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Comparison of different snacking models in post-secondary students in an urban setting

Published online by Cambridge University Press:  11 December 2017

Tay Mia Eng
Affiliation:
School of Chemical & Life Sciences, Nanyang Polytechnic, Singapore
Chew Yi Chien
Affiliation:
School of Chemical & Life Sciences, Nanyang Polytechnic, Singapore
Emma Foster
Affiliation:
Human Nutrition Research Centre, Newcastle University, NE2 4HH, Singapore
Iain A Brownlee
Affiliation:
Human Nutrition Research Centre, Newcastle University, Singapore
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Abstract

Type
Abstract
Copyright
Copyright © The Authors 2017 

While snacking is likely to impact total dietary intake, the definition of “a snack” remains contentious. It is postulated whether a person perceives an eating occasion to be a meal or a snack may influence the amount one eats and their subsequent intake at the next eating occasion( Reference Pliner and Zec 1 ). The study uses three previously proposed models to define snacking to compare the contribution towards energy intake from snacks, in post-secondary school students from Singapore. Three models of snacks are derived using a combination of the following criteria: Criterion 1 (C1) - Time of consumption outside of recognized “main meal” times (i.e. breakfast: 0600–1000, lunch: 1200–1400 & dinner: 1800–2000). Criterion 2 (C2) - Portion size. If the amount of food in one eating occasion falls below 570 g, it is classified as a snack. The value of 570 g was defined as the estimated portion size to provide a third of the food-based dietary guidelines used in Singapore( 2 ); Criterion 3 (C3) - If eating occasion is less than 15 % of total energy intake, then it is a snack( Reference Murakami and Livingstone 3 ). Depicts the proposed models, which were based on eating occasions that met 2 of the above criteria. The defined three models were then applied to an existing set of 24-h recall data collected from 17–21 year old students from Singapore (n = 300). Dietary data were analysed using WinDiets™ software and energy contribution from items defined as snacks using the different models calculated. Statistical analysis was performed using the Statistical Package for Social Sciences, SPSS, version 23 for Windows and statistical significance for all tests was defined at p-value <0·05. One sample t-test was applied to evaluate the congruence between the models.

Fig. 1. Snacking models

Table 1. Mean total energy (TE) % contributed from snacks and p-value

There was a significantly different estimate of % contribution of snacks to daily total energy intake (p < 0·005) for all three models. This suggests a need for a consensus definition of what constitutes a snack in order to consider the impact of snacking on total dietary intake.

References

1. Pliner, P, Zec, D (2007) Meal schemas during a preload decrease subsequent eating. Appetite 48(3): 278–88.CrossRefGoogle ScholarPubMed
2. Health Promotion Board S. A Healthy Food Foundation - for Kids and Teens 2017 [cited 2017 07 February]. Available from: https://www.hpb.gov.sg/HOPPortal/health-article/6086.Google Scholar
3. Murakami, K, Livingstone, MBE (2016) Decreasing the number of small eating occasions (<15 % of total energy intake) regardless of the time of day may be important to improve diet quality but not adiposity: a cross-sectional study in British children and adolescents. British Journal of Nutrition 115(02): 332–41.CrossRefGoogle Scholar
Figure 0

Fig. 1. Snacking models

Figure 1

Table 1. Mean total energy (TE) % contributed from snacks and p-value