food
Planning Your Holidays During the COVID-19 Pandemic
Posted on by Dr. Francis Collins
With the holiday season fast approaching and coronavirus disease 2019 (COVID-19) surging in most parts of the country, millions of Americans—including me and my family—will break with tradition this year to celebrate in ways that we hope will help to keep us all safe and healthy. Granted, this may present some difficult emotional and logistical challenges, but I’m confident that the American can-do spirit will rise to meet those challenges.
I also recognize that this will be hard for many of us. Celebrating holidays alone or with your immediate household members can sound rather dreary. After all, who wants to roast and carve a turkey for just a few people? But, if you look at it another way, the pandemic does offer opportunities to make this holiday a season to remember in new and different ways. Here are a couple of ideas that you may want to consider:
Send Gifts. Although COVID-19 has changed our lives in many ways, sending cards or gifts remains a relatively easy way to let loved ones know that you’re thinking of them. Who wouldn’t want to receive some home-baked goodies, a basket of fresh fruit, or a festive wreath? If you enjoy knitting, candle making, or other ways of crafting gifts for the holidays, now’s the time to start planning for Thanksgiving through the New Year.
Make Videos. When I’m visiting family, there is often music involved—with guitar, piano, and maybe some singing. But, this year, I’ll have to be content with video recording a few songs and sending them to others by text or email. Come to think of it, the kids and the grandkids might enjoy these songs just as much—or even more—if they can watch them at a time and place that works best for them. (On the other hand, some of them might roll their eyes and decide not to open that video file!) If you don’t play a guitar or like to sing, you can still make your own holiday-themed videos. Maybe share a dance routine, a demonstration of athletic skill, or even some stand-up comedy. The key is to have fun and let your imagination run free.
Share a Meal Remotely. Most of our end-of-the-year holidays involve the family sitting around a table overflowing with delicious food. With all of the videoconferencing platforms now available, it is easy to set aside a block of time to share a meal and good conversation remotely with friends and family members, whether they live nearby or across the country. Rather than one cook slaving over a hot stove or a certain person monopolizing the dinner table conversation, everyone gets a chance to cook and share their stories via their smartphone, tablet, or laptop. You can compare your culinary creations, swap recipes, and try to remember to leave room for dessert. If you have a tradition of playing games or giving thanks for your many blessings, you can still do many of these activities remotely.
Take an After-Dinner Walk. Due to the physical demands and psychological impacts of the COVID-19 pandemic, it’s been difficult for many of us to stay physically active. The key is making exercise a daily priority, and the holidays are no different. After your holiday meal, go on a virtual group walk through your respective neighborhoods to work off the food. Thanks to your smartphone’s camera, you can share your time outdoors and all of the interesting sights along the way. (Yes, the new playground in the local park looks fantastic, and the neighbors really did just paint their house purple!)
Stay Safe. If you plan to go ahead and join a holiday gathering in person, it’s important to remain vigilant, even when interacting with dear friends and loved ones. The greatest risk for spread of COVID-19 right now is these family gatherings. Remember there are risks associated with travel and with interacting with people who’ve not been tested for the coronavirus prior to the event, especially if they reside in a COVID hot spot—which is almost everywhere these days. Try to keep any family gatherings brief and relatively small, about five people or less. If the weather permits, hold the get-together outdoors.
To protect yourself and your loved ones, both now and over the holidays, please follow these 3 W’s:
• Wear a mask when you are out in public and when you are indoors with people who are not part of your immediate household. The only exception is while eating or drinking!
• Watch your distance, staying at least 6 feet away from people who are not part of your immediate household.
• Wash your hands thoroughly and frequently.
Making all of these adjustments is a lot to consider when you’re trying to have a good time and there are children and older adults in the mix. That’s why I and my wife Diane decided the best plan for us this holiday season is to stay home in Maryland and forgo our traditional trips to family in Michigan and North Carolina. Not only did we want to reduce the risk of possibly contracting COVID-19 from—or transmitting it to—our faraway loved ones, we want to do everything we can to protect our local friends and co-workers from the coronavirus.
While this holiday season is likely to be memorable in ways that we never could have imagined, I’m confident that, thanks to the rapid advances being made by medical research, we ultimately will get the COVID-19 pandemic under control so we can once again give everyone we love a big hug in person. Until then, please stay safe. Wishing each of you a wonderful and healthful holiday season, starting with a Happy Thanksgiving!
Links:
Coronavirus (COVID) (NIH)
Your Health: Holiday Celebrations and Small Gatherings (Centers for Disease Control and Prevention, Atlanta)
Your Health: Personal and Social Activities (CDC)
Why When You Eat Might Be as Important as What You Eat
Posted on by Dr. Francis Collins
About 1 in 3 American adults have metabolic syndrome, a group of early warning signs for increased risk of type 2 diabetes, heart disease, and stroke. To help avoid such health problems, these folks are often advised to pay close attention to the amount and type of foods they eat. And now it seems there may be something else to watch: how food intake is spaced over a 24-hour period.
In a three-month pilot study, NIH-funded researchers found that when individuals with metabolic syndrome consumed all of their usual daily diet within 10 hours—rather than a more customary span of about 14 hours—their early warning signs improved. Not only was a longer stretch of daily fasting associated with moderate weight loss, in some cases, it was also tied to lower blood pressure, lower blood glucose levels, and other improvements in metabolic syndrome.
The study, published in Cell Metabolism, is the result of a joint effort by Satchidananda Panda, Salk Institute for Biological Sciences, La Jolla, CA, and Pam R. Taub, University of California, San Diego [1]. It was inspired by Panda’s earlier mouse studies involving an emerging dietary intervention, called time-restricted eating (TRE), which attempts to establish a consistent daily cycle of feeding and fasting to create more stable rhythms for the body’s own biological clock [2, 3].
But would observations in mice hold true for humans? To find out, Panda joined forces with Taub, a cardiologist and physician-scientist. The researchers enlisted 19 men and women with metabolic syndrome, defined as having three or more of five specific risk factors: high fasting blood glucose, high blood pressure, high triglyceride levels, low “good” cholesterol, and/or extra abdominal fat. Most participants were obese and taking at least one medication to help manage their metabolic risk factors.
In the study, participants followed one rule: eat anything that you want, just do so over a 10-hour period of your own choosing. So, for the next three months, these folks logged their eating times and tracked their sleep using a special phone app created by the research team. They also wore activity and glucose monitors.
By the pilot study’s end, participants following the 10-hour limitation had lost on average 3 percent of their weight and about 3 percent of their abdominal fat. They also lowered their cholesterol and blood pressure. Although this study did not find 10-hour TRE significantly reduced blood glucose levels in all participants, those with elevated fasting blood glucose did have improvement. In addition, participants reported other lifestyle improvements, including better sleep.
The participants generally saw their metabolic health improve without skipping meals. Most chose to delay breakfast, waiting about two hours after they got up in the morning. They also ate dinner earlier, about three hours before going to bed—and then did no late night snacking.
After the study, more than two-thirds reported that they stuck with the 10-hour eating plan at least part-time for up to a year. Some participants were able to cut back or stop taking cholesterol and/or blood-pressure-lowering medications.
Following up on the findings of this small study, Taub will launch a larger NIH-supported clinical trial involving 100 people with metabolic syndrome. Panda is now exploring in greater detail the underlying biology of the metabolic benefits observed in the mice following TRE.
For people looking to improve their metabolic health, it’s a good idea to consult with a doctor before making significant changes to one’s eating habits. But the initial data from this study indicate that, in addition to exercising and limiting portion size, it might also pay to watch the clock.
References:
[1] Ten-hour time-restricted eating reduces weight, blood pressure, and atherogenic lipids in patients with metabolic syndrome. Wilkinson MJ, Manoogian ENC, Zadourian A, Lo H, Fakhouri S, Shoghi A, Wang X, Fleisher JG, Panda S, Taub PR. Cell Metab. 2019 Jan 7; 31: 1-13. Epub 2019 Dec 5.
[2] Time-restricted feeding without reducing caloric intake prevents metabolic diseases in mice fed a high-fat diet. Hatori M, Vollmers C, Zarrinpar A, DiTacchio L, Bushong EA, Gill S, Leblanc M, Chaix A, Joens M, Fitzpatrick JA, Ellisman MH, Panda S. Cell Metab. 2012 Jun 6;15(6):848-60.
[3] Time-restricted feeding is a preventative and therapeutic intervention against diverse nutritional challenges. Chaix A, Zarrinpar A, Miu P, Panda S. Cell Metab. 2014 Dec 2;20(6):991-1005.
Links:
Metabolic Syndrome (National Heart, Lung, and Blood Institute/NIH)
Obesity (National Institute of Diabetes and Digestive and Kidney Diseases/NIH)
Body Weight Planner (NIDDK/NIH)
Satchidananda Panda (Salk Institute for Biological Sciences, La Jolla, CA)
Taub Research Group (University of California, San Diego)
NIH Support: National Institute of Diabetes and Digestive and Kidney Diseases
Americans Are Still Eating Too Much Added Sugar, Fat
Posted on by Dr. Francis Collins
Most of us know one of the best health moves we can make is to skip the junk food and eat a nutritious, well-balanced diet. But how are we doing at putting that knowledge into action? Not so great, according to a new analysis that reveals Americans continue to get more than 50 percent of their calories from low-quality carbohydrates and artery-clogging saturated fat.
In their analysis of the eating habits of nearly 44,000 adults over 16 years, NIH-funded researchers attributed much of our nation’s poor dietary showing to its ongoing love affair with heavily processed fast foods and snacks. But there were a few bright spots. The analysis also found that, compared to just a few decades ago, Americans are eating more foods with less added sugar, as well as more whole grains (e.g., brown rice, quinoa, rolled oats), plant proteins (e.g., nuts, beans), and sources of healthy fats (e.g., olive oil).
Over the last 20-plus years, research has generated new ideas about eating a proper diet. In the United States, the revised thinking led to the 2015-2020 Dietary Guidelines for Americans. They recommend eating more fruits, vegetables, whole grains, and other nutrient-dense foods, while limiting foods containing added sugars, saturated fats, and salt.
In the report published in JAMA, a team of researchers wanted to see how Americans are doing at following the new guidelines. The team was led by Shilpa Bhupathiraju, Harvard T. H. Chan School of Public Health, Boston, and Fang Fang Zhang, Tufts University, Boston.
To get the answer, the researchers looked to the National Health and Nutrition Examination Survey (NHANES). The survey includes a nationally representative sample of U.S. adults, age 20 or older, who had answered questions about their food and beverage intake over a 24-hour period at least once during nine annual survey cycles between 1999-2000 and 2015-2016.
The researchers assessed the overall quality of the American diet using the Healthy Eating Index-2015 (HEI-2015), which measures adherence to the 2015-2020 Dietary Guidelines. The HEI-2015 scores range from 0 to 100, with the latter number being a perfect, A-plus score. The analysis showed the American diet barely inching up over the last two decades from a final score of 55.7 to 57.7.
That, of course, is still far from a passing grade. Some of the common mistakes identified:
• Refined grains, starchy vegetables, and added sugars still account for 42 percent of the average American’s daily calories.
• Whole grains and fruits provide just 9 percent of daily calories.
• Saturated fat consumption remains above 10 percent of daily calories, as many Americans continue to eat more red and processed meat.
Looking on the bright side, the data do indicate more Americans are starting to lean toward the right choices. They are getting slightly more of their calories from healthier whole grains and a little less from added sugar. Americans are also now looking a little more to whole grains, nuts, and beans as a protein source. It’s important to note, though, these small gains weren’t seen in lower income groups or older adults.
The bottom line is most Americans still have an awfully long way to go to shape up their diets. The question is: how to get there? There are plenty of good choices that can help to turn things around, from reading food labels and limiting calories or portion sizes to exercising and finding healthy recipes that suit your palate.
Meanwhile, nutrition research is poised for a renaissance. Tremendous progress is being made in studying the microbial communities, or microbiomes, helping to digest our foods. The same is true for studies of energy metabolism, genetic variation influencing our dietary preferences, and the effects of aging.
This is an optimum time to enhance the science and evidence base for human nutrition. That may result in some updating of the scoring system for the nation’s dietary report card. But it will be up to all of us to figure out how to ace it.
References:
[1] Trends in Dietary Carbohydrate, Protein, and Fat Intake and Diet Quality Among US Adults, 1999-2016. Shan Z, Rehm CD, Rogers G, Ruan M, Wang DD, Hu FB, Mozaffarian D, Zhang FF, Bhupathiraju SN. JAMA. 2019 Sep 24;322(12):1178-1187.
Links:
Eat Right (National Heart, Lung, and Blood Institute/NIH)
Dietary Fats (MedlinePlus, National Library of Medicine/NIH)
ChooseMyPlate (U.S. Department of Agriculture)
Healthy Eating Index (Department of Agriculture)
NIH Nutrition Research Task Force (National Institute of Diabetes and Digestive and Kidney Disease/NIH)
Dietary Guidelines for Americans (U.S. Department of Health and Human Services)
Shilpa Bhupathiraju (Harvard T. H. Chan School of Public Health, Boston)
Fang Fang Zhang (Tufts University, Boston)
NIH Support: National Institute on Minority Health and Health Disparities; National Institute of Diabetes and Digestive and Kidney Diseases
Targeting the Microbiome to Treat Malnutrition
Posted on by Dr. Francis Collins
Credit: International Centre for Diarrhoeal Disease Research, Bangladesh
A few years ago, researchers discovered that abnormalities in microbial communities, or microbiomes, in the intestine appear to contribute to childhood malnutrition. Now comes word that this discovery is being translated into action, with a new study showing that foods formulated to repair the “gut microbiome” may help malnourished kids rebuild their health [1].
In a month-long clinical trial in Bangladesh, 63 children received either regular foods to treat malnutrition or alternative formulations for needed calories and nutrition that also encouraged growth of beneficial microbes in the intestines. The kids who ate the microbiome-friendly diets showed improvements in their microbiome, which helps to extract and metabolize nutrients in our food to help the body grow. They also had significant improvements in key blood proteins associated with bone growth, brain development, immunity, and metabolism; those who ate standard therapeutic food did not experience the same benefit.
Globally, malnutrition affects an estimated 238 million children under the age 5, stunting their normal growth, compromising their health, and limiting their mental development [2]. Malnutrition can arise not only from a shortage of food but from dietary imbalances that don’t satisfy the body’s need for essential nutrients. Far too often, especially in impoverished areas, the condition can turn extremely severe and deadly. And the long term effects on intellectual development can limit the ability of a country’s citizens to lift themselves out of poverty.
Jeffrey Gordon, Washington University School of Medicine in St. Louis, and his NIH-supported research team have spent decades studying what constitutes a normal microbiome and how changes can affect health and disease. Their seminal studies have revealed that severely malnourished kids have “immature” microbiomes that don’t develop in the intestine like the microbial communities seen in well nourished, healthy children of the same age.
Gordon and team have also found that this microbial immaturity doesn’t resolve when kids consume the usual supplemental foods [3]. In another study, they turned to mice raised under sterile conditions and with no microbes of their own to demonstrate this cause and effect. The researchers colonized the intestines of the germ-free mice with microbes from malnourished children, and the rodents developed similar abnormalities in weight gain, bone growth, and metabolism [4].
All of this evidence raised a vital question: Could the right combination of foods “mature” the microbiome and help to steer malnourished children toward a healthier state?
To get the answer, Gordon and his colleagues at the International Centre for Diarrhoeal Disease Research, Dhaka, Bangladesh, led by Tahmeed Ahmed, first had to formulate the right, microbiome-friendly food supplements, and that led to some interesting science. They carefully characterized over time the immature microbiomes found in Bangladeshi children treated for severe malnutrition. This allowed them to test their new method for analyzing how individual microbial species fluctuate over time and in relationship to one another in the intestine [5]. The team then paired up these data with measurements of a set of more than 1,300 blood proteins from the children that provide “readouts” of their biological state.
Their investigation identified a network of 15 bacterial species that consistently interact in the gut microbiomes of Bangladeshi children. This network became their means to characterize sensitively and accurately the development of a child’s microbiome and/or its relative state of repair.
Next, they turned to mice colonized with the same collections of microbes found in the intestines of the Bangladeshi children. Gordon’s team then tinkered with the animals’ diets in search of ingredients commonly consumed by young children in Bangladesh that also appeared to encourage a healthier, more mature microbiome. They did similar studies in young pigs, whose digestive and immune systems more closely resemble humans.
The Gordon team settled on three candidate microbiome-friendly formulations. Two included chickpea flour, soy flour, peanut flour, and banana at different concentrations; one of these two also included milk powder. The third combined chickpea flour and soy flour. All three contained similar amounts of protein, fat, and calories.
The researchers then launched a randomized, controlled clinical trial with children from a year to 18 months old with moderate acute malnutrition. These young children were enrolled into one of four treatment groups, each including 14 to 17 kids. Three groups received one of the newly formulated foods. The fourth group received standard rice-and-lentil-based meals.
The children received these supplemental meals twice a day for four weeks at the International Centre for Diarrhoeal Disease Research followed by two-weeks of observation. Mothers were encouraged throughout the study to continue breastfeeding their children.
The formulation containing chickpea, soy, peanut, and banana, but no milk powder, stood out above the rest in the study. Children taking this supplement showed a dramatic shift toward a healthier state as measured by those more than 1,300 blood proteins. Their gut microbiomes also resembled those of healthy children their age.
Their new findings published in the journal Science offer the first evidence that a therapeutic food, developed to support the growth and development of a healthy microbiome, might come with added benefits for children suffering from malnutrition. Importantly, the researchers took great care to design the supplements with foods that are readily available, affordable, culturally acceptable, and palatable for young children in Bangladesh.
A month isn’t nearly long enough to see how the new foods would help children grow and recover over time. So, the researchers are now conducting a much larger study of their leading supplement in children with histories of malnutrition, to explore its longer-term health effects for them and their microbiomes. The hope is that these new foods and others adapted for use around the world soon will help many more kids grow up to be healthy adults.
References:
[1] Effects of microbiota-directed foods in gnotobiotic animals and undernourished children. Gehrig JL, Venkatesh S, Chang HW, Hibberd MC, Kung VL, Cheng J, Chen RY, Subramanian S, Cowardin CA, Meier MF, O’Donnell D, Talcott M, Spears LD, Semenkovich CF, Henrissat B, Giannone RJ, Hettich RL, Ilkayeva O, Muehlbauer M, Newgard CB, Sawyer C, Head RD, Rodionov DA, Arzamasov AA, Leyn SA, Osterman AL, Hossain MI, Islam M, Choudhury N, Sarker SA, Huq S, Mahmud I, Mostafa I, Mahfuz M, Barratt MJ, Ahmed T, Gordon JI. Science. 2019 Jul 12;365(6449).
[2] Childhood Malnutrition. World Health Organization
[3] Persistent gut microbiota immaturity in malnourished Bangladeshi children. Subramanian S, Huq S, Yatsunenko T, Haque R, Mahfuz M, Alam MA, Benezra A, DeStefano J, Meier MF, Muegge BD, Barratt MJ, VanArendonk LG, Zhang Q, Province MA, Petri WA Jr, Ahmed T, Gordon JI. Nature. 2014 Jun 19;510(7505):417-21.
[4] Gut bacteria that prevent growth impairments transmitted by microbiota from malnourished children. Blanton LV, Charbonneau MR, Salih T, Barratt MJ, Venkatesh S, Ilkaveya O, Subramanian S, Manary MJ, Trehan I, Jorgensen JM, Fan YM, Henrissat B, Leyn SA, Rodionov DA, Osterman AL, Maleta KM, Newgard CB, Ashorn P, Dewey KG, Gordon JI. Science. 2016 Feb 19;351(6275).
[5] A sparse covarying unit that describes healthy and impaired human gut microbiota development. Raman AS, Gehrig JL, Venkatesh S, Chang HW, Hibberd MC, Subramanian S, Kang G, Bessong PO, Lima AAM, Kosek MN, Petri WA Jr, Rodionov DA, Arzamasov AA, Leyn SA, Osterman AL, Huq S, Mostafa I, Islam M, Mahfuz M, Haque R, Ahmed T, Barratt MJ, Gordon JI. Science. 2019 Jul 12;365(6449).
Links:
Childhood Nutrition Facts (Centers for Disease Control and Prevention)
Gordon Lab (Washington University School of Medicine in St. Louis)
International Centre for Diarrhoeal Disease Research (Dhaka, Bangladesh)
NIH Support: National Institute of Diabetes and Digestive and Kidney Diseases; National Institute of General Medical Sciences; National Institute of Arthritis and Musculoskeletal and Skin Diseases; National Center for Advancing Translational Sciences; National Cancer Institute
Ultra-Processed Diet Leads to Extra Calories, Weight Gain
Posted on by Dr. Francis Collins
If you’ve ever tried to lose a few pounds or just stay at a healthy weight, you’ve likely encountered a dizzying array of diets, each with passionate proponents: low carb, low fat, keto, paleo, vegan, Mediterranean, and so on. Yet most nutrition experts agree on one thing: it’s best to steer clear of ultra-processed foods. Now, there’s some solid scientific evidence to back up that advice.
In the first randomized, controlled study to compare the effects of ultra-processed with unprocessed foods, NIH researchers found healthy adults gained about a pound per week when they were given a daily diet high in ultra-processed foods, which often contain ingredients such as hydrogenated fats, high fructose corn syrup, flavoring agents, emulsifiers, and preservatives. In contrast, when those same people ate unprocessed whole foods, they lost weight.
Intriguingly, the weight differences on the two diets occurred even though both kinds of foods had been carefully matched from a nutritional standpoint, including calorie density, fiber, fat, sugar, and salt. For example, breakfast for the ultra-processed group might consist of a bagel with cream cheese and turkey bacon, while the unprocessed group might be offered oatmeal with bananas, walnuts, and skim milk.
The explanation for the differences appears to lie in the fact that study participants were free to eat as little or as much food as they wished at mealtimes and to snack between meals. It turns out that when folks were on the ultra-processed diet they ate significantly more—about 500 extra calories per day on average—than when they were on the unprocessed diet. And, as you probably know, more calories without more exercise usually leads to more weight!
This might not seem new to you. After all, it has been tempting for some time to suggest a connection between the rise of packaged, ultra-processed foods and America’s growing waistlines. But as plausible as it might seem that such foods may encourage overeating, perhaps because of their high salt, sugar, and fat content, correlation is not causation and controlled studies of what people actually eat are tough to do. As a result, definitive evidence directly tying ultra-processed foods to weight gain has been lacking.
To explore the possible connection in the study now reported in Cell Metabolism, researchers at NIH’s National Institute of Diabetes and Digestive and Kidney Diseases took advantage of the Metabolic Clinical Research Unit at the NIH Clinical Center, Bethesda, MD. The unit is specially equipped to study issues involving diet and metabolism.
The researchers asked 20 healthy men and women of stable weight to stay at the center for 28 days. Each volunteer was randomly assigned to eat either an ultra-processed or unprocessed diet for two consecutive weeks. At that point, they switched to the other diet for another two weeks.
Both diets consisted of three daily meals, and volunteers were given permission to eat as much food as they liked. Importantly, a team of dieticians had carefully designed the ultra-processed and unprocessed meals such that they were well matched for total calories, calorie density, macronutrients, fiber, sugars, and salt.
At lunch, for example, one of the study’s processed meals consisted of quesadillas, refried beans, and diet lemonade. An unprocessed lunch consisted of a spinach salad with chicken breast, apple slices, bulgur, and sunflower seeds with a side of grapes.
The main difference between each diet was the proportion of calories derived from ultra-processed versus unprocessed foods as defined by the NOVA diet classification system. This system categorizes food based on the nature, extent, and purpose of food processing, rather than its nutrient content.
Each week, researchers measured the energy expenditure, weight, and changes in body composition of all volunteers. After two weeks on the ultra-processed diet, volunteers gained about two pounds on average. That’s compared to a loss of about two pounds for those on the unprocessed diet.
Metabolic testing showed that people expended more energy on the ultra-processed diet. However, that wasn’t enough to offset the increased consumption of calories. As a result, participants gained pounds and body fat. The study does have some limitations, such as slight differences in the protein content of the two diets. and the researchers plan to address such issues in their future work.
During this relatively brief study, the researchers did not observe other telltale changes associated with poor metabolic health, such as a rise in blood glucose levels or fat in the liver. While a couple of pounds might not sound like much, the extra calories and weight associated with an ultra-processed diet would, over time, add up.
So, it appears that a good place to start in reaching or maintaining a healthy weight is to follow the advice shared by all those otherwise conflicting diet plans: work to eliminate or at least reduce ultra-processed foods in your diet in favor of a balanced variety of unprocessed, nutrient-packed foods.
Reference:
[1] Ultra-processed diets cause excess calorie intake and weight gain: An inpatient randomized controlled trial of ad libitum food intake. Hall KD et al. Cell Metab. 2019 May 16.
Links:
Obesity (National Institute of Diabetes and Digestive and Kidney Diseases/NIH)
Healthy Eating Plan (National Heart, Lung, and Blood Institute/NIH)
Body Weight Planner (NIDDK/NIH)
Kevin D. Hall (NIDDK/NIH)
Metabolic Clinical Research Unit (NIDDK/NIH)
NIH Support: National Institute of Diabetes and Digestive and Kidney Diseases
Study Finds No Benefit for Dietary Supplements
Posted on by Dr. Francis Collins
More than half of U.S. adults take dietary supplements [1]. I don’t, but some of my family members do. But does popping all of these vitamins, minerals, and other substances really lead to a longer, healthier life? A new nationwide study suggests it doesn’t.
Based on an analysis of survey data gathered from more than 27,000 people over a six-year period, the NIH-funded study found that individuals who reported taking dietary supplements had about the same risk of dying as those who got their nutrients through food. What’s more, the mortality benefits associated with adequate intake of vitamin A, vitamin K, magnesium, zinc, and copper were limited to food consumption.
The study, published in the Annals of Internal Medicine, also uncovered some evidence suggesting that certain supplements might even be harmful to health when taken in excess [2]. For instance, people who took more than 1,000 milligrams of supplemental calcium per day were more likely to die of cancer than those who didn’t.
The researchers, led by Fang Fang Zhang, Tufts University, Boston, were intrigued that so many people take dietary supplements, despite questions about their health benefits. While the overall evidence had suggested no benefits or harms, results of a limited number of studies had suggested that high doses of certain supplements could be harmful in some cases.
To take a broader look, Zhang’s team took advantage of survey data from tens of thousands of U.S. adults, age 20 or older, who had participated in six annual cycles of the National Health and Nutrition Examination Survey (NHANES) between 1999-2000 and 2009-2010. NHANES participants were asked whether they’d used any dietary supplements in the previous 30 days. Those who answered yes were then asked to provide further details on the specific product(s) and how long and often they’d taken them.
Just over half of participants reported use of dietary supplements in the previous 30 days. Nearly 40 percent reported use of multivitamins containing three or more vitamins.
Nutrient intake from foods was also assessed. Each year, the study’s participants were asked to recall what they’d eaten over the last 24 hours. The researchers then used that information to calculate participants’ nutrient intake from food. Those calculations indicated that more than half of the study’s participants had inadequate intake of vitamins D, E, and K, as well as choline and potassium.
Over the course of the study, more than 3,600 of the study’s participants died. Those deaths included 945 attributed to cardiovascular disease and 805 attributed to cancer. The next step was to look for any association between the nutrient intake and the mortality data.
The researchers found the use of dietary supplements had no influence on mortality. People with adequate intake of vitamin A, vitamin K, magnesium, zinc, and copper were less likely to die. However, that relationship only held for nutrient intake from food consumption.
People who reported taking more than 1,000 milligrams of calcium per day were more likely to die of cancer. There was also evidence that people who took supplemental vitamin D at a dose exceeding 10 micrograms (400 IU) per day without a vitamin D deficiency were more likely to die from cancer.
It’s worth noting that the researchers did initially see an association between the use of dietary supplements and a lower risk of death due to all causes. However, those associations vanished when they accounted for other potentially confounding factors.
For example, study participants who reported taking dietary supplements generally had a higher level of education and income. They also tended to enjoy a healthier lifestyle. They ate more nutritious food, were less likely to smoke or drink alcohol, and exercised more. So, it appears that people who take dietary supplements are likely to live a longer and healthier life for reasons that are unrelated to their supplement use.
While the study has some limitations, including the difficulty in distinguishing association from causation, and a reliance on self-reported data, its findings suggest that the regular use of dietary supplements should not be recommended for the general U.S. population. Of course, this doesn’t rule out the possibility that certain subgroups of people, including perhaps those following certain special diets or with known nutritional deficiencies, may benefit.
These findings serve up a reminder that dietary supplements are no substitute for other evidence-based approaches to health maintenance and eating nutritious food. Right now, the best way to live a long and healthy life is to follow the good advice offered by the rigorous and highly objective reviews provided by the U.S. Preventive Services Task Force [3]. Those tend to align with what I hope your parents offered: eat a balanced diet, including plenty of fruits, veggies, and healthy sources of calcium and protein. Don’t smoke. Use alcohol in moderation. Avoid recreational drugs. Get plenty of exercise.
References:
[1] Trends in Dietary Supplement Use Among US Adults From 1999-2012. Kantor ED, Rehm CD, Du M, White E, Giovannucci EL. JAMA. 2016 Oct 11;316(14):1464-1474.
[2] Association among dietary supplement use, nutrient intake, and mortality among U.S. adults. Chen F, Du M, Blumberg JB, Ho Chui KK, Ruan M, Rogers G, Shan Z, Zeng L, Zhang. Ann Intern Med. 2019 Apr 9. [Epub ahead of print].
[3] Vitamin Supplementation to Prevent Cancer and CVD: Preventive Medication. U.S. Preventive Services Task Force, February 2014.
Links:
Office of Dietary Supplements (NIH)
Healthy Eating Plan (National Heart, Lung, and Blood Institute/NIH)
National Health and Nutrition Examination Survey (Centers for Disease Control and Prevention, Atlanta)
U.S. Preventive Services Task Force (Rockville, MD)
Fang Fang Zhang (Tufts University, Boston)
NIH Support: National Institute on Minority Health and Health Disparities
Are Sports Organizations Playing a Role in America’s Obesity Problem?
Posted on by Dr. Francis Collins
Last September, the National Football League struck a deal with Frito-Lay that allowed the company to produce limited-edition bags of Tostitos tortilla chips, with each package bearing the logo of one of 19 featured NFL teams. Several months earlier, Major League Baseball announced that Nathan’s Famous would be its first-ever official hot dog. Now the first-ever comprehensive analysis of such food and beverage sponsorships by major sports organizations shows just how pervasive these deals are. The confusing messages they send about physical fitness and healthy eating habits can’t be helping our national problem with obesity [1].
Among the 10 sports organizations that young viewers watch most, from the NFL to Little League, the NIH-funded research team identified dozens of sponsors and hundreds of associated advertisements promoting food and beverage products. The vast majority of those ads touted unhealthy items, including chips, candies, sodas, and other foods high in fat, sodium, or sugar, and low in nutritional value.
Those findings are especially concerning in light of the latest figures from the National Health and Nutrition Examination Survey (NHANES), co-supported by NIH [2], It shows that, despite long-standing public health efforts to curb the obesity epidemic, more than 18 percent of young people in America remain obese. Among adults, the picture is even more discouraging: nearly 40 percent of American adults were obese in 2015-2016, up from about 34 percent in 2007-2008.
Unraveling the Biocircuitry of Obesity
Posted on by Dr. Francis Collins
Caption: Mouse neurons (purple), with their nuclei (blue) and primary cilia (green).
Credit: Yi Wang, Vaisse Lab, UCSF
Obesity involves the complex interplay of diet, lifestyle, genetics, and even the bacteria living in the gut. But there are other less-appreciated factors that are likely involved, and a new NIH-supported study suggests one that you probably never would have imagined: antenna-like sensory projections on brain cells.
The study in mice, published in the journal Nature Genetics [1], suggests these neuronal projections, called primary cilia, are a key part of a known “hunger circuit,” which receives signals from other parts of the body to control appetite. The researchers add important evidence in mouse studies showing that changes in the primary cilia can produce a short circuit, impairing the brain’s ability to regulate appetite and leading to overeating and obesity.
Snapshots of Life: Hardwired to Sense Food Texture
Posted on by Dr. Francis Collins
Credit: Zhang, Y.V., Aikin, T.J., Li, Z., and Montell, C., University of California, Santa Barbara
It’s a problem that parents know all too well: a child won’t eat because their oatmeal is too slimy or a slice of apple is too hard. Is the kid just being finicky? Or is there a biological basis for disliking food based on its texture? This image, showing the tongue (red) of a fruit fly (Drosophila melanogaster), provides some of the first evidence that biology could indeed play a role [1].
The image shows a newly discovered mechanosensory nerve cell (green), which is called md-L, short for multidendritic neuron in the labellum. When the fly extends its tongue to eat, the hair bristles (short red lines) on its surface bend in proportion to the consistency of the food. If a bristle is bent hard enough, the force is detected at its base by one of the arms of an md-L neuron. In response, the arm shoots off an electrical signal that’s relayed to the central part of the neuron and onward to the brain via the outgoing informational arm, or axon.
Creative Minds: Do Celebrity Endorsements Influence Teens’ Health?
Posted on by Dr. Francis Collins
Marie Bragg is a first-generation American, raised by a mother who immigrated to Florida from Trinidad. She watched her uncle in Florida cope effectively with type 2 diabetes, taking prescription drugs and following doctor-recommended dietary changes. But several of her Trinidadian relatives also had type 2 diabetes, and often sought to manage their diabetes by alternative means—through home remedies and spiritual practices.
This situation prompted Bragg to develop, at an early age, a strong interest in how approaches to health care may differ between cultures. But that wasn’t Bragg’s only interest—her other love was sports, having played on a high school soccer team that earned two state championships in Florida. That made her keenly aware of the sway that celebrity athletes, such as Michael Jordan and Serena Williams, could have on the public, particularly on young people. Today, Bragg combines both of her childhood interests—the influence of celebrities and the power of cultural narratives—in research that she is conducting as an Assistant Professor of Population Health at New York University Langone Medical Center and as a 2015 recipient of an NIH Director’s Early Independence Award.
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