Meal energy density as a determinant of postprandial gastrointestinal adaptation in man.

The relationships between the meal energy density and postprandial gastric emptying, intestinal propulsion and absorption, and pancreaticobiliary secretions were investigated. Nine different 300-ml liquid test meals with energy densities ranging from 2.5 to 7.2 MJ l-1 were studied by means of a multiple-indicator dilution technique. The higher the energy density of the meal, the slower the gastric emptying of the test meal marker (P < 0.01). Despite slowing of gastric emptying of the meal marker the higher the energy density of the meal, the more energy was emptied to the duodenum during the 1st h after meal intake (P < 0.01). The small-intestinal transit time for the mid-portion of the meal correlated positively with energy density of the test meal (P < 0.05). Despite the prolonged time for transit through the jejunal test segment after meals with high energy density, the fractional absorption of energy varied only 50-70%, with no correlation to the energy density of the meal. As a consequence, more energy passed unabsorbed from the test segment to lower parts of the intestine after meals with high energy density (P < 0.05). We conclude that the energy density of a liquid meal is a strong determinant for the subsequent gastrointestinal adaptation. This relates not only to gastric emptying but also to intestinal transit and absorption of nutrients. The early onset of regulation suggests a role for the gastrointestinal tract in modulating the availability of systemic energy, which might be of importance for short-term regulation of food intake.

[1]  M. Levitt,et al.  A reappraisal of the magnitude and implications of the intestinal unstirred layer. , 1991, Gastroenterology.

[2]  A. Zinsmeister,et al.  The Ileum and Carbohydrate‐Mediated Feedback Regulation of Postprandial Pancreaticobiliary Secretion in Normal Humans , 1991, Pancreas.

[3]  G. Dockray,et al.  Efferent pathways in the reflex control of gastric emptying in rats. , 1991, The American journal of physiology.

[4]  J. Meyer,et al.  Inhibition of gastric emptying by glucose depends on length of intestine exposed to nutrient. , 1989, The American journal of physiology.

[5]  J. Dent,et al.  Relationship of the motor activity of the antrum, pylorus, and duodenum to gastric emptying of a solid-liquid mixed meal. , 1988, Gastroenterology.

[6]  N. Read,et al.  Regulation of gastric emptying by ileal nutrients in humans. , 1988, Gastroenterology.

[7]  J. N. Hunt,et al.  Effect of meal volume and energy density on the gastric emptying of carbohydrates. , 1985, Gastroenterology.

[8]  J. Morley,et al.  Do calories, osmolality, or calcium determine gastric emptying? , 1985, The American journal of physiology.

[9]  N. Read,et al.  Effect of infusion of nutrient solutions into the ileum on gastrointestinal transit and plasma levels of neurotensin and enteroglucagon , 1984 .

[10]  P. McHugh,et al.  Regulation of the gastric emptying of glucose. , 1983, Gastroenterology.

[11]  E O Macagno,et al.  Modeling the effect of wall movement on absorption in the intestine. , 1982, The American journal of physiology.

[12]  K. Kelly,et al.  Gastric emptying of liquids and solids: roles of proximal and distal stomach. , 1980, The American journal of physiology.

[13]  J. N. Hunt A possible relation between the regulation of gastric emptying and food intake. , 1980, The American journal of physiology.

[14]  G A Ahearn,et al.  Intestinal electrophysiology and transmural ion transport in freshwater prawns. , 1980, The American journal of physiology.

[15]  P. McHugh,et al.  Calories and gastric emptying: a regulatory capacity with implications for feeding. , 1979, The American journal of physiology.

[16]  J. Malagelada,et al.  Gastric emptying of lipids after ingestion of an homogenized meal. , 1979, Gastroenterology.

[17]  L. Miller,et al.  Postprandial duodenal function in man. , 1978, Gut.

[18]  C. Johansson,et al.  Relation between body weight and the gastric and intestinal handling of an oral caloric load. , 1976, Gut.

[19]  V. Go,et al.  Control of gastric emptying by osmolality of duodenal contents in man. , 1975, Gastroenterology.

[20]  A. R. Cooke,et al.  Control of gastric emptying and motility. , 1975, Gastroenterology.

[21]  J. N. Hunt,et al.  The volume and energy content of meals as determinants of gastric emptying. , 1975, The Journal of physiology.

[22]  J. N. Hunt,et al.  The effect of gravity on gastric emptying with various test meals , 1965, The Journal of physiology.

[23]  Holdsworth Cd,et al.  THE ABSORPTION OF MONOSACCHARIDES IN MAN. , 1964 .

[24]  H. -. Rieder Verbesserungen zur methode der eiweissbestimmung mittels cu(ii) und phenolreagens nach folin-ciocalteu , 1959 .

[25]  B. Borgström,et al.  Studies of intestinal digestion and absorption in the human. , 1957, The Journal of clinical investigation.

[26]  J. Morley,et al.  Peptidergic regulation of feeding. , 1985, International review of neurobiology.

[27]  C. Johansson Studies of gastrointestinal interactions. , 1974, Scandinavian journal of gastroenterology. Supplement.

[28]  S. Moberg,et al.  The effect on gastric emptying of test meals with various fat and osmolar concentrations. , 1974, Scandinavian journal of gastroenterology.

[29]  C. Johansson,et al.  Studies of gastrointestinal interactions. II. Calculation of gastric evacuation in an in vitro model. , 1972, Scandinavian journal of gastroenterology.

[30]  L. Larsson Non-labelled vitamin B12 as a dilution indicator in gastrointestinal research. , 1966, Scandinavian journal of clinical and laboratory investigation.

[31]  S. Hyden The recovery of polyethylene glycol after passage through the digestive tract. , 1956 .

[32]  H. C. Tidwell,et al.  The relation between the chemical structure of fats and their ability to produce gastric inhibition. , 1942 .