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Net energy value of two low-digestible carbohydrates, Lycasin®HBC and the hydrogenated polysaccharide fraction of Lycasin®HBC in healthy human subjects and their impact on nutrient digestive utilization

Published online by Cambridge University Press:  09 March 2007

S. Sinaud ,
C. Montaurier ,
D. Wils ,
J. Vernet ,
M. Brandolini ,
C. Bouteloup-Demange  and
M. Vermorel
S. Sinaud
Affiliation:
Centre de Recherches en Nutrition Humaine d'Auvergne INRA, UR Métabolismes Energétique et Lipidique, Centre de Recherches de Clermont-Ferrand-Theix, 63122 Saint-Genès Champanelle, France
C. Montaurier
Affiliation:
Centre de Recherches en Nutrition Humaine d'Auvergne Laboratoire de Nutrition Humaine, 58 rue Montalambert, 63009 Clermont-Ferrand, Cedex 1, France
D. Wils
Affiliation:
Roquette Frères, 62080 Lestrem, France
J. Vernet
Affiliation:
Centre de Recherches en Nutrition Humaine d'Auvergne INRA, UR Métabolismes Energétique et Lipidique, Centre de Recherches de Clermont-Ferrand-Theix, 63122 Saint-Genès Champanelle, France
M. Brandolini
Affiliation:
Centre de Recherches en Nutrition Humaine d'Auvergne Laboratoire de Nutrition Humaine, 58 rue Montalambert, 63009 Clermont-Ferrand, Cedex 1, France
C. Bouteloup-Demange
Affiliation:
Centre de Recherches en Nutrition Humaine d'Auvergne Laboratoire de Nutrition Humaine, 58 rue Montalambert, 63009 Clermont-Ferrand, Cedex 1, France
M. Vermorel*
Affiliation:
Centre de Recherches en Nutrition Humaine d'Auvergne INRA, UR Métabolismes Energétique et Lipidique, Centre de Recherches de Clermont-Ferrand-Theix, 63122 Saint-Genès Champanelle, France
*
*Corresponding author: Dr M. Vermorel, fax + 33 4 73 62 46 39, email vermorel@clermont.inra.fr
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Abstract

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The metabolizable energy content of low-digestible carbohydrates does not correspond with their true energy value. The aim of the present study was to determine the tolerance and effects of two polyols on digestion and energy expenditure in healthy men, as well as their digestible, metabolizable and net energy values. Nine healthy men were fed for 32 d periods a maintenance diet supplemented either with dextrose, Lycasin®HBC (Roquette Frères, Lestrem, France), or the hydrogenated polysaccharide fraction of Lycasin®HBC, at a level of 100 g DM/d in six equal doses per d according to a 3×3 Latin square design with three repetitions. After a 20 d progressive adaptation period, food intake was determined for 12 d using the duplicate meal method and faeces and urine were collected for 10 d for further analyses. Subjects spent 36 h in one of two open-circuit whole-body calorimeters with measurements during the last 24 h. Ingestion of the polyols did not cause severe digestive disorders, except excessive gas emission, and flatulence and gurgling in some subjects. The polyols induced significant increases in wet (+45 and +66 % respectively, P<0·01) and dry (+53 and +75 % respectively, P<0·002) stool weight, resulting in a 2 % decrease in dietary energy digestibility (P<0·001). They resulted also in significant increases in sleeping (+4·1 %, P<0·03) and daily energy expenditure (+2·7 and +2·9 % respectively, P<0·02) compared with dextrose ingestion. The apparent energy digestibility of the two polyols was 0·82 and 0·79 respectively, their metabolizable energy value averaged 14·1 kJ/g DM, and their net energy value averaged 10·8 kJ/g DM, that is, 35 % less than those of sucrose and starch.

Keywords

Low-digestible carbohydrateDietary fibresPolyolsEnergy expenditureEnergy valueMan
Type
Research Article
Information
British Journal of Nutrition , Volume 87 , Issue 2 , February 2002 , pp. 131 - 139
Copyright
Copyright © The Nutrition Society 2002

References

Alfieri, MA, Pomerleau, J, Grace, DM & Anderson, L (1995) Fiber intake of normal weight, moderately obese and severely obese subjects. Obesity Research 3, 541547.CrossRefGoogle ScholarPubMed
Armstrong, DG & Blaxter, KL (1957) The heat increment of steam-volatile fatty acids in fasting sheep. British Journal of Nutrition 11, 247272.CrossRefGoogle ScholarPubMed
Beaugerie, L, Flourié, B, Marteau, P, Pellier, P, Franchisseur, C & Rambaud, JC (1990) Digestion and absorption of sugar alcohols. Gastroenterology 99, 717723.CrossRefGoogle ScholarPubMed
Blundell, JE & Burley, VJ (1987) Satiation, satiety and the action of fibre on food intake. International Journal of Obesity 11, Suppl., 925.Google ScholarPubMed
Breuer, RI, Buto, SK, Christ, ML, Bean, J, Vernia, P, Paoluzi, P, Di Paolo, MC & Caprilli, R (1991) Rectal irrigation with short-chain fatty acid for distal ulcerative colitis. Preliminary report. Digestive Diseases and Sciences 36, 185187.CrossRefGoogle ScholarPubMed
Brouwer, E (1965) Report of sub-committee on constants and factors. In Energy Metabolism, pp. 441443 [Blaxter, KL, editor]. New York, NY: Academic Press.Google Scholar
Burkitt, DP & Trowell, HC (1975) Refined Carbohydrate Food and Diseases, pp. 333345. London: Academic Press.Google Scholar
Burton-Freeman, B (2000) Dietary fiber and energy regulation. Journal of Nutrition 130, 272275.CrossRefGoogle ScholarPubMed
Castiglia-Delavaud, C, Verdier, E, Besle, JM, Vernet, J, Boirie, Y, Beaufrère, B, De Baynast, R & Vermorel, M (1998) Net energy value of non-starch polysaccharide isolates (sugarbeet fibre and commercial inulin) and their impact on nutrient digestive utilization in healthy human subjects. British Journal of Nutrition 80, 343352.CrossRefGoogle ScholarPubMed
Cherbut, C, Bruley des Varannes, S, Schnee, M, Rival, M, Galmiche, JP & Delort-Laval, J (1994) Involvement of small intestinal motility in blood glucose response to dietary fibre in man. British Journal of Nutrition 71, 675685.CrossRefGoogle ScholarPubMed
Coudray, C, Bellanger, J, Castiglia-Delavaud, C, Rémésy, C, Vermorel, M & Rayssiguier, Y (1997) Effect of soluble or partly soluble dietary fibres supplementation on absorption and balance of calcium, magnesium, iron and zinc in healthy young men. European Journal of Clinical Nutrition 51, 375380.CrossRefGoogle ScholarPubMed
Cummings, JH, Southgate, DAT, Branch, WJ, Houston, H, Jenkins, DJA & James, WPT (1978) Colonic responses to dietary fibre from carrot, cabbage, apple, bran and guar gum. Lancet i, 59.CrossRefGoogle Scholar
Federation of American Societies for Experimental Biology (1994) The Evaluation of the Energy of Certain Sugar Alcohols used as Food Ingredients. Bethesda, MD: Life Science Research Office, FASEB.Google Scholar
Göranzon, H, Forsum, E & Thilen, M (1983) Calculation and determination of metabolizable energy in mixed diets to humans. American Journal of Clinical Nutrition 38, 954963.CrossRefGoogle ScholarPubMed
International Standards Organization (1994) ISO 5381. Starch Hydrolysis Products. Determination of Water Content. Modified Karl Fisher Method, October 1994. Geneva, Switzerland: ISO.Google Scholar
Jouany, JP & Lassalas, B (2000) Effect of rumen protozoa on C and H distribution among the end products of fermentation. Reproduction, Nutrition, Development 40, 210.Google Scholar
Krebs, HA (1960) The cause of the specific dynamic action of foodstuffs. Arzneimiettelforschung 10, 369373.Google ScholarPubMed
Langkilde, AM, Andersson, H, Schweizer, TF & Wursch, P (1994) Digestion and absorption of sorbitol, maltitol and isomalt from the small bowel. A study in ileostomy subjects. European Journal of Clinical Nutrition 48, 768775.Google ScholarPubMed
Livesey, G (1992) Energy values of dietary fibre and sugar alcohols for man. Nutrition Research Reviews 5, 6184.CrossRefGoogle ScholarPubMed
Livesey, G (2001 a) A perspective on food energy standards for nutrition labelling. British Journal of Nutrition 85, 271287.CrossRefGoogle ScholarPubMed
Livesey, G (2001 b) Tolerance of low-digestible carbohydrates: a general view. British Journal of Nutrition 85 (Suppl. 1) S7S16.CrossRefGoogle ScholarPubMed
Livesey, G & Elia, M (1988) Estimation of energy expenditure, net carbohydrate utilisation, and net fat oxidation and synthesis by indirect calorimetry: evaluation of errors with special reference to the detailed composition of fuels (Appendix: Microbial metabolism in man: colonic fermentation). American Journal of Clinical Nutrition 47, 608628.CrossRefGoogle Scholar
Marteau, P & Flourié, B (2001) Tolerance to low-digestible carbohydrates: symptomatology and methods. British Journal of Nutrition 85, Suppl. 1, S17S21.CrossRefGoogle ScholarPubMed
Oku, T & Kwon, S (1988) Disaccharidase activity in rat cecum and colon with hyperplasia induced by maltitol or glucomannan. Journal of Nutritional Science and Vitaminology 44, 6978.CrossRefGoogle Scholar
Poppitt, SD, Livesey, G & Elia, M (1998) Energy expenditure and net substrate utilization in men ingesting usual and high amounts of nonstarch polysaccharide. American Journal of Clinical Nutrition 68, 820826.CrossRefGoogle ScholarPubMed
Prosky, L, Asp, NB, Furda, I, De Vries, JW, Schweizer, TF & Harland, BF (1985) Determination of total dietary fiber in foods and food products: collaborative study. Journal of the Association of Analytical Chemists 68, 677679.Google ScholarPubMed
Ryttig, KR, Lammert, O, Nielsen, E, Garby, L & Poulsen, K (1990) The effect of a soluble dietary fibre supplement on 24-hour energy expenditure during a standardized physical program. International Journal of Obesity 14, 451455.Google Scholar
Scheppach, W, Luehrs, H & Menzel, T (2001) Beneficial health effects of low-digestible carbohydrate consumption. British Journal of Nutrition 85, Suppl 1, S23S30.CrossRefGoogle ScholarPubMed
Tamura, Y, Furuse, M, Matauda, S, Shimizu, T & Okumura, J (1991) Energy utilization of sorbose in comparison with maltitol in growing rats. Journal of Agricultural and Food Chemistry 39, 732735.CrossRefGoogle Scholar
van Es, AJH, Niessen, CH, Veth, J, Rodenburg, L, Teeuwse, V & Dhuyvetter, J (1984) Human energy metabolism below, near and above energy equilibrium. British Journal of Nutrition 54, 429442.CrossRefGoogle Scholar
Vermorel, M, Bitar, A, Vernet, J & Ortigues, I (1995) Calorimétrie indirecte. 3 – Contrôle de la validité des mesures des échanges respiratoires des animaux et des humains (Indirect calorimetry 3 – Control of the respiratory exchange measurements validity in animals and human beings). Cahiers des Techniques de l'INRA 35, 6376.Google Scholar
Vernet, J & Vermorel, M (1993) Base de données pour le calcul des quantités d'éléments nutritifs ingérés dans les études de nutrition humaine (A database for calculating nutrient intakes in human nutrition studies). Cahiers des Techniques de L'INRA 31, 5176.Google Scholar
Wisker, E, Knudsen, KEB, Daniel, M, Eggum, BO & Feldheim, W (1997) Energy values of non-starch polysaccharides: comparative studies in humans and rats. Journal of Nutrition 127, 108116.CrossRefGoogle ScholarPubMed
Yen, JT, Nienaber, JA, Hill, DA & Pond, WG (1989) Oxygen consumption by portal vein-drained organs and by whole animal in conscious growing swine. Proceedings of the Society for Experimental Biology and Medicine 190, 393398.CrossRefGoogle ScholarPubMed
Zhang, XZ, Meijer, GW & Beynen, AC (1990) Dietary maltitol causes increased serum and liver cholesterol concentrations in rats. International Journal for Vitamin and Nutrition Research 60, 296297.Google ScholarPubMed