The quality of pasta versus rice is determining to control hunger and appetite: A comparative study of pasta and rice
DOI:
https://doi.org/10.14306/renhyd.24.3.1034Keywords:
Nutritional Physiological Phenomena, Appetite Regulation, Appetite, Satiation, Satiety Response, Visual Analog Scale, Food, Oryza, rice, pastaAbstract
Introduction: The aim of the present study was to evaluate if the pasta quality is decisive in controlling hunger and satiety compared with rice.Material and methods: n=16 (8 men, 8 women). The effect on appetite and satiety of two different-quality pastas and also rice was determined by repeated measuring. Subjects came on fasting and were evaluated at different times after the intake of product under investigation for 240 min, eaten an ad libitum buffet and were evaluated again at minute 270. Aspects related to satiety (hunger, satiety, fullness, and desire to eat) were evaluated by visual analog scale (VAS), overall appetite score (OAS), area under curve (AUC) and satiety quotient (SQ).
Results: The OAS reported by volunteers prior to the intake of products under investigation did not differ significantly, so baseline parameters did not bias later measurements. AUC after 60 minutes was higher after the intake of rice (2355 ±1556%/min) compared with both types of pasta. On the other hand, similar values were obtained between the two types of pasta (pasta A = 1808 ± 1329 % /min; pasta B = 1,774 ± 1,370%/min). Further, AUC reported by volunteers after 240 minutes was higher after the intake of rice (12,424 ± 6,187%/min) compared with both types of pastas (pasta A = 10,292 ± 5,410%/min; pasta B = 9,976 ± 5,589%/min). In addition, SQ was lower for rice (1.90 ± 4.29%/kcal) than for both pastas (pasta A = 4.73 ± 4.95%/kcal; pasta B = 4.40 ± 5.14%/kcal).
Conclusions: Both varieties of pasta showed higher satiety results than rice, with no significant difference between them. In addition, the difference between rice and pasta was greater within 60 minutes after ingestion.
References
(1) Westerterp K, Verboeket-va de Vene W, Meijer G, Hoorten F. Self-reported intakes as a measure for energy intake. A validation against doubly labelled water. Obes Eur. 1991;91:17–22.
(2) Pannemans DL, Westerterp KR. Estimation of energy intake to feed subjects at energy balance as verified with doubly labelled water: a study in the elderly. Eur J Clin Nutr. 1993;47(7):490–196.
(3) Johnson RK, Goran MI, Poehlman ET. Correlates of over- and underreporting of energy intake in healthy older men and women. Am J Clin Nutr. 1994;59(6):1286–90.
(4) Buhl KM, Gallagher D, Hoy K, Matthews DE, Heymsfield SB. Unexplained Disturbance in Body Weight Regulation. Diagnostic Outcome Assessed by Doubly Labeled Water and Body Composition Analyses in Obese Patients Reporting Low Energy Intakes. J Am Diet Assoc. 1995;95(12):1393–1400.
(5) Schoeller DA. Limitations in the assessment of dietary energy intake by self-report. Metabolism. 1995;44(SUPPL. 2):18–22.
(6) Lichtman SW, Pirsarska K, Bermna ER, Pestone M, Dowling H, Offenbacher E, et al. Discrepancy between self-reported and actual caloric intake and exercise in obese subjects. N Engl J Med. 1992;327(27):1893-8.
(7) Heitmann BL. Dietary underreporting by obese individuals – is it specific or non-specific?. BMJ. 1995;311(7011):986–989.
(8) Lafay L, Basdevant A, Charles MA, Vray M, Balkau B, Borys JM, et al. Determinants and nature of dietary underreporting in a free-living population: The Fleurbaix Laventie Ville Sante (FLVS) study. Int J Obes. 1997;21(7):567–73.
(9) Asbeck I, Mast M, Bierwag A, Westenhöfer J, Acheson K, Müller M. Severe underreporting of energy intake in normal weight subjects: use of an appropriate standard and relation to restrained eating. Public Health Nutr [Internet]. 2002;5(05):683–690. Available from: http://www.journals.cambridge.org/abstract_S1368980002000915
(10) Stubbs RJ, Hughes DA, Johnstone AM, Rowley E, Reid C, Elia M, et al. The use of visual analogue scales to assess motivation to eat in human subjects: a review of their reliability and validity with an evaluation of new hand-held computerized systems for temporal tracking of appetite ratings. Br J Nutr [Internet]. 2000;84(04):405. Available from: http://www.journals.cambridge.org/abstract_S0007114500001719
(11) Mattes R. Hunger ratings are not a valid proxy measure of reported food intake in humans. Appetite. 1990;15(2):103–113.
(12) Hulshof T, De Graaf C, Weststrate J. The effects of preloads varying in physical state and fat content on satiety and energy intake. Appetite. 1993;21(3):273–286.
(13) Barkeling B, Rossner S, Sjoberg A. Methodological studies on single meal food intake characteristics in normal weight and obese men and women. Int J Obes Relat Metab Disord [Internet]. 1995;19(4):284–290. Available from: http://www.ncbi.nlm.nih.gov/pubmed/7627254
(14) Porrini M, Crovetti R, Testolin G, Silva S. Evaluation of satiety sensations and food intake after different preloads. Appetite. 1995;25(1):17–30.
(15) Flint A, Raben A, Blundell JE, Astrup A. Reproducibility, power and validity of visual analogue scales in assessment of appetite sensations in single test meal studies. Int J Obes. 2000;24(1):38–48.
(16) Kissileff HR. Satiating efficiency and a strategy for conducting food loading experiments. Neurosci Biobehav Rev. 1984;8(1):129–135.
(17) Green SM, Delargy HJ, Joanes D, Blundell JE. A Satiety Quotient : A Formulation to Assess the Satiating Effect of Food Biopsychology Group , Department of Psychology , University of Leeds Department of Statistics , University of Leeds. Appetite. 1997;29(3):291–304.
(18) Wang XS, Neill MO, Thomas W, Slavin J. White and Brown Rice are Equally Satiating and More Satiating than Glucose Beverage. J Obes Weight Loss Ther [Internet]. 2013;3(202):2. Available from: http://www.omicsgroup.org/journals/white-and-brown-rice-are-equally-satiating-and-more-satiating-than-glucose-beverage-2165-7904.1000201.php?aid=21268
(19) Klosterbuer AS, Thomas W, Slavin JL. Resistant starch and pullulan reduce postprandial glucose, insulin, and GLP-1, but have no effect on satiety in healthy humans. J Agric Food Chem [Internet]. 2012;60(48):11928–11934. Available from: http://www.embase.com/search/results?subaction=viewrecord&from=export&id=L366213766%0Ahttp://dx.doi.org/10.1021/jf303083r%0Ahttp://bj7rx7bn7b.search.serialssolutions.com?sid=EMBASE&issn=00218561&id=doi:10.1021%2Fjf303083r&atitle=Resistant+starch+and+pullu
(20) Drapeau V, King N, Hetherington M, Doucet E, Blundell J, Tremblay A. Appetite sensations and satiety quotient: Predictors of energy intake and weight loss. Appetite. 2007;48(2):159–166.
(21) Holt RD, Pacala SW, Smith TW, Liu J. A satiety index of common foods. Eur J Clin Nutr [Internet]. 1995;49(June 2014):675–90. Available from: http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=2102823
(22) García-Flores CL, Martínez Moreno AG, Beltrán Miranda CP, Zepeda-Salvador AP, Solano Santos LV. Saciación vs saciedad: Reguladores del consumo alimentario. Rev Med Chil. 2017;145(9):1172–1178.
(23) Zhang Z, Venn BJ, Monro J, Mishra S. Subjective Satiety Following Meals Incorporating Rice, Pasta and Potato. Nutrients. 2018;10(11):1–10.
(24) Clinical D, Centre N, Hospital A. Energy density and its role in the control of food intake. 1996;153–174.
(25) Almiron-Roig E, Flores SY, Drewnowski A. No difference in satiety or in subsequent energy intakes between a beverage and a solid food. Physiol Behav. 2004;82(4):671–677.
(26) Tsuchiya A, Almiron-Roig E, Lluch A, Guyonnet D, Drewnowski A. Higher satiety ratings following yogurt consumption relative to fruit drink or dairy fruit drink. J Am Diet Assoc. 2006;106(4):550–557.
(27) Geliebter A, Lee MIC, Abdillahi M, Jones J. Satiety following intake of potatoes and other carbohydrate test meals. Ann Nutr Metab. 2013;62(1):37–43.
(28) Lottenberg AMP, Fan PLT, Buonacorso V. Effects of dietary fiber intake on inflammation in chronic diseases. Einstein (São Paulo). 2015;8(2):254–258.
(29) Atkinson FS, Foster-Powell K, Brand-Miller JC. International tables of glycemic index and glycemic load values: 2008. Diabetes Care. 2008;31(12):2281–2283.
(30) Andersen SSH, Heller JMF, Hansen TT, Raben A. Comparison of Low Glycaemic Index and High Glycaemic Index Potatoes in Relation to Satiety: A Single-Blinded, Randomised Crossover Study in Humans. Nutrients. 2018;10(11):1726.
(31) Akilen R, Deljoomanesh N, Hunschede S, Smith CE, Arshad MU, Kubant R, et al. The effects of potatoes and other carbohydrate side dishes consumed with meat on food intake, glycemia and satiety response in children. Nutr Diabetes [Internet]. 2016;6(2):e195-8. Available from: http://dx.doi.org/10.1038/nutd.2016.1
(32) Blundell J, De Graaf C, Hulshof T, Hebb S, Jebb S, Livingstone B, et al. Appetite control: methodological aspects of the evaluation of foods. Obes rev. 2010;11(3):251-270.