Your search keyword '"Hengist A"' showing total 6 results

1. Diet order significantly affects energy balance for diets varying in macronutrients but not ultraprocessing in crossover studies without a washout period

Author

Sciarrillo, Christina M, Guo, Juen, Hengist, Aaron, Darcey, Valerie L, and Hall, Kevin D

Abstract

Crossover studies can induce order effects, especially when they lack a washout period.

Published

2024

2. Ketogenic diet but not free-sugar restriction alters glucose tolerance, lipid metabolism, peripheral tissue phenotype, and gut microbiome: RCT

Author

Hengist, Aaron, Davies, Russell G., Walhin, Jean-Philippe, Buniam, Jariya, Merrell, Lucy H., Rogers, Lucy, Bradshaw, Louise, Moreno-Cabañas, Alfonso, Rogers, Peter J., Brunstrom, Jeff M., Hodson, Leanne, van Loon, Luc J.C., Barton, Wiley, O’Donovan, Ciara, Crispie, Fiona, O’Sullivan, Orla, Cotter, Paul D., Proctor, Kathryn, Betts, James A., Koumanov, Françoise, Thompson, Dylan, and Gonzalez, Javier T.

Abstract

Restricted sugar and ketogenic diets can alter energy balance/metabolism, but decreased energy intake may be compensated by reduced expenditure. In healthy adults, randomization to restricting free sugars or overall carbohydrates (ketogenic diet) for 12 weeks reduces fat mass without changing energy expenditure versus control. Free-sugar restriction minimally affects metabolism or gut microbiome but decreases low-density lipoprotein cholesterol (LDL-C). In contrast, a ketogenic diet decreases glucose tolerance, increases skeletal muscle PDK4, and reduces AMPK and GLUT4 levels. By week 4, the ketogenic diet reduces fasting glucose and increases apolipoprotein B, C-reactive protein, and postprandial glycerol concentrations. However, despite sustained ketosis, these effects are no longer apparent by week 12, when gut microbial beta diversity is altered, possibly reflective of longer-term adjustments to the ketogenic diet and/or energy balance. These data demonstrate that restricting free sugars or overall carbohydrates reduces energy intake without altering physical activity, but with divergent effects on glucose tolerance, lipoprotein profiles, and gut microbiome.

Published

2024

3. Lipid Metabolism Links Nutrient-Exercise Timing to Insulin Sensitivity in Men Classified as Overweight or Obese

Author

Edinburgh, Robert M, Bradley, Helen E, Abdullah, Nurul-Fadhilah, Robinson, Scott L, Chrzanowski-Smith, Oliver J, Walhin, Jean-Philippe, Joanisse, Sophie, Manolopoulos, Konstantinos N, Philp, Andrew, Hengist, Aaron, Chabowski, Adrian, Brodsky, Frances M, Koumanov, Francoise, Betts, James A, Thompson, Dylan, Wallis, Gareth A, and Gonzalez, Javier T

Published

2020

4. Flawed reanalysis fails to support the carbohydrate-insulin model of obesity

Author

Sciarrillo, Christina M., Guo, Juen, Hengist, Aaron, Darcey, Valerie L., and Hall, Kevin D.

Published

2024

5. Chapter 2: RICHARD HENGIST HORNE, TRANSLATIONS: 1841.

Author

Brewer, Derek and Hengist Horne, Richard

Abstract

Chapter 2 of the book "Geoffrey Chaucer: The Critical Heritage, 1837-1933," volume 2, by Derek Brewer, is presented. In it the author provides an excerpt from the introduction to "The Poems of Geoffrey Chaucer Modernized," by Richard Hengist Horne.

Published

1995

6. A randomized controlled trial to isolate the effects of fasting and energy restriction on weight loss and metabolic health in lean adults

Author

Templeman, Iain, Smith, Harry Alex, Chowdhury, Enhad, Chen, Yung-Chih, Carroll, Harriet, Johnson-Bonson, Drusus, Hengist, Aaron, Smith, Rowan, Creighton, Jade, Clayton, David, Varley, Ian, Karagounis, Leonidas Georgios, Wilhelmsen, Andrew, Tsintzas, Kostas, Reeves, Sue, Walhin, Jean-Philippe, Gonzalez, Javier Thomas, Thompson, Dylan, and Betts, James Alexander

Abstract

Daily energy restriction more effectively reduces body fat content than alternate-day fasting, with no evidence of fasting-specific health benefits.

Published

2021