kazuo Izumi, Hideki Origasa, Rimei Nishimura*, Yasuaki Hayashino. Periodontal disease: Kouji Inagaki*, Fusanori Nishimura, Hidetoshi Noguchi. JDCP Study Regional Leaders: Hokkaido Chapter: Naruhito Yoshioka. Tohoku Chapter: Jo Sato. Kanto-Koshinetsu Chapter: Rimei Nishimura (Principal Investigator). Chubu Chapter: Jiro Nakamura. Kinki Chapter: Nobuya Inagaki. Chugoku-Shikoku Chapter: Yukio Tanizawa. Kyushu Chapter: Eiichi Araki. JDCP Study Coordination Committee: Objective: To make key decisions relating to the research project to ensure appropriate and smooth conduct of the study. Members of the Committee: Eiichi Araki, Kazuo Izumi, Nobuya Inagaki, Kohjiro Ueki, Hirohito Sone, Naoko Tajima, Yukio Tanizawa Rimei Nishimura*, Mitsuhiko Noda, Yasuaki Hayashino. JDCP Study Steering Committee (SSC): Objective: To provide guidance on key issues in the conduct of the study, with the committee set up within the JDS; to receive reports from the SCC; to make recommendations to the SCC as required; and to assess the progress of the study as well as its outcomes and report to the JDS as to whether the study is being conducted appropriately. Members of the Committee: (First-termers, 2009–2012): Yasuhiko Iwamoto, Masato Kasuga, Kishio Nanjo (Chair), Masakazu Haneda, Nigishi Hotta. (Second-termers, 2013–2017): Masato Kasuga (Chair), Yasuhiro Iso, Hiroshi Kiyohara, Masakazu Haneda, Toshimasa Yamauchi, Tsutomu Yamazaki. (Third-termers, 2018–2022): Eiichi Araki (Chair), Jiro Nakamura, Yasuhiro Iso, Hiroshi Kiyohara, Toshimasa Yamauchi, Tsutomu Yamazaki.
Funding
Funding to support this study was received from Japan Diabetes Society.
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Jo Satoh received honoraria from Boehringer Ingelheim, Eli Lilly and Company, MSD, Ono Pharmaceutical Co., Ltd., Sanofi, and Sumitomo Dainippon Pharma Co., Ltd. Yasuaki Hayashino received a research grant from Ono Pharmaceutical Co., Ltd. Rimei Nishimura received honoraria from Sanofi, Medtronic Japan Co., Ltd., Nippon Boehringer Ingelheim Co., Ltd., Takeda Pharmaceutical Co., Ltd., Eli Lilly Japan K.K., Novo Nordisk Pharma Ltd., MSD, and Astellas Pharma lnc., and received subsidies or donations from Taisho Pharmaceutical Co., Ltd., Ono Pharmaceutical Co., Ltd., Takeda Pharmaceutical Company Ltd., and Nippon Boehringer Ingelheim Co., Ltd. Hirohito Sone received a research grant from Novo Nordisk Pharma Ltd., and reports endowed departments by commercial entities from Novo Nordisk Pharma Ltd., Eisai Co., Ltd., Kyowa Kirin Co., Ltd. Astellas Pharma Inc., Taisho Pharmaceutical Co., Ltd., Ono Pharmaceutical Co., Ltd., and Takeda Pharmaceutical Co., Ltd. Chika Horikawa, Kinsuke Tsuda, Yoshiharu Oshida, and Naoko Tajima declare that they have no conflict of interest.
Ethical considerations
The protocol for the study, which is in accordance with the Declaration of Helsinki and the Ethical Guidelines for Clinical/Epidemiological Studies of the Japanese Ministry of Health Labor and Welfare, received ethical approval from the institutional review boards of the Japan Diabetes Society Research Ethics Committee and all of the participating institutes, and was registered with the UMIN Clinical Trial Registry (Registry ID UMIN000016519).
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Written informed consent was obtained from all patients enrolled to protect their rights and welfare, and to protect them against any potential harm and risk associated with the conduct of the study.
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The members of the JDCP Study Group are listed in Acknowledgements.
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Horikawa, C., Tsuda, K., Oshida, Y. et al. Dietary intake and physical activity in Japanese patients with type 2 diabetes: the Japan Diabetes Complication and its Prevention prospective study (JDCP study 8). Diabetol Int 13, 344–357 (2022). https://doi.org/10.1007/s13340-022-00575-0
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DOI: https://doi.org/10.1007/s13340-022-00575-0