Skip Navigation
Skip to contents

PHRP : Osong Public Health and Research Perspectives

OPEN ACCESS
SEARCH
Search

Articles

Page Path
HOME > Osong Public Health Res Perspect > Volume 7(2); 2016 > Article
Original Article
Management of Sodium-reduced Meals at Worksite Cafeterias: Perceptions, Practices, Barriers, and Needs among Food Service Personnel
Jounghee Leea, Sohyun Parkb
Osong Public Health and Research Perspectives 2016;7(2):119-126.
DOI: https://doi.org/10.1016/j.phrp.2015.12.011
Published online: December 31, 2015

aDepartment of Nutrition Education, Graduate School of Education, Kyonggi University, Suwon, Korea

bInstitute for Health and Society, Hanyang University, Seoul, Korea

∗Corresponding author. sopark@hanyang.ac.kr
• Received: November 18, 2015   • Accepted: December 22, 2015

Copyright © 2016 Korea Centers for Disease Control and Prevention. Published by Elsevier Korea LLC.

This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).

  • 3,176 Views
  • 17 Download
  • 6 Crossref
  • 6 Scopus
prev next
  • Objectives
    The sodium content of meals provided at worksite cafeterias is greater than the sodium content of restaurant meals and home meals. The objective of this study was to assess the relationships between sodium-reduction practices, barriers, and perceptions among food service personnel.
  • Methods
    We implemented a cross-sectional study by collecting data on perceptions, practices, barriers, and needs regarding sodium-reduced meals at 17 worksite cafeterias in South Korea. We implemented Chi-square tests and analysis of variance for statistical analysis. For post hoc testing, we used Bonferroni tests; when variances were unequal, we used Dunnett T3 tests.
  • Results
    This study involved 104 individuals employed at the worksite cafeterias, comprised of 35 men and 69 women. Most of the participants had relatively high levels of perception regarding the importance of sodium reduction (very important, 51.0%; moderately important, 27.9%). Sodium reduction practices were higher, but perceived barriers appeared to be lower in participants with high-level perception of sodium-reduced meal provision. The results of the needs assessment revealed that the participants wanted to have more active education programs targeting the general population. The biggest barriers to providing sodium-reduced meals were use of processed foods and limited methods of sodium-reduced cooking in worksite cafeterias.
  • Conclusion
    To make the provision of sodium-reduced meals at worksite cafeterias more successful and sustainable, we suggest implementing more active education programs targeting the general population, developing sodium-reduced cooking methods, and developing sodium-reduced processed foods.
More than 25% of Koreans (13.9 million) use institutional food services everyday [1]. The worksite food service has the second highest number of customers (3.43 million) among users of institutional food services. When comparing the sodium content by meal type, the mean amount of sodium for a meal was greatest (2,236 mg) at the worksite cafeterias, followed by 1,959 mg from restaurant meals and 1,342 mg from home meals [2]. The sodium content of meals at the worksite itself is already over the tolerable upper intake level (2,000 mg/d). Excessive sodium consumption is associated with a significantly higher incidence of cardiovascular diseases and stroke 3, 4. Taking into consideration that a large portion of the Korean population and the large amount of sodium provided at worksite cafeterias, a sodium reduction intervention program is urgently needed to improve the nutritional status of workers in South Korea.
The Ministry of Food and Drug Safety has conducted a pilot project to increase the opportunities of employees for sodium-reduced meals at worksite cafeterias in 2014 [5]. A total of 18 worksite cafeterias participated in this sodium-reduction pilot project. Worksite cafeterias were required to gradually reduce the sodium content of meals from May to September 2014. They aimed to provide a lunch with ≤ 1,300 mg of sodium by the end of September. The mean sodium content was 1,542 mg for a lunch at the start of this project, which was reduced to 1,261 mg at the end of September. To expand the number of worksite cafeterias providing sodium-reduced meals at the national level, it is critical to identify sodium reduction-related perceptions, practices, barriers, and needs of food service personnel at worksite cafeterias.
A number of studies regarding the sodium reduction of institutional food services have been conducted in South Korea. We found that most of these studies were implemented in schools, child-care centers, and hospitals 6, 7, 8. Although a few studies were implemented at worksite cafeterias, they only targeted consumers or showed the sodium content of meals consumed by workers 9, 10. Therefore, very limited research has been conducted on how food service personnel's factors are related to sodium reduction at worksite cafeterias. We aimed to identify the relationships between sodium-reduction related practices, perceived barriers, and the perception of food service personnel. We also assessed the need for the provision of sodium-reduced meals at worksite cafeterias.
2.1 Participants and procedure
We conducted a cross-sectional study to examine the perceptions, practices, barriers, and needs regarding the provision of sodium-reduced meals among food service personnel at 17 worksite cafeterias. We collected data from 3–10 food service personnel at each worksite cafeteria in November, 2014. Before implementation of this survey, we received approval from the institutional review board at Hanyang University (IRB-HYI-14-083-1).
We initially collected data from 120 individuals; however, after eliminating those with missing data for the variables of interest, our data set finally included 104 participants.
2.2 General characteristics of participants
The self-reported questionnaire contained demographic characteristics such as age, sex, and education level. We also collected job-related information including job title, years of career, and number of customers at the worksite cafeterias.
2.3 Perceptions related to sodium reduction
We measured the degree of agreement to identify perceptions related to sodium-reduction among food service personnel. Each respondent was required to check the degree of agreement from strongly disagree to strongly agree regarding the following statement: It is important to provide sodium-reduced meals at worksite cafeterias [11].
2.4 Sodium-reduction practices
We assessed sodium-reduction practices related to the institutional food service. Sodium-reduction practices consisted of three parts: (1) cooking; (2) measuring the salinity; and (3) serving the menu. Regarding the cooking, we asked the participants about the use of measuring cups or spoons when adding seasonings and use of low sodium ingredients or alternative seasonings. Regarding the measurement of salinity, we examined the sodium content of soup, kimchi, and sauce. Regarding the serving, we examined the following two items: (1) serving appropriate portion size of meal; and (2) informing customers about the sodium content of meals. Participants identified the frequency of their sodium-reduction practices at the worksite cafeterias based on three categories: (1) ≤ 1 time/2 wk; (2) 1–4 times/wk; and (3) 5 times/wk.
2.5 Education for sodium reduction
The assessment of education regarding sodium reduction practices among food service personnel employed three items: (1) educating personnel on the significance of sodium reduction; (2) educating personnel on cooking methods or the use of alternative seasonings; and (3) educating personnel on methods of assessing the sodium content. Each question was measured by indicating one of two categories: (1) ≤ 5 times/y; and (2) ≥ 6 times/y.
2.6 Perceived barriers to providing sodium-reduced meals
We measured the perceived barriers regarding sodium reduction using seven items: (1) low perception of food service personnel; (2) low perception of customers; (3) limited number of sodium-reduced menu items; (4) limitation of sodium-reduced cooking methods; (5) difficulties in serving appropriate size of meal without knowing the sodium content of food; (6) use of processed foods; and (7) difficulties in serving sodium-reduced meals due to increased cost, and lack of personnel. We used a 5-point Likert scale to examine the level of barriers from strongly disagree to strongly agree.
2.7 Needs to improve sodium-reduced diet
We used six items to examine the participants' needs for provision of sodium-reduced meals at worksite cafeterias: (1) the development of sodium-reduced processed foods; (2) the development of standard recipes with sodium-reduced meals; (3) the development of salt-alternative seasonings; (4) the development of educational materials for food service personnel; (5) the development of educational materials for customers; and (6) the implementation of more active education for the general population. Each item was assessed by a 5-point Likert scale from strongly disagree to strongly agree.
2.8 Statistical analysis
We conducted data analysis using SPSS version 21 (SPSS Inc., Chicago, IL, USA). To compare the practices, education, and perceived barriers in the perception of sodium reduction, we employed Chi-square tests for the data analysis of categorical variables and analysis of variance for the data analysis of continuous variables. We used Bonferroni test for posthoc testing; we employed Dunnett T3 tests when the variances were not equal. We set a p-value of < 0.05 as the level of significance.
3.1 General characteristics of the participants
This research included 104 food service personnel working at 17 worksite cafeterias. The study participants were 35 men (33.7%) and 69 women (66.3%; Table 1). The mean age of the participants was 43 years, and more than one-third (36.5%) of the participants were aged ≥ 50 years. The most common type of job title was kitchen assistant (n = 63, 60.6%), followed by cook (n = 37, 35.6%). More than one-third of participants (n = 37, 35.6%) had < 3 years of experience in their career. More than half of participants (n = 58, 55.8%) had high school education, followed by 2 years of college (n = 27, 26.0%) and 4 years of college (n = 12, 11.5%). Half of the participants worked at worksite cafeterias serving < 1,000 customers for lunch, followed by ≥ 2,000 customers (n = 24, 23.1%), and 1,000–1,999 customers (n = 28, 26.9%).
3.2 Practices and the perception of sodium reduction
To cook sodium-reduced meals, more than half of the participants used measuring cups or spoons 5 times/wk (n = 64, 61.5%), and used low-sodium ingredients or alternative seasonings 5 times/wk (n = 63, 60.6%; Table 2). To measure the salinity, most participants checked the sodium content of soup 5 times/wk (n = 96, 92.3%). However, almost half of the participants checked the sodium content of sauces 5 times/wk (n = 57, 54.8%), and less than half of the participants checked the sodium content of pickled cabbage, called kimchi in Korea. To serve sodium-reduced meals, more than two-thirds of the participants served appropriate portion sizes of meals 5 times/wk (n = 71, 68.3%) and informed customers about the sodium content of meals 5 times/wk (n = 69, 66.3%). Compared with other groups, the very important group had a significantly higher frequency of cooking, measuring, and serving sodium-reduced meals (p < 0.05), but the very important group did not have a significantly higher frequency of checking the sodium content of soup.
3.3 Education and the perception of sodium reduction
More than half of the participants received education on the significance of sodium reduction ≥ 6 times/y (n = 59, 56.7%; Table 3). Three out of four participants had education regarding how to check the sodium content (n = 77, 74.0%). Almost two-thirds of participants also had education on cooking methods or using alternative seasonings for sodium-reduced meals (n = 70, 67.3%). Compared with the moderately important and neutral groups, the very important group had a significantly higher frequency of education on the significance of sodium reduction and cooking method or using alternative seasonings (p < 0.05).
3.4 Perceived barriers and the perception of sodium reduction
We obtained four items with relatively high scores (> 3 points) regarding perceived barriers to sodium reduction in the following order: (1) use of processed foods (3.62 points); (2) limitation of sodium-reduced cooking methods (3.28 points); (3) limited number of sodium-reduced menu items (3.26 points); and (4) difficulties in serving sodium-reduced meals due to increased cost and lack of personnel (3.24 points; Table 4). Two perceived barriers showed significant differences in the perception of sodium reduction. The neutral group had a significantly higher score compared to the moderately important and very important groups for low perception of customers (p < 0.05) and difficulties in serving sodium-reduced meals due to increased cost and lack of personnel (p < 0.01).
3.5 Needs assessment of food service personnel regarding sodium reduction at worksite cafeterias
Regarding the needs assessment of food service personnel, all six items had very high scores (> 4 points; Table 5). We identified that implementation of more active education for general population had the highest score (4.30 points). The need with the second highest score (4.24 points) was development of the salt alternative seasonings. The remaining items had scores in the following order: the development of educational materials for customers (4.18 points); the development of sodium-reduced processed foods (4.12 points); the development of standard recipes for sodium-reduced meals (4.11 points); the development of educational materials for food service personnel (4.06 points).
We identified the association of sodium-reduction practices and barriers to perception among food service personnel at worksite cafeterias. Participants who perceived the significance of sodium limitation tended to practice more and perceive less barriers regarding sodium reduction. There were a total of 104 participants, including 35 men (33.7%) and 69 women (66.3%), with a mean age of 43 years. We found a relatively high level of perception regarding the significance of sodium reduction among food service personnel. More than half of the participants (n = 53, 51.0%) responded that provision of sodium-reduced meals is very important, followed by moderately important (n = 29, 27.9%) and neutral (n = 22, 21.2%). The participants perceived the use of processed foods, limitation of sodium-reduced cooking methods, and limited number of sodium-reduced menu items as the top three barriers to providing sodium-reduced meals at worksite cafeterias.
The most important needs of food service personnel for sodium reduction were implementation of more active education for general population. A study revealed that the most critical barrier to provision of sodium-reduced meals among school dietitians was the students' negative evaluation of the taste [7]. The situation is the same in worksite cafeterias: the food service operators would be continuously challenged to satisfy the tastes of customers. Perlmutter et al [12] argued that when fat- and sodium-modified dishes were described as healthful to customers, customers were more willing to accept flavor differences. Similarly, active education including marketing sodium-reduced meals as healthful meals and providing nutrition information would be very effective strategies because they could encourage customers to accept changes in the flavor of sodium-reduced meals.
We identified use of the processed foods as the greatest barrier to sodium reduction at worksite cafeterias. Researchers have argued that use of processed and convenience foods would reduce cooking time, save costs, and increase institutional feeding productivity 13, 14. More than 70% of dietitians stated that they used processed or convenience foods in kimchi, seasonings, and preserved food categories at worksite cafeterias [14]. A considerable amount of sodium may be present in processed foods 15, 16. In South Korea, sodium-reduced processed foods have been introduced in some food groups: sauces (soy sauce, soybean paste), processed meats, noodles, and cheeses in the 2010s [17]. We need to make greater efforts to develop salt alternatives that could supplement sodium's properties and uses (i.e., taste, preservative quality, and physical properties), while also taking production cost into consideration.
Regarding the second greatest barrier to sodium reduction, we identified limitation of sodium-reduced cooking methods among food service personnel. The government needs to set a priority to remove the barriers of food service operating at worksite cafeterias. One study found that commonly practiced cooking methods included the use of anchovy, kelp, and radish for stock and use of mushroom or vegetable powder for sodium-reduced sauce in restaurants [18]. Kim [19] suggested sodium-reduced cooking methods for various dishes. For hot soups, it is recommended to use soybean powder, perilla powder, soy milk, ginger, and Japanese parsley. For cold soups, it is suggested to use vinegar, lemon juice, and nuts to prevent low-sodium soups from tasting bland. For vegetable dishes, one could add sweet, sour, and spicy flavors by using citron, apple, vinegar, and mustard. For fish and meat dishes, one could cook sodium-reduced dishes by using garlic, ginger, curry powder, citron, and lemon. To make sodium reduction successful at worksite cafeterias, it would be critical to develop diverse sodium-reduced cooking methods for various dishes and make these cooking methods easily accessible to food service personnel.
This research has provided useful information on perceptions, practices, barriers, and needs related to sodium-reduced meals among food service personnel at worksite cafeterias. Nevertheless, this study has a few limitations. First, we collected data from food service personnel participating in sodium-reduction projects. Because we did not include participants from a control cafeteria group in this survey, we could not compare sodium-reduction related perceptions and practices between intervention and control groups. Therefore, we suggest pre- and postplanned evaluation between intervention and control groups for future research. Second, perceived barriers and needs related to sodium reduction would differ by the characteristics of worksite cafeterias such as customer type, size of cafeteria, etc. Valuable information for designing tailored nutrition intervention programs could be obtained if we increase the sample size and further analyze the characteristics of worksite cafeterias.
The Ministry of Food and Drug Safety (MFDS) has supported sodium reduction in numerous ways. The MFDS provided small soup bowls to implement the pilot project of the small bowl choice program at worksite cafeterias in 2012 [20]. The size of the original soup bowl had a volume of 300 mL, and the size of the small soup bowl was 200 mL. Worksite cafeterias participating in this pilot project provided the original soup bowls as well as the small soup bowls, so that the consumers could choose one of two different bowls. The MFDS reported that the use of small soup bowls were able to reduce the sodium content by about 30% compared with the original soup bowl. In addition, the MFDS has supported the provision of salty taste assessment kits and provided educational posters on sodium reduction targeting consumers at worksite cafeterias [21]. One could argue that these actions would raise consumer awareness of sodium reduction. However, increased awareness of sodium reduction might not automatically lead to an increase in choosing the sodium-reduced meals. We identified in the previous work that taste and menu diversity were the top two needs to improve sodium-reduced diets among workers [9]. Moreover, the dietary guidelines for sodium reduction did not include specific actions according to the characteristics of consumers such as sex, age, occupation, etc. Therefore, we need to provide targeted messages by classifying consumers according to sodium reduction as well as improvement of taste and menu diversity to promote sodium reduction at worksite cafeterias.
This study has several food and nutrition policy and program implications. First, more active education programs should be implemented for the general population. The food service personnel were concerned about the customers' negative evaluation of sodium-reduced meals. If customers have increased levels of knowledge and perceptions regarding sodium reduction, they would be more willing to select the sodium-reduced meals and accept the changes of taste. Second, it is also necessary for food manufacturers to make more efforts to reduce the sodium content in processed foods. The food service personnel stated that it is hard to reduce the sodium level at worksite cafeterias due to the use of processed foods. The MFDS could encourage food companies to develop sodium-reduced packaged foods through the provision of incentives. Third, we need to develop more sodium-reduced cooking methods for various dishes used for worksite cafeterias and make them available to food service personnel.
All authors have no conflicts of interest to declare.
Acknowledgements
This project was supported by the Ministry of Food and Drug Safety, South Korea.
  • 1. Kim H.R.. Current status of institutional foodservice and policy directions to improve the nutritional services. Issue Focus 48(130). 2012 Mar;1−8.
  • 2. Min J.H.. Analysis on dietary related factors by sodium intake in adults: using the data from 2007, 2008 Korean National Health and Nutrition Survey. 2011. Dankook University; Yongin (Korea): p 26.
  • 3. Penz E.D., Joffres M.R., Campbell N.R.. Reducing dietary sodium and decreases in cardiovascular disease in Canada. Canadian J Cardiol 24(6). 2008 Jun;497−501.Article
  • 4. Strazzullo P., D'Elia L., Kandala N.B.. Salt intake, stroke, and cardiovascular disease: meta-analysis of prospective studies. BMJ 339:2009 Nov;b4567PMID: 19934192.ArticlePubMed
  • 5. Lee J.H., Park S.H.. Development of the evaluation standards for sodium reduction at worksite cafeterias. 2014. Kyonggi University; Suwon (Korea): p 9.
  • 6. Jung S.N.. A study on the sodium intake and dietary performance in patients of general and low salt diet. 2009. Yonsei University; Seoul (Korea): p 18.
  • 7. Lee J.H.. Awareness and practice of sodium reduction by elementary, middle and high school dietitians in Gyeonggi area. J East Asian Soc Diet Life 22(6). 2012 Dec;734−743.
  • 8. Shin H.W., Lee Y.M.. The effectiveness of Na reduction program for cook in child-care center -Focus on self-reevaluation and strengthen consciousness. Korean J Community Nutr 19(5). 2014 Oct;425−435.Article
  • 9. Lee J.H., Park S.H.. Consumer attitudes, barriers, and meal satisfaction associated with sodium-reduced meal intake at worksite cafeterias. Nutr Res Pract 9(6). 2015 Dec;644−649. PMID: 26634054.ArticlePubMed
  • 10. Park H.R., Jeong G.O., Lee S.L.. Workers intake too much salt from dishes of eating out and food service cafeterias: direct chemical analysis of sodium content. Nutr Res Pract 3(4). 2009 Dec;328−333. PMID: 20098587.ArticlePubMed
  • 11. Vagias W.M.. Likert-type scale response anchors. Clemson International Institute for Tourism & Research Development, Department of Parks, Recreation and Tourism Management. 2006. Clemson University; Clemson (SC): p 1.
  • 12. Perlmutter C.A., Canter D.D., Gregoire M.B.. Profitability and acceptability of fat- and sodium-modified hot entrees in a worksite cafeteria. J Am Diet Assoc 97(4). 1997 Apr;391−395. PMID: 9120192.ArticlePubMed
  • 13. Shin I.J., Nam S.R., Kwak T.K.. A survey of food procurement practices in hospital dietetics—assessment of the level of processing for purchased foods. Korean Soc Food Cook Sci 4(1). 1988 Jun;65−73.
  • 14. Yang I.S., Cha J.A., Lee B.S.. Identifying the operational characteristics and its relationships with productivity index of employee feeding facilities in Seoul and Kyoungki do. J Korean Soc Food Cook Sci 11(3). 1995 Aug;295−302.
  • 15. James W.P., Ralph A., Sanchez-Castillo C.P.. The dominance of salt in manufactured food in the sodium intake of affluent societies. Lancet 329(8530). 1987 Feb;426−429. PMID: 2880223.Article
  • 16. Mattes R.D., Donnelly D.. Relative contributions of dietary sodium sources. J Am Coll Nutr 10(4). 1991 Aug;383−393. PMID: 1910064.ArticlePubMed
  • 17. Lee Y.N., Kim C.I., Shin H.H.. Sodium reduction project—development of techniques and guidelines for sodium reduction of processed foods. 2012. Korea Health Industry Development Institute; Osong (Korea): p 6.
  • 18. Hong S.M., Lee J.H., Kim H.K.. Study on sodium reduction: healthy restaurant for sodium reduction. J Korean Diet Assoc 20(3). 2014 Aug;174−182.Article
  • 19. Kim H.Y.. Study on the low sodium menu model development for sodium intake reduction. 2014. Yongin University; Yongin (Korea): pp 106−107.
  • 20. Kim J.W.. Choosing the small soup bowls would reduce sodium intake. [Internet]. 2012. Daegu Ministry of Food and Drug Safety; Daegu: [accessed 14.09.15]. Available from: https://www.mfds.go.kr/daegu/index.do?mid=30&pageNo=7&cmd=v&seq=18185.
  • 21. Kim J.W.. Take action for sodium reduction. [Internet]. 2014. Ministry of Food and Drug Safety; Chungbuk: [accessed 14.09.15]. Available from: https://www.mfds.go.kr/index.do?mid=675&pageNo=52&seq=23152&cmd=v.
Table 1
General characteristics of the participants.
Total (n = 104)
Age (y) 43.09 ± 10.81
 18–29 15 (14.4)
 30–39 23 (22.1)
 40–49 28 (26.9)
 ≥ 50 38 (36.5)
Sex
 Male 35 (33.7)
 Female 69 (66.3)
Job title
 Cook 36 (34.6)
 Kitchen assistant 63 (60.6)
 Other 5 (4.8)
Career (y)
 < 3 37 (35.6)
 3–< 6 29 (27.9)
 6–< 9 8 (7.7)
 ≥ 9 30 (28.8)
Education level
 High school 58 (55.8)
 2 y college 27 (26.0)
 4 y college 12 (11.5)
 Graduate school 1 (1.0)
 Others 6 (5.8)
Number of customers at the worksite cafeteria
 < 1,000 52 (50.0)
 1,000–1,999 28 (26.9)
 ≥ 2,000 24 (23.1)

Data are presented as n (%) or mean ± standard deviation.

Table 2
Practices and the perception of sodium reduction.
Total (n = 104) Degree of agreement
χ2
Neutral (n = 22) Moderately important (n = 29) Very important (n = 53)
Cooking
 Use measuring cups or spoons when adding seasonings
 ≤ 1 time/2 wk 8 (7.7) 5 (22.7) 1 (3.4) 2 (3.8) 19.185
 1–4 times/wk 32 (30.8) 7 (31.2) 15 (51.7) 10 (18.9)
 5 times/wk 64 (61.5) 10 (45.5) 13 (44.8) 41 (77.4)
 Use low sodium ingredients or alternative seasonings
 ≤ 1 time/2 wk 10 (9.6) 5 (22.7) 2 (6.9) 3 (5.7) 18.227
 1–4 times/wk 31 (29.8) 11 (50.0) 11 (37.9) 9 (17.0)
 5 times/wk 63 (60.6) 6 (27.3) 16 (55.2) 41 (77.4)
Measuring the salinity
 Check the sodium content of soup
 ≤ 1 time/2 wk 2 (1.9) 1 (4.5) 0 (0.0) 1 (1.9) 2.305
 1–4 times/wk 6 (5.8) 2 (9.1) 2 (6.9) 2 (3.8)
 5 times/wk 96 (92.3) 19 (86.4) 27 (93.1) 50 (94.3)
 Check the sodium content of kimchi
 ≤ 1 time/2 wk 25 (24.0) 1 (4.5) 1 (3.4) 23 (43.4) 40.110
 1–4 times/wk 35 (33.7) 14 (63.6) 17 (58.6) 4 (7.5)
 5 times/wk 44 (42.3) 7 (31.8) 11 (37.9) 26 (49.1)
 Check the sodium content of sauce
 ≤ 1 time/2 wk 25 (24.0) 1 (4.5) 2 (6.9) 22 (41.5) 37.073
 1–4 times/wk 22 (21.2) 12 (54.5) 9 (31.0) 1 (1.9)
 5 times/wk 57 (54.8) 9 (40.9) 18 (62.1) 30 (56.6)
Serving
 Serve appropriate portion size of meal
 ≤ 1 time/2 wk 15 (14.4) 6 (27.3) 1 (3.4) 8 (15.1) 16.907
 1–4 times/wk 18 (17.3) 7 (31.8) 8 (27.6) 3 (5.7)
 5 times/wk 71 (68.3) 9 (40.9) 20 (69.0) 42 (79.2)
 Inform the sodium content of meal to customers
 ≤ 1 time/2 wk 8 (7.7) 0 (0.0) 1 (3.4) 7 (13.2) 14.280
 1–4 times/wk 27 (26.0) 11 (50.0) 9 (31.0) 7 (13.2)
 5 times/wk 69 (66.3) 11 (50.0) 19 (65.5) 39 (73.6)

Data are presented as n (%).

Agreement regarding the importance of sodium reduction at worksite cafeterias.

p < 0.01.

p < 0.001.

Table 3
Education and the perception of sodium reduction.
Total (n = 104) Degree of agreement
χ2
Neutral (n = 22) Moderately important (n = 29) Very important (n = 53)
Educating food service personnel on the significance of sodium reduction
 ≤ 5 times/y 45 (43.3) 23 (59.1) 20 (69.0) 12 (22.6) 19.231
 ≥ 6 times/y 59 (56.7) 9 (40.9) 9 (31.0) 41 (77.4)
Educating food service personnel about cooking method or using alternative seasonings
 ≤ 5 times/y 27 (26.0) 8 (36.4) 10 (34.5) 9 (17.0) 16.994
 ≥ 6 times/y 70 (67.3) 13 (59.1) 12 (41.4) 45 (84.9)
Educating food service personnel about check of the sodium content
 ≤ 5 times/y 27 (26.0) 8 (36.4) 10 (34.5) 9 (17.0) 4.558
 ≥ 6 times/y 77 (74.0) 14 (63.6) 19 (65.5) 44 (83.0)

Data are presented as n (%).

Agreement regarding the importance of sodium reduction at worksite cafeterias.

p < 0.001.

Table 4
Perceived barriers and the perception of sodium reduction.
Total (n = 104) Degree of agreement
F
Neutral (n = 22) Moderately important (n = 29) Very important (n = 53)
Food service personnel perception regarding sodium reduction is low 2.37 ± 0.89 2.68 ± 0.72 2.45 ± 0.69 2.19 ± 1.02 2.625
Customer perception regarding sodium reduction is low 2.91 ± 0.89 3.23 ± 0.92 3.07 ± 0.75 2.70 ± 0.91 3.498§
Number of sodium-reduced menu options is limited 3.26 ± 0.89 3.55 ± 0.60 3.34 ± 0.77 3.09 ± 1.02 2.222
Sodium-reduced cooking methods are limited 3.28 ± 0.99 3.36 ± 0.66 3.48 ± 0.91 3.13 ± 1.13 1.286
It is hard to serve appropriate sizes of meal without knowing the sodium content of food 2.72 ± 0.95 3.00 ± 0.76 2.86 ± 0.95 2.53 ± 0.99 2.425
Due to the use of processed foods, it is hard to lower the sodium content 3.62 ± 1.00 3.59 ± 0.73 3.38 ± 0.98 3.75 ± 1.09 1.343
Due to increased cost and lack of personnel, it is difficult to serve sodium-reduced meals 3.24 ± 1.12 4.00 ± 0.93 3.14 ± 1.25 2.98 ± 1.39 5.149

Data are presented as the mean ± standard deviation.

1 = strongly disagree; 2 = disagree; 3 = neutral; 4 = agree; 5 = strongly agree.

Agreement regarding the importance of sodium reduction at worksite cafeterias.

†,‡Indicates statistically significant differences.

§p < 0.05.

p < 0.01.

Table 5
Needs assessment of food service personnel.
Total
We should develop sodium-reduced processed foods 4.12 ± 0.69
We should develop standard recipes for sodium-reduced meals 4.11 ± 0.70
We should develop salt-alternative seasonings 4.24 ± 0.76
We should develop educational materials for food service personnel 4.06 ± 0.72
We should develop educational materials for customers 4.18 ± 0.75
We should offer more active education regarding sodium reduction for the general population 4.30 ± 0.75

Data are presented as the mean ± standard deviation.

1 = strongly disagree; 2 = disagree; 3 = neutral; 4 = agree; 5 = strongly agree.

Figure & Data

References

    Citations

    Citations to this article as recorded by  
    • Barriers and facilitators to implementation of healthy food and drink policies in public sector workplaces: a systematic literature review
      Magda Rosin, Sally Mackay, Sarah Gerritsen, Lisa Te Morenga, Gareth Terry, Cliona Ni Mhurchu
      Nutrition Reviews.2024; 82(4): 503.     CrossRef
    • Knowledge, attitudes, and behaviors related to dietary salt intake and the acceptability of salt substitute among the Australian culturally and linguistically diverse community: An online survey
      Jie Yu, Lauren Houston, Chris Gianacas, Vivian Lee, Robert A. Fletcher, Angela Xun‐Nan Chen, Clare Arnott
      The Journal of Clinical Hypertension.2024; 26(5): 543.     CrossRef
    • Sodium content changes between 2015 and 2019 in restaurant menu items selected for sodium reduction in Daegu
      Jian Ma, Yeon-Kyung Lee
      Nutrition Research and Practice.2022; 16(4): 537.     CrossRef
    • Barriers, Enablers, and Perceptions on Dietary Salt Reduction in the Out-of-Home Sectors: A Scoping Review
      Viola Michael, Yee Xing You, Suzana Shahar, Zahara Abdul Manaf, Hasnah Haron, Siti Nurbaya Shahrir, Hazreen Abdul Majid, Yook Chin Chia, Mhairi Karen Brown, Feng J. He, Graham A. MacGregor
      International Journal of Environmental Research an.2021; 18(15): 8099.     CrossRef
    • The Science of Salt: A focused review on salt‐related knowledge, attitudes and behaviors, and gender differences
      Briar McKenzie, Joseph Alvin Santos, Kathy Trieu, Sudhir Raj Thout, Claire Johnson, JoAnne Arcand, Jacqui Webster, Rachael McLean
      The Journal of Clinical Hypertension.2018; 20(5): 850.     CrossRef
    • The Science of Salt: A regularly updated systematic review of the implementation of salt reduction interventions (March–August 2016)
      Joseph Alvin Santos, Kathy Trieu, Thout Sudhir Raj, JoAnne Arcand, Claire Johnson, Jacqui Webster, Rachael McLean
      The Journal of Clinical Hypertension.2017; 19(4): 439.     CrossRef

    • PubReader PubReader
    • Cite
      Cite
      export Copy
      Close
    • XML DownloadXML Download
    Management of Sodium-reduced Meals at Worksite Cafeterias: Perceptions, Practices, Barriers, and Needs among Food Service Personnel
    Management of Sodium-reduced Meals at Worksite Cafeterias: Perceptions, Practices, Barriers, and Needs among Food Service Personnel
    Total (n = 104)
    Age (y)43.09 ± 10.81
     18–2915 (14.4)
     30–3923 (22.1)
     40–4928 (26.9)
     ≥ 5038 (36.5)
    Sex
     Male35 (33.7)
     Female69 (66.3)
    Job title
     Cook36 (34.6)
     Kitchen assistant63 (60.6)
     Other5 (4.8)
    Career (y)
     < 337 (35.6)
     3–< 629 (27.9)
     6–< 98 (7.7)
     ≥ 930 (28.8)
    Education level
     High school58 (55.8)
     2 y college27 (26.0)
     4 y college12 (11.5)
     Graduate school1 (1.0)
     Others6 (5.8)
    Number of customers at the worksite cafeteria
     < 1,00052 (50.0)
     1,000–1,99928 (26.9)
     ≥ 2,00024 (23.1)
    Total (n = 104)Degree of agreement
    χ2
    Neutral (n = 22)Moderately important (n = 29)Very important (n = 53)
    Cooking
     Use measuring cups or spoons when adding seasonings
     ≤ 1 time/2 wk8 (7.7)5 (22.7)1 (3.4)2 (3.8)19.185
     1–4 times/wk32 (30.8)7 (31.2)15 (51.7)10 (18.9)
     5 times/wk64 (61.5)10 (45.5)13 (44.8)41 (77.4)
     Use low sodium ingredients or alternative seasonings
     ≤ 1 time/2 wk10 (9.6)5 (22.7)2 (6.9)3 (5.7)18.227
     1–4 times/wk31 (29.8)11 (50.0)11 (37.9)9 (17.0)
     5 times/wk63 (60.6)6 (27.3)16 (55.2)41 (77.4)
    Measuring the salinity
     Check the sodium content of soup
     ≤ 1 time/2 wk2 (1.9)1 (4.5)0 (0.0)1 (1.9)2.305
     1–4 times/wk6 (5.8)2 (9.1)2 (6.9)2 (3.8)
     5 times/wk96 (92.3)19 (86.4)27 (93.1)50 (94.3)
     Check the sodium content of kimchi
     ≤ 1 time/2 wk25 (24.0)1 (4.5)1 (3.4)23 (43.4)40.110
     1–4 times/wk35 (33.7)14 (63.6)17 (58.6)4 (7.5)
     5 times/wk44 (42.3)7 (31.8)11 (37.9)26 (49.1)
     Check the sodium content of sauce
     ≤ 1 time/2 wk25 (24.0)1 (4.5)2 (6.9)22 (41.5)37.073
     1–4 times/wk22 (21.2)12 (54.5)9 (31.0)1 (1.9)
     5 times/wk57 (54.8)9 (40.9)18 (62.1)30 (56.6)
    Serving
     Serve appropriate portion size of meal
     ≤ 1 time/2 wk15 (14.4)6 (27.3)1 (3.4)8 (15.1)16.907
     1–4 times/wk18 (17.3)7 (31.8)8 (27.6)3 (5.7)
     5 times/wk71 (68.3)9 (40.9)20 (69.0)42 (79.2)
     Inform the sodium content of meal to customers
     ≤ 1 time/2 wk8 (7.7)0 (0.0)1 (3.4)7 (13.2)14.280
     1–4 times/wk27 (26.0)11 (50.0)9 (31.0)7 (13.2)
     5 times/wk69 (66.3)11 (50.0)19 (65.5)39 (73.6)
    Total (n = 104)Degree of agreement
    χ2
    Neutral (n = 22)Moderately important (n = 29)Very important (n = 53)
    Educating food service personnel on the significance of sodium reduction
     ≤ 5 times/y45 (43.3)23 (59.1)20 (69.0)12 (22.6)19.231
     ≥ 6 times/y59 (56.7)9 (40.9)9 (31.0)41 (77.4)
    Educating food service personnel about cooking method or using alternative seasonings
     ≤ 5 times/y27 (26.0)8 (36.4)10 (34.5)9 (17.0)16.994
     ≥ 6 times/y70 (67.3)13 (59.1)12 (41.4)45 (84.9)
    Educating food service personnel about check of the sodium content
     ≤ 5 times/y27 (26.0)8 (36.4)10 (34.5)9 (17.0)4.558
     ≥ 6 times/y77 (74.0)14 (63.6)19 (65.5)44 (83.0)
    Total (n = 104)Degree of agreement
    F
    Neutral (n = 22)Moderately important (n = 29)Very important (n = 53)
    Food service personnel perception regarding sodium reduction is low2.37 ± 0.892.68 ± 0.722.45 ± 0.692.19 ± 1.022.625
    Customer perception regarding sodium reduction is low2.91 ± 0.893.23 ± 0.923.07 ± 0.752.70 ± 0.913.498§
    Number of sodium-reduced menu options is limited3.26 ± 0.893.55 ± 0.603.34 ± 0.773.09 ± 1.022.222
    Sodium-reduced cooking methods are limited3.28 ± 0.993.36 ± 0.663.48 ± 0.913.13 ± 1.131.286
    It is hard to serve appropriate sizes of meal without knowing the sodium content of food2.72 ± 0.953.00 ± 0.762.86 ± 0.952.53 ± 0.992.425
    Due to the use of processed foods, it is hard to lower the sodium content3.62 ± 1.003.59 ± 0.733.38 ± 0.983.75 ± 1.091.343
    Due to increased cost and lack of personnel, it is difficult to serve sodium-reduced meals3.24 ± 1.124.00 ± 0.933.14 ± 1.252.98 ± 1.395.149
    Total
    We should develop sodium-reduced processed foods4.12 ± 0.69
    We should develop standard recipes for sodium-reduced meals4.11 ± 0.70
    We should develop salt-alternative seasonings4.24 ± 0.76
    We should develop educational materials for food service personnel4.06 ± 0.72
    We should develop educational materials for customers4.18 ± 0.75
    We should offer more active education regarding sodium reduction for the general population4.30 ± 0.75
    Table 1 General characteristics of the participants.

    Data are presented as n (%) or mean ± standard deviation.

    Table 2 Practices and the perception of sodium reduction.

    Data are presented as n (%).

    Agreement regarding the importance of sodium reduction at worksite cafeterias.

    p < 0.01.

    p < 0.001.

    Table 3 Education and the perception of sodium reduction.

    Data are presented as n (%).

    Agreement regarding the importance of sodium reduction at worksite cafeterias.

    p < 0.001.

    Table 4 Perceived barriers and the perception of sodium reduction.

    Data are presented as the mean ± standard deviation.

    1 = strongly disagree; 2 = disagree; 3 = neutral; 4 = agree; 5 = strongly agree.

    Agreement regarding the importance of sodium reduction at worksite cafeterias.

    Indicates statistically significant differences.

    p < 0.05.

    p < 0.01.

    Table 5 Needs assessment of food service personnel.

    Data are presented as the mean ± standard deviation.

    1 = strongly disagree; 2 = disagree; 3 = neutral; 4 = agree; 5 = strongly agree.


    PHRP : Osong Public Health and Research Perspectives
    TOP