Meal-Timing Strategies Appear to Lower Appetite, Improve Fat Burning

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Released: Monday, July 29, 2019

Baton Rouge, Louisiana — Researchers have discovered that meal-timing strategies such as intermittent fasting or eating earlier in the day appear to help people lose weight by lowering appetite rather than burning more calories, according to a report published in the journal Obesity, the flagship journal of The Obesity Society. The study is the first to show how meal timing affects 24-hour energy metabolism when food intake and meal frequency are matched.

"Coordinating meals with circadian rhythms, or your body's internal clock, may be a powerful strategy for reducing appetite and improving metabolic health," said Eric Ravussin, PhD, first author of the study and Associate Executive Director for Clinical Science at LSU's Pennington Biomedical Research Center.

"We suspect that a majority of people may find meal-timing strategies helpful for losing weight or to maintain their weight since these strategies naturally appear to curb appetite, which may help people eat less," said Courtney M. Peterson, PhD, the lead researcher on the study and an assistant professor in the Department of Nutrition Sciences at the University of Alabama at Birmingham.

The research was performed at Pennington Biomedical, one of the world's top obesity research centers. The scientists found that meal-timing strategies may also help people burn more fat on average during a 24-hour period. Early Time-Restricted Feeding (eTRF) — a form of daily intermittent fasting where dinner is eaten in the afternoon — helped to improve people's ability to switch between burning carbohydrates for energy to burning fat for energy, an aspect of metabolism known as metabolic flexibility. The study's authors said, however, that the results on fat-burning are preliminary. "Whether these strategies help people lose body fat need to be tested and confirmed in a much longer study," said Peterson.

For the study, researchers enrolled 11 adult men and women who had excess weight. Participants were recruited between November 2014 and August 2016. Adults, in general good health, aged 20-to-45-years old were eligible to participate if they had a body mass index between 25 and 35 kg/m2 (inclusive), body weight between 68 and 100 kg (149.9 and 220.5 pounds), a regular bedtime between 9:30 p.m. and 12 a.m., and for women, a regular menstrual cycle.

Participants tried two different meal-timing strategies in random order: a control schedule where participants ate three meals during a 12-hour period with breakfast at 8:00 a.m. and dinner at 8:00 p.m. and an eTRF schedule where participants ate three meals over a six-hour period with breakfast at 8:00 a.m. and dinner at 2:00 p.m. The same amounts and types of foods were consumed on both schedules. Fasting periods for the control schedule included 12 hours per day, while the eTRF schedule involved fasting for 18 hours per day.

Study participants followed the different schedules for four days in a row. On the fourth day, researchers measured the metabolism of participants by placing them in a metabolic chamber — a roomlike device —where researchers measured how many calories, carbohydrates, fat and protein were burned. Researchers also measured the appetite levels of participants every three hours while they were awake, as well as hunger hormones in the morning and evening.

Although eTRF did not significantly affect how many calories participants burned, the researchers found that eTRF did lower levels of the hunger hormone ghrelin and improved some aspects of appetite. It also increased fat-burning over the 24-hour day.

Researchers were able to gain some insight into daily intermittent fasting (time restricted-feeding), as well as meal-timing strategies that involve eating earlier in the daytime to be in sync with circadian rhythms. The researchers believe that these two broader classes of meal-timing strategies may have similar benefits to eTRF.

The researchers said prior studies were conflicted on whether meal-timing strategies help with weight loss by helping people burn more calories or by lowering appetite. Studies in rodents suggest such strategies burn more calories, but data from human studies were conflicting—some studies suggested meal-timing strategies increase calories burned, but other reports showed no difference. The study's authors said, however, that previous studies did not directly measure how many calories people burned or were incomplete in other ways.

Other study authors include Pennington Biomedical's Daniel S. Hsia, MD, and Associate Professor, and Robbie A. Beyl, PhD, and Assistant Professor; Courtney Peterson, PhD, and Assistant Professor in the Department of Nutrition Sciences at the University of Alabama at Birmingham; and Eleonora Poggiogalle, formerly of Pennington Biomedical and currently with Sapienza University in Rome, Italy.

This work was supported by the National Center for Advancing Translational Sciences and the National Institute of General Medical Sciences, both of the National Institutes of Health, under award numbers KL2TR001419 and U54GM104940, the latter of which funds the Louisiana Clinical & Translational Science Center; and the National Institute of Diabetes and Digestive and Kidney Diseases of the National Institutes of Health under award number P30DK072476, which funds Pennington Biomedical's Nutrition Obesity Research Center.

The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health.

The study, titled "Early Time-Restricted Feeding Reduces Appetite and Increases Fat Oxidation But Does Not Affect Energy Expenditure in Humans," will be published in the print issue of Obesity in August.

 

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About the Pennington Biomedical Research Center

Pennington Biomedical Research Center is at the forefront of medical discovery as it relates to understanding the triggers of obesity, diabetes, cardiovascular disease, cancer and dementia. The Center conducts basic, clinical, and population research, and is affiliated with Louisiana State University. The research enterprise at Pennington includes over 450 employees within a network of 40 clinics and research laboratories, and 13 highly specialized core service facilities. Its scientists and physician/scientists are supported by research trainees, lab technicians, nurses, dietitians, and other support personnel. Pennington Biomedical is located in state-of-the-art research facilities on a 222-acre campus in Baton Rouge, Louisiana.