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Effects of Nutrition Education Providing School Lunch by Personalized Daily Needed Food Exchange Units for Adolescent Athletes in Jeonbuk Province
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Research Article
Effects of Nutrition Education Providing School Lunch by Personalized Daily Needed Food Exchange Units for Adolescent Athletes in Jeonbuk Province
Kang-Mo Ko, Sook-Bae Kimorcid
Korean Journal of Community Nutrition 2016;21(1):25-36.
DOI: https://doi.org/10.5720/kjcn.2016.21.1.25
Published online: February 29, 2016

1Graduate School of Education, Chonbuk National University, Jeonju, Korea.

2Department of Food Science & Human Nutrition, Research Institute of Human Ecology, Chonbuk National University, Jeonju, Korea.

Corresponding author: Sook-Bae Kim. Chonbuk National University, 567, Baekje-daero, Deokjin-gu, Jeonju 54896, Korea. Tel: (063) 270-3823, Fax: (063) 270-3854, sbkim@jbnu.ac.kr
• Received: December 3, 2015   • Revised: December 17, 2015   • Accepted: February 24, 2016

Copyright © 2016 The Korean Society of Community Nutrition

This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

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  • Objectives
    The purpose of this study was to investigate effects of nutrition education providing school lunch by personalized daily needed food exchange units using Food Exchange System for adolescent athletes.
  • Methods
    The subjects were 60 sports high school students (educated group, 30 vs. non-educated group 30). Nutrition education was provided for 4 weeks (40 min/lesson/week). In addition, personalized school lunch was served for 4 weeks, nutrition education period. The personalized lunch were provided Food Exchange Units according to personalized daily needed energy. The lessons were '5 Major nutrients, functions and foods', 'My daily needed energy and food exchange units by Food Exchange System', 'My meal plan by food exchange units according to my daily needed energy' and 'Smart choice of healthy snacks and eating outs'. After nutrition education, we examined the differences in anthropometric characteristics, nutrition knowledge, dietary attitude and dietary intake between the educated and the non-educated group.
  • Results
    We observed improvements in lean body mass in the educated group. With regard to nutrition knowledge, there were improvements in 'Functions of vitamins', 'Functions of minerals', 'Foods of fat', 'Foods of vitamin', and 'Foods of mineral' in the educated group. In relation to dietary attitude, there were improvements in 'Taking a meal with family and friend', 'Taking a meal at ease', 'Taking a meal with kimchi and vegetables', 'Taking a meal with three kinds of side dishes', 'Priority of choosing snacks' and 'Type of snacks' in the educated group. With regard to dietary intakes according to Dietary Reference Intakes for Koreans, there were improvements in intakes levels of fiber, vitamin A, vitamin C, folate, calcium, iron and zinc. The index of nutrition quality, as indicated by nutrition adequacy ratio also improved in the educated group.
  • Conclusions
    These results showed that a nutrition education program providing education lessons and personalized school lunch by food exchange units according to daily needed energy showed positive changes in nutrition knowledge, dietary attitude and dietary intake of adolescent athletes. Nutrition education program providing personalized school lunch by Food Exchange Units may improve dietary behaviors and dietary intakes of adolescents.
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Table 1

Contents and tools of nutrition education

kjcn-21-25-i001.jpg
Table 2

Effects of nutrition education on anthropometric characteristics of the subjects

kjcn-21-25-i002.jpg

1) Mean±SD

2) Lean Body Mass (kg) = Weight − kg Fat

3) Lean Body Mass (%) = 100 − % Fat

**: p < 0.01 by t-test

Table 3

Effects of nutrition education on nutrition knowledge of the subjects

kjcn-21-25-i003.jpg

Score: non-corrected, 0; corrected, 1

1) Mean±SD

*: p < 0.05, ***: p < 0.001 by t-test

Table 4

Effects of nutrition education on dietary attitudes of the subjects

kjcn-21-25-i004.jpg

(R) denotes a negatively phrased and reversely scored item

Score: hardly, 1; occasionally, 2; frequently, 3; usually, 4

1) Mean±SD

*: p < 0.05 by t-test

Table 5

Effects of nutrition education on type, frequency of snack

kjcn-21-25-i005.jpg

1) N (%)

**: p < 0.01 by chi-square test

Table 6

Effects of nutrition education on energy, protein and fiber intake of the subjects

kjcn-21-25-i006.jpg

1) EER: Estimated Energy Requirement

2) N (%)

3) EAR: Estimated Average Requirement

4) RNI: Recommended Nutrient Intake

5) AI: Adequate Intake

***: p < 0.001 by Mann-Whitney U Test

Table 7

Effects of nutrition education on vitamins intake of the subjects

kjcn-21-25-i007.jpg

1) EAR: Estimated Average Requirement

2) N (%)

3) RNI: Recommended Nutrient Intake

4) UL: Tolerable Upper Intake Level

5) AI: Adequate Intake

*: p < 0.05, **: p < 0.01, ***: p < 0.001 by Mann-Whitney U Test

Table 8

Effects of nutrition education on minerals intake of the subjects

kjcn-21-25-i008.jpg

1) EAR: Estimated Average Requirement

2) N (%)

3) RNI: Recommended Nutrient Intake

4) UL: Tolerable Upper Intake Level

5) AI: Adequate Intake

6) Goal: population nutrient intake goal

*: p < 0.05, **: p < 0.01 by Mann-Whitney U Test

Table 9

Effects of nutrition education on NAR and MAR of the subjects

kjcn-21-25-i009.jpg

1) NAR: nutrition adequacy ration

2) Mean±SD

3) MAR: mean adequacy ration

*: p < 0.05 by t-test

Figure & Data

REFERENCES

    Citations

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      Effects of Nutrition Education Providing School Lunch by Personalized Daily Needed Food Exchange Units for Adolescent Athletes in Jeonbuk Province
      Korean J Community Nutr. 2016;21(1):25-36.   Published online February 29, 2016
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    Effects of Nutrition Education Providing School Lunch by Personalized Daily Needed Food Exchange Units for Adolescent Athletes in Jeonbuk Province
    Effects of Nutrition Education Providing School Lunch by Personalized Daily Needed Food Exchange Units for Adolescent Athletes in Jeonbuk Province

    Contents and tools of nutrition education

    Effects of nutrition education on anthropometric characteristics of the subjects

    1) Mean±SD

    2) Lean Body Mass (kg) = Weight − kg Fat

    3) Lean Body Mass (%) = 100 − % Fat

    **: p < 0.01 by t-test

    Effects of nutrition education on nutrition knowledge of the subjects

    Score: non-corrected, 0; corrected, 1

    1) Mean±SD

    *: p < 0.05, ***: p < 0.001 by t-test

    Effects of nutrition education on dietary attitudes of the subjects

    (R) denotes a negatively phrased and reversely scored item

    Score: hardly, 1; occasionally, 2; frequently, 3; usually, 4

    1) Mean±SD

    *: p < 0.05 by t-test

    Effects of nutrition education on type, frequency of snack

    1) N (%)

    **: p < 0.01 by chi-square test

    Effects of nutrition education on energy, protein and fiber intake of the subjects

    1) EER: Estimated Energy Requirement

    2) N (%)

    3) EAR: Estimated Average Requirement

    4) RNI: Recommended Nutrient Intake

    5) AI: Adequate Intake

    ***: p < 0.001 by Mann-Whitney U Test

    Effects of nutrition education on vitamins intake of the subjects

    1) EAR: Estimated Average Requirement

    2) N (%)

    3) RNI: Recommended Nutrient Intake

    4) UL: Tolerable Upper Intake Level

    5) AI: Adequate Intake

    *: p < 0.05, **: p < 0.01, ***: p < 0.001 by Mann-Whitney U Test

    Effects of nutrition education on minerals intake of the subjects

    1) EAR: Estimated Average Requirement

    2) N (%)

    3) RNI: Recommended Nutrient Intake

    4) UL: Tolerable Upper Intake Level

    5) AI: Adequate Intake

    6) Goal: population nutrient intake goal

    *: p < 0.05, **: p < 0.01 by Mann-Whitney U Test

    Effects of nutrition education on NAR and MAR of the subjects

    1) NAR: nutrition adequacy ration

    2) Mean±SD

    3) MAR: mean adequacy ration

    *: p < 0.05 by t-test

    Table 1 Contents and tools of nutrition education

    Table 2 Effects of nutrition education on anthropometric characteristics of the subjects

    1) Mean±SD

    2) Lean Body Mass (kg) = Weight − kg Fat

    3) Lean Body Mass (%) = 100 − % Fat

    **: p < 0.01 by t-test

    Table 3 Effects of nutrition education on nutrition knowledge of the subjects

    Score: non-corrected, 0; corrected, 1

    1) Mean±SD

    *: p < 0.05, ***: p < 0.001 by t-test

    Table 4 Effects of nutrition education on dietary attitudes of the subjects

    (R) denotes a negatively phrased and reversely scored item

    Score: hardly, 1; occasionally, 2; frequently, 3; usually, 4

    1) Mean±SD

    *: p < 0.05 by t-test

    Table 5 Effects of nutrition education on type, frequency of snack

    1) N (%)

    **: p < 0.01 by chi-square test

    Table 6 Effects of nutrition education on energy, protein and fiber intake of the subjects

    1) EER: Estimated Energy Requirement

    2) N (%)

    3) EAR: Estimated Average Requirement

    4) RNI: Recommended Nutrient Intake

    5) AI: Adequate Intake

    ***: p < 0.001 by Mann-Whitney U Test

    Table 7 Effects of nutrition education on vitamins intake of the subjects

    1) EAR: Estimated Average Requirement

    2) N (%)

    3) RNI: Recommended Nutrient Intake

    4) UL: Tolerable Upper Intake Level

    5) AI: Adequate Intake

    *: p < 0.05, **: p < 0.01, ***: p < 0.001 by Mann-Whitney U Test

    Table 8 Effects of nutrition education on minerals intake of the subjects

    1) EAR: Estimated Average Requirement

    2) N (%)

    3) RNI: Recommended Nutrient Intake

    4) UL: Tolerable Upper Intake Level

    5) AI: Adequate Intake

    6) Goal: population nutrient intake goal

    *: p < 0.05, **: p < 0.01 by Mann-Whitney U Test

    Table 9 Effects of nutrition education on NAR and MAR of the subjects

    1) NAR: nutrition adequacy ration

    2) Mean±SD

    3) MAR: mean adequacy ration

    *: p < 0.05 by t-test


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