Weight Loss
Episodes
In this clip, Drs. Rhonda Patrick and Layne Norton discuss calorie tracking, weight-loss self-deception, and misconceptions about metabolism and food.
Dr. Rhonda Patrick discusses GLP-1 agonists, alpha-lipoic acid, ubiquinone vs. ubiquinol, calcium needs, and liquid biopsy cancer screening.
In this clip, Dr. Layne Norton discusses diet soda, weight loss, artificial sweeteners, insulin, microbiome, and health risks.
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In this clip, Drs. Rhonda Patrick and Layne Norton discuss calorie tracking, weight-loss self-deception, and misconceptions about metabolism and food.
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Dr. Rhonda Patrick discusses GLP-1 agonists, alpha-lipoic acid, ubiquinone vs. ubiquinol, calcium needs, and liquid biopsy cancer screening.
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In this clip, Dr. Layne Norton discusses diet soda, weight loss, artificial sweeteners, insulin, microbiome, and health risks.
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In this clip, Dr. Rhonda Patrick explores Ozempic, covering appetite reduction, weight maintenance, muscle loss, efficacy, and side effects.
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Exercise Nutrition Obesity Metabolism Muscle Polyunsaturated Fat Saturated Fat Time-Restricted Eating Protein Weight Loss Strength SupplementsDr. Layne Norton and I discuss fat loss, resistance training, seed oils, the carnivore diet, artificial sweeteners, and much more.
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In this clip, Dr. Martin Gibala discusses the 'afterburn effect' and its impact on post-workout metabolism.
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Rhonda Nutrition Parkinson's Microbiome Omega-3 Sulforaphane Sauna Weight Loss Intestinal Permeability CocoaDr. Rhonda Patrick answers audience questions on various health, nutrition, and science topics in this Q&A session.
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In this clip, Dr. Dominic D'Agostino outlines the advantages and disadvantages of various ways of quantifying ketosis.
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In this clip, Dr. Dominic D'Agostino describes how breath acetone concentration is a non-invasive tool for measuring fat loss.
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Rhonda Vitamin D Exercise Obesity Vitamin C Pregnancy Muscle Sulforaphane Sauna Time-Restricted Eating Blood Sugar Weight Loss NAD+Dr. Rhonda Patrick answers audience questions on various health, nutrition, and science topics in this Q&A session.
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Dr. Rhonda Patrick describes the effects of endogenous ketones on fat metabolism during a fast.
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Dr. Ruth Patterson discusses the beneficial effects that time-restricted eating can have on the biomarkers of health - independent of weight loss.
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Rhonda Vitamin D Brain Alzheimer's Gut Microbiome Sleep Fasting Autophagy Sauna Vegetarian Weight Loss Supplements Ketogenic Diet Wearable Technology Blood TestDr. Rhonda Patrick answers audience questions on various health, nutrition, and science topics in this Q&A session.
Topic Pages
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Exercise and Weight Loss
Exercise is promoted widely as a strategy for weight loss as it increases total daily energy expenditure and creates an energy deficit.
News & Publications
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Artificial sweeteners like sucralose are marketed as healthier alternatives to sugar, but they may send mixed signals to the brain. A recent study found that sucralose increased hunger and altered activity in the part of the brain that regulates appetite, with effects differing by body weight.
Researchers asked 75 young adults—some with a healthy weight and some with overweight or obesity—to drink a beverage sweetened with either sucralose (often marketed as Splenda), sucrose (table sugar), or plain water on three separate occasions. Afterward, the researchers measured the participants' blood glucose levels, collected their self-reported hunger ratings, and conducted brain scans to examine activity and connectivity in key regions involved in appetite control.
Compared to sugar, sucralose increased blood flow to the hypothalamus and promoted stronger feelings of hunger. Sucralose also heightened hypothalamic activity more than water but didn’t influence hunger. Only sugar elevated blood glucose levels, an increase linked to reduced activity in the hunger-regulating regions of the brain.
Interestingly, the brain’s response to sucralose differed based on body weight: In people with a healthy weight, sucralose enhanced connections between the hypothalamus and areas involved in attention and decision-making. In those with overweight, sucralose diminished connections to brain regions that process bodily sensations. And those with obesity exhibited little to no change in these neural connections. Compared to water, both sweeteners elicited distinct patterns of brain activity depending on weight status.
These findings suggest that sucralose interferes with the brain’s normal appetite-regulating signals by mimicking sweetness without delivering the expected rise in blood sugar. This mismatch appears to increase hunger and alter brain connectivity in ways that vary depending on body weight. Artificial sweeteners also affect the gut microbiome. Learn more in this clip featuring Dr. Eran Elinav.
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Omega-3 supplementation combined with exercise improves body composition and cardiometabolic health more effectively than exercise alone, including a notable 10% decrease in triglyceride levels. pubmed.ncbi.nlm.nih.gov
Taking an omega-3 supplement may do more than support heart health—it might enhance the effects of your workout. A recent study found that combining omega-3 supplementation with exercise training improved body composition and cardiometabolic health better than exercise alone.
Researchers conducted a systematic review and meta-analysis of 21 studies comparing exercise training combined with omega-3 supplementation to exercise training alone. The studies involved 673 adults aged 30 to 70, with an average body mass index (BMI) of 24 to 37. The analysis focused on outcomes such as body fat, blood pressure, blood fats, blood sugar, inflammation, and muscle mass, while accounting for variations across the studies.
They found that adding omega-3 supplements to an exercise routine resulted in modest improvements. Participants lost just over 1 kilogram (2.3 pounds) more body fat and lowered their triglyceride levels by 10% compared to those who exercised without supplements. They also experienced drops in blood pressure—around 4 mmHg lower for both systolic and diastolic pressures—and slightly reduced levels of tumor necrosis factor-alpha, a marker of inflammation. However, LDL cholesterol increased slightly. Notably, participants also improved their lower-body strength but observed no additional benefits in other areas such as BMI, lean body mass, or blood glucose control.
These findings indicate that omega-3 supplements enhance certain health benefits of exercise, particularly in decreasing fat mass, lowering blood pressure, and boosting muscle strength. Although the changes were modest, they could accumulate over time, especially for adults aiming to improve their cardiometabolic health. Some evidence suggests that omega-3s exert anabolic effects, too. Learn more in this episode featuring Dr. Chris McGlory.
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Intermittent fasting three nonconsecutive days per week coupled with regular exercise promotes more weight loss than daily calorie restriction. www.acpjournals.org
Diets that require daily calorie cutting are hard to adhere to, and most people gain the weight back within a year. Intermittent fasting, which involves eating very little on some days and freely on others, might offer a more sustainable alternative. A recent study found that fasting three nonconsecutive days per week promoted more weight loss than daily calorie restriction as part of a comprehensive weight loss program.
Researchers assigned 165 adults aged 18 to 60 with a body mass index between 27 and 46 to one of two diet plans. One group followed a 4:3 intermittent fasting schedule, eating freely on four days of the week and cutting calories by 80% on three nonconsecutive days each week. The second group followed a daily calorie restriction (about 34% less than baseline needs) to match the same total weekly calorie reduction. Both groups also participated in a year-long behavioral weight loss program that included group support and a goal of 300 minutes of moderate exercise weekly.
After 12 months, participants in the intermittent fasting group lost roughly 6.4 pounds more, on average, than those in the daily calorie restriction group. Just over three-fourths of participants completed the study. The difference in weight loss between the two groups was small but statistically meaningful.
These findings suggest that intermittent fasting offers a modest advantage over daily calorie restriction for people trying to lose weight, especially when paired with regular exercise and behavioral support. Learn more about the health benefits of intermittent fasting in this clip featuring Dr. Mark Mattson.
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GLP-1 receptor agonists may lower risks for major illnesses like dementia and seizures. www.nature.com
Ozempic, Wegovy, and other glucagon-like peptide-1 (GLP-1) drugs have catapulted into the mainstream of diabetes care, with more than 15 million people in the U.S. currently taking one. Evidence suggests GLP-1 drugs have many off-target effects—both good and bad—but healthcare providers don’t currently know the full extent of the drugs' effects. However, a recent analysis found that GLP-1s may reduce the risk of dementia, seizures, respiratory illnesses, cardiometabolic disorders, and certain infections more effectively than other diabetes drugs and typical care.
Using the U.S. Department of Veterans Affairs healthcare databases, researchers identified roughly two million people with diabetes who were using a GLP-1 drug, one of three common anti-diabetes drugs (sulfonylureas, DPP4 inhibitors, or SGLT2 inhibitors), or continuing their usual care without adding new therapies. They tracked the participants' health for about 3.6 years.
They found that GLP-1 use was associated with a reduced risk of dementia (8%), seizures (10%), respiratory illnesses (10% to 25%), cardiometabolic disorders (7% to 22%), and certain infections (12% to 25%). However, the drugs were associated with an increased risk of gastrointestinal issues (5% to 20%), low blood pressure (10%), kidney problems (10% to 15%), arthritic disorders (10% to 16%), and pancreatitis (15% to 20%).
These findings suggest that GLP-1 receptor agonists offer promising benefits for people with diabetes while highlighting potential risks. Further research will illuminate the full range of the drugs' effects. Learn more about GLP-1 drugs in this clip featuring Dr. Rhonda Patrick.
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High-protein, low-calorie diets—whether animal or plant-based—lead to an average weight loss of ~18 pounds and improved glucose metabolism in people at risk for type 2 diabetes. dom-pubs.pericles-prod.literatumonline.com
The global obesity epidemic is driving a marked increase in the incidence of type 2 diabetes, and some experts estimate that by 2024, more than 780 million adults worldwide will develop the disease. A recent study found that high-protein, low-calorie diets promote weight loss and improve cardiometabolic markers in people at risk for type 2 diabetes.
The study involved 117 adults with either prediabetes or type 2 diabetes and a body mass index (BMI) over 27.5—considered overweight or obese. Participants consumed an animal- or plant-based high-protein diet that provided 35% of their total calories for six months. The remainder of their calories came from fat (30%) and carbohydrates (35%).
Participants in both groups saw similar improvements in body composition, including an average weight loss of approximately 8 kilograms (~18 pounds) and reduced visceral (abdominal) fat. Glucose metabolism indicators, such as fasting glucose and glycated hemoglobin levels, improved equally in both groups, as did lipid levels, liver enzymes, and inflammatory markers.
These findings suggest that high-protein, low-calorie diets—whether animal- or plant-based—can improve body composition, glucose metabolism, and other cardiometabolic markers in people with prediabetes or type 2 diabetes.
Dietary protein supports muscle hypertrophy and maintenance—critical aspects of glucose metabolism. Learn how to optimize protein intake to support muscle health when following a plant-based diet in this clip featuring Dr. Luc van Loon.
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Seventy percent of adults living in the United States have overweight (BMI greater than 25) or obesity (BMI greater than 30), putting them at increased risk of metabolic disease. Extra fat stored around the body promotes inflammation and insulin resistance, but extra abdominal fat is particularly dangerous. Findings of a recent report suggest consuming foods rich in unsaturated fat and dietary fiber may improve fat distribution in females.
Fat stored in the lower body, called subcutaneous fat, is located just under the skin. Fat stored in the abdominal region, called visceral fat, is wrapped around the internal organs (e.g., the liver, pancreas, and intestines). Visceral fat interferes with lipid metabolism in the liver, promoting insulin resistance, type 2 diabetes, and non-alcoholic fatty liver disease. A diet that includes avocados, which are rich in mono-unsaturated fats and dietary fiber, is associated with lower abdominal obesity.
The investigators recruited 105 adults between the ages of 25 and 45 years who had overweight or obesity. They assigned participants to receive meals with avocado (about one Hass avocado) or meals without avocado that were matched for calories and total fat. The two meals contained different amounts of saturated fat, unsaturated fat, and fiber. Participants consumed their assigned meals once per day for 12 weeks and were told not to change their diet in other ways. Participants completed an oral glucose tolerance test to measure insulin resistance and had their body composition measured using X-ray.
In females, avocado consumption decreased visceral adiposity and the ratio of visceral to subcutaneous fat, indicating an improvement in body fat distribution. Both males and females in the control group experienced a loss of subcutaneous fat and an increase in the ratio of visceral to subcutaneous fat, indicating a worsening of body composition over the 12 weeks. Avocado consumption had no effect on insulin resistance.
The authors concluded that avocado consumption improved body fat distribution in females, but had no effects on body fat distribution in males or on insulin resistance in either males or females.
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Increases in brain-derived neurotrophic factor from aerobic exercise associated with appetite suppression, weight loss, and improved blood pressure www.sciencedaily.com
From the article:
The team evaluated blood levels of BDNF before and after a three-month program of aerobic exercise in 15 overweight or obese men and women. The seven men and eight women, ages 26 to 51, worked out on a treadmill and bicycle. They were asked about their calorie intake and told to continue eating their usual number of calories. The participants were unaware that one of the study’s objectives was to evaluate changes in food intake.
At the end of the study, the subjects had decreased BMI, waist circumference, and blood pressure, the data showed. They also reported consuming fewer calories than at the beginning of the study. Over the three months, BDNF levels greatly increased. This higher the concentration of BDNF, the less the subject’s intake of calories and the greater the weight loss, Araya said.
Thus, it is possible that increases in BDNF suppress appetite, she said. They did not test appetite suppression directly, but some past studies have shown that aerobic exercise suppresses appetite.
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Increased visceral fat impairs cognition through chronic microglial activation mediated by IL-1 beta release [animal research] www.sciencedaily.com
Scientists find that visceral fat, a type of adipose tissue that produces high levels of inflammatory signals known as adipokines, impair learning and memory in mice by setting off an inflammatory cascade mediated by the release of IL-1 beta, which crosses the blood-brain barrier leading to chronic activation of microglia.
From the article:
“We have identified a specific signal that is generated in visceral fat, released into the blood that gets through the blood brain barrier and into the brain where it activates microglia and impairs cognition.”
Visceral fat as the ring leader:
They looked further and found that just transplanting the visceral fat caused essentially the same impact as obesity resulting from a high-fat diet, including significantly increasing brain levels of interleukin-1 beta and activating microglia. Mice missing interleukin-1 beta’s receptor on the microglia also were protected from these brain ravages.
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To measure cognitive ability, the scientists looked at mice’s ability to navigate a water maze after 12 weeks on a high- or low-fat diet. They found it took the normal, or wild type, mice consuming the higher fat diet as well as the visceral transplant recipients with NLRP3 intact longer to negotiate the water maze. In fact, while they could reach a platform they could see, they had trouble finding one beneath the water’s surface that they had been taught to find. Mice with the interleukin-1 receptor knocked out, could find it just fine, Stranahan says.
The high-fat diet, transplant mice also had weaker connections, or synapses, between neurons involved in learning and memory. Mice on a high-fat diet but missing NLRP3 were spared these changes, like mice on a low-fat diet.
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When healthy, lean individuals ate a Western-style diet for one week, their hippocampal-dependent learning and memory and appetite control declined. royalsocietypublishing.org
The Western Style Diet, sometimes referred to as Standard American Diet (SAD), is a dietary pattern characterized by high intake of refined carbohydrates, fatty meats, added fats, and sodium, and low intake of whole grains, fruits, and vegetables. The Western dietary pattern has been implicated in the pathogenesis of many chronic diseases and conditions, including overweight and obesity, type 2 diabetes, high blood pressure, and heart disease. Findings from a recent study suggest that the Western dietary pattern impairs hippocampus-dependent learning and memory and drives loss of appetite control.
The hippocampus is a small organ located within the brain’s medial temporal lobe. It is associated primarily with memory (in particular, the consolidation of short-term memories to long-term memories), learning, and spatial navigation. Data from rodent studies suggest that adherence to a Western dietary pattern impairs hippocampal-dependent learning and memory (HDLM). The hippocampus also plays a role in food intake by regulating appetite. Altered hippocampal function subsequent to exposure to a Western-style diet may create a vicious cycle state that promotes increased consumption of unhealthy foods that, in turn, drives further hippocampal dysfunction.
The study involved 110 lean, healthy Australian adults between the ages of 17 and 35 years who adhered to a healthy, non-restrictive dietary pattern. The authors of the study randomized the participants to either a one-week Western-style diet intervention group or a habitual-diet control group.
On the first and eighth days of the study, the participants in the Western diet group ate a breakfast that included a toasted sandwich and a milkshake (high in saturated fat and added sugar). On the second through seventh days of the study, the participants ate two Belgian waffles for either breakfast or dessert for four of the study days. On the other two study days, they obtained their main meal and a drink or dessert from a set of options from a popular fast-food chain. They followed their normal dietary pattern for all other meals. The participants in the control group ate a breakfast consisting of a toasted sandwich and a milkshake (low in saturated fat and added sugar) on the first and eighth days and followed their normal diet for all other meals.
The authors of the study assessed the participants' HDLM function as well as their appetite control before and after the intervention and control periods and again at a three-week follow-up assessment. They found that among those who followed the Western-style diet, HDLM performance declined, compared to the control group. Their appetite control declined as well, and this was strongly correlated with HDLM decline.
These findings suggest that even short-term consumption of a Western-style diet may impair learning and appetite control due to impaired hippocampal function. This lack of appetite control could promote overeating and drive weight gain.
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Eating a low-fat diet may reduce testosterone levels in men. www.eurekalert.org
As many as half of all men living in the United States have low testosterone levels, a condition characterized by libido loss and erectile dysfunction. Lifestyle modifications such as exercise and diet (to promote weight loss) are often recommended as a means to restore testosterone levels. Findings from a new study suggest that eating a lower-fat diet may contribute to low testosterone levels.
The study drew on data from 3,100 men between the ages of 18 and 80 years who were enrolled in NHANES studies between 1998 and 2012. The participants completed 2-day diet records and provided blood samples for testosterone analysis. The men’s diets were classified as low fat, low carbohydrate, Mediterranean, or non-restrictive.
Men who ate a low fat or Mediterranean diet had lower testosterone levels on average than men who ate a non-restrictive diet. These findings suggest that low-fat dietary recommendations for men who have low testosterone may have unintended consequences that should be weighed against any possible benefits associated with weight loss.