Journal List > Korean Circ J > v.50(5) > 1144308

Shim, Oh, Jung, and Kim: Self-Reported Diet Management and Adherence to Dietary Guidelines in Korean Adults with Hypertension

Abstract

Background and Objectives

Although dietary management is strongly recommended in patients with hypertension, little is known about how many manage their diet and follow the guidelines for hypertension. We investigated the prevalence of dietary management among adults with known hypertension and evaluated their compliance to the dietary guidelines.

Methods

Data from the Korea National Health and Nutrition Examination Survey 2013–2016 were used. Among 15,870 adults aged 30–79 years, 4,162 reported a physician-diagnosed hypertension. Diet management behavior was defined by self-report response. Actual dietary intake was assessed by a 24-hour dietary recall. Dietary quality was evaluated using the Korean Healthy Eating Index (KHEI).

Results

Among adults with hypertension, 28.0% reported that they were managing their diet. Those with hypertension consumed significantly less dietary sodium (p value<0.01), but also less potassium (p value<0.01), resulting in no difference of sodium-to-potassium ratio compared to those without hypertension (p value=0.66). Among those with hypertension, diet-managing adults had better KHEI score (66.9, p value<0.01) and consumed less sodium (3,354.3 mg, p value<0.01) than not-managing adults (63.6 score and 3,554.5 mg, respectively). However, total KHEI score was rather lower in those with hypertension (p value<0.01) than those without hypertension and their sodium intake was still over the recommended amount.

Conclusions

More than two-thirds of Korean adults with hypertension did not manage their diet in daily life. More effective strategies are needed to increase the level of compliance with dietary recommendations for people with high blood pressure.

INTRODUCTION

The prevalence of hypertension is increasing in various regions worldwide.1) High blood pressure (BP) increases the risk of cardiovascular disease (CVD), renal disease, BP-related disability and even death. Therefore, hypertension is an enormous burden not only on patients, but also on society as a whole.2)3) Fortunately, adequate treatment for hypertension can delay its downstream side effects and improve prognosis.4)5)
The optimal BP can be achieved using BP-lowering medications and/or lifestyle modifications, such as a healthy diet, sufficient physical activity, and avoiding tobacco use.6)7)8) Healthy lifestyles have advantages beyond that of BP reduction. In contrast, following an unhealthy diet can nullify the BP-lowering effects of powerful medications.9) Therefore, patients with hypertension are strongly recommended to combine dietary modifications with BP-lowering medications to optimize their treatment.6)10)
Successful dietary modifications depend on patients' sustained self-management, as is true in other chronic illnesses that require lifelong attention.11) Dietary non-adherence in hypertension can disturb BP control, and even decrease a patient's quality of life and increase the cost of their medical care.12) In order to improve the level of dietary adherence to the guidelines in hypertension, there is a need for studies that evaluate diet management and dietary adherence to the guidelines in adults with hypertension are necessary.13) We investigated how many patients with hypertension manage their diet, and how well these patients follow the dietary guidelines.

METHODS

Study populations

We used data from the Korea National Health and Nutrition Examination Survey (KNHANES). KNHANES involves a health interview, health examination, and nutrition survey.14) Among all adults aged from 30 to 79 (n=20,419) in the KNHANES 2013–2016 data, those who did not participate in the nutrition survey or the health interview survey (n=4,325) and those who were pregnant or breast-feeding (n=224) were excluded. Finally, 15,870 adults (4,162 with and 11,708 without physician-diagnosis of hypertension) were analyzed for this study.

Definition of diet management, dietary intake and diet quality

During the nutrition survey, each participant was asked whether or not they manage their diet for any special reason. Based on the answers, we classified participants into the diet-managing group and not-managing group.
Dietary food and nutrient intakes were assessed by a 24-hour dietary recall. Comprehensive diet quality was evaluated with Korean Healthy Eating Index (KHEI), which was developed to assess overall diet quality in Korean adults based on the 2010 Dietary Guidelines for Koreans.15) The KHEI consists of 8 components that one should consume often (breakfast, mixed grains, fruits, vegetables, meat/fish/eggs and beans, and milk and milk product); 3 components for which moderate consumption is recommended (saturated fatty acids, sodium, and sweets and beverages); and other 3 components for which balanced consumption is recommended (carbohydrates, total fat, and energy). The total score ranges from 0 to 100 and higher score means further healthier diet. Supplementary Table 1 shows components of and scoring standards for KHEI.

Other variables

Information regarding disease-related characteristics and lifestyle behaviors were also included in this study. The duration of hypertension was calculated based on the age at the time of (a physician's) diagnosis, and the patient's current age. Antihypertensive drug treatment was defined as taking an antihypertensive drug for more than 20 days per month. Comorbid status was defined based on patients' self-report of a previous diagnosis of stroke, myocardial infarction, angina pectoris, diabetes, dyslipidemia, etc. before the survey. Family history of hypertension was also based on self-report of any family member (father, mother, and siblings) with a diagnosis of hypertension. Body mass index (BMI) was calculated using the height and weight measured during the health examination survey. Obesity was defined by a BMI of >25.0 kg/m2. The following health-related lifestyle factors were also surveyed: smoking (yes: current smoking, no: non- or past smoking); alcohol intake (yes: drinking ≥1 unit per month during the previous year, no: non-drinking or drinking <1 unit per month); and walking or other physical activity (yes: ≥5 days per week and ≥30 minutes per day, no: non-walking or less than 5 days per week or <30 minutes per day).

Ethical aspects

The KNHANES protocols were approved by the Institutional Review Board (IRB) of Korea Centers for Disease Control and Prevention (KCDC; IRB No. 2013-07CON-03-4C, 2013-12-EXP-03-5C). Written informed consent was provided by all participants. All of the study procedures were in accordance with the ethical standards of the responsible Institutional Committee on human experimentation, and were in accordance with the Helsinki Declaration (of 1975 as revised in 2008).

Statistical analysis

Demographic and disease-related data were presented as mean±standard deviation or as frequencies (%). The differences of means and proportions between groups were evaluated using t-tests and χ2 tests. The dietary intakes and KHEI scores were adjusted for sex and age, and were presented as mean±standard error of mean. The differences of the adjusted means between the groups were tested using analysis of covariance. All analyses were performed using the statistical software package SAS (version 9.4; SAS institute, Cary, NC, USA). The p values<0.05 were considered statistically significant.

RESULTS

Characteristics of adults by self-reported dietary management

The proportion of diet-managing people was 22.6% (2,647 over 11,708) in those without hypertension and 28.0% (1,167 over 4,162) in those with hypertension (Table 1). In both adults with and without hypertension, diet management was more prevalent in women. Diet-managing adults were younger, had a higher income, longer duration of hypertension, more comorbid diseases and more frequent family history of hypertension than did those in the non-management group. Healthier lifestyle behaviors such as nonsmoking and nondrinking were prevalent in adults with hypertension than those without hypertension. But the prevalence of regular walking did not differ by the presence of hypertension. Regardless of the presence of hypertension, diet-managing adults tended to have healthier behaviors, such as smoking less, drinking less, and walking more than non-managing group. However, there was no difference in diet management by antihypertensive drug treatment among adults with hypertension.
Table 1

Demographic and disease-related characteristics by self-reported dietary management

kcj-50-432-i001
Adults with known hypertension Adults without known hypertension
All (n=4,162) Not-managing (n=2,995) Managing (n=1,167) p value All (n=11,708) Not-managing (n=9,061) Managing (n=2,647) p value
Male (sex) 1,825 (43.8) 1,364 (45.5) 461 (39.5) <0.01 4,690 (40.1) 3,862 (42.6) 828 (31.3) <0.01
Age (year) 64.6±9.8 64.9±0.8 63.8±9.8 <0.01 50.4±12.8 50.6±12.9 49.7±12.3 <0.01
Income (highest quartile) 1,011 (24.4) 700 (23.5) 311 (26.8) 0.03 3,040 (26.0) 2,290 (25.4) 750 (28.4) <0.01
Hypertension duration (year) 9.5±7.9 9.2±7.7 10.3±8.3 <0.01 - - - -
Antihypertensive drug treatment (yes) 3,812 (91.6) 2,749 (91.8) 1,063 (91.1) 0.50 - - - -
Past history (yes)
Cardiovascular disease* 558 (13.6) 380 (12.9) 178 (15.4) 0.04 301 (2.6) 220 (2.5) 81 (3.1) 0.09
Diabetes 1,051 (25.3) 600 (20.0) 451 (38.7) <0.01 610 (5.2) 333 (3.7) 277 (10.5) <0.01
Dyslipidemia 1,580 (38.0) 1,059 (35.4) 521 (44.6) <0.01 1,249 (10.7) 829 (9.2) 420 (15.9) <0.01
Family history of hypertension (yes) 2,026 (48.7) 1,419 (47.4) 607 (52.0) <0.01 4,407 (37.6) 3,303 (36.4) 1,104 (41.1) <0.01
Obesity 2,060 (49.6) 1,443 (48.2) 617 (52.9) <0.01 3,499 (29.9) 2,509 (27.7) 990 (37.4) <0.01
Smoking 566 (13.9) 464 (15.9) 102 (8.8) <0.01 2,187 (18.4) 1,829 (20.4) 308 (11.7) <0.01
Drinking§ 1,810 (44.4) 1,344 (45.9) 466 (40.4) <0.01 6,254 (53.9) 4,944 (55.0) 1,310 (49.9) <0.01
Walking 1,506 (37.1) 1,038 (35.7) 468 (40.8) <0.01 4,272 (37.2) 3,158 (35.6) 1,114 (42.6) <0.01
Values are presented as mean±standard deviation or number (%).
*Stroke, myocardial infarction, angina pectoris; ≥ 25.0 kg/m2; Current smoking; §Drinking ≥1 unit per month during the previous year; Walking ≥5 days/week and ≥30 minutes/day.

Dietary intake according to diet management

Compared to adults without hypertension, those with hypertension consumed less energy and dietary sodium and more vitamins (Table 2). However, there was no difference of sodium-to-potassium ratio between the groups, because potassium intake was also low in those with hypertension. Irrespective of the presence of hypertension, diet-managing adults had better diet than not-managing adults. Diet-managing adults consumed less energy and had more appropriate macronutrient proportions than did not-managing adults. They also significantly consumed less sodium and thus lower sodium-to-potassium ratio than non-diet-managing adults. In addition, diet-managing group consumed more calcium and vitamins than non-diet-managing group. However, despite diet management, mean dietary sodium intake of diet-managing adults with hypertension (3,354.5 mg) was still higher than the recommended guideline (≤2,400mg/day recommended by Korean Society of Hypertension [KSH]).16) The proportion of adults who consumed less than 2,400 mg of sodium was merely 28.8% in those with hypertension (data not shown).
Table 2

Dietary intakes by self-reported dietary management

kcj-50-432-i002
Adults with known hypertension Adults without known hypertension
All (n=4,162) Not-managing (n=2,995) Managing (n=1,167) p value All (n=11,708) Not-managing (n=9,061) Managing (n=2,647) p value
Energy (kcal) 1,983±14* 1,878±13 1,780±21 <0.01 2,043±8 2,115±9 2,006±16 <0.01
Carbohydrate (% of energy) 67.3±0.2 71.3±0.2 69.5±0.3 <0.01 67.1±0.1 66.2±0.1 64.8±0.2 <0.01
Protein (% of energy) 14.3±0.1 13.6±0.1 14±0.1 <0.01 14.4±0.04 14.5±0.04 14.9±0.1 <0.01
Fat (% of energy) 18.3±0.1 15.1±0.1 16.4±0.2 <0.01 18.5±0.1 19.3±0.1 20.3±0.2 <0.01
Saturated fat (% of energy) 5.2±0.05 4.2±0.1 4.4±0.1 0.02 5.2±0.03 5.5±0.03 5.7±0.1 0.02
Dietary fiber (g/1,000 kcal) 13±0.1 13.5±0.1 15.3±0.2 <0.01 13±0.1 12.3±0.1 13.6±0.1 <0.01
Na (mg) 3,810±47* 3,555±44 3,354±71 0.02 3,982±27 4,148±31 3,999±57 <0.01
K (mg) 3,016±28* 2,922±30 3,029±49 0.06 3,183±16 3,184±17 3,280±32 <0.01
Na:K ratio 1.33±0.1 1.3±0.01 1.2±0.02 <0.01 1.34±0.01 1.4±0.01 1.3±0.01 <0.01
Ca (mg/1,000 kcal) 246±2 242±2 266±4 <0.01 252±1 245±1 272±3 <0.01
Vitamin A (µgRE/1,000 kcal) 372±9 360±10 431±15 <0.01 380±5 368±5 409±10 <0.01
Vitamin B1 (mg/1,000 kcal) 1.02±0.01* 1.02±0.01 1.05±0.01 <0.01 1.02±0.003 1.01±0.003 1.03±0.01 <0.01
Vitamin B2 (mg/1,000 kcal) 0.67±0.003 0.61±0.01 0.68±0.01 <0.01 0.65±0.01 0.67±0.003 0.73±0.01 <0.01
Vitamin C (mg/1,000 kcal) 58.0±0.6 57.8±1.2 67.9±1.9 <0.01 55.4±1.1 53.6±0.7 64.8±1.2 <0.01
Values are presented as sex-, age-adjusted mean±standard error of mean.
*p value<0.01 for difference of adjusted mean dietary intakes between adult with and without known hypertension; p value<0.05 for difference of adjusted mean dietary intakes between adult with and without known hypertension.

Dietary quality according to diet management

Table 3 shows total score of and each component score of KHEI. Diet-managing adults had higher scores for total KHEI and each component of KEHI than non-diet-managing adults, regardless of the presence of hypertension. However, total KHEI score was rather lower in adults with hypertension (62.9 score) than in adults without hypertension (63.4 score, p value<0.01), mainly because of the differences in consumption of fruit, vegetable, and dairy products. Supplementary Figure 1 shows additionally the distribution of adults who satisfied the reference of each component, and those who did not. On the whole, there was little difference in distribution between adults with hypertension and without. Of those with hypertension, more than half had lower intake of whole grain, fruits, vegetables, food rich in protein (including meat, fish, eggs, legumes), and dairy products, and had higher sodium consumption than the recommended level. Meals of hypertensive adults can be characterized as low in fat and high in carbohydrates.
Table 3

KHEI by self-reported dietary management

kcj-50-432-i003
Adults with known hypertension Adults without known hypertension
All (n=4,162) Not-managing (n=2,995) Managing (n=1,167) p value All (n=11,708) Not-managing (n=9,061) Managing (n=2,647) p value
Total KHEI score* (0–100) 62.9±0.2* 63.6±0.2 66.9±0.4 <0.01 63.4±0.1 62.6±0.1 64.4±0.3 <0.01
Component of KHEI score
Breakfast (0–10) 7.9±0.05 8.9±0.1 9.1±0.1 0.12 8±0.03 7.6±0.04 7.9±0.1 <0.01
Whole grain (0–5) 2.6±0.04 2.7±0.04 3.1±0.1 <0.01 2.5±0.02 2.4±0.02 2.6±0.04 <0.01
Total fruit, including juice (0–5) 2.4±0.04* 2.5±0.04 2.8±0.1 <0.01 2.6±0.02 2.5±0.02 2.7±0.04 <0.01
Fruit, excluding juice (0–5) 2.8±0.04* 2.9±0.04 3.2±0.1 <0.01 3±0.02 2.9±0.02 3.1±0.04 <0.01
Total vegetable, including Kimchi and pickles (0–5) 3.6±0.02* 3.6±0.03 3.7±0.04 0.31 3.7±0.01 3.7±0.01 3.6±0.02 0.11
Vegetable, excluding Kimchi and pickles (0–5) 3.6±0.03 3.6±0.03 3.7±0.1 0.04 3.6±0.02 3.6±0.02 3.7±0.03 0.23
Meat, fish, eggs, and legumes (0–10) 6.0±0.06 5.5±0.1 5.7±0.1 0.04 6.2±0.03 6.3±0.03 6.3±0.1 0.27
Milk and dairy (0–10) 2.9±0.1 2.3±0.1 2.9±0.1 <0.01 3.0±0.04 3.0±0.1 3.5±0.1 <0.01
Saturated fatty acid (0–10) 8.5±0.1 9.1±0.04 9.1±0.1 0.74 8.5±0.03 8.3±0.03 8.1±0.1 0.03
Sodium (0–10) 6.3±0.1* 6.7±0.1 7.0±0.1 <0.01 6.1±0.03 5.8±0.04 6.2±0.1 <0.01
Empty calorie foods (0–10) 7.8±0.1 8.1±0.1 8.6±0.1 <0.01 7.9±0.03 7.7±0.04 8.0±0.1 <0.01
Carbohydrate (0–5) 2.2±0.0 1.7±0.03 2.0±0.1 <0.01 2.3±0.02 2.4±0.02 2.4±0.04 0.84
Fat (0–5) 3.1±0.04 2.6±0.04 2.9±0.1 <0.01 3.1±0.02 3.3±0.02 3.3±0.04 0.63
Total energy (0–5) 3.1±0.04 3.2±0.04 3.1±0.1 0.12 3.2±0.02 3.2±0.02 3.0±0.04 <0.01
Values are presented as sex-, age-adjusted mean±standard error of mean.
KHEI = Korean Healthy Eating Index.
*p value<0.01 for difference of adjusted mean dietary intakes between adult with and without known hypertension; p value<0.05 for difference of adjusted mean dietary intakes between adult with and without known hypertension.

DISCUSSION

To the best of our knowledge, this is the first study to investigate how many hypertensive patients manage their diet in the real-world setting, and how well they satisfy the guidelines recommended by health professionals. The KSH recommends less than 6 g of daily salt consumption (equivalent to ≤2,400 mg of sodium), and balanced healthy diet which is characterized as high intake of fruits, vegetables, dietary fiber, vitamins, and minerals, and low fat intake.16) We found that only one-third of adults with hypertension were managing their diet. Although those who were managing their diet consumed less sodium and had a much healthier diet than did those who were not managing their diet, only a small fraction of actual diets satisfied the dietary guidelines for the management of hypertension. In addition, mean sodium intake of adults with hypertension was still over the recommended level.
In Korea, excessive sodium intake and the high prevalence of hypertension are major public health issues.17)18) Therefore, the Korean government has made a great effort to reduce sodium intake and its socioeconomic burden. The Ministry of Food and Drug Safety has implemented a sodium reduction policy and regulations for lower sodium consumption.17) The KCDC published a hypertension counseling manual and guidelines for use in various settings, including health care centers.19)20) The government has also allowed medical institutions to hire professionals (including doctors, nurses, and nutritionists) who are dedicated to patient education and counseling for hypertension management. These institutions receive expenses as non-payment items in order to increase patients' understanding of hypertension and to enhance BP management. Despite all of these efforts, however, our study revealed that many Korean adults with hypertension do not manage their diet in daily life, and do not have diets that meet the diet recommendations. Such poor diet management and low dietary adherence is not a unique problem to our study population. A study of Pakistani hypertensive patients investigated dietary adherence to recommendations using a self-report questionnaire.21) Among all patients (n=400), merely 22.5% reported that they followed the recommended diet that is low in fat and sodium intake. Another study of Finnish adults with hypertension (n=138) investigated dietary and lifestyle compliance and antihypertensive medications and follow-up visits using 27 survey questions.22) Patients had the best compliance with their medications (75%), followed by physical activity (54%) and alcohol intake (53%). The level of dietary compliance was lowest. Only 30% of the patients were compliant with recommendations for sodium, fat, and vegetables. Poor dietary compliance in patients with hypertension has been consistently mentioned as a barrier for adopting dietary changes even in intervention studies.13)21)
We suspect that patients may have poor dietary compliance because they cannot appreciate the immediate effects of dietary changes on their BP, and therefore they do not recognize its importance.23) Previous studies have also found that hypertensive patients on antihypertensive medications tend to smoke and drink more than those who are not treated with medications.24) Patients may feel that their antihypertensive medications overpower the harmful impact of an unhealthy lifestyle on BP management. However, an unhealthy lifestyle can actually nullify the BP-lowering effects of powerful medications.9) An optimal diet that is rich in fruits and vegetables and low in sodium, for instance, can reduce the need for medications, reduce drug costs, and even improve one's CVD risk factors.7)9)12) Therefore, more attention should be given to dietary management in hypertensive patients. Further studies which investigate patient's perception, willingness, and efficacy to dietary modification to control BP and which factors are associated with adopting dietary change are needed.21)25)
Our study has several strengths. First, we discriminated between diet management behavior and dietary adherence to recommendation. Previous studies have only evaluated dietary adherence using questionnaires that focused on diet management behaviors, such as reduction in fat or sodium reduction.13)21)22)25) Using only self-reported data on dietary modification makes it difficult to understand the gap between the individual’s subjective judgement on taking action (e.g., changing eating habits or cutting down salt intake) to control BP and actual food and nutrients consumption.25) However, we investigated whether or not they manage their diet and evaluated their actual dietary intakes to the recommendations for hypertension. This allowed us to find how many patients were managing their diet, and how well they were following dietary recommendations. We also found that most of the actual diets of those who responded that they were managing their diet did not meet the recommended guidelines. Another strength is that we used data from the KNHANES, which is a nationally representative cross-sectional survey. Thus, our study included Korean hypertensive adults with diverse socioeconomic backgrounds. There were several limitations to be considered. We used dietary intake assessed by a 1-day 24-hour diet recall. As well-known, single-day dietary assessment does not necessarily reflect one's usual intake due to day-to-day variation in dietary consumption.26) In order to overcome the influence of measurement error, we also analyzed only for adults who reported that their 24 hours recall day was typical for them, which the results remained unchanged (Supplementary Tables 2 and 3).
In conclusion, a large proportion of hypertensive patients do not manage their diets. Even those patients who do manage their diets did not satisfy the recommended guidelines for the dietary management of hypertension.

Notes

Funding: This study was supported by Academic Research Fund of Korean Society of Hypertension (KSH-R-2018-06).

Conflict of Interest: The authors have no financial conflicts of interest.

Author Contributions:

  • Conceptualization: Shim JS.

  • Data curation: Shim JS.

  • Formal analysis: Shim JS, Jung SJ.

  • Funding acquisition: Shim JS.

  • Investigation: Shim JS.

  • Methodology: Shim JS, Oh K, Jung SJ.

  • Project administration: Shim JS.

  • Resources: Shim JS.

  • Software: Shim JS.

  • Supervision: Shim JS, Kim HC.

  • Validation: Shim JS.

  • Visualization: Shim JS.

  • Writing - original draft: Shim JS, Oh K, Jung SJ, Kim HC.

  • Writing - review & editing: Shim JS, Kim HC.

References

1. O'Brien E. The Lancet Commission on hypertension: addressing the global burden of raised blood pressure on current and future generations. J Clin Hypertens (Greenwich). 2017; 19:564–568. PMID: 28560771.
2. Lewington S, Clarke R, Qizilbash N, Peto R, Collins R. Prospective Studies Collaboration. Age-specific relevance of usual blood pressure to vascular mortality: a meta-analysis of individual data for one million adults in 61 prospective studies. Lancet. 2002; 360:1903–1913. PMID: 12493255.
3. Rapsomaniki E, Timmis A, George J, et al. Blood pressure and incidence of twelve cardiovascular diseases: lifetime risks, healthy life-years lost, and age-specific associations in 1·25 million people. Lancet. 2014; 383:1899–1911. PMID: 24881994.
4. da Silva TL, Klein CH, Nogueira AR, Salis LH, de Souza E Silva NA, Bloch KV. Cardiovascular mortality among a cohort of hypertensive and normotensives in Rio de Janeiro - Brazil - 1991–2009. BMC Public Health. 2015; 15:623. PMID: 26152148.
5. Puato M, Boschetti G, Rattazzi M, et al. Intima-media thickness remodelling in hypertensive subjects with long-term well-controlled blood pressure levels. Blood Press. 2017; 26:48–53. PMID: 27216375.
6. Lee HY, Park JB. The Korean Society of Hypertension guidelines for the management of hypertension in 2013: its essentials and key points. Pulse (Basel). 2015; 3:21–28. PMID: 26587454.
7. Davis CR, Hodgson JM, Woodman R, Bryan J, Wilson C, Murphy KJ. A Mediterranean diet lowers blood pressure and improves endothelial function: results from the MedLey randomized intervention trial. Am J Clin Nutr. 2017; 105:1305–1313. PMID: 28424187.
8. Dauchet L, Kesse-Guyot E, Czernichow S, et al. Dietary patterns and blood pressure change over 5-y follow-up in the SU.VI.MAX cohort. Am J Clin Nutr. 2007; 85:1650–1656. PMID: 17556705.
9. Appel LJ, Brands MW, Daniels SR, Karanja N, Elmer PJ, Sacks FM. Dietary approaches to prevent and treat hypertension: a scientific statement from the American Heart Association. Hypertension. 2006; 47:296–308. PMID: 16434724.
10. Whelton PK, Carey RM, Aronow WS, et al. 2017 ACC/AHA/AAPA/ABC/ACPM/AGS/APhA/ASH/ASPC/NMA/PCNA guideline for the prevention, detection, evaluation, and management of high blood pressure in adults: a report of the American College of Cardiology/American Heart Association task force on clinical practice guidelines. Hypertension. 2018; 71:e13–115. PMID: 29133356.
11. Shrivastava SR, Shrivastava PS, Ramasamy J. Role of self-care in management of diabetes mellitus. J Diabetes Metab Disord. 2013; 12:14. PMID: 23497559.
12. Appel LJ. Lifestyle modification as a means to prevent and treat high blood pressure. J Am Soc Nephrol. 2003; 14:S99–102. PMID: 12819311.
13. Kwan MW, Wong MC, Wang HH, et al. Compliance with the dietary approaches to stop hypertension (DASH) diet: a systematic review. PLoS One. 2013; 8:e78412. PMID: 24205227.
14. Kweon S, Kim Y, Jang MJ, et al. Data resource profile: the Korea National Health and Nutrition Examination Survey (KNHANES). Int J Epidemiol. 2014; 43:69–77. PMID: 24585853.
15. Yun S, Oh K. Development and status of Korean Healthy Eating Index for adults based on the Korea National Health and Nutrition Examination Survey. Public Health Wkly Rep. 2018; 11:1764–1772.
16. The Korean Society of Hypertension. 2013 Guidelines for treatment of hypertension [Internet]. Seoul: The Korean Society of Hypertension;2013. cited 2020 Jan 14. Available from: http://www.koreanhypertension.org/reference/guide.
17. Lee C, Kim DI, Hong J, et al. Cost-benefit analysis of sodium intake reduction policy in Korea. Korean J Community Nutr. 2012; 17:341–352.
18. Lee H, Park S, Kim HC. Temporal and geospatial trends of hypertension management in Korea: a nationwide study 2002–2016. Korean Circ J. 2019; 49:514–527. PMID: 30808085.
19. Korea Centers for Disease Control and Prevention. Education materials: hypertension and diabetes counseling manual 2019 [Internet]. Cheongju: Korea Centers for Disease Control and Prevention;2019. cited 2020 Jan 14. Available from: http://www.cdc.go.kr/board.es?mid=a20503050000&bid=0021&act=view&list_no=127643.
20. Korea Academy of Medical Sciences, Korea Centers for Disease Control and Prevention. Evidence-based guideline for hypertension in primary care 2014 [Internet]. Cheongju: Korea Academy of Medical Sciences, Korea Centers for Disease Control and Prevention;2014. cited 2020 Jan 14. Available from: http://www.cdc.go.kr/board.es?mid=a20503050000&bid=0021&act=view&list_no=127643.
21. Khan MS, Bawany FI, Mirza A, Hussain M, Khan A, Lashari MN. Frequency and predictors of non-compliance to dietary recommendations among hypertensive patients. J Community Health. 2014; 39:732–736. PMID: 24452406.
22. Kyngäs H, Lahdenperä T. Compliance of patients with hypertension and associated factors. J Adv Nurs. 1999; 29:832–839. PMID: 10215974.
23. Lawson M, Jackson SH, Turner P. An investigation of the relationship between compliance with antihypertensive therapy and the type A behaviour pattern. J Hypertens Suppl. 1991; 9:S50–1. PMID: 1819009.
24. Salomaa V, Vartiainen E, Korhonen HJ, et al. Sydän- ja verisuonitautien vaaratekijät verenpainepotilailla ja muussa väestössä vuosina 1982–1992. Suom Laakaril. 1994; 49:1926–1932.
25. Ayala C, Fang J, Yuan K. Prevalence of taking actions to control blood pressure among adults with self-reported hypertension in 18 states and the District of Columbia, 2009. J Clin Hypertens (Greenwich). 2015; 17:172–182. PMID: 25644363.
26. Willett W. Nutritional epidemiology. Oxford: Oxford University Press;2012.

SUPPLEMENTARY MATERIALS

Supplementary Table 1

Components of and scoring standards for Korean Healthy Eating Index
kcj-50-432-s001.xls

Supplementary Table 2

Dietary intakes by self-reported dietary management among those who consumed as usual on the recall day
kcj-50-432-s002.xls

Supplementary Table 3

KHEI by self-reported dietary management among those who consumed as usual on the recall day
kcj-50-432-s003.xls

Supplementary Figure 1

Comparison of reference satisfaction for each component of Korea Health Eating Index.
kcj-50-432-s004.ppt
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