Introduction
Although it is well known that improvement of health behaviour is necessary for the management of non-communicable diseases (NCDs) such as hypertension, diabetes, and dyslipidaemia [1–3], it is challenging to modify health behaviour [4, 5]. However, there is no lack of opportunities for health behaviour improvement, and the theory of health behaviour recommends taking advantage of such cues to action. In particular, the situation of being diagnosed with an NCD and treated is recognised as a good opportunity for becoming aware of the health crisis and thus preventing the exacerbation of the disease and the development of comorbid diseases [6, 7] (i.e., what is known as the ‘wake-up call’ or a teachable moment).
Despite various efforts to improve NCD patients’ health behaviour [8, 9], there is currently insufficient evidence to suggest that their health behaviours are significantly better than those of the general population [10]. In a study that followed the trends of three health behaviours (current smoking, alcohol consumption, and walking) in major NCD patients (hypertension, diabetes, and dyslipidaemia) and compared them with those of the general population by analysing the relevant Korea Community Health Survey data covering the period of 2008–2017, major NCD patients showed only marginally more health behaviour improvement compared with the general population, partially showing a lower level of improvement than the general population [10]. Regarding nutrition-related behaviours, some studies reported that patients improved their dietary behaviour through education or counselling after diagnosis of NCDs [11, 12]. In other studies, patients have complained of difficulties in correcting and continuing to fulfil their dietary behaviours that were formed over a long period of time [13–18].
The present study focused on major NCD patients’ nutritional behaviours as a follow-up analysis of prior research, in which smoking, drinking, and physical activity (i.e., three typical health behaviours) were analysed; however, no analysis of nutrition-related health behaviours was undertaken. The World Health Organization (WHO) emphasises the importance of reducing unhealthy food and drink consumption, along with reducing tobacco use, harmful use of alcohol, and physical inactivity; these are the ‘best buys’ of the strategies to reduce the burden of NCDs [19]. Therefore, this study compared low-salt preference, which is a typical nutrition-related health behaviour, between major NCD patients and the general population, using the analysis methodology adopted in prior research.
Materials and methods
Data source
In this study, we used data extracted from the Korea Community Health Survey (KCHS) during the period of 2008–2019. The KCHS is a nationwide survey that was first conducted in 2008 by the Korea Centers for Disease and Control and Prevention to evaluate the health status of community residents and to establish evidence-based health-related statistics [20]. This survey was conducted each year from August to October at 255 community health centres across the country to evaluate anthropometrical parameters, smoking status, alcohol use, physical activity, health behaviours (e.g., diet and use of healthcare services), and quality of life in Korean adults (≥19 years of age) [21]. The sample size of KCHS is about 900 people in each community health center, for a total of about 220,000 people.
Participants
Thirteen major types of NCD patients (hypertension, diabetes, dyslipidaemia, stroke, myocardial infarction, angina, arthritis, osteoporosis, asthma, allergic rhinitis, atopic dermatitis, cataract, and depression) were defined as participants who responded clinically diagnosed from physicians in the KCHS. Depression was subdivided into patients who had been diagnosed by a physician and those who had experienced symptoms. The general population was defined as all the participants in the Korea Community Health Survey.
Low-salt preference
Low-salt preference was measured using four items: the percentage of respondents who answered that they 1) usually eat less salty food, 2) do not add salt or soy sauce at the table, 3) do not dip fried food in soy sauce, and 4) stick to a low-salt diet in the three previous items, that is, they have a low-salt preference (Type III).
Data analysis
Descriptive statistical analysis of data was conducted to determine the low-salt preferences of NCD patients and the general population according to the year (2008–2019) and region (municipalities and provinces). A Chi-square test was performed to compare the low-salt preferences of patients with major NCDs and the general population. The 2018 Korea Community Health Survey data were excluded from the analysis because there were no survey items on low-salt preferences. Since the 2018/2019 data for the prevalence of dyslipidaemia were missing, we used the 2017 data. Joinpoint regression was applied to detect significant changes in annual low-salt preference [22], with a maximum of one joinpoint allowed. The annual percentage change (APC) (i.e., the average annual percentage change [AAPC] in the case of one joinpoint) was computed using joinpoint analysis, and each p-value is presented.
Analysis data were tabulated using Microsoft Excel 2014 (Microsoft Corporation, Seattle, WA). Stata/SE13.1 (StataCorp, Texas, TX) were used for descriptive statistics and Joinpoint Regression Program (version 4.6.0; US National Cancer Institute, Bethesda, MD, USA) were used for joinpoint regression.
Ethical considerations
Since this study used a publically available secondary data source (Korea Community Health Survey, Available from: https://chs.kdca.go.kr/chs/main.do), we did not seek approval from the institutional review board. We also did not have to ask for the consent of the participants.
Results
As of 2017, low-salt preference among major NCD patients was generally higher than that of the general population, however, overall statistical significance was not reached (Fig 1). The percentage of respondents who answered that they usually eat less salty food was 23.6% in the general population and 25.2%, 27.7%, and 24.4% in patients with hypertension, diabetes, and dyslipidaemia, respectively. The percentage of respondents who answered that they did not add salt or soy sauce at the table was slightly higher in patients with hypertension and dyslipidaemia (72.2% and 74.0%, respectively) than in the general population (71.9%), though the percentage was slightly lower (71.5%) in patients with diabetes. The percentage of respondents who answered that they did not dip fried food in soy sauce was slightly higher in major NCD patients than in the general population (36.0%). The percentage of respondents who indicated that they preferred a low-salt diet for all three items was highest in patients with diabetes (15.6%), followed by patients with hypertension (14.1%), dyslipidaemia (13.4%), and the general population (11.3%).
[Figure omitted. See PDF.]
Overall low-salt preference
The overall low-salt preference rate (usually eat less salty food) showed an upward trend until 2013 and declined thereafter (Fig 2). In the general population, it peaked in 2013 at 24.9% (APC: 2.654, p = 0.063) and decreased to 21.6% by 2019 (APC: -2.347, p = 0.195). In patients with hypertension, it peaked in 2013 at 27.6% (APC: 1.857, p = 0.136) and decreased to 21.6% by 2019 (APC: -2.649, p = 0.126). In patients with diabetes, it peaked in 2013 at 29.8% (APC: 1.859, p = 0.122) and decreased to 23.6% by 2019 (APC: -2.849, p = 0.093). Lastly, in patients with dyslipidaemia, it peaked in 2013 at 27.2% (APC: 5.690, p = 0.048) and decreased to 24.4% by 2017 (APC: -2.528, p = 0.023).
[Figure omitted. See PDF.]
Low-salt preference at the table
The rate of low-salt preference at the table (not adding salt and soy sauce at the table) gradually increased and tended to remain elevated; in patients with some diseases, the rate slightly decreased by 2019 (Fig 3). In the general population, it peaked in 2013 at 74.4% (APC: 11.788, p-value: <0.001) and decreased to 68.4% by 2019 (APC: -0.964, p = 0.010). In patients with hypertension, it peaked in 2013 at 73.5% (APC: 11.401, p = 0.001) and decreased to 68.1% by 2019 (APC: -0.523, p = 0.225). In patients with diabetes, it peaked in 2013 at 72.7% (APC: 10.914, p <0.001) and then gradually decreased to 68.3% by 2019 (APC: -0.567, p = 0.113). In patients with dyslipidaemia, there was a slight decrease from 75.9% in 2011 to 74.0% in 2017 (APC: -0.390, p-value: 0.109).
[Figure omitted. See PDF.]
Low-salt preference for fried food
The rate of not dipping fried food in soy sauce increased until 2013 and then decreased (Fig 4). No significant changes were observed in the general population between 2008 (36.8%) and 2019 (36.4%), and there were fluctuations in some years (APC: 0.214, p = 0.693). In patients with hypertension, the rate peaked in 2013 at 50.3% (APC: 2.993, p = 0.023) and then decreased to 44.9% by 2019 (APC: -1.585, p = 0.092). In patients with diabetes, it peaked in 2013 at 50.3% (APC: 2.494, p = 0.035) and then decreased to 45.2% by 2019 (APC: -1.634, p = 0.070). Lastly, in patients with dyslipidaemia, it peaked in 2013 (47.9%) and then decreased to 44.2% by 2017 (APC: -0.152, p = 0.847).
[Figure omitted. See PDF.]
Low-salt preference rate (type III)
Low-salt preference (type III) increased until 2013 and decreased thereafter (Fig 5). In the general population, it peaked in 2013 at 13.2% (APC: 7.528, p = 0.009) and then decreased to 10.4% by 2019 (APC: -3.422, p = 0.71). In patients with hypertension, it peaked in 2013 at 16.3% (APC: 4.621, p = 0.011) and decreased to 12.8% by 2019 (APC: -4.638, p = 0.037). In patients with diabetes, the low-salt preference rate (type III) peaked in 2013 at 18.1% (APC: 4.761, p = 0.024) and decreased to 13.7% by 2019 (APC: -3.634, p = 0.027). Although no consistent rate was observed in patients with dyslipidaemia, a slight decrease was observed from 14.2% in 2011 to 13.4% in 2017 (APC: -0.759, p = 0.603).
[Figure omitted. See PDF.]
Regional variations
Greater regional variations in low-salt preference were observed in major NCD patients compared to the general population (S1 File). In 2019, Seoul and Jeonnam had the highest and lowest percentages of respondents who answered that they usually ate bland or less salty food (24.3% and 18.3%, respectively; standard deviation [SD]: 1.7%). For patients with diabetes, Jeju and Gyeongnam were the regions with the highest and lowest percentages (30.1% and 20.8%, respectively; SD: 2.4%). Gwangju and Daejeon were the regions with the highest and lowest percentages of the general population who answered that they did not add salt or soy sauce at the table in the same year (77.0% and 54.1%, respectively; SD: 5.7%). Similar regional variations were observed in patients with hypertension: Gwangju, 81.1%; Daejeon, 58.2%; SD, 5.8%. Jeonnam and Daegu were the regions with the highest and lowest percentages of the general population who answered that they did not dip fried food in soy sauce, at 55.8% and 23.6%, respectively (SD: 8.0%). For patients with diabetes, Geonnam and Sejong were the regions with the highest and lowest percentages (65.0% and 20.3%, respectively; SD: 11.4%). With regard to the low-salt preference rate (type III), Seoul and Daegu were the regions with the highest and lowest percentages, at 12.3% and 7.6%, respectively (SD: 1.4%). In patients with diabetes, the regions with the highest and lowest percentages were Jeonnam (17.0%) and Gangwon (8.6%), respectively (SD: 2.5%).
Discussion
In this study, we investigated the low-salt preferences of major NCD patients (e.g., hypertension, diabetes, and dyslipidaemia) from various angles and compared them with those of the general population based on the relevant datasets extracted from the Korea Community Health Survey. Data analyses revealed that major NCD patients had a higher low-salt preference compared with the general population; however, the difference was not statistically significant. Despite an overall upward trend in low-salt preferences, the low-salt preference rates of patients with different major NCDs and the general population was gradually decreasing after peaking mainly in 2013; thus, the low-salt preference rates leave much room for improvement. In addition, we found greater regional variations in low-salt preferences among major NCD patients compared to the general population. This finding highlights the need to prepare a region-specific strategic approach to improve low-salt preferences.
Excess sodium intake is a risk factor for developing NCDs such as hypertension and cardio-cerebrovascular disease, as well as alcohol use, smoking, and lack of physical activity [23]. Reducing sodium intake can contribute to reducing the prevalence and mortality caused by these diseases. Low-salt preference is known as an index reflecting individual’s attitudes and reactions to salty taste [24, 25]. Therefore, low-salt preference influences an individual’s sodium intake behaviour, such as the amount of salt that can be adjusted during the cooking process or at the table, the frequency of eating out and consumption of instant foods, and the amount of soup in the daily diet [26]. The significance of this study lies in the fact that it demonstrated the need to develop more effective strategies for the formation of low-salt dietary habits in major NCD patients by identifying the trend of low-salt preferences of major NCD patients using big data from the Republic of Korea.
In this study, the low-salt preference of patients with major NCD was found to be higher than that of the general population. From this finding, it can be inferred that NCD patients were interested in a low-salt diet after being diagnosed with NCDs [27], or that they received nutrition education in healthcare facilities [28]. However, no significant differences in low-salt preference were observed between NCD patients and the general population, and the low salt preference rates gradually decreased after peaking in 2013. In Republic of Korea, the multicomponent national programs to reduce salt intake has been steadily promoted since the 2010s [29]. In particular, in 2012, a national plan was established to reduce sodium intake. However, we estimated that this effect appears to have gradually weakened. This highlights the need to establish and implement more active interventions for a low-salt diet in NCD patients as well as the general population.
More specifically, among the items used to determine a low-salt preference, NCD patients showed higher rates for the item regarding the overall low-salt diet preference (usually eating bland or less salty food) when compared to the general population; however, the absolute value was lower than 30%. Sensitivity and familiarity to salty taste is affected by the concentration of sodium in foods that have been frequently exposed recently [30, 31], to form the habit of eating less salty food, efforts are needed to reduce the sodium content of the foods provided at home, school, workplace, and at other places regularly visited. In addition, efforts should be made to reduce the sodium content in convenience foods and delivery foods whose consumption continues to increase due to the coronavirus disease 2019 pandemic [32]. Government-led policies to reduce sodium intake through food service companies may be of great help in getting individuals to comply with a low-salt diet. However, given the lack of publicity for this policy and limited voluntary participation in the turnover-driven foodservice industry, stronger measures (e.g., a sodium tax) are required.
Another noteworthy finding of this study is that the rate of not adding salt and soy sauce at the table was higher than 70%. Since Korean food is mainly seasoned with salt or soy sauce during cooking, sodium intake can be significantly increased if it is added to the table. The high rate of a low-salt preference at the table is a desirable trend because, according to the health belief model [33], NCD patients recognise the severity of their diseases and make efforts to adhere to a low-salt diet, which is reflected in their avoidance of using salt and soy sauce. However, due to the low percentage of a low-salt preference (type III), it may be inferred that they do not add salt or soy sauce at the table because they usually eat sufficiently salted food. On the other hand, the rate of not dipping fried foods in soy sauce was lower than 50%. Fried foods are served with soy sauce because they are not strongly salted during cooking, and people tend to dip them in soy sauce. Therefore, to promote a low-salt diet, it is necessary to create a supportive environment such as educating cooks and foodservice professionals on recipes that use less salt or providing publicity about the importance of low-sodium diets for health.
It is also worth noting that greater regional variations were observed in low-salt preference among NCD patients compared to the general population. This gap may be attributable to the differences in disease prevalence, income level, and medical resources from one region to another, but may also be associated with sodium reduction policy programs run by local governments. Furthermore, it is necessary to pay attention to various characteristics related to salt intake, such as average temperature and diet, in order to explain these variations (S2 File). Just as there is variation in salt intake between countries [34], within a country, there may be differences in salt intake or salt preference from region to region. However, it is difficult to find studies examining which factors are most strongly associated with these variations. In the future, it would be meaningful to conduct studies to identify the causes of the regional differences in low-salt preference among NCD patients and to narrow the regional gap. The findings from these studies would ultimately contribute to resolving the regional disparities in healthy life expectancy [35].
This study has three limitations. First, only the variables included in the raw data were considered for the analysis because of the characteristics of the data source. In particular, the incidence of NCDs was identified by self-report, and the timing of diagnosis was unknown. In future research, it will be necessary to follow changes in dietary behaviours before and after diagnosis of the disease using other data sources such as panel data or patient cohort data. Second, although various policies regarding sodium intake reduction have been put in place in the Republic of Korea, their effects could not be examined in this study. To more effectively promote a low-sodium diet, it is necessary to conduct long-term follow-up studies that consider changes induced by such policies. Third, this study included 13 patients with NCDs, including hypertension and cardiovascular disease, which are closely associated with sodium intake. However, given that patients with cancer (e.g., stomach cancer) are also affected by a low-salt diet. The KCHS does not include a question asking whether participants have cancer. In future research, it is necessary to examine the health behaviours of cancer patients by using other data sources that include cancer patients.
Conclusion
The results of this study highlight the need to improve the low-salt preference rate in patients with major NCDs as well as in the general population. Specifically, it is necessary to consider expanding various low-salt policies and programs such as education on a low-salt diet, salinity monitoring to create a low-salt environment, certification for low-sodium restaurants, and sodium tax. In these contexts, the low-salt preference rates among major NCD patients, as determined in this study, will serve as baseline values for evaluating the effectiveness of various low-salt policies and programs. These findings can also be used as reference values for setting project targets. Therefore, it is necessary to continuously monitor the low-salt preferences of patients with major NCDs and the general population.
Supporting information
S1 File. Regional variations in low-salt preference.
https://doi.org/10.1371/journal.pone.0276655.s001
S2 File. Regional characteristics related to sodium intake.
https://doi.org/10.1371/journal.pone.0276655.s002
(PDF)
Citation: Choi EY, Park Y-K, Ock M (2022) Comparison of low-salt preference trends and regional variations between patients with major non-communicable diseases and the general population. PLoS ONE 17(10): e0276655. https://doi.org/10.1371/journal.pone.0276655
About the Authors:
Eun Young Choi
Roles: Conceptualization, Methodology, Visualization, Writing – original draft, Writing – review & editing
Affiliation: College of Nursing, Sungshin Women’s University, Seoul, Republic of Korea
Young-Kwon Park
Roles: Conceptualization, Data curation, Formal analysis, Visualization, Writing – review & editing
Affiliation: Prevention and Management Center, Ulsan Regional Cardiocerebrovascular Disease Center, Ulsan University Hospital, Ulsan, Republic of Korea
Minsu Ock
Roles: Conceptualization, Data curation, Formal analysis, Methodology, Project administration, Supervision, Writing – original draft, Writing – review & editing
E-mail: [email protected]
Affiliations Prevention and Management Center, Ulsan Regional Cardiocerebrovascular Disease Center, Ulsan University Hospital, Ulsan, Republic of Korea, Department of Preventive Medicine, Ulsan University Hospital, University of Ulsan College of Medicine, Ulsan, Republic of Korea
https://orcid.org/0000-0001-9949-9224
1. American Diabetes Association. 5. Lifestyle management: standards of medical care in diabetes-2019. Diabetes Care. 2019;42(Suppl 1):S46–60. pmid:30559231
2. Grundy SM, Stone NJ, Bailey AL, Beam C, Birtcher KK, Blumenthal RS, et al. 2018 AHA/ACC/AACVPR/AAPA/ABC/ACPM/ADA/AGS/APhA/ASPC/NLA/PCNA guideline on the management of blood cholesterol: a report of the American College of Cardiology/American Heart Association Task Force on Clinical Practice Guidelines. Circulation. 2019;139:e1082–1143. pmid:30586774
3. Riegel B, Moser DK, Buck HG, Dickson VV, Dunbar SB, Lee CS, et al. Self-care for the prevention and management of cardiovascular disease and stroke: a scientific statement for healthcare professionals from the American Heart Association. J Am Heart Assoc. 2017;6:e006997. pmid:28860232
4. World Health Organization. Noncommunicable disease country profiles 2018 [Internet]. [Cited 2022 July 2]. Available from: https://apps.who.int/iris/handle/10665/274512.
5. Kelly MP, Barker M. Why is changing health-related behaviour so difficult? Public Health. 2016;136:109–116. pmid:27184821
6. McBride CM, Puleo E, Pollak KI, Clipp EC, Woolford S, Emmons KM. Understanding the role of cancer worry in creating a "teachable moment" for multiple risk factor reduction. Soc Sci Med. 2008;66:790–800. pmid:18037204
7. Newsom JT, Huguet N, McCarthy MJ, Ramage-Morin P, Kaplan MS, Bernier J, et al. Health behavior change following chronic illness in middle and later life. J Gerontol B Psychol Sci Soc Sci. 2012;67:279–288. pmid:21983040
8. de Vries TI, Dorresteijn JAN, van der Graaf Y, Visseren FLJ, Westerink J. Heterogeneity of treatment effects from an intensive lifestyle weight loss intervention on cardiovascular events in patients with type 2 diabetes: data from the look AHEAD trial. Diabetes Care. 2019;42:1988–1994. pmid:31416897
9. van Gool CH, Kempen GI, Penninx BW, Deeg DJ, van Eijk JT. Chronic disease and lifestyle transitions: results from the Longitudinal Aging Study Amsterdam. J Aging Health. 2007;19:416–438. pmid:17496242
10. Jeon YJ, Pyo J, Park YK, Ock M. Health behaviors in major chronic diseases patients: trends and regional variations analysis, 2008–2017, Korea. BMC Public Health. 2020;20:1813. pmid:33246439
11. Marques-Vidal P, Jankowski P, De Bacquer D, Kotseva K. Dietary measures among patients with coronary heart disease in Europe. ESC EORP Euroaspire V. International journal of cardiology. 2020;302:5–14.
12. Hooper L, Bartlett C, Davey SG, Ebrahim S. Advice to reduce dietary salt for prevention of cardiovascular disease. Cochrane Database Syst Rev. 2004;(1):CD003656.
13. Mosleh H, Alenezi M, Al Johani S, Alsani A, Fairaq G, Bedaiwi R. 2020. Prevalence and factors of anxiety and depression in chronic kidney disease patients undergoing hemodialysis: a cross-sectional single-center study in Saudi Arabia. Cureus. 2020;12(1):e6668–e6679.
14. Lee SJ, Song MS. Compliance with Low-Salt Diet and Related Factors in Essential Hypertension Patients. Journal of Korean Academy of Adult Nursing. 1999;11(3):605–620.
15. Lee YH, Kim HK, Kwon GH. Compliance with a low-salt diet, sodium intake, and preferred salty taste in the hypertensive elderly. Journal of Korean Public Health Nursing. 2010;24(2):311–322.
16. Park HJ, Jang EY, Cho W. Qualitative Study on Dietary Practices of Hemodialysis Patients. Journal of the Korean Society of Food Culture. 2020;35(2):201–214.
17. Park S, Kwon JS, Kim CI, Lee Y, Kim HK. Development of nutrition education program for hypertension based on health belief model, applying focus group interview. Korean Journal of Community Nutrition. 2012;17(5):623–636.
18. Abel S, Whitehead LC, Coppell KJ. Making dietary changes following a diagnosis of prediabetes: a qualitative exploration of barriers and facilitators. Diabetic Medicine. 2018;35(12):1693–1699. pmid:30092618
19. World Health Organization. Tackling NCDs: ’best buys’ and other recommended interventions for the prevention and control of noncommunicable diseases. World Health Organization [Internet]. [cited 2022 July 2]. Available from: https://apps.who.int/iris/handle/10665/259232.
20. Kang YW, Ko YS, Kim YJ, Sung KM, Kim HJ, Choi HY, et al. Korea community health survey data profiles. Osong Public Health Res Perspect. 2015;6:211–217. pmid:26430619
21. Korea Centers for Disease Control and Prevention. Community Health Survey [Internet]. [cited 2022 July 2]. Available from: https://chs.kdca.go.kr/chs/main.do.
22. National Cancer Institute, Division of Cancer Control & Population Sciences. Joinpoint Trend Analysis Software [Internet]. [cited 2022 July 2]. Available from: https://surveillance.cancer.gov/joinpoint/.
23. Strazzullo P D’Elia L, Kandala NB, Cappuccio FP. Salt intake, stroke, and cardiovascular disease: meta-analysis of prospective studies. BMJ. 2009;339:b4567. pmid:19934192
24. Wakai K. A review of food frequency questionnaires developed and validated in Japan. Journal of Epidemiology. 2009;19:1–11. pmid:19164867
25. Zhang Z, Zhang X. Salt taste preference, sodium intake and gastric cancer in China. Asian Pac J Cancer Prev. 2011;12:1207–1210. pmid:21875268
26. Takachi R, Ishihara J, Iwasaki M, Ishii Y, Tsugane S. Self-reported taste preference can be a proxy for daily sodium intake in middle aged Japanese adults. J Acad Nutr Diet. 2014;114:781–787. pmid:24144991
27. Satia JA, Kristal AR, Curry S, Trudeau E. Motivations for healthful dietary change. Public Health Nutr. 2001;4:953–959. pmid:11784408
28. Sacks FM, Campos H. Dietary therapy in hypertension. N Engl J Med. 2010;362:2102–2112. pmid:20519681
29. Park HK, Lee Y, Kang BW, Kwon KI, Kim JW, Kwon OS, et al. Progress on sodium reduction in South Korea. BMJ Glob Health. 2020 May;5(5):e002028. pmid:32404470; PMCID: PMC7228482.
30. Bobowski N, Rendahl A, Vickers Z. A longitudinal comparison of two salt reduction strategies: acceptability of a low sodium food depends on the consumer. Food Qual Prefer. 2015;40:270–278.
31. Methven L, Langreney E, Prescott J. Changes in liking for a no added salt soup as a function of exposure. Food Qual Prefer. 2012;26:135–140.
32. Lee YJ, Kim GJ. Exploratory Study of Post-COVID-19 Changes in Eating Behaviors: Focused on Behavior of Restaurant Visit, Home Eating Behavior and Delivery Food Purchase Behavior. Culinary Science & Hospitality Research. 2021;27(1):133–142.
33. Champion VL, Skinner CS. The health belief model. Health behavior and health education: Theory, research, and practice. 2008;4:45–65.
34. Powles J, Fahimi S, Micha R, Khatibzadeh S, Shi P, Ezzati M, et al. Global Burden of Diseases Nutrition and Chronic Diseases Expert Group (NutriCoDE). Global, regional and national sodium intakes in 1990 and 2010: a systematic analysis of 24 h urinary sodium excretion and dietary surveys worldwide. BMJ Open. 2013 Dec 23;3(12):e003733. pmid:24366578; PMCID: PMC3884590.
35. Jo MW, Seo W, Lim SY, Ock M. The trends in health life expectancy in Korea according to age, gender, education level, and subregion: using quality-adjusted life expectancy method. J Korean Med Sci. 2019;34:e88. pmid:30923491
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Abstract
Background
We compared low-salt preference between patients with major chronic diseases, also known as non-communicable diseases (hereinafter referred to as ‘“major NCD patients’”), and the general population.
Methods
We used data extracted from the Korea Community Health Survey Community during the period of 2008–2019. We evaluated the low-salt preference of 13 major NCD patients by year and region to analyse recent changes in low-salt preference trends, using joinpoint regression.
Results
A greater majority of major NCD patients had a higher low-salt preference than general population; however, the overall trend was not significantly significant. The low-salt preference rate (Type III) was highest among patients with diabetes (15.6%), followed by hypertension (14.1%) and dyslipidaemia (13.4%), with the general population displaying the lowest rate (11.3%). The rates of adherence to a low-salt diet and fried food without soy sauce gradually increased until 2013 and then declined. The rate of adherence to not adding salt and soy sauce at the table gradually increased and maintained a high rate of adherence until 2019, except for patients with some diseases. Regional variations in low-salt preference tended to be greater in patients with major NCDs than general population.
Conclusion
There is a need to improve the low-salt diet behaviour of not only major NCD patients, but also the general population. Various low-salt diet programs need to be promoted, such as education on a low-salt diet, certification for low-salt restaurants, and sodium tax. Moreover, it is necessary to continuously monitor the low-salt preferences of major NCD patients.
You have requested "on-the-fly" machine translation of selected content from our databases. This functionality is provided solely for your convenience and is in no way intended to replace human translation. Show full disclaimer
Neither ProQuest nor its licensors make any representations or warranties with respect to the translations. The translations are automatically generated "AS IS" and "AS AVAILABLE" and are not retained in our systems. PROQUEST AND ITS LICENSORS SPECIFICALLY DISCLAIM ANY AND ALL EXPRESS OR IMPLIED WARRANTIES, INCLUDING WITHOUT LIMITATION, ANY WARRANTIES FOR AVAILABILITY, ACCURACY, TIMELINESS, COMPLETENESS, NON-INFRINGMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Your use of the translations is subject to all use restrictions contained in your Electronic Products License Agreement and by using the translation functionality you agree to forgo any and all claims against ProQuest or its licensors for your use of the translation functionality and any output derived there from. Hide full disclaimer
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