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http://dx.doi.org/10.3746/jkfn.2007.36.2.194

Effects of Cellulose and Pectin on Diet-induced Thermogenesis in Young Women  

Oh, Seung-Ho (Dept. of Food and Nutrition, Chonnam National University)
Park, Jeong-Jin (Dept. of Food and Nutrition, Chonnam National University)
Choi, In-Seon (Dept. of Food and Nutrition, Chonnam National University)
Ro, Hee-Kyong (Dept. of Food Science, Dongshin University)
Publication Information
Journal of the Korean Society of Food Science and Nutrition / v.36, no.2, 2007 , pp. 194-200 More about this Journal
Abstract
The purpose of this study was to observe the effects of fiber free control diet (CD), cellulose diet (CED) and pectin diet (PTD) on diet induced thermogenesis (DIT) in healthy Korean woman for 3 hours. The three test diets were as follows: CD (carbohydrate intake: 63.4% of energy, protein intake: 14.0% of energy and fat intake: 25.8% of energy), CED (carbohydrate intake: 62.5% of energy, protein intake: 14.0% of energy and fat intake: 26.1% of energy) and PTD (carbohydrate intake: 62.7% of energy, protein intake: 14.0% of energy and fat intake: 26.2 of energy). Groups were served 10 g of cellulose for CED and 10 g of pectin for PTD, respectively. DIT was measured at fasting state and at 30, 60, 90, 120, 150 and 180 min after consuming each diet. The mean age of all subjects was $22.3{\pm}1.9$ years. Body weight was $52.5{\pm}8.6$ kg and body mass index was $20.6{\pm}2.7kg/m^2$. Preprandial resting energy expenditure was $0.79{\pm}0.02kcal/min$ and postprandial DIT were $14.05{\pm}0.62%$ for CD, $9.33{\pm}0.62%$ for CED, $11.07{\pm}1.35%$ for PTD as a percentage of the energy load. DIT of CD was significantly higher than those of CED and PTD. There was no significant difference in postprandial change in body temperature after consuming each test diets and the sympathetic nervous system activity measured by heart rate was significantly higher in CD than CED and PTD (p<0.05). With this study, it can be concluded that CED and PTD have significantly lowered in DIT (p<0.05). We didn't show the correlation of the factors that relate in DIT; thus, further experiments on that matter should be followed.
Keywords
cellulose; pectin; DIT (diet-induced thermogenesis); postprandial energy expenditure;
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1 Ravussin E, Bogardus C. 1989. Relationship of genetics, age, and physical fitness to daily energy exenditure and fuel utilization. Am J Clin Nutr 49: 968-975   DOI
2 Acheson KJ, Ravussin E, Wahren J, Jequier E. 1984. Thermic effect of glucose in man: obligatory and facultative thermogenesis. J Clin Invest 74: 1572-1580   DOI
3 Dabai FD, Walker AF, Sambrook IE, Welch VA, Owen RW, Abeyasekera S. 1996. Comparative effects on blood lipids and faecal steroids of five legume species incorporated into a semi-purified hypercholesterolaemic rat diet. Br J Nutr 75: 557-571   DOI   ScienceOn
4 Marques-Lopes I, Forga L, Martinez JA. 2003. Thermogenesis induced by a high-carbohydrate meal in fasted lean and overweight young men: insulin, body fat, and sympathetic nervous system involvement. Nutrition 19: 25-29   DOI   ScienceOn
5 Goff GL, Dubois S, Noblet J. 2002. Digestibility and metabolic utilisation of dietary energy in adult sows: influence of addition and origin of dietary fibre. Br J Nutr 87: 325-335   DOI
6 Choi HJ, Song JM, Kim EK. 2005. Assessment of daily steps, activity coefficient, body composition, resting energy expenditure and daily energy expenditure in female university students. J Kor Diet Assoc 11: 159-169   과학기술학회마을
7 Cunningham JJ. 1991. Body composition as a determinant of energy expenditure: a synthetic review and a proposed general prediction equation. Am J Clin Nutr 54: 963-969   DOI
8 Le Goff G, Le Groumellec L, van Milgen J, Dubois S, Noblet J. 2002. Digestibility and metabolic utilization of dietary energy in adult sow: influence of addition and origin of dietary fibre. Br J Nutr 87: 325-335   DOI
9 Luscombe ND, Clifton PM, Noakes M, Parker B, Wittert G. 2002. Effects of energy-restricted diets containing increased protein on weight loss, resting energy expenditure, and the thermic effect of feeding in type 2 diabetes. Diabets Care 25: 652-657   DOI   ScienceOn
10 Ohnuki K, Niwa S, Maeda S, Inoue N, Yazawa S, Fushiki T. 2001. CH-19 sweet, a non-pungent cultivar of red pepper, increased body temperature and oxygen consumption in humans. Biosci Biotechnol Biochem 65: 2033-2036   DOI   ScienceOn
11 Salmeron J, Manson JE, Stampfer MJ, Colditz G, Wing AL, Willett WC. 1997. Dietary fiber, glycemic load, and risk of non-insulin-dependent diabetes mellitus in women. JAMA 277: 472-476   DOI
12 Torsdottir J, Alpsten M, Holm G, Sandberg AS, Tolli J. 1991. A small dose of soluble alginate fiber affects postprandial glycemia and gastric emptying in humans with diabetes. J Nutr 121: 795-799   DOI
13 Naim M, Ohara I, Kare MR, Levinson M. 1991. Interaction of MSG taste with nutrition: perspectives in consummatory behavior and digestion. Physiol Behav 49: 1019-1024   DOI   ScienceOn
14 Peracchi M, Santangelo A, Conte D, Fraquelli M, Tagliabue R, Gebbia C, Porrini M. 2000. The physical state of a meal affects hormone release and postprandial thermogenesis. Br J Nutr 83: 623-628   DOI   ScienceOn
15 Raben A, Christensen NJ, Madsen J, Holst JJ, Astrup A. 1994. Decreased postprandial thermogenesis and fat oxidation but increased fullness after a high-fiber meal compared with a low-fiber meal. Am J Clin Nutr 59: 1386-1394   DOI
16 Vollenweider P, Tappy L, Randin D, Schneiter P, Jequier E, Nicod P, Scherrer U. 1993. Differential effects of hyperinsulinemia and carbohydrate metabolism on sympathetic nerve activity and blood flow in humans. J Clin Invest 92: 147-154   DOI   ScienceOn
17 Trowell H. 1974. Definitions of fiber. Lancet 303: 503   DOI   ScienceOn
18 Torsdottir J, Alpsten M, Holm G, Sandberg AS, Tolli J. 1991. A small dose of soluble alginate fiber affects postprandial glycemia and gastric emptying in humans with diabetes. J Nutr 121: 795-799   DOI
19 Xu H, Tan SM, Li SQ. 2001. Effects of soybean fibers on blood sugar, lipid levels and hepatic-nephritic histomorphology in mice with diabetes mellitus. Biomed Environ Sci 14: 256-261
20 Scalfl L, Coltorti A, D'Arrigo E. 1987. Effect of dietary fibre on postprandial thermogenesis. Int J Obes 11(suppl 1): 95-99
21 Luscombe ND, Parker B, Clifton PM, Witter G, Noakes M. 2002. Effects of energy-restricted diets containing increased protein on weight loss, resting energy expenditure, and the thermic effect of feeding in type 2 diabetes. Diabetes Care 25: 652-657   DOI   ScienceOn
22 Ryttig KR, Lammert O, Nielsen E, Poulsen K. 1990. The effect of a soluble dietary fibre supplement on 24-hour energy expenditure during a standardized physical activity programme. Int J Obes 14: 451-455
23 Westerterp KR. 2004. Diet induced thermogenesis. Nutrition and Metabolism 1: 1-5   DOI   ScienceOn
24 Nagai N, Sakane N, Hamada T. 2005. The effect of a high-carbohydrate meal on postprandial thermogenesis and sympathetic nervous system activity in boys with a recent onset of obesity. Metab Clin Exp 54: 430-438   DOI   ScienceOn
25 Soucy J, Leblanc J. 1999. Protein meals and postprandial thermogenesis. Physiol Behav 65: 705-709   DOI   ScienceOn
26 Westerterp KR, Wilson SAJ, Rolland V. 1999. Diet induced thermogenesis measured over 24 h in a respiration chamber: effect of diet composition. Int J Obes 23: 287-292   DOI   ScienceOn
27 Chang U-J, Lee K-R. 2005. Correlation between measured resting energy expenditure and predicted basal energy expenditure in female college students. J Korean Soc Food Sci Nutr 34: 196-201   과학기술학회마을   DOI   ScienceOn
28 Park JA, Kim KJ, Kim JH, Park YS, Koo JO, Yoon JS. 2003. A comparison of resting energy expenditure of Korean adults using indirect calorimetry. Korean J Community Nutrition 8: 993-1000   과학기술학회마을
29 Owen OE. 1988. Resting metabolic requirements of men and women. Mayo Clin Proc 63: 503-510
30 Dalderup LM, Opdam-Stockman VA, Rechsteiner-de Vos H. 1996. Basal metabolic rate, anthropometric, electrocardiographic, and dietary date relating to elderly persons. J Gerontol 21: 22-26
31 Daly JM, Heymsfield SB, Head CA, Harvey LP, Nixon DW. 1995. Human energy requirements: overestimation by widely used prediction equation. Am J Clin Nutr 42: 1170-1174
32 Pavlou KN, Hoefer MA, Blackburn GL. 1986. Resting energy expenditure in moderate obesity: predicting velocity of weight loss. Ann Surg 203: 136-141   DOI
33 Mifflin MD, Hill LA, Scott BJ, Daugherty SA, Koh YO. 1990. A new predictive equation for resting energy expenditure in healthy individuals. Am J Clin Nutr 51: 241-247   DOI
34 Marlett JA. 1990. Dietary fiber, definition and determination. Center for Academic Publication, Tokyo, Japan. p 4-14
35 Helena GML, Anna KEF, Inger MEB. 1999. Effects of the glycemic index and content of indigestible carbohydrate of cereal-based breakfast meals on glucose tolerance at lunch in healthy subjects. Am J Clin Nutr 69: 647-655   DOI
36 Rosado JL, Diaz M. 1995. Physicochemical properties related to gastrointestinal function of 6 sources of dietary fiber. Rev Invest Clin 47: 283-289
37 Spiller RC. 1994. Pharmacology of dietary fiber. Pharmacol Ther 62: 407-427   DOI   ScienceOn
38 Braaten JT, Scott FW, Wood PJ, Riedel KD, Wolynetz MS, Brule D, Collins MW. 1994. High beta-glucan oat bran and oat gum reduce postprandial blood glucose and insulin in subjects with and without type 2 diabetes. Diabet Med 11: 312-318   DOI   ScienceOn
39 Schwartz MW, Baskin DG, Kaiyala KJ, Woods SC. 1999. Model for the regulation of energy balance and adiposity by the central nervous sastem. Am J Clin Nutr 69: 584-596   DOI
40 Sparti A, Milon H. 2000. Effect of diets high or low in unavailable and slowly digestible carbohydrates on the pattern of 24-h substrate oxidation and feelings of hunger in human. Am J Clin Nutr 72: 1461-1468   DOI
41 Roben A, Tagliabue A, Madsen J. 1994. Resistant starch: the effect on postprandial glycemia, hormonal response, and satiety. Am J Clin Nutr 60: 544-551   DOI
42 The Korean Nutrition Society. 2005. Dietary Refenence Intakes for Koreans. The Korean Nutrition Society, Seoul
43 Ro H-K, Choi I-S, Oh S-H. 2005. Effects of high carbohydrate, high fat and protein meal on postprandial thermogenesis in young women. J Korean Soc Food Sci Nutr 34: 1202-1209   과학기술학회마을   DOI   ScienceOn
44 LeBlanc J, Cabanac M, Samson P. 1984. Reduce postprandial heat production with gavage as compared with meal feeding in human subjects. Am J Physiol 246: 95-101
45 Westerterp-Plantenga MS, Rolland V, Wilson SAJ, Westerterp KR. 1999. Satiety related to 24 h diet-induced thermogenesis during high protein/carbohydrate vs high fat diets measured in a respiration chamber. Eur J Clin Nutr 53: 495-502   DOI
46 Raben A, Agerholm-Larsen L, Flint A, Holst JJ, Astrup A. 2003. Meals with similar energy densities but rich in protein, fat, carbohydrate, or alcohol have diifferent effects on energy expenditure and substrate metabolism but not on appetite and energy intake. Am J Clin Nutr 77: 91-100   DOI
47 Blackburn GL, Kanders BS. 1994. Obesity pathophysiology, psychology and treatment. Chapman & Hall, New York. p 39-79
48 Kiorsis DN, Durak I, Turpin G. 1999. Effects of a loe calorie diet on resting metabolic rate and serum tri-iodothyronine levels in obese children. Eur J Pediatr 158: 446-450   DOI
49 Astrup A, Buemann B, Toubro S, Ranneries C, Raben A. 1996. Low resting metabolic rate in subjects predisposed to obesity: a role for thyroid status. Am J Clin Nutr 63: 879-883   DOI
50 Astrup A, Bulow J, Christensen NJ, Madsen J, Quaade F. 1986. Facultative thermogenesis induced by carbohydrates: a skeletal muscle component mediated by epinephrine. Am J Physiol 250: 226-229
51 Schwarz RS, Jaeger LF, Veith RC. 1988. Effect of clonidine on the thermic effect of feeding in humans. Am J Physiol 254: 90-94
52 Mikkelsen PB, Toubro S, Astrup A. 2000. Effect of fat-reduced diets on 24-h energy expenditure: comparisons between animal protein, vegetable protein, and carbohydrate. Am J Clin Nutr 72: 1135-1141   DOI
53 Crovetti R, Porrini M, Santangelo A, Testolin G. 1998. The influence of thermic effect of food on satiety. Eur J Clin Nutr 52: 482-488   DOI