Your search keyword '"Dietary Sugars pharmacology"' showing total 3 results

1. Dietary sugars and non-caloric sweeteners elicit different homeostatic and hedonic responses in the brain.

Author

van Opstal AM, Kaal I, van den Berg-Huysmans AA, Hoeksma M, Blonk C, Pijl H, Rombouts SARB, and van der Grond J

Subjects

Adolescent, Adult, Anhedonia drug effects, Blood Gas Analysis, Body Mass Index, Brain diagnostic imaging, Female, Fructose pharmacology, Glucose pharmacology, Healthy Volunteers, Humans, Hypothalamus diagnostic imaging, Hypothalamus drug effects, Magnetic Resonance Imaging, Male, Oxygen analysis, Sucrose analogs & derivatives, Sucrose pharmacology, Ventral Tegmental Area diagnostic imaging, Ventral Tegmental Area drug effects, Young Adult, Brain drug effects, Dietary Sugars pharmacology, Energy Metabolism drug effects, Homeostasis drug effects, Sweetening Agents pharmacology

Abstract

Objective: The brain is essential in regulating intake of food and beverages by balancing energy homeostasis, which is regulated by the hypothalamus, with reward perception, which is regulated by the ventral tegmental area (VTA). The aim of this study was to investigate the effects of ingestion of glucose, fructose, sucrose, and sucralose (a non-caloric artificial sweetener) on the magnitude and trajectory of the hypothalamic and the VTA blood oxygen level-dependent (BOLD) responses., Method: In five visits, 16 healthy men between 18 to 25 y of age with a body mass index between 20 and 23 kg/m 2 drank five interventions in a randomized order while a functional magnetic resonance imaging scan was taken. The interventions consisted of 50 g of glucose, fructose, or sucrose, or 0.33 g of sucralose dissolved in 300 mL tap water. The control condition consisted of 300 mL of plain tap water. BOLD signals were determined in the hypothalamus and the VTA within a manually drawn region of interest. Differences in changes in BOLD signal between stimuli were analyzed using mixed models., Results: Compared with the control condition, a decrease in BOLD signal in the hypothalamus was found after ingestion of glucose (P = 0.0003), and a lesser but delayed BOLD response was found after ingestion of sucrose (P = 0.006) and fructose (P = 0.003). Sucralose led to a smaller and transient response from the hypothalamus (P = 0.026). In the VTA, sucralose led to a very similar response to the water control condition, leading to an increase in VTA BOLD activity that continued over the measured time period. The natural sugars appeared to only lead to a transient increase in VTA activity., Conclusions: Glucose induces a deactivation in the hypothalamus immediately after ingestion and continued over the next 12 min, which is correlated with satiety signaling by the brain. Fructose and sucrose are both associated with a delayed and lesser response from the hypothalamus, likely because the sugars first have to be metabolized by the body. Sucralose leads to the smallest and most transient decrease in BOLD in the hypothalamus and leads to a similar response as plain water in the VTA, which indicates that sucralose might not have a similar satiating effect on the brain as the natural sugars., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

2. Oral administration of palatinose vs sucrose improves hyperglycemia in normal C57BL/6J mice.

Author

Hwang D, Park HR, Lee SJ, Kim HW, Kim JH, and Shin KS

Subjects

Administration, Oral, Animals, Diet, Dietary Sugars pharmacology, Energy Metabolism drug effects, Hyperglycemia blood, Hypoglycemic Agents pharmacology, Hypoglycemic Agents therapeutic use, Insulin blood, Intestine, Small metabolism, Isomaltose pharmacology, Isomaltose therapeutic use, Lipogenesis genetics, Liver drug effects, Liver metabolism, Male, Mice, Inbred C57BL, Reference Values, Weight Gain drug effects, Blood Glucose metabolism, Cholesterol blood, Dietary Sugars therapeutic use, Hyperglycemia prevention & control, Isomaltose analogs & derivatives, Lipogenesis drug effects, Sucrose pharmacology

Abstract

Palatinose is a sucrose analog with a slower digestion rate than that of sucrose. For this reason, palatinose shows better effects on hepatic lipogenesis and cholesterol homeostasis compared with sucrose. We hypothesized that supplementation with palatinose instead of sucrose improves postprandial hyperglycemia and hyperinsulinemia in mice. Herein, we compared the digestion rates in vitro and observed physiological changes in vivo between sucrose- and palatinose-containing diets given to mice. Palatinose was hydrolyzed only by enzymes of the small intestine and was digested more slowly compared with sucrose in vitro. In mice, a diet containing palatinose resulted in significantly lower body weight gain and food efficiency rate values than those given a diet with sucrose. In this study, changes in serum biochemistry; hepatic fatty acid synthesis; cholesterol homeostasis; glucogenic, proinflammatory cytokines; and oxidative stress-related genes and proteins in the palatinose- and sucrose-fed mice were measured. Compared with the mice fed the sucrose diet, the palatinose diet resulted in lower serum glucose, insulin, and total cholesterol levels, as well as lower expression of several lipogenesis-related genes and proteins. Histological analysis of hepatic cells of palatinose-fed mice showed normal morphology. In conclusion, palatinose intake results in lower hepatic lipogenesis and better cholesterol homeostasis than the effects from sucrose., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

3. The "sweet" effect: Comparative assessments of dietary sugars on cognitive performance.

Author

Ginieis R, Franz EA, Oey I, and Peng M

Subjects

Adolescent, Adult, Analysis of Variance, Blood Glucose, Fasting blood, Female, Humans, Male, Mathematics, Neuropsychological Tests, Reaction Time drug effects, Time Factors, Young Adult, Cognition drug effects, Dietary Sugars pharmacology, Sugars metabolism, Sweetening Agents pharmacology, Taste drug effects

Abstract

In recent years there has been increasing interest in studying cognitive effects associated with sugar consumption. Neuro-cognitive research has confirmed that glucose, as a main energy substrate for the brain, can momentarily benefit cognitive performances, particularly for memory functioning. However, there is still limited understanding of relative effects of other common sugars (e.g., fructose and sucrose) on cognitive performance. The present study tested in 49 people the effects of three common dietary sugars against a placebo sweetener (i.e., sucralose), on performance of three well-studied cognitive tasks - simple response time, arithmetic, and Stroop interference, all of which are suggested to rely on the prefrontal lobe. A double-blind, placebo-controlled, cross-over experimental design was used. Results revealed that ingestion of glucose and sucrose led to poorer performances on the assessed tasks as opposed to fructose and the placebo (p<0.05); these effects were particularly pronounced under the fasting condition in comparison to the non-fasting condition (p<0.001). Overall, these results indicate that cognitive effects of sugar are unlikely to be mediated by the perception of sweetness. Rather, the effects are mediated by glucose. Further research should systematically assess effects of dietary sugars on other cognitive domains, such as memory, to give further insights on general cognitive effects of sugar consumption., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018