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              The microbiome may have an impact on susceptibility to autoimmune diseases

By David Dunaief, M.D.

Dr. David Dunaief

Every human carries in its body a microbiome, consisting of bacteria, viruses and single-cell eukaryotes. Our relationship to these organisms is complex, and much of it is still only loosely understood. What we do know, however, is that these trillions of microorganisms have key roles in our healthy functioning.

The microbiome is found throughout our bodies, including the skin, the eyes and the gut. Here, we’re going to focus on the gut, where the majority of our microbiome resides. The microbiome has been getting a lot of attention of late, because of its possible role in preventing and promoting diseases. Among these are obesity, diabetes, irritable bowel syndrome, autoimmune diseases, such as rheumatoid arthritis and Crohn’s, and infectious diseases, such as colitis.

The Human Microbiome Project

Like the Human Genome Project, which mapped our genes, the Human Microbiome Project, funded by the National Institutes of Health from 2007 to 2016, sought to map and sequence the composition and diversity of these gut organisms and to prompt future research. Already, there have been some enlightening preliminary studies.

What affects the microbiome?

Drugs, such as antibiotics, can wipe out microbial diversity, at least in the short term. Also, lifestyle modifications, such as diet, can have a positive or negative impact. Microbiome diversity also may be significantly different in distinct geographic locations throughout the world.

The microbiome and obesity

Many obese patients continually struggle to lose weight. Obese and overweight patients now outnumber malnourished individuals worldwide (1).

For a long time, the paradigm for weight loss had been to cut calories. However, extreme low-calorie diets were not having a long-term impact. It turns out that our guts, dominated by bacteria, may play important roles in obesity and weight loss, determining whether we gain or lose weight.

The results from a study involving human twins and mice are fascinating (2). In each pair of human twins, one was obese and the other was lean. Gut bacteria from obese twins was transplanted into thin mice. The result: the thin mice became obese. However, when the lean human twins’ gut bacteria were transplanted to thin mice, the mice remained thin.

By pairing sets of human twins, one obese and one thin in each set, with mice that were identical to each other and raised in a sterile setting, researchers limited the confounding effects of environment and genetics on weight.

The most intriguing part of the study compared the effects of diet and gut bacteria. When the mice who had received gut transplants from obese twins were provided gut bacteria from thin twins and given fruit- and vegetable-rich, low-fat diet tablets, they lost significant weight. Interestingly, they only lost weight when on a good diet. The authors believe this suggests that an effective diet may alter the microbiome of obese patients, helping them lose weight. These are exciting, but preliminary, results. It is not clear yet which bacteria may be contributing these effects.

This suggests that gut bacteria diversity may be a crucial piece of the weight-loss puzzle.

Rheumatoid arthritis

Rheumatoid arthritis (RA) is an autoimmune disease that can be disabling, with patients typically suffering from significant morning stiffness, joint soreness and joint breakdown. What if gut bacteria influenced RA risk? In a study, the gut bacteria in mice that were made susceptible to RA by deletion of certain genes (HLA-DR genes) were compared to those who were more resistant to developing RA (3). Researchers found that the RA-susceptible mice had a predominance of Clostridium bacteria and that those resistant to RA were dominated by bacteria such as bifidobacteria and Porphyromonadaceae species. The significance is that the bacteria in the RA-resistant mice are known for their anti-inflammatory effects.

Can you counteract antibiotics’ negative effects?

Many have gastrointestinal upset while taking antibiotics, because antibiotics don’t differentiate between good and bad bacteria when they go to work. 

One way to counteract these negative effects is to take a probiotic during and after your course of antibiotics. I recommend Renew Life’s 30-50 billion units once a day, two hours after an antibiotic dose and continuing once a day for 14 days after you have finished your prescription. If you really want to ratchet up the protection, you can take one dose of probiotics two hours after every antibiotic dose.

Although nobody can say what the ideal gut bacteria should consist of, we do know a few things that can help you. Diet and other lifestyle considerations, such as eating and sleeping patterns or their disruptions, seem to be important to the composition and diversity of gut bacteria (4). Studies have already demonstrated prebiotic effects of fiber and significant short-term changes to the microbiome when eating fruits, vegetables, and plant fiber. The research is continuing, but we’ve learned a lot already that may help us tackle obesity and autoimmune disorders.

References:

(1) “The Evolution of Obesity”; Johns Hopkins University Press; 2009. (2) Science. 2013;341:1241214. (3) PLoS One. 2012;7:e36095. (4) Nutrients. 2019 Dec;11(12):2862.

Dr. David Dunaief is a speaker, author and local lifestyle medicine physician focusing on the integration of medicine, nutrition, fitness and stress management. For further information, visit www.medicalcompassmd.com or consult your personal physician.

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Sleep may help the brain remove waste, such as those all-too-dangerous beta-amyloid plaques linked to Alzheimer's disease. METRO photo
A few extra ZZZs can help clear brain clutter

By David Dunaief, M.D.

Dr. David Dunaief

Cognitive loss, or mental decline, is a common concern as we age. So much so that a cottage industry of app-based games has sprouted to help keep our brains sharp.

What do we know about the brain, really, though? Startlingly little. We do know that certain drugs, head injuries and lifestyle choices have negative effects, along with numerous neurological, infectious, and rheumatologic disorders and diseases.

Some, like dementia, Parkinson’s, and strokes, are recognized for some of their effects on the brain. However, others – lupus, rheumatoid arthritis, psychiatric mood disorders, diabetes and heart disease – also can have long-term effects on our brains.

These disorders generally have three signs and symptoms in common: they cause either altered mental status, physical weakness, or mood changes — or a combination of these.

Of course, addressing the underlying medical disorder is critical. Fortunately, several studies also suggest that we may be able to help our brains function more efficiently and effectively with rather simple lifestyle changes: sleep, exercise and possibly omega-3s.

How does brain clutter affect us?

Are 20-somethings sharper and more quick-witted than those over 60?

German researchers put this stereotype to the test and found that educated older people tend to have a larger mental database of words and phrases to pull from since they have been around longer and have more experience (1). When this is factored into the equation, the difference in terms of age-related cognitive decline becomes negligible.

This study involved data mining and creating simulations. It showed that mental slowing may be at least partially related to the amount of clutter or data that we accumulate over the years. The more you know, the harder it becomes to come up with a simple answer to something.

What if we could reboot our brains, just like we do a computer or smartphone? This may be possible through sleep, exercise and omega-3s.

Why does sleep help?

Why should we dedicate a large chunk of our lives to sleep? Researchers have identified a couple of specific values we receive from sleep: one involves clearing the mind, and another involves productivity.

For the former, a study done in mice shows that sleep may help the brain remove waste, such as those all-too-dangerous beta-amyloid plaques (2). When we have excessive plaque buildup in the brain, it may be a sign of Alzheimer’s. When mice were sleeping, the interstitial space (the space between brain gyri, or structures) increased by as much as 60 percent.

This allowed the lymphatic system, with its cerebrospinal fluid, to clear out plaques, toxins and other waste that had developed during waking hours. With the enlargement of the interstitial space during sleep, waste removal was quicker and more thorough, because cerebrospinal fluid could reach much farther into the spaces. A similar effect was seen when the mice were anesthetized.

In an Australian study, results showed that sleep deprivation may have contributed to an almost one percent decline in gross domestic product (3). Why? When people don’t get enough sleep, they are not as productive. They tend to be more irritable, and their concentration may be affected. While we may be able to turn on and off sleepiness on short-term basis, we can’t do this continually.

According to the Centers for Disease Control and Prevention, 4.2 percent of respondents reported having fallen asleep in the prior 30 days behind the wheel of a car during a 2009-2010 study (4). Most commonly, these respondents also reported getting usual sleep of six hours or fewer, snoring, or unintentionally falling asleep during the day. “Drowsy driving” led to 91,000 car crashes in 2017, according to estimates from the National Highway Traffic Safety Administration (5).

How does exercise help your brain?

One study with rats suggests that a lack of exercise can cause unwanted new brain connections. Rats that were not allowed to exercise were found to have rewired neurons around their medulla, the part of the brain involved in breathing and other involuntary activities. This included more sympathetic (excitatory) stimulus that could lead to increased risk of heart disease (6). 

Among the rats allowed to exercise regularly, there was no unusual wiring, and sympathetic stimuli remained constant. This may imply that being sedentary has negative effects on both the brain and the heart. We need human studies to confirm this impact.

Omega-3 fatty acids may affect brain volume

In the Women’s Health Initiative Memory Study of Magnetic Resonance Imaging Study, results showed that those postmenopausal women who were in the highest quartile of omega-3 fatty acids had significantly greater brain volume and hippocampal volume than those in the lowest quartile (7). The hippocampus is involved in memory and cognitive function.

Specifically, the researchers looked at the levels of eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) in red blood cell membranes. The source of the omega-3 fatty acids could have been either from fish or from supplementation.

It’s never too late to improve brain function. Although we have a lot to learn about the functioning of the brain, we know that there are relatively simple ways we can positively influence it.

References:

(1) Top Cogn Sci. 2014 Jan.;6:5-42. (2) Science. 2013 Oct. 18;342:373-377. (3) Sleep. 2006 Mar.;29:299-305. (4) cdc.gov. (5) nhtsa.gov. (6) J Comp Neurol. 2014 Feb. 15;522:499-513. (7) Neurology. 2014;82:435-442.

Dr. David Dunaief is a speaker, author and local lifestyle medicine physician focusing on the integration of medicine, nutrition, fitness and stress management. For further information, visit www.medicalcompassmd.com or consult your personal physician.

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Aquatic exercise can improve balance, strength and mobility. METRO photo
Simple exercises can help

By David Dunaief, M.D.

Dr. David Dunaief

We have had far more ice this winter than snow. Of particular concern is black ice, when a thin ice coating looks innocuously like a simple damp surface. This phenomenon has increased our risk for falling and injuring ourselves. I’ve received quite a few calls this winter from friends and patients who have taken tumbles resulting in broken bones and torn ligaments.

Even without icy steps and walkways, falls can be serious for older patients, where the consequences can be devastating. They can include brain injuries, hip fractures, a decrease in functional ability and a decline in physical and social activities (1). Ultimately, a fall can lead to loss of independence (2).

What increases fall risk?

There are many factors. A personal history of falling in the recent past is the most prevalent. However, there are other significant factors, such as age and medication use. Some medications, like antihypertensive medications, which are used to treat high blood pressure, and psychotropic medications, which are used to treat anxiety, depression and insomnia, are of particular concern. Chronic diseases can also contribute. Circumstances that predispose us to falls also involve weakness in upper and lower body strength, decreased vision, hearing disorders and psychological issues, such as anxiety and depression (3).

Simple ways to reduce fall risk

It is most important to exercise. We mean exercises involving balance, strength, movement, flexibility and endurance, all of which play significant roles in fall prevention (4). The good news is that many of these can be done inside with no equipment or with items found around the home. We will look more closely at the research. 

Nonslip shoes are crucial indoors, and footwear that prevents sliding on winter ice, such as slip-on ice cleats that fit over your shoes, is a must. In the home, inexpensive changes, like securing area rugs, removing other tripping hazards, and adding motion-activated nightlights can also make a big difference.

Does your medication put you at risk?

There are several medications that heighten fall risk. Psychotropic drugs top the list, but what other drugs might have an impact?

A well-designed study showed an increase in fall risk in those who were taking high blood pressure medication (5). Those on moderate doses of blood pressure medication had the greatest risk of serious injuries from falls, a 40 percent increase.

These medications can reduce significantly the risks of cardiovascular disease and events, so physicians need to consider the risk-benefit ratio in older patients before stopping a medication. We also should consider whether lifestyle modifications, which play a significant role in treating this disease, can be substituted for medication (6).

The value of exercise

A meta-analysis showed that exercise significantly reduced the risk of a fall (7). It led to a 37 percent reduction in falls that resulted in injury and a 30 percent reduction in falls requiring medical attention. Even more impressive was a 61 percent reduction in fracture risk.

Remember, the lower the fracture risk, the more likely you are to remain physically independent. The author summarized that exercise not only helps to prevent falls but also fall injuries.

Unfortunately, those who have fallen before, even without injury, often develop a fear that causes them to limit their activities. This leads to a dangerous cycle of reduced balance and increased gait disorders, ultimately resulting in an increased fall risk (8).

What types of exercise are best?

Any consistent exercise program that improves balance, flexibility, and muscle tone and includes core strengthening can help improve your balance. Among those that have been studied, tai chi, yoga and aquatic exercise have all been shown to have benefits in preventing falls and injuries from falls.

A randomized controlled trial showed that those who did an aquatic exercise program had a significant improvement in the risk of falls (9). The aim of the aquatic exercise was to improve balance, strength and mobility. Results showed a reduction in the overall number of falls and a 44 percent decline in the number of exercising patients who fell during the six-month trial, with no change in the control group.

If you don’t have a pool available, tai chi, which requires no equipment, was also shown to reduce both fall risk and fear of falling in older adults (10).

Another pilot study used modified chair yoga classes with a small assisted living population (11). Participants were those over 65 who had experienced a recent fall and had a resulting fear of falling. While the intention was to assess exercise safety, researchers found that participants had less reliance on assistive devices and three of the 16 participants were able to eliminate their use of mobility assistance devices.

Our best line of defense against fall risk is prevention with exercise and reducing slipping opportunities. Should you stop medications? Not necessarily. If you are 65 and older, or if you have arthritis and are at least 45 years old, it may mean reviewing your medication list with your doctor. Before you consider changing your blood pressure medications, review your risk-to-benefit ratio with your physician.

References:

(1) MMWR. 2014; 63(17):379-383. (2) J Gerontol A Biol Sci Med Sci. 1998;53(2):M112. (3) JAMA. 1995;273(17):1348. (4) Cochrane Database Syst Rev. 2012;9:CD007146. (5) JAMA Intern Med. 2014 Apr;174(4):588-595. (6) JAMA Intern Med. 2014;174(4):577-587. (7) BMJ. 2013;347:f6234. (8) Age Ageing. 1997 May;26(3):189-193. (9) Menopause. 2013;20(10):1012-1019. (10) Mater Sociomed. 2018 Mar; 30(1): 38–42. (11) Int J Yoga. 2012 Jul-Dec; 5(2): 146–150.

Dr. David Dunaief is a speaker, author and local lifestyle medicine physician focusing on the integration of medicine, nutrition, fitness and stress management. For further information, visit www.medicalcompassmd.com or consult your personal physician.

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Vitamin D supplement
Obesity can reduce the benefits of supplementation

By David Dunaief, M.D.

Dr. David Dunaief

Here in the Northeast, it’s the time of year when colder temperatures mean we’re spending lots of time indoors. When we are outside, we cover most of our skin to protect us from the cold. This means we’re not getting a lot of sun. While this will make your dermatologist happy, it also means you’re probably not converting that sun exposure to vitamin D3.

There is no question that, if you have low levels of vitamin D, replacing it is important. Previous studies have shown that it may be effective in a wide swath of chronic diseases, both in prevention and as part of a treatment regimen. However, many questions remain.

Many of us receive food-sourced vitamin D from fortified packaged foods, where vitamin D has been added. This is because sun exposure — even under the best of circumstances — will not address all of our vitamin D needs. For example, in a study of Hawaiians, a subset of the study population who had more than 20 hours of sun exposure without sunscreen per week, some participants still had low vitamin D3 values (1).

We know vitamin D’s importance for bone health, but we have mixed data for other diseases, such as cardiovascular, autoimmune and skin diseases and cancer.

There is no consensus on the ideal blood level for vitamin D. For adults, the Institute of Medicine recommends between 20 and 50 ng/ml, and The Endocrine Society recommends at least 30 ng/ml.

Are there cardiovascular benefits to vitamin D?

Several observational studies have shown benefits of vitamin D supplements with cardiovascular disease. The Framingham Offspring Study showed that those patients with deficient levels were at increased risk of cardiovascular disease (3).

However, a small randomized controlled trial (RCT) called the cardioprotective effects of vitamin D into question (4). This study of postmenopausal women, using biomarkers such as endothelial function, inflammation or vascular stiffness, showed no difference between vitamin D treatment and placebo. The authors concluded there is no reason to give vitamin D for prevention of cardiovascular disease.

The vitamin D dose given to the treatment group was 2,500 IUs. Some of the weaknesses of the study were a very short duration and small study size.

How does vitamin D affect mortality?

In a meta-analysis of a group of eight studies, vitamin D with calcium reduced the mortality rate in the elderly, whereas vitamin D alone did not (5). The difference between the groups was statistically important, but clinically small: nine percent reduction with vitamin D plus calcium and seven percent with vitamin D alone.

One of the weaknesses of this analysis was that vitamin D in two of the studies was given in large amounts of 300,000 to 500,000 IUs once a year, rather than taken daily. This has different effects.

Does obesity affect vitamin D absorption?

A recently published analysis of data from the VITAL trial, a large-scale vitamin D and Omega-3 trial, found that those with BMIs of less than 25 kg/m2 had significant health benefits from supplementation versus placebo (2). These included 24 percent lower cancer incidence, 42 percent lower cancer mortality, and 22 percent lower incidence of autoimmune disease. Those with higher BMIs showed none of these benefits.

Can vitamin D help you lose weight?

There is good news, but not great news, on the weight front. It appears that vitamin D plays a role in reducing the amount of weight gain in women 65 years and older whose blood levels are more than 30 ng/ml, compared to those below this level, in the Study of Osteoporotic Fractures (6).

This association held true at baseline and after 4.5 years of observation. If the women dropped below 30 ng/ml in this time period, they were more likely to gain more weight, and they gained less if they kept levels above the target. There were 4,659 participants in the study. Unfortunately, vitamin D did not show statistical significance with weight loss.

USPSTF recommendations and fracture risk

The U.S. Preventive Services Task Force recommends against giving “healthy” postmenopausal women vitamin D, calcium or the combination of vitamin D 400 IUs plus calcium 1,000 mg to prevent fractures, and it found inadequate evidence of fracture prevention at higher levels (7). The supplement combination does not seem to reduce fractures, but does increase the risk of kidney stones. There is also not enough data to recommend for or against vitamin D with or without calcium for cancer prevention.

When should you supplement?

It is important to supplement to optimal levels, especially since most of us living in the Northeast have insufficient to deficient levels. While vitamin D may not be a cure-all, it might play an integral role with many disorders. But it is also important not to raise the levels too high. The range that I tell my patients is between 32 and 50 ng/ml, depending on their health circumstances.

References:

(1) J Endocrinology & Metabolism. 2007 Jun;92(6):2130-2135. (2) JAMA Netw Open. 2023 Published online Jan 2023. (3) Circulation. 2008 Jan 29;117(4):503-511. (4) PLoS One. 2012;7(5):e36617. (5) J Women’s Health (Larchmt). 2012 Jun 25. (6) J Clin Endocrinol Metabol. May 17, 2012 online. (7) JAMA. 2018;319(15):1592-1599.

Dr. David Dunaief is a speaker, author and local lifestyle medicine physician focusing on the integration of medicine, nutrition, fitness and stress management. For further information, visit www.medicalcompassmd.com or consult your personal physician.

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Even modest exercise may impact your health outcomes

By David Dunaief, M.D.

Dr. David Dunaief

Last week, I wrote about the challenges of relying on exercise for weight loss. That’s not to say that it’s not important to exercise. It has powerful effects in altering how our genes express themselves and can improve our outcomes with specific diseases, such as diabetes and a host of other health issues, including kidney stones, osteoarthritis, cardiovascular disease and breast, colorectal and endometrial cancers (1).

Despite all the positives, it’s sometime difficult to motivate yourself to exercise. However, there are some simple ways to motivate yourself during exercise. One study showed that those who repeated positive mantras to themselves during exercise were able to persist for longer periods (2).

Why is this so important now? Because we are too sedentary, and this is the time of the year when we are especially so. According to data from the 2015-2018 Behavioral Risk Factor Surveillance System, the Northeast had among the highest levels of physical inactivity by U.S. region, at 25.6 percent of the population (3).

Can exercise alter your fat genes?

Exercise may have a significant impact on how our genes express themselves.

In a study, results showed that thousands upon thousands of genes in fat cells were affected when participants exercised for six months (4). The study involved sedentary men and had them exercise twice a week at a one-hour spin class. According to the researchers, the genes impacted were those involved most likely in storing fat and in risk for subsequent diabetes and obesity development. These participants also improved other important health metrics, including their cholesterol, blood-pressure, fat percent and, later, their waist circumferences.

The effect identified on the fat cells is referred to as epigenetics, where lifestyle modifications ultimately lead to changes in gene expression, turning them on and off. This has been shown with dietary changes, but this is one of the first studies to show that exercise also has significant impacts on our genes. It took only six months to see these numerous gene changes with modest amounts of cardiovascular exercise.

Do you need more encouragement? Another study showed substantial gene changes in muscle cells after one workout on a stationary bike (5). Yet another introduced six weeks of endurance exercise to healthy, but sedentary, young men and identified an abundance of genetic changes to skeletal muscle with broad impacts on physical and cognitive health (6).

Which is better: exercise or drug therapy?

What if we could forgo medications for cardiovascular disease by exercising? One meta-analysis, which examined 57 studies that involved drugs and exercise, showed similar benefits between statins and exercise in mortality with secondary prevention of coronary heart disease (7). This means that, in patients who already have heart disease, both statins and exercise reduce the risk of mortality by similar amounts. The same study also showed benefits for those with pre-diabetes and the use of metformin vs. exercise. It didn’t matter which one was used, the drug or the lifestyle change.

While these results are exciting, don’t change your medication without consulting your physician.

How does exercise help with kidney stones?

Anyone who has tried to pass a kidney stone knows it can be an excruciating experience. Most of the treatment involves pain medication, fluids and waiting for the stone to pass. However, the best way to treat kidney stones is to prevent them.

In the Women’s Health Initiative Observational Study, exercise reduced the risk of kidney stones by as much as 31 percent (8). Even better, the intensity of the exercise did not change its beneficial effect. What mattered more was exercise quantity. One hour of jogging or three hours of walking got the top results; however, lesser amounts of exercise also saw substantial reductions. This study involved 84,000 postmenopausal women, the population most likely to suffer from kidney stones.

Is sexual activity really exercise?

We have heard that sex may be thought of as exercise, but is this myth or is there actual evidence? According to research, this may be true. In a study, researchers found that young, healthy couples exert 6 METs — metabolic energy, or the amount of oxygen consumed per kilogram per minute — during sexual activity (9).

How does this compare to other activities? We exert about 1 MET while sitting and 8.5 METs while jogging. In terms of energy utilized, sexual activity falls between walking and jogging, therefore, it can be qualified as moderate activity. Men and women burned almost half as many calories with sex as with jogging, burning a mean of 85 calories over about 25 minutes. Who says exercise isn’t fun?

I can’t stress the importance of exercise enough. It not only helps you feel better, it may also influence gene expression and, ultimately, affect your development and prevention of disease. In certain circumstances, it may be as powerful as medications. Therefore, make exercise a priority — part of the fabric of your life. It may already be impacting the fabric of your body: your genes.

References:

(1) JAMA. 2009;301(19):2024. (2) Med Sci Sports Exerc. 2013 Oct 10. (3) cdc.gov. (4) PLoS Genet. 2013 Jun;9(6):e1003572. (5) Cell Metab. 2012 Mar 7;15(3):405-11. (6) Mol Metab. 2021 Nov;53:101290. (7) BMJ. 2013; 347. (8) JASN. 2013;24(3):p 487-497. (9) PLoS One 8(10): e79342.

Dr. David Dunaief is a speaker, author and local lifestyle medicine physician focusing on the integration of medicine, nutrition, fitness and stress management. For further information, visit www.medicalcompassmd.com or consult your personal physician.

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Exercise is only one part of the weight loss equation

By David Dunaief, M.D.

Dr. David Dunaief

Exercise has benefits for a wide range of medical conditions, from insomnia, fatigue, depression and cognitive decline to chronic kidney disease, diabetes, cardiovascular disease and osteoporosis. But will it help you lose weight? 

While exercise equipment and gym membership ads emphasize this in January, exercise without dietary changes may not help many people lose weight, no matter what the intensity or the duration (1). If it does help, it may only modestly reduce fat mass and weight for the majority of people. However, it may be helpful with weight maintenance.

Ultimately, it may be more important to reconsider what you are eating than to succumb to the rationalization that you can eat with abandon and work it off later.

Does exercise help with weight loss?

The well-known weight-loss paradigm is that when more calories are burned than consumed, we will tip the scale in favor of weight loss. The greater the negative balance with exercise, the greater the loss. However, study results say otherwise. They show that in premenopausal women there was neither weight nor fat loss from exercise (2). This involved 81 women over a short duration, 12 weeks. All of the women were overweight to obese, although there was great variability in weight.

However, more than two-thirds of the women gained a mean of 1 kilogram, or 2.2 pounds, of fat mass by the end of the study. There were a few who gained 10 pounds of predominantly fat. A fair amount of variability was seen among the participants, ranging from significant weight loss to substantial weight gain. These women were told to exercise at the American College of Sports Medicine’s optimal level of intensity (3). This is to walk 30 minutes on a treadmill three times a week at 70 percent VO2max — maximum oxygen consumption during exercise. This is a moderately intense pace.

The good news is that the women were in better aerobic shape by the end of the study. Also, women who had lost weight at the four-week mark were more likely to continue to do so by the end of the study.

Other studies have shown modest weight loss. For instance, in a meta-analysis involving 14 randomized controlled trials, results showed that there was a disappointing amount of weight loss with exercise alone (4). In six months, patients lost a mean of 1.6 kilograms, or 3.5 pounds, and at 12 months, participants lost 1.7 kilograms, or about 3.75 pounds.

Does exercise help with weight maintenance?

Exercise may help with weight maintenance, according to observational studies. Premenopausal women who exercised at least 30 minutes a day were significantly less likely to regain lost weight (5). When exercise was added to diet, women were able to maintain 30 percent more weight loss than with diet alone after a year in a prospective study (6).

Does exercise help with disease?

As a simple example of exercise’s impact on disease, let’s look at chronic kidney disease (CKD), which affects approximately 15 percent of U.S. adults, according to the Centers for Disease Control and Prevention (7).

Trial results showed that walking regularly could reduce the risk of kidney replacement therapy and death in patients who have moderate to severe CKD, stages 3-5 (8). Yes, this includes stage 3, which most likely is asymptomatic. There was a 21 percent reduction in the risk of kidney replacement therapy and a 33 percent reduction in the risk of death when walkers were compared to non-walkers.

Walking had an impressive impact, and results were based on a dose-response curve. In other words, the more frequently patients walked during the week, the better the probability of preventing complications. Those who walked between one and two times per week had 17 and 19 percent reductions in death and kidney replacement therapy, respectively, while those who walked at least seven times per week saw 44 and 59 percent reductions in death and kidney replacement. These are substantial results. The authors concluded that the effectiveness of walking on CKD was independent of kidney function, age or other diseases.

As you can see, there are many benefits to exercise; however, food choices will have a greater impact on weight and body composition. The good news: exercise can help maintain weight loss and is extremely beneficial for preventing progression of chronic diseases, such as CKD.

By all means, exercise, but to lose weight, also focus on consuming nutrient-dense foods instead of calorie-dense foods that you may not be able to exercise away.

References:

(1) uptodate.com. (2) J Strength Cond Res. 2015 Feb;29(2):297-304. (3) ACSM.org. (4) Am J Med. 2011;124(8):747. (5) Obesity (Silver Spring). 2010;18(1):167. (6) Int J Obes Relat Metab Disord. 1997;21(10):941. (7) cdc.gov. (8) Clin J Am Soc Nephrol. 2014 Jul;9(7):1183-1189.

Dr. David Dunaief is a speaker, author and local lifestyle medicine physician focusing on the integration of medicine, nutrition, fitness and stress management. For further information, visit www.medicalcompassmd.com or consult your personal physician.

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A poor diet can increase your risk for high blood pressure. METRO photo
Medication timing has a significant effect on cardiovascular risk

By David Dunaief, M.D.

Dr. David Dunaief

We are at the point in the year when many of us are taking stock of how we’ve fared over our last trip around the sun. 

If you are one of the 47 percent of U.S. adults over the age of 18 with hypertension, also known as high blood pressure, you don’t want to be one of the 92 million whose hypertension is uncontrolled (1). When it’s not controlled, you increase your probability of complications, such as cardiovascular events and mortality.

What contributes to our risk of hypertension complications?

Being significantly overweight or obese, smoking, poor diet, lack of exercise, family history, age, increased sodium, depression, low vitamin D, diabetes and too much alcohol are some of the factors that increase our risk (2). The good news is that you can take active steps to improve your risk profile (3).

Of course, antihypertensive (blood pressure) medications treat this disorder. In addition, some nonpharmacological approaches have benefits.

Which risk factors have the greatest impact on developing hypertension?

A poor diet can increase your risk for high blood pressure. METRO photo

In an observational study involving 2,763 participants, results showed that those with poor diets had 2.19 times increased risk of developing high blood pressure. This was the greatest contributor to developing this disorder (4). Another risk factor with a significant impact was being at least modestly overweight (BMI >27.5 kg/m²), which put participants at 1.87 times increased risk. This, surprisingly, trumped cigarette smoking, which increased risk by 1.83 times. 

What effect does your gender, age or race have?

While the data show that more men than women have hypertension, 50 percent vs. 44 percent, and the prevalence of high blood pressure varies by race, the consequences of hypertension are felt across the spectrum of age, gender and race (5).

One of the most feared complications of hypertension is cardiovascular disease. In a study, isolated systolic (top number) hypertension was shown to increase the risk of cardiovascular disease and death in both young and middle-aged men and women between 18 and 49 years old, compared to those who had optimal blood pressure (6). The effect was greatest in women, with a 55 percent increased risk in cardiovascular disease and 112 percent increased risk in heart disease death. 

High blood pressure has complications associated with it, regardless of onset age. Though this study was observational, it was very large and had a 31-year duration.

Are nighttime blood pressure readings better risk predictors?

Measuring blood pressure in the clinic can be useful. However, in a meta-analysis (involving nine studies from Europe, South America and Asia), results showed that high blood pressure measured at nighttime was potentially a better predictor of myocardial infarctions (heart attacks) and strokes, compared to daytime and clinic readings (6).

For every 10 mmHg rise in nighttime systolic blood pressure, there was a corresponding 25 percent increase in cardiovascular events. This was a large meta-analysis that utilized studies that were at least one year in duration.

Does this mean that nighttime readings are superior in predicting risk? Not necessarily, but the results are interesting. The nighttime readings were made using 24-hour ambulatory blood pressure measurements (ABPM).

There is something referred to as masked uncontrolled hypertension (MUCH) that may increase the risk of cardiovascular events in the nighttime. MUCH occurs in those who are well-controlled during clinic readings for blood pressure; however, their nocturnal blood pressure is uncontrolled. In the Spanish Society of Hypertension ABPM Registry, MUCH was most commonly seen during nocturnal hours (7). Thus, the authors suggest that ABPM may be a better way to monitor those who have higher risk factors for MUCH, such as those whose pressure is borderline in the clinic and those who are smokers, obese or have diabetes.

A previous study suggested that taking at least one antihypertensive medication at night may be more effective than taking them all in the morning (8). Those who took one or more blood pressure medications at night saw a two-thirds reduction in cardiovascular event risk. Now we can potentially see why. These were patients who had chronic kidney disease (CKD). Generally, 85 to 95 percent of those with CKD have hypertension.

Do blueberries help control blood pressure?

Diet plays a role in controlling high blood pressure. In a study, 22 grams of blueberry powder consumed daily, equivalent to one cup of fresh blueberries, reduced systolic blood pressure by a respectable 7 mmHg and diastolic blood pressure by 5 mmHg over 2 months (9).

This is a modest amount of fruit with a significant impact, demonstrating exciting results in a small, preliminary, double-blind, placebo-controlled randomized trial. Blueberries increase nitric oxide, which helps blood vessels relax, reducing blood pressure. While the study used powder, it’s possible that an equivalent amount of real fruit would lead to greater reduction.

In conclusion, high blood pressure and its cardiovascular complications can be scary, but lifestyle modifications, such as taking antihypertensive medications at night and making dietary changes, can have a big impact in altering these serious risks.

References:

(1) millionhearts.hhs.gov. (2) uptodate.com. (3) Diabetes Care 2011;34 Suppl 2:S308-312. (4) BMC Fam Pract 2015;16(26). (5) cdc.gov. (6) J Am Coll Cardiol 2015;65(4):327-335. (7) Eur Heart J 2015;35(46):3304-3312. (8) J Am Soc Nephrol 2011 Dec;22(12):2313-2321. (9) J Acad Nutr Diet 2015;115(3):369-377.

Dr. David Dunaief is a speaker, author and local lifestyle medicine physician focusing on the integration of medicine, nutrition, fitness and stress management. For further information, visit www.medicalcompassmd.com or consult your personal physician.

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In order to be aware of potentially adverse events, you have to be your own best advocate and read labels. METRO photo
Recently updated FDA warnings highlight risks

By David Dunaief, M.D.

Dr. David Dunaief

What’s in your medicine cabinet?

Many of us keep a supply of over-the-counter medications for pain relief, fever and inflammation. This could include acetaminophen and a variety of NSDAIDs, such as aspirin, ibuprofen, naproxen sodium and diclofenac sodium.

“NSAIDs” is shorthand for non-steroidal anti-inflammatory drugs, which are available by prescription or over-the-counter (OTC) at your local pharmacy or at any newsstand. Familiar NSAID brand names include Advil, Motrin, Aleve and Voltaren.

Americans consume more than 30 billion doses of NSAIDs a year, including both prescription and OTC use (1). As for acetaminophen, also known by the brand name, Tylenol, one quarter of Americans take it weekly. 

Perhaps because they’re so easy to access and take, many think of these drugs as low risk. According to a poll of regular OTC NSAID users, 60 percent of them were not aware that they can have dangerous side effects (2).

They are so commonplace that most of my patients don’t even include them in a list of medications they take. I need to specifically ask about them.

Why be concerned about NSAIDs?

Unfortunately, NSAIDs, according to the Centers for Disease Control and Prevention, are responsible for 7,600 deaths annually and 10 times that number in hospitalizations (3). 

NSAIDs increase the risk of several maladies, including heart attacks, gastrointestinal bleeding, stroke, exacerbation of diverticular disease, chronic arrhythmias (abnormal heartbeats) and erectile dysfunction. In some instances, the cardiovascular effects can be fatal.

These risks prompted the FDA to strengthen the warning labels on non-aspirin NSAID labels in 2015, advising that those taking NSAIDs should immediately seek medical attention if they experience chest pain, shortness of breath or trouble breathing, weakness in one part or side of their body, or slurred speech (4).

As recently as late 2020, the FDA added a warning label to non-aspirin NSAIDs about the potential for fetal kidney damage and pregnancy complications beginning around week 20 of a pregnancy (4).

Research on NSAID complications

In a case control study using the UK Primary Care Database, chronic users of NSAIDs between ages 40 and 89 had a significantly increased risk of a serious arrhythmia (abnormal heartbeat) called atrial fibrillation (5).

Interestingly, chronic users were defined as patients who took NSAIDs for more than 30 days. Those patients who used NSAIDs more than 30 days had a 57 percent increased risk of atrial fibrillation. A Danish study reinforces these results after the first month of use (6). This is not very long to have such a substantial risk. For patients who used NSAIDs longer than one year, the risk increased to 80 percent. 

Atrial fibrillation is not an easy disease to treat.

NSAIDs also increase the risk of mortality in chronic users. Older patients who have heart disease or hypertension (high blood pressure) and are chronic NSAIDs users are at increased risk of death, according to an observational study (7). Compared to those who never or infrequently used them over about 2.5 years, chronic users had a greater than twofold increase in death due to cardiovascular causes. High blood pressure was not a factor, since the chronic users actually had lower blood pressure. Yet I have seen with my patients that NSAID use can increase blood pressure. 

Is acetaminophen better than NSAIDs?

The Food & Drug Administration announced in 2011 that acetaminophen should not exceed 325 mg every four to six hours when used as a prescription combination pain reliever (4). The goal is to reduce and avoid severe injury to the liver, which can cause liver failure. 

There is an intriguing paradox with acetaminophen: Hospitals typically dispense regular-strength 325-mg doses of the drug, whereas OTC doses frequently are found in extra-strength 500-mg tablets, and often the suggested dose is two tablets, or 1 gram. At the FDA’s request, Tylenol lowered its recommended daily dosage for extra strength Tylenol to no more than 3 grams a day to lower the risk of liver damage.

I have patients who have exceeded this, thinking that, because it is OTC, this is “safe.” Unfortunately, this is not true and can be dangerous.

One study that showed acute liver failure was due primarily to unintentional overdoses of acetaminophen (8). Accidental overdosing is more likely to occur when taking acetaminophen at the same time as a combination sinus, cough or cold remedy that also contains acetaminophen. OTC and prescription cold medications can contain acetaminophen.

Of course, if you already suffer from liver damage or disease, you should consult with your physician before taking any medications.

In order to be aware of potentially adverse events, you have to be your own best advocate and read labels. Remember to tell your physician if you are taking any OTC medications.

If you are a chronic user of NSAIDs or acetaminophen because of underlying inflammation, you may find an anti-inflammatory diet is an effective alternative.

References:

(1) Medscape.com, 2021 Oct 21 (emedicine.medscape.com/article/816117-overview). (2) J Rheumatol. 2005;32;2218-2224. (3) Annals of Internal Medicine, 1997;127:429-438. (4) fda.gov (5) Arch Intern Med. 2010;170(16):1450-1455. (6) BMJ 2011;343:d3450. (7) Am J Med. 2011 Jul;124(7):614-620. (8) Am J Gastroenterol. 2007;102:2459-2463.

Dr. David Dunaief is a speaker, author and local lifestyle medicine physician focusing on the integration of medicine, nutrition, fitness and stress management. For further information, visit www.medicalcompassmd.com or consult your personal physician.

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METRO photo

By David Dunaief, M.D.

Dr. David Dunaief

Dear Santa,

It’s been a while since I wrote, and I know you have a lot of last-minute requests at this time of year, so I’ll keep this short.

Kids around the world look to you as a role model for kindness and generosity. That must feel pretty good.

They also marvel at your round belly, claiming that it shakes when you laugh like a bowl full of jelly. Then, they literally feed that belly by setting out cookies and other sweets for you on Christmas Eve.

I have nothing against your round belly, but I’m concerned about the message it sends. We’re currently facing an epidemic of overweight kids and an ever-increasing number of children with type 2 diabetes. According to the CDC, the percentage of children in the U.S. between ages 10 and 19 with type 2 diabetes nearly doubled from 2001 to 2017. You, Santa, with your influence, can help reverse this trend.

Obesity has a much higher risk of shortening a person’s life span, not to mention affecting their quality of life. The most dangerous type of obesity is visceral adipose tissue, which means central belly fat. An easy way to tell if someone is too rotund is if their waistline, measured from the navel, is 40 inches or more for a man and 35 inches or more for a woman. Risks for pancreatic cancer, breast cancer, liver cancer and heart disease increase dramatically with this increased fat.

Santa, here is your opportunity to lead by example (and, maybe by summer, to fit into those skinny jeans you hide in the back of your closet).

Think of the personal advantages of being trimmer. Your joints won’t ache with the winter cold, and you will have more energy. Plus, studies show that, with a diet that emphasizes fruits, vegetables and whole grains, you can reverse clogged arteries and avoid strokes, heart attacks and peripheral vascular disease. With a simple change, like eating a handful of raw nuts a day, you can reduce your heart disease risk significantly.

Losing weight will also change your center of gravity, which will make it easier for you to keep your balance on those steep, icy rooftops.

Exercise will help as well. Maybe this Christmas Eve, you could walk or jog alongside the sleigh for the first continent or so. As you continue to exercise during the “offseason,” you’ll start to tighten your abs and slowly see fat disappear from your midsection.

This might make it easier to steal a base or two during the North Pole Athletic League’s Softball season. The elves don’t even bother holding you on base anymore, do they?

Of course, the cookies don’t help. You might let slip that the modern Santa enjoys fruits, especially berries, and veggies, with an emphasis on cruciferous veggies like broccoli florets dipped in humus, which have substantial antioxidant qualities and can help reverse disease. And, of course, skip putting candy in the stockings. No one needs more sugar, and I’m sure that, over the long night, it’s hard to resist sneaking a few pieces, yourself.

As for your loyal fans, you could place active games under the tree. You and your elves could create an app with workout videos for those of us who need them, and we could follow along as you showed us “12 Days of Workouts with Santa and Friends.” Who knows, you might become the next Shaun T!

You could gift athletic equipment, such as baseball gloves, footballs and basketballs, instead of video games. Or wearable devices that track step counts and bike routes. Or stuff gift certificates for dance lessons into people’s stockings.

As you become more active, you’ll find that you have more energy all year round, not just on Christmas Eve. If you start soon, Santa, maybe by next year, you’ll be able to park the sleigh farther away and skip from chimney to chimney.

The benefits of a healthier Santa will ripple across the world. Your reindeer won’t have to work so hard. You might fit extra presents in your sleigh. And Santa, you will be sending kids and adults the world over the right message about taking control of their health through nutrition and exercise. That’s the best gift you could give!

Wishing you good health in the coming year,

David

P.S. If you have a little extra room in your sleigh, I could use a new pair of batting gloves. I hear the Yankees need help, and I’ve been practicing, just in case.

Dr. David Dunaief is a speaker, author and local lifestyle medicine physician focusing on the integration of medicine, nutrition, fitness and stress management. For further information, visit www.medicalcompassmd.com.

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Walking improves bone health and brain volume

By David Dunaief, M.D.

Dr. David Dunaief

What does it take to get Americans off the sofa? We know that exercise is good for our long-term physical and mental health, but it’s still elusive for the majority of us. It’s just too tempting to let the next episode of our new favorite series autoplay or to answer those last 12 emails.

As kids, many of us tried to get out of gym class, and as adults, we “want” to exercise, but we “don’t have time.” I once heard that the couch is as bad as the worst deep-fried food. It perpetuates inactivity. Even sleeping burns more calories than sitting watching TV, for example.

I think part of the problem might be that we don’t know what type of exercise is best and how long and frequently to do it. 

I have good news. There is an easy way to get tremendous benefit with very little time involved. You don’t need expensive equipment, and you don’t have to join a gym. You can sharpen your wits with your feet.

Jane Brody has written in The New York Times’ Science Times about Esther Tuttle. Esther was 99 years old, sharp as a tack and was independently mobile, with no aids needed. She continued to stay active by walking in the morning for 30 minutes and then walking again in the afternoon. The skeptic might say that this is a nice story, but its value is anecdotal at best. 

Well, evidence-based medicine backs up her claim that walking is a rudimentary and simple way to get exercise that shows incredible benefits. One mile of walking a day will help keep the doctor away. 

Walking has a powerful effect on preserving brain function and even growing certain areas of the brain (1). Walking between six and nine miles a week, or just one mile a day, reduced the risk of cognitive impairment over 13 years and actually increased the amount of gray matter tissue in the brain over nine years.

Participants who had an increase in brain tissue volume also had a substantially reduced risk of developing cognitive impairment. Interestingly, the parts of the brain that grew included the hippocampus, involved with memory, and the frontal cortex, involved with short-term memory and executive decision making. There were 299 participants who had a mean age of 78 and were dementia free at the start of the trial. Imagine if you started earlier?

In yet another study, moderate exercise reduced the risk of mild cognitive impairment with exercise begun in mid-to-late life (2).

Even better news is that, if you’re pressed for time or if you’re building up your stamina, you can split a mile into two half-mile increments. How long does it take you to walk a half-mile? You’ll be surprised at how much better you will feel — and how much sharper your thinking is.

This is a terrific strategy to get you off the couch or away from your computer. Set an alarm for specific points throughout the day and use that as a prompt to get up and walk, even if it’s only for 15 minutes. The miles will add up quickly. In addition to the mental acuity benefits, this may also help with your psychological health, giving you a mental break from endless Zoom calls and your eyes a break from endless screens.

If you ratchet up the exercise to running, a study showed that mood also improves, mollifying anger (3). The act of running actually increases your serotonin levels, a hormone that, when low, can make people agitated or angry. So, exercise may actually help you get your aggressions out.

Walking has other benefits as well. We’ve all heard about the importance of doing weight-bearing exercise to prevent osteoporosis and osteoporotic fractures. Sadly, if you don’t use them, bones weaken and break. Walking is a weight-bearing exercise that helps strengthen your joints, bones and muscles. 

So, remember, use your feet to keep your mind sharp and yourself even-tempered. Activities like walking will help you keep a positive attitude, preserve your bones and help increase the plasticity of your brain.

References: 

(1) Neurology Oct 2010, 75 (16) 1415-1422. (2) Arch Neurol. 2010;67(1):80-86. (3) J Sport Exerc Psychol. 2010 Apr;32(2):253-261.

Dr. David Dunaief is a speaker, author and local lifestyle medicine physician focusing on the integration of medicine, nutrition, fitness and stress management. For further information, visit www.medicalcompassmd.com.

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