Monday, November 28, 2011

Why Triglycerides Should Matter To You

by Steve Solomon
TriVita

Most people don’t need to be reminded to keep track of their blood pressure and cholesterol levels. However, there’s something else you should be monitoring: your triglycerides. Having a high level of triglycerides can increase your risk of heart disease.

What are triglycerides?
Triglycerides are a type of fat (lipid) found in your blood. After eating, your body converts any calories it doesn’t need to use right away into triglycerides. These triglycerides are stored in your fat cells and they are eventually released for energy between meals. If you regularly eat more calories than you burn, you may have high triglycerides.

The danger of high triglycerides.
High triglycerides may contribute to hardening of the arteries or thickening of the artery walls (atherosclerosis), which increases the risk of stroke, heart attack and heart disease.

High triglycerides are often a sign of other serious conditions including obesity and metabolic syndrome, a variety of conditions that includes too much fat around the waist, high blood pressure, high blood sugar and abnormal cholesterol levels. Elevated triglycerides may also be a consequence of other disease, such as untreated diabetes, low levels of thyroid hormones, liver or kidney disease.

What’s considered normal?
A simple blood test can indicate whether your triglycerides fall into the healthy range. The National Cholesterol Education Program guidelines for triglycerides are:

Normal - Less than 150 mg/Dl (milligrams per deciliter)

Borderline high - 150 to 199 mg/dL

High - 200 to 499 mg/dL

Very high - 500 mg/dL or higher

How to lower triglycerides
Here are suggested lifestyle changes that can help bring down triglyceride levels:

If you are overweight, cut down on calories to reach your ideal body weight.

Reduce the saturated fat, trans fat and cholesterol content of your diet. Trade saturated fat found in meats for healthier monounsaturated fat found in plants such as olive, peanut and canola oils. Substitute fish high in omega-3 fatty acids, such as mackerel and salmon, for red meat.

Reduce your intake of alcohol. Alcohol is high in calories and sugar and has a very potent effect on triglycerides.

Eat more fruits, vegetables and nonfat or low-fat dairy products.

Get at least 30 minutes of moderate-intensity exercise on five or more days each week.

Saturday, September 24, 2011

Conditions In-Depth: Low Back Pain and Sciatica

Low Back Pain
Low back pain is an ache or discomfort in the area of the lower part of the spinal column that may radiate down into one or both legs. The lower spinal column consists of small, stacked bones (the vertebrae) that surround and protect the spinal cord and nerves.

Cross-section of Vertebral Canal with Spinal Cord in the Center

http://services.epnet.com/GetImage.aspx/getImage.aspx?ImageIID=2723

© 2011 Nucleus Medical Media, Inc.

There are many possible causes for low back pain, including:

Sprain or strain of muscles or ligaments in the area
Herniated disc or ruptured disc—the cushions between the bones of the spine bulge out of place as a result of age-related changes or trauma.
Disc degeneration—caused by arthritis or by the wear and tear of living plus aging
Lumbar spinal stenosis—bony narrowing of the spinal canal in the low back area
Spondylolisthesis —slippage of one bone over another, causing stretching or pinching of nerves
Fractures due to trauma or osteoporosis
Fibromyalgia —a condition that causes muscle aches and fatigue
Ankylosing spondylitis—a disorder that causes spine stiffness and arthritis (believed to be hereditary)
In rare cases,

Benign or malignant tumors
Infections
Arterial problems, such as hardening of the arteries

Lumbar Disc Herniation With Pinching of Spinal Nerve

http://services.epnet.com/GetImage.aspx/getImage.aspx?ImageIID=2725

© 2011 Nucleus Medical Media, Inc.

Sciatica
Sciatica is irritation of the sciatic nerve, which passes from the spinal cord to the buttocks down the back of each thigh. The sciatic nerve is composed of several nerve roots that arise from the lower spine on each side of the spinal column. These nerve bundles travel deep in the pelvis to the lower buttocks. From there, the nerve passes along the back of each upper leg and divides at the knee into branches that go to the feet.
Sciatica typically causes pain that shoots down the back of one thigh or buttock. Anything that causes irritation or puts pressure on the sciatic nerve can cause sciatica, including:

Herniated disc (ruptured or slipped disc)
Disc degeneration
Spinal stenosis
Spondylolisthesis
In rare cases:

Benign or malignant tumors
Infections

Low back pain is very common; it is estimated that over the course of a lifetime 80% of Americans will suffer from at least one episode of back pain. Every year, about 15%-20% of the adults in the United States will report back pain. Most back pain gets better with time; about 5% to 10% of patients will continue to have pain for longer than three months.

SOURCES:

Conn's Current Therapy 2001 . 53rd edition. W.B. Saunders Company; 2001.

Pain. National Institute of Neurological Disorders and Stroke website. Available at: http://www.ninds.n... . Accessed October 27, 2008.

Textbook of Primary Care Medicine . 3rd edition. Mosby, Inc.; 2001.

This content is reviewed regularly and is updated when new and relevant evidence is made available. This information is neither intended nor implied to be a substitute for professional medical advice. Always seek the advice of your physician or other qualified health provider prior to starting any new treatment or with questions regarding a medical condition.
Copyright © 2010 EBSCO Publishing All rights reserved.

Tuesday, September 6, 2011

The truth about butter

Saturday, September 3, 2011

Ten Tips for Healthy Aging

Ten Tips for Healthy Aging

Today, due to numerous medical and scientific advances, people are living longer than ever before. But, you do not just automatically live longer—you have to be good to your body, mind, and soul. The following 10 tips are a good start for getting you on your way to living a long and healthy life.

Eat a balanced diet.—A balanced diet is one that is rich in fruits, vegetables, whole grain, and fiber and low in saturated fat, trans fat, and cholesterol. A well-balanced diet can provide your body with the essential nutrients needed to achieve and maintain optimum health. If you have certain conditions, you may need to take supplements. For example, if you have osteoporosis, your doctor may recommend that you take calcium andvitamin D.
Be physically active.—Try to incorporate at least 30 minutes of activity into your day, every day. The options are endless. Start walking in the mornings, join a yoga class, try jogging with a friend, sign up for a basketball league, or go for a bike ride in the afternoons. Make sure you choose activities that you enjoy, that way you will be more likely to make them a habit.
Get regular preventive check-ups.—See your doctor regularly. Remember your doctor is your partner in healthcare. The two of you are working toward the same goal—your optimum health. By having regular check-ups, you may be able to catch small problems before they become big problems. It is also important to have regular dental and eye exams.
Do not smoke.—Smoking is the number one cause of preventable death. It is never too late to quit. Your body will begin to feel the benefits almost immediately. After one day of quitting, your risk of having a heart attack decreases.
Be safe.—Use common sense and be street smart. Do not put yourself in situations that may be dangerous. Just a few ways you can put safety first include:

Always wear your seatbelt.
Wear a helmet when participating in sports, like biking or skiing.
Use smoke and carbon monoxide detectors in your home.
Do not go for a run, walk, or jog alone at night. Most attacks happen to people who are alone. Reduce your risk by bringing a friend.
Use medicines wisely. Follow directions and ask your doctor or pharmacist about side effects and drug interactions.
Keep your home well lit. Remove items (like loose wires, cords, throw rugs) that could cause you to fall.

Avoid environmental extremes.—Protect your skin when you are outdoors by using a sunscreen with a sun protection factor (SPF) of at least 15. Try to avoid getting too much sun. Dress appropriately for the weather so that you do not get too hot or too cold.
If you drink alcohol, do so in moderation.—For a man aged 65 or younger, moderation means no more than two drinks a day. For a man aged 65 or older or a woman of any age, moderation means no more than one drink a day. One drink is:

One 12-ounce bottle of beer
One 5-ounce glass of wine
1.5 ounces of spirits

Keep your personal and financial records in order. —Start planning now for your long-term housing and financial needs. For information on banking, saving, buying, getting credit, and investing, check out Consumer.gov at http://www.consumer.gov/ncpw/everyone/—an excellent resource that can answer many of your questions.
Stay in touch with family and friends.—Get to know your neighbors. Take the time to be involved with your community. By creating a strong social network, you will have friends to celebrate with when good things happen and a support system in difficult times.
Keep a positive attitude.—Studies have shown that people who have a positive attitude tend to live longer and lead healthier and happier lives. Try to avoid taking things personally. Look for the humor in life. And remember to laugh. Several studies have shown that laughter makes you feel better. But, who needs a study to prove that? Just laugh, and you will know it is true.

RESOURCES:

The Healthy Aging Campaign
http://www.healthyaging.net/

National Institute of Aging
http://www.nia.nih.gov/

CANADIAN RESOURCES:

Canadian Centre for Activity and Aging
http://www.uwo.ca/actage/

Health Canada
http://www.hc-sc.gc.ca/index_e.html/

REFERENCES:

Alcohol use: why moderation is key. Mayo Clinic website. Available at: http://www.mayoclinic.com/health/sprained-ankle/DS01014. Updated June 2009. Accessed April 6, 2010.

Dawson-Hughes B, Heaney RP, Holick MF, et al. Estimates of optimal vitamin D status. Osteoporos Int. 2005; 16:713.

Lifestyle changes to manage osteoporosis. EBSCO Health Library website. Available at: http://www.ebscohost.com/thisTopic.php?marketID=15topicID=81. Updated March 2010. Accessed April 6, 2010.

Malabanan A, Veronikis IE, Holick MF. Redefining vitamin D insufficiency. Lancet. 1998; 351:805.

Need AG, O'Loughlin PD, Morris HA, et al. The effects of age and other variables on serum parathyroid hormone in postmenopausal women attending an osteoporosis center. J Clin Endocrinol Metab. 2004; 89:1646.

Protect your skin: how to avoid sun exposure. EBSCO Health Library website. Available at: http://www.ebscohost.com/thisTopic.php?marketID=15topicID=81. Updated May 2008. Accessed April 6, 2010.

Tsai KS, Wahner HW, Offord KP, et al. Effect of aging on vitamin D stores and bone density in women. Calcif Tissue Int.1987; 40:241.

Sunday, August 21, 2011

Natural Strategies for Preventing Hearing Loss

LE Magazine November 2007

Natural Strategies for Preventing Hearing Loss

Alarmingly, nearly half of all baby boomers today suffer from some degree of hearing loss. While its onset can be almost imperceptible, the end result is an impaired ability to interact with the world that significantly detracts from quality of life.

For more than 20 years, leading otolaryngologist Dr. Michael Seidman has been searching for the underlying causes of age-related hearing loss and for natural strategies to prevent and even reverse this debilitating condition. His remarkable research and clinical experience shows that it is now possible to slow the progression—and sometimes even reverse hearing loss—using an integrative approach that includes optimal nutritional and lifestyle choices.

In the following excerpt from Save Your Hearing Now (Warner Wellness, 2006), Dr. Seidman reveals the intimate link between aging and hearing loss, and how you can implement a program today to protect your hearing against the ravages of aging.

After treating hundreds of patients suffering from hearing loss— and seeing the devastating effects it had on their lives—I decided to look for a natural solution. Knowing that antioxidants counteract the damage caused by free radicals, I thought there might be a way to use those same safe, natural substances to protect and/or restore hearing. But first, the fact that there was a link between free-radical damage and hearing loss had to be established. So the first study my colleagues and I conducted was designed to find out if there was a connection between damaged hearing in humans and the common hearing loss seen with aging. To measure free-radical damage, scientists can look for certain “markers,” chemical or cellular signposts that indicate change within a cell. In humans, one of these markers is known as the common aging deletion. It is a sign of both advancing years and free-radical damage to the DNA of tiny organelles within each cell known as mitochondria.

From previous research in our lab and by others, we knew four things:

Common aging deletions accumulate as we grow older.
Blood flow to the cochlea, home to the nerve endings that make hearing possible, decreases as we age.1
At the same time, our hearing apparatus becomes less sensitive.2,3
As we age, our bodies produce more free radicals and fewer of the antioxidants that protect our hearing from free-radical damage.4

To test the theory that aging damages hearing and common aging deletions are a sign of that damage, we examined the temporal bones (those found at the sides and base of the skull) of thirty-four individuals, seventeen with normal hearing and seventeen who had age-related hearing loss. Temporal bones house the cochlea, the snail-shell-shaped organ responsible for hearing, and this is why we focused on that particular area. We found the common aging deletion in fourteen of the seventeen individuals with hearing loss and in eight of those with normal hearing.

Why didn’t the deletion appear in all seventeen of those with hearing loss? And why did it appear in bones of people whose hearing was fine? At least two reasons: The common aging deletion is only one type of hearing loss. It could be that other deletions contribute to hearing loss, too. In addition, there are four different types of age-related hearing loss. The common aging deletion may not be responsible for all four. At any rate, this study provided us with enough evidence to conclude that the common aging deletion is associated with aging and hearing loss.5

Supporting the First Findings

The link between aging and hearing loss was underscored by our next study. It involved a number of rats, which were divided into four age groups: young, mid-young, mid-old, and old. We tested the sensitivity of rats’ hearing and examined their DNA for the common aging deletion, to determine if there was an association between the two. We found that, like humans, rats tend to have higher levels of the common aging deletion as they grow older, and they have an increased tendency to develop hearing loss as well.6

Now we had established that the aging process resulted in an increase in common aging deletions, which weakened the mitochondria and damaged hearing. But could the damage be slowed, prevented, or possibly even repaired with supplements of naturally occurring antioxidants? That’s the question we set out to answer with two additional studies.

In one clinical trial, we followed animals from approximately several months old to the day they died. One group received a calorie-restricted diet, shown to reduce free-radical production, reduce mitochondrial damage, and to increase life span. For purposes of comparison, a placebo-controlled group was allowed to eat freely. Other groups were treated with antioxidants, including vitamins E and C, and the hormone melatonin. With this study, we demonstrated that free radicals and damage to the mitochondria that occurs with aging leads to presbycusis, the medical term given to agerelated hearing loss. Furthermore, we were able to demonstrate that dietary moderation and specific nutrients reduce the progression of age-related hearing loss, and we concluded that it is likely that a combination therapy would provide a synergistic protective effect on presbycusis and possibly on aging as well.7

But even more dramatic results occurred in our next clinical trial. In this study, we used twenty-one two-year-old rats, senior citizens in the rodent world, and divided them into three groups of seven each. For six weeks, one group was given ALC (acetyl-L-carnitine), the second was given ALA (alpha-lipoic acid), and the third group, used as a control, received a placebo (sugar pill).

When we tallied the results, it was clear that hearing in the control (placebo) group had deteriorated at a rate typical for animals of that age. But that didn’t happen with either group of supplemented animals. Instead, we discovered the ALA and ALC did something pretty amazing. The supplemented rats not only avoided hearing loss, but their hearing actually improved. In other words, supplements didn’t just stop age-related hearing loss—they reversed it!8

During the study, the control group lost anywhere from 3 to 7 dB of hearing, while the ones treated with ALC or ALA had a 7 to 10 dB improvement in their hearing, with the greatest improvements occurring after six months of treatment. While the ALA was more effective for protecting hearing at low frequencies, ALC did better at higher frequencies. We demonstrated that taking both supplements is the best way to protect against hearing damage in general.

Of all the research I’ve done, I consider this study the most important. It clearly demonstrates that hearing loss can be prevented—and even reversed—by simply taking a combination of antioxidants that includes ALA and ALC. Both these substances have been popular in Europe for some time, and are widely considered nontoxic, very effective in treating hearing loss, and also capable of providing overall antiaging and wellness benefits.

But there is another reason this study stands out. Medical research is full of surprises. Sometimes what makes perfect sense on paper just doesn’t work in the lab. Other times we are literally astonished by the unanticipated benefits. That’s what happened in this particular study. Along with improved hearing in the supplemented animals, we found a much lower level of common aging deletions in the mitochondria all throughout the body. The supplements actually reduced the amount of free-radical damage everywhere, creating an antiaging effect that improved hearing and carried over to other cells throughout the body. In other words, we had proven that age-related hearing loss can be reversed in mammals, with allnatural, side-effect-free substances. Although this research was groundbreaking at the time, other scientists have since shown that ALA, ALC, and various other substances, including the antioxidant coenzyme Q10 (CoQ10) and glutathione, provide substantial protection for the mitochondria and thereby support healthy hearing.

PREVENTING HEARING LOSS: WHAT YOU NEED TO KNOW

Hearing loss affects a growing number of Americans, and it significantly impairs quality of life.
Many of the factors involved in the aging process, such as free-radical damage and mitochondrial dysfunction, are also involved in age-related hearing loss.
Animal studies and clinical experience with patients show that a combination of nutrients—including acetyl-L-carnitine and alpha-lipoic acid—can help prevent or even reverse age-related hearing loss.
Lifestyle changes, such as practicing caloric restriction, taking the right nutrients, maintaining a healthy body weight, and avoiding drugs that can damage hearing, may also help maintain optimal hearing.
Based on cutting-edge research, the four steps to the Save Your Hearing Now program provide a flexible, easy-to-follow framework to improve your hearing and health simultaneously.
Taking antioxidant supplements and other nutrients that provide proven protection against free-radical damage and enhance mitochondrial health.
Designing meals around healthful foods that support those supplements.
Taking part in physical activity, moderately but frequently.
Avoiding noise pollution and wearing hearing protection when exposed to loud noises.

How Aging Affects Hearing

Age-related hearing loss affects approximately one-third of all people aged sixty-five and older. Technically known as presbyacusia or presbycusis, age-related hearing loss is due to the changes that occur in the body as we grow older. Circulatory disorders, for example, which limit the flow of blood throughout the body, as well as to the brain and auditory system, are common in later years. There are any number of reasons why circulation slows down as we grow older, among them heart disease, hardening of the arteries, diabetes, and sedentary lifestyles.

My research and that of many colleagues clearly show that the same things that protect us from the damage done by passing years also prevent damage to our hearing. In order to understand how hearing can be saved by slowing the clock, let’s take a look at the aging process and what happens in the body, especially the auditory system, as time passes.

Aging Begins in the Cells

During a normal lifetime, our cells divide anywhere from twenty to thirty times. This ongoing process of cellular expansion turns a child into an adult, and then cell division slows. Ultimately, because of inherent limits, our cells are no longer able to divide. So although we continue to need new cells, later in life our bodies are not as efficient as they once were at producing them. The result: Disease or malfunctions occur because faulty cells are not replaced with fully functional versions.

In addition to the inherent limitations on new cell production, other factors are thought to play a role in aging. There are several different theories about the process, including the free-radical or mitochondrial clock theory, dysdifferentiation theory, and the telomerase theory. Thus far, the free-radical theory hasthe widest acceptance.

The Enemy: Free Radicals

In simplest terms, a free radical is an unstable molecule or cluster of molecules that is missing an electron. Like mini-atomic bombs, free radicals damage or destroy cells they come in contact with. Free radicals are by-products of everything from eating to living in a world filled with toxic chemicals and pollution. In other words, they are unavoidable.

Although some free radicals are actually beneficial, others damage healthy cells. Free radicals can cause errors in genetic “messages” by altering DNA (deoxyribonucleic acid, the “blueprint” that governs cell growth). This can, among other things, lead to a reduced blood supply to organs such as the inner ear and brain, thereby damaging hearing.

When one of these loose cannon free-radical molecules binds with a healthy cell, it wreaks havoc on the cell’s ability to function. Mother Nature did not leave us completely defenseless, though. Our bodies produce enzymes known as antioxidants—such as superoxide dismutase (SOD), catalase, and glutathione peroxidase—to counteract the damage. We can also obtain antioxidants from certain foods and supplements. But if inadequate production or a poor diet results in a shortage of antioxidants, cellular damage may not be repaired, and sooner or later, we become ill. There have been many studies documenting that free radicals are responsible for more than a hundred human diseases, including Alzheimer’s, cancer, heart attacks, strokes, and arthritis, as well as aging.

Even though free radicals are microscopic and exist for far less time than it takes to blink an eye, they are capable of doing considerable damage simply because of their sheer numbers. According to research at Emory University, each human cell receives approximately ten thousand free-radical hits each day. Further calculations have shown that this equals 7 trillion (7,000,000,000,000!) insults per second throughout our bodies.9

Certainly, 7 trillion is a staggering number, but the body counteracts this assault with its own arsenal of antioxidant enzymes. Unfortunately, there is a significant decline in these enzymes as we grow older. In fact, we now know that by the time the average person reaches the late twenties, production of these detoxifying enzymes has declined dramatically. Based on the findings of scientists studying free radicals and human health, the best approach to slowing aging is one that provides the body with plenty of antioxidant ammunition against free radicals. That means increasing intake of antioxidants, something that can be done in part with the proper diet or, more effectively, by taking supplements.

The Mighty Mitochondria

To measure free-radical damage, scientists can look for certain “markers,” chemical or cellular signposts that indicate change within a cell. In humans, one of these markers is known as the common aging deletion. It is a sign of both advancing years and free-radical damage to the DNA of tiny organelles within each cell known as mitochondria.

About 98 percent of our body’s energy is produced in mitochondria, so they are often described as the cells’ powerhouses. A number of studies have shown that the functions of the mitochondria decrease with age, leading some experts to speculate that this may be why many people feel less energetic as they grow older. The hardworking mitochondria also serve as the cells’ “gatekeepers,” with the power to determine whether a cell lives or dies, so it’s doubly important to keep the mitochondria healthy.10

The mitochondria have their own DNA, which is completely separate from the DNA found in the cells. When free radicals ravage the cellular DNA, it can be repaired, but the mitochondria’s cannot. The mitochondria can be weakened or may even die, creating a slowdown in many essential processes. Even an incredibly small mutation in the mitochondrial DNA can dramatically slow energy production. In fact, the drop in mitochondrial activity is the basis of the free radical or mitochondrial clock theory of aging. According to this theory, the aging body increases its production of free radicals, which damage the body’s tissues and subcellular elements, such as the mitochondria. When we see the common aging deletion in mitochondria, we know the cells’ little energy factories aren’t fully functioning.

The Lifestyle Connection

In addition to providing the body with adequate amounts of antioxidants and other important nutrients, we’ve also discovered that there are several other things we can do to slow aging and save hearing.

Living on Less: The Lowdown on Caloric Restriction

A major aspect of the lifestyleaging connection is the food an individual chooses to eat.

Research going back more than seventy years shows that “caloric restriction,” the term given to lowcalorie, high-nutrient diets, extends the life span of laboratory animals and insects by up to 50 percent. In fact, nearly two thousand studies have confirmed the connection between caloric restriction and extended life span in a number of different species.

The average protozoa on a normal diet, for example, are typically alive for seven to fourteen days. On a caloric-restriction program, though, the average protozoan life span is thirteen days and can go as long as twenty-five, nearly double the maximum with a standard diet.

Caloric restriction is currently a hot topic among scientists studying longevity, primarily because it works so well. Based on what we know now, to achieve life extension results, we would have to eliminate 30 percent or more of our daily calorie intake. According to the Calorie Restriction Society (http://www.cron-web.org), four daily meals should add up to no more than 1,700 to 1,800 calories. It probably wouldn’t hurt most of us to cut back a little at mealtime, though. And it is possible that hearing could improve as a result, because caloric restriction is shaping up as a means of protecting more than the waistline. The benefits of skipping extra calories appear to extend to the brain, where much of the auditory system is located. A recent animal study at the University of Wisconsin, Madison, reported in Nature Genetics, demonstrated that a reduced-calorie diet actually protects brain cells from deterioration caused by aging, the very types of changes that could lead to Alzheimer’s and other degenerative conditions.11 In fact, two other studies that examined patients with Parkinson’s determined that highcalorie diets were linked to the likelihood of developing the disease.12 So skip the dessert and do your waist— and your brain—a favor. The good news is that you don’t have to starve yourself to save your hearing.

How Weight Harms Hearing

How is obesity or excess weight related to hearing? Although that subject is only beginning to be studied, Swedish researchers did find a connection recently. They followed nearly three hundred Swedish women over a twenty-four-year period. Using various data, including physical exams and brain scans, they found the first evidence that those with a high body mass index (BMI) throughout adult life had lost brain tissue when compared to women with lower BMIs. Loss of brain tissue occurred in the temporal lobe portion of the brain, where the auditory system is located, along with language, speech, memory, and comprehension.13

Why would weight affect the brain? There are three possible answers to that question. One, excess weight could increase the number of damaging free radicals in the body. Two, fat may produce harmful substances, such as growth factors and hormones, which can erode brain tissue. And three, excess fat might be responsible for hardening of the arteries (atherosclerosis) and result in limited oxygen flow to the brain.

Another connection between obesity and hearing loss is suggested by recent findings from Great Britain linking excess weight with accelerated aging. In a study involving more than eleven hundred women, scientists found that obesity had a greater effect on markers of aging than smoking. Among women who were obese, the markers showed signs of aging that were the equivalent of nearly nine years beyond those who were lean. Not surprisingly, being overweight or obese increases freeradical levels in the body, which the experts believe to be the reason more signs of aging were seen in those of excess weight.14

THE OPTIMAL FORM OF ALPHA-LIPOIC ACID

Individuals who wish to use nutritional strategies to protect their hearing will want to use the most potent form of alpha-lipoic acid available today. Alpha-lipoic acid consists of two forms (“R” and “S” isomers) that have very different properties. Of these two forms, the “R” isomer is the more biologically active component that is responsible for exerting the compound’s antioxidant effects. Most alpha-lipoic acid supplements contain both the R and S forms in a 50/50 ratio, which means they deliver only 50% of the biologically active R form.

Furthermore, studies have highlighted the greater potency of a supercharged R-lipoic acid, called R-dihydrolipoic acid,15,16 which is now also available as a supplement. This is the form of R-lipoic acid that is most readily available to cells and tissues as it does not need to undergo any chemical reduction in the body.

Given the enhanced effectiveness of R-lipoic acid and R-dihydrolipoic acid, only half the dose of each is needed to provide the same biological activity as higher amounts of conventional alpha-lipoic acid.

—Elizabeth Wagner, ND
—Bina Singh

How Drugs Damage Hearing

Good nutrition and moderate physical activity have repeatedly been shown to improve symptoms in a host of conditions that are typically treated with pharmaceuticals, including depression, anxiety, arthritis, heart disease, diabetes, and high blood pressure. Some people find that making lifestyle changes allows them to use less medication, while others are able to work with their physician to gradually eliminate drugs completely. It is a little known fact that many commonly prescribed drugs are ototoxic, or damaging to hearing. There are hundreds of ototoxic drugs, including popular nonsteroidal anti-inflammatory drugs (NSAIDs), like aspirin, as well as some antidepressant and antianxiety drugs, to name a few. Typically, people taking these medications have no idea that their hearing could be affected. Moreover, since the hearing loss may not appear until months after beginning the medication, the connection is far from obvious. The medication is rarely suspected to be the source of the problem, and every prescription refill continues the hearing damage.

A younger person may have more resistance to drugs that damage hearing, and is more likely to be taking only one or two medications at a time. Increasingly, though, older people are prescribed multiple remedies for a host of ailments that occur later in life. Often, these medications are prescribed by different doctors, who may not be aware of the total number of medications the patient is taking. The compound effect of taking multiple drugs—and its impact on hearing— are completely unknown. But certainly, if an individual is taking more than one ototoxic medication— and one is all it takes to damage hearing— we can assume the results are not going to be good.

Popular Drugs and Hearing Damage

Literally hundreds of drugs can affect the ability to hear, including popular nonsteroidal anti-inflammatory drugs (NSAIDs), like aspirin. In many cases, large doses or abuse of a drug can cause hearing loss, but when the same medication is taken as prescribed, it does not harm hearing. In normal doses, aspirin, for example, is considered safe, but those individuals who believe that “more is better” may be risking their hearing.

Other commonly prescribed drugs that affect hearing are:

Antibiotics, including those classified as aminoglycosides (gentamicin, streptomycin, neomycin), macrolides (erythromycin, azithromycin), and vancomycin
Loop diuretics (also known as furosemide or Lasix), which reduce the amount of fluid accumulating in the tissues
Chemotherapeutic agents (oxaliplatin, cisplatin, carboplatin) used to treat various types of cancer
Quinine-based antimalarial drugs
Salicylate analgesics (large doses of aspirin)
The pain reliever naproxen sodium (Naprosyn, Aleve), ibuprofen, and many other NSAIDs
Some antidepressant and antianxiety medications

Keep in mind that hearing loss is not the only effect these substances may have on the auditory system. Tinnitus and problems with balance may also occur. In fact, individuals with tinnitus should be certain their physician is aware of their condition and request prescriptions that will not make the condition worse. Drugrelated hearing loss, as well as tinnitus and balance problems, may be temporary or permanent, depending on a number of factors, such as dosage and length of time the drug is taken.

What This Means to Us Humans

The research my colleagues and I have done, which has been thoroughly reviewed by other experts and published in leading medical journals, clearly demonstrates that we can slow the progression of―and in some cases, reverse―hearing loss with natural substances found in food and supplements. The Save Your Hearing Now Program is designed to do just that. Scientifically proven antioxidant supplements and nutrients to enhance mitochondrial function are the program’s foundation. A Mediterranean-style meal plan, based on research showing the benefits of a diet rich in fruits, vegetables, whole grains, lean proteins, and good fats, enhances the supplements’ work by providing additional nutrients. Physical activity, meanwhile, stimulates circulation, which relays nutrients throughout the auditory system, as well as the rest of the body.

The proof that the program works has been amply demonstrated for me by the success stories I’ve heard from hundreds of patients. After so many people described how their lives changed—especially those who were skeptical to begin with—it became quite clear that hearing loss can be halted and sometimes corrected through the use of appropriate nutrients and lifestyle changes. And hearing isn’t the only thing that is affected. A large number of patients report that their stress and anxiety levels plummeted once they discovered that they didn’t have to worry about suffering further hearing loss or becoming completely deaf. Better hearing means better quality of life, and this program has been developed to provide just that.

From the book “Save Your Hearing Now” by Michael D. Seidman, MD, FACS and Marie Moneysmith. Copyright © 2007 by Michael D. Seidman, MD, FACS and Marie Moneysmith. Reprinted by permission of Grand Central Publishing, New York, NY. All rights reserved.

THE SAVE YOUR HEARING NOW PROGRAM’S TOP TEN NUTRIENTS

The foundation rests on four substances, alpha-lipoic acid (ALA) and acetyl-L-carnitine (ALC), the two compounds that were the focus of my earliest research on hearing loss prevention and nutrients—and two other potent antioxidants, coenzyme Q10 and glutathione. In combination, these four compounds deliver state-of-the-art protection for the auditory system. An additional six other nutrients round out the program.

The complete Save Your Hearing Now Top Ten list:

ALA: A powerful and versatile antioxidant, ALA is capable of counteracting the type of free-radical damage that harms the auditory system. Recommended dosage: 100 to 750 mg per day
ALC: This compound is important for the proper functioning of the mitochondria, as well as supporting a healthy nervous system and brain, where much of the auditory system is located. Recommended dosage: 500 to 3,000 mg per day
Glutathione: A key element in preventing free-radical damage that can harm hearing, glutathione also minimizes the effects of various pollutants. Recommended dosage: 30 to 300 mg per day
Coenzyme Q10 (CoQ10): This vitally important antioxidant protects the mitochondria—and therefore hearing—and also plays a role in the production of cellular energy. Recommended dosage: 60 to 320 mg per day
Vitamin B complex: A family of nutrients that perform literally hundreds of tasks in the body, vitamin B has a special affinity for the nervous system and hearing. Recommended dosage: a balanced formula containing the entire family in appropriate amounts
Lecithin: This substance is essential for healthy cell membranes, and my own research has shown that it protects against age-related hearing loss. Recommended dosage: 200 to 1,500 mg per day
N-acetylcysteine (NAC): An amino acid known best for its ability to detoxify, NAC has also been shown to repair damaged hair cells of the inner ear. Recommended dosage: 100 to 2,500 mg per day
Quercetin: A bioflavonoid found in fruits and vegetables, quercetin has antioxidant properties that make it a powerful antidote to free-radical damage that can destroy hearing. Recommended dosage: 30 to 500 mg per day
Resveratrol: This compound, found in red wine, grape juice, and grapes, is considered a potent antiaging weapon and protects against damage from noise exposure. Recommended dosage: 40 to 1,000 mg per day
Zinc: The mineral zinc is an important antioxidant involved in hundreds of processes throughout the body, including support of the immune system. The highest concentrations of zinc are found in the inner ear and in the eye, and it is involved in hearing. Recommended dosage: 15 to 75 mg per day

For best absorption, these supplements should be taken with food and at least eight ounces of water. I recommend separating the daily dose you choose into two or three portions—whatever works best for you—so that your cells are nourished throughout the day.

Editor’s note: These nutritional recommendations are excerpted from Dr. Seidman’s program outlined in Save Your Hearing Now.

References

1. Johnsson LG, Hawkins JE Jr. Vascular changes in the human inner ear associated with aging. Ann Otol Rhinol Laryngol. 1972 Jun;81(3):361–76.

2. Seidman MD, Khan MJ, Dolan D, et al. Age related differences in cochlear microcirculation and auditory brain stem responses. Arch Otolaryngol Head Neck Surg. 1996 Nov;122(11):1221-6.

3. Miller JM, Marks NJ, Goodwin PC. Laser Doppler measurements of cochlear blood flow. Hearing Res. 1983 Sep;11(3):385–94.

4. Semsei I, Rao G, Richardson A. Changes in the expression of superoxide dismutase and catalase as a function of age and dietary restriction. Biochem Biophys Res Commun. 1989 Oct 31;164(2):620–5.

5. Bai U, Seidman MD, Hinojosa R, Quirk WS. Mitochondrial DNA deletions associated with aging and possibly presbycusis: A human archival temporal bone study. Am J Otol. 1997 Jul;18(4):449–53.

6. Seidman MD, Bai U, Khan MJ, Quirk WS. Mitochondrial DNA deletions associated with aging and presbyacusis. Arch Otolaryngol Head Neck Surg. 1997 Oct;123(10):1039–45.

7. Seidman MD. Effects of dietary restriction and antioxidants on presbyacusis. Laryngoscope. 2000 May;110(5 pt 1):727–38.

8. Seidman MD, Khan MJ, Bai U, Shirwany N, Quirk WS. Biologic activity of mitochondrial metabolites on aging and age-related hearing loss. Am J Otol. 2000 Mar;21(2):161–7.

9. Wallace DC. Mitochondrial genetics: A paradigm for ageing and degenerative diseases? Science. 1992 May 1;256(5057): 628–32.

10. Granville DJ, Gottlieb RA. Mitochondria: Regulators of cell death and survival. Scientific World Journal. 2002 Jun 11;2:1569–78.

11. Lee CK, Weindruch R, Prolla TA. Geneexpression profile of the ageing brain in mice. Nat Genet. 2000 Jul;25(3):294–7.

12. Fraser GE, Singh PN, Bennett H. Variables associated with cognitive function in elderly California Seventh-Day Adventists. Am J Epidemiol. 1996 Jun 15;143(12):1181–90.

13. Gustafson D, Lissner L, Bengtsson C, Björkelund C, Skoog I. A 24-year follow-up of body mass index and cerebral atrophy. Neurology. 2004 Nov 23;63(10):1876-81.

14. Valdes AM, Andrew T, Gardner JP, et al. Obesity, cigarette smoking, and telomere length in women. Lancet. 2005 Aug 20;366(9486):662-4.

15. Available at: http://www.pdrhealth.com/ drug_info/nmdrugprofiles/nutsupdrugs/ alp_0159.shtml. Accessed July 16, 2007.

16. No authors listed. Alpha-lipoic acid. Monograph. Altern Med Rev. 2006 Sept;11(3):232-7.

Saturday, August 20, 2011

Type 2 Diabetes

Type 2 Diabetes

Type 2 diabetes is primarily a disorder in which the cells in the body are not responding to the high levels of insulin circulating in the body. The body becomes increasingly resistant to insulin. In end-stage type 2 diabetes, the beta cells of the pancreas are not producing enough insulin.

Insulin is a hormone normally produced by the pancreas. This hormone helps your body convert food into energy. Without insulin, glucose (sugar) from the food you eat cannot enter cells, and glucose builds up in the blood. Your body tissues become starved for energy.

How Type 2 Diabetes Occurs
EDT00014_type 2 diabetes.jpg

© 2011 Nucleus Medical Media, Inc.
Diabetes affects an estimated 25.8 million Americans, with type 2 diabetes being the most common form. People usually develop this condition after age 45, but it can occur at any age—even during childhood.

In recent years, there has been an increase in the number of cases of type 2 diabetes diagnosed in children and adolescents. This has been blamed, in part, on the increase in childhood obesity, resulting from poor eating habits and sedentary lifestyle.

Type 2 diabetes occurs because either one or both of the following conditions exist:

Beta cells in the pancreas do not make enough insulin relative to the demands of the body
Fat, muscle, or liver cells do not respond to the high levels of insulin (called insulin resistance)

Being overweight or obese is the primary cause of insulin resistance, and it increases the chance of developing type 2 diabetes.
The key to minimizing complications is keeping your blood sugar level within a healthy range. When your blood sugar level is not within the ideal range, you can experience the following problems:

In the short-term:

High blood sugar (hyperglycemia)
Low blood sugar (hypoglycemia)

In the long-term:

Blindness
Kidney disease
Heart disease
Stroke
Nerve disease (can cause numbness, pain, or altered sensation, such as a burning feeling in the legs and feet)
Loss of limbs (when amputations are needed because of infection, poor circulation, or nerve disease)
Impotence

REFERENCES:

American Diabetes Association website. Available at: http://www.diabetes.org . Accessed February 11, 2010.

National diabetes statistics, 2007. National Diabetes Information Clearinghouse website. Available at: http://diabetes.niddk.nih.gov/DM/PUBS/statistics/ . Published June 2008. Accessed February 11, 2010.

National Institute of Diabetes and Digestive and Kidney Diseases. National Institutes of Health website. Available at: http://www.niddk.nih.gov/ . Accessed February 11, 2010.

Rosenbloom AL, Silverstein JH, Amemiya S, et al. ISPAD clinical practice consensus guideline 2006-2007. Type 2 diabetes mellitus in the child and adolescent. Pediatr Diabetes. 2008;9:512-526.

Rosenzweig JL, Ferrannini E, Grundy SM, et al. Primary prevention of cardiovascular disease and type 2 diabetes in patients at metabolic risk: an endocrine society clinical practice guideline. J Clin Endocrinol Metab.2008;93:3671-3689.

Skyler JS, Bergenstal R, Bonow RO, et al. Intensive glycemic control and the prevention of cardiovascular events: Implications of the ACCORD, ADVANCE and VA diabetes trials: a position statement of the American Diabetes association and a scientific statement of the American College of Cardiology Foundation and the American Heart Assocaition. Circulation. 2009;119:351-357.

United States Preventive Services Task Force. Screening for type 2 diabetes mellitus in adults. Ann Intern Med.2008;148:846-54.

1/28/2011 DynaMed's Systematic Literature Surveillance http://www.ebscohost.com/dynamed/what.php : National Diabetes fact shee, 2011. Centers for Disease Control and Prevention website. Available at: http://www.cdc.gov/diabetes/pubs/pdf/ndfs_2011.pdf . Published January 2011. Accessed January 28, 2011.

Sunday, July 10, 2011

Getting to the Heart of a Healthy Diet: Empty-Calorie Foods

Getting to the Heart of a Healthy Diet: Empty-Calorie Foods

The American Heart Association recommends that you limit your intake of foods high in calories or low in nutrition, including foods like soft drinks and candy that have a lot of sugars. We know that soda and junk food is bad for us. But do we actually know why?

Here's Why:
Since there is such a focus on eating a low-fat diet, people may think that any food that is low in fat is inherently healthy. This is not the case! For example, soda and hard candy have no fat, but they also have no vitamins, minerals, fiber, or other health-promoting ingredients. What they do have is sugar, and lots of it. And a lot of sugar can add up to a lot of calories.

Eating foods high in sugar and calories can lead to weight gain, and being overweight is a risk factor heart attacks and heart disease.

In addition, sugary foods often take the place of healthier foods. For example, when was the last time you chose a soda over a glass of skim milk or snacked on gummi bears instead of an apple?

How to Minimize Empty-Calorie Food Intake:
Here are a few tips to help you minimize your intake of empty-calorie foods.

Do not be fooled by low-fat sweets. Often, when food manufacturers remove fat from cookies, crackers, cakes, and other snack foods, they add sugar to make up for the flavor lost with the fat. The result is that many low-fat snacks provide the same amount of calories—or more—as the original product. So a low-fat banner on the package does not give you free reign to eat the whole box. It's still important to look at calories and limit snacks.

Find other ways to satisfy your sweet tooth. Sometimes a little bit of sugar goes a long way. Try some of these tactics:

Instead of the sugary cereal you have been eating since you were a kid, make a bowl of oatmeal and top it with some brown sugar, honey, or maple syrup.
Snack on a bowl of applesauce; if it's not sweet enough, add raisins.
Fruits, both fresh and dried, are sweet and may offer you the sweet fix you are looking for at 3 o'clock in the afternoon or after dinner. Try some fruit first, before heading for the candy, to see if that satisfies your sweet tooth.

Choose diet versions. If you just love the taste of soda and can't imagine having popcorn or pizza with anything else, try a diet version. Or if it's the bubbles you crave, have a glass of one of these zero calorie beverages:

Seltzer water (some are flavored)
Club soda (add a splash of fruit juice for flavor)

RESOURCES:

American Dietetic Association
http://www.eatright.org/

American Heart Association
http://www.americanheart.org/

The Nutrition Source
Harvard School of Public Health
http://www.hsph.harvard.edu/nutritionsource/

CANADIAN RESOURCES:

Canadian Cardiovascular Society
http://www.ccs.ca/

Dietiticans of Canada
http://www.dietitians.ca/

REFERENCES:

Duyff RL. The American Dietetic Association's Complete Food & Nutrition Guide. 3rd ed. Hoboken, NJ: John Wiley & Sons, Inc; 2006.

Our 2006 diet and lifestyle recommendations. American Heart Association website. Available at: http://www.americanheart.org/presenter.jhtml?identifier=3040349. Accessed June 30, 2008.

Eating a Diet Rich in Fruits and Vegetables

Here's Why:

Produce has certainly earned its healthful reputation. It is rich in vitamins, minerals, antioxidants, phytochemicals, and fiber, while being low in calories and fat. All of these factors contribute to many health benefits, such as:

Lower blood cholesterol levels
Decreased risk of atherosclerosis and heart disease
Decreased risk of certain types of cancer
Lower blood pressure
Lower risk of overweight and obesity

Here's How:
A total of 5-9 servings of fruits and vegetables each day may sound like a lot, but a serving is probably smaller than you think.

One serving of fruit equals:

1 medium piece of fruit, such as an apple, banana, orange, pear, or peach
1/2 grapefruit
1/2 cup chopped, cooked, or canned fruit, including berries and grapes
1/4 cup dried fruit
3/4 cup 100% fruit juice

One serving of vegetable equals:

1 cup raw, leafy vegetables, such as spinach, romaine lettuce, and broccoli
1/2 cup of other vegetables, cooked or chopped raw
3/4 cup 100% vegetable juice

Within your daily servings, try for one rich in vitamin A or beta-carotene and one rich in vitamin C. Produce rich in vitamin A and beta-carotene (which is converted to vitamin A in the body) include:

Pumpkin
Sweet potatoes
Carrots
Mangoes
Spinach
Cantaloupe
Kale
Apricots
Tomato juice
Nectarines
Papayas
Peaches

Produce rich in vitamin C include:

Bell pepper
Papayas
Oranges and orange juice
Broccoli
Strawberries
Grapefruit
Cantaloupe
Tomatoes and tomato juice
Potatoes
Cabbage
Spinach
Collard greens

To reach five a day, eat some at each meal
For breakfast:

Fresh or dried fruit mixed with cereal or oatmeal
Bagel or English muffin topped with onion and tomato or cucumber and cream cheese
Glass of tomato juice with a spear of celery

For lunch and snacks:

Bake a sweet potato (microwave on high for 5-8 minutes) and top with black beans
Stir fresh fruit into yogurt
Pop open a can of mandarin oranges
Dip carrot, celery, red pepper, and zucchini sticks into hummus, yogurt, or low-fat dip

For dinner:

Roast vegetables—onion, squash, peppers, and eggplant—and spread on a pizza crust with tomato sauce and cheese
Top baked potatoes with steamed broccoli, beans, and salsa
Add dried fruit to rice and stuffing
Grate carrots and zucchini into pasta sauce

For dessert:

Top frozen yogurt with sauteed apples, fresh peaches, or canned pineapple
Choose a fruity dessert, such as a cobbler, over a heavier treat, such as cheesecake

RESOURCES:

American Dietetic Association
http://www.eatright.org/

My Pyramid.gov
http://www.mypyramid.gov/

CANADIAN RESOURCES:

Canadian Council on Food and Nutrition
http://www.ccfn.ca/

Dietitians of Canada
http://www.dietitians.ca/

REFERENCES:

American Heart Association website. Available at: http://www.americanheart.org .

Jiang R, Jacobs DR Jr, Mayer-Davis E, et al. Nut and seed consumption and inflammatory markers in the multi-ethnic study of atherosclerosis. Am J Epidemiol. 2006;163(3):222-231.

Kuriyama S, Shimazu T, Ohmori K, et al. Green tea consumption and mortality due to cardiovascular disease, cancer, and all causes in Japan: the Ohsaki study. JAMA . 2006;296(10):1255-1265.

US Department of Agriculture website. Available at: http://www.usda.gov/wps/portal/usdahome .

US Department of Agriculture. Versatile vegetables. US Department of Agriculture website. Available at: http://www.cnpp.us.... Accessed June 14, 2010.

Vlachopoulos C, Aznaouridis K, Alexopoulos N, Economou E, Andreadou I, Stefanadis C. Effect of dark chocolate on arterial function in healthy individuals. Am J Hypertens . 2005;18(6):785-791.

Whole foods and health

Whole Foods & Health

Humans are designed to eat food.
Minerals from the soil are broken down by bacteria from large, rock-like molecules into tiny molecules often bound to protein. These miniature minerals are absorbed by plants. Plants use soil, water, air and sunlight to create active minerals and vitamins. We eat the plants and gain the benefits of their work. (Sometimes we eat the animals that have eaten the plants.)
We are designed to digest plants and extract the vitamins, minerals and other nutrients. We are designed to desire the plants as food. Culinary artists tell us that we have large taste buds for sweet, salty, sour, bitter and acrid/pungent tastes and smells that attract us to various foods; these taste buds trigger cravings before we eat and satiety after we eat.
The journey of digestion
Hunger will be triggered if our brain detects a deficiency in any nutrient. These include "macro" nutrients like carbohydrates and sugars, protein, fats, water and fiber. It also includes "micro" nutrients like calcium, magnesium and Vitamin C. In a wonderful way, our body communicates the nature of the deficiency. For example, we crave sweets when we need Vitamin C. Cravings are the language our body uses to communicate its needs. We need to use our brains when interpreting this language!
As we anticipate eating a food that satisfies our cravings, we begin to salivate and our stomach prepares to receive the food. Microscopic particles of our meal enter the bloodstream and lymphatic system as we chew the food. This triggers our small intestines, liver, gall bladder, immune system and hormone regulatory system to prepare for the next steps of digestion and assimilation.
Macronutrients have special enzymes that break out the vitamins and minerals we need from the foods: Amylase for starches, Protease for proteins, Lipase for fats, etc. These are present throughout the digestive tract, but they are concentrated in the first 10 inches of the small intestines. Without whole foods, these special enzymes will not be released. Without these enzymes, vitamins will not be liberated from the food.
Renting your vitamins
You have actually seen evidence of vitamins that were rejected by your body because they were not properly digested. You may not have recognized the signs. But, have you ever seen your urine change colors after taking a vitamin? This is a sign that the vitamins were rejected. You didn't "buy" the vitamins, you merely rented them! Do you want to know how to keep the vitamins you take?
The answer is simple: Humans are designed to eat food. Take your vitamins with food and you will increase your chance to absorb them. If you have indigestion, try one of the over-the-counter digestive enzyme blends to help out where you may be deficient. Use probiotics from fermented foods as a digestive aid as well. Most important: start with food-based vitamins for the best absorption!

Thursday, June 16, 2011

Lower Your Risk of Mental Decline

By Dr. Scott Conard

There’s new reason to feel good about your brain health if you supplement with Vitamin B-12. Yet another study has recently been published that supports the link between B-12 and staying mentally sharp.

The study, published in the journal Neurology, concluded that people who get plenty of Vitamin B-12 have a significantly lower risk of developing a brain disorder that involves memory loss, confusion and other serious symptoms of mental decline. The researchers, from the Karolinska Institute in Sweden, wrote a conclusion with which I heartily agree: this study provides even more strong evidence about B-12’s role in helping to protect against memory loss.

Here are the details: blood samples were taken from 271 people from Finland who were involved in a CAIDE study (it translates as Cardiovascular Risk Factors, Aging and Dementia). They ranged in age between 65 and 79, and none had any symptoms of mental decline when the study began seven years ago.

During those seven years, 17 of the study participants developed clinically-diagnosed mental decline. Significantly, the scientists found that no matter what the age, gender, body mass or blood pressure of all the people involved, it was their levels of B-12 that had a direct link with lowering their risk of problems with mental function.

Be good to your brain: B-12

Of course, as an advocate of B-12 for maximum mental function, I’m thrilled to see medical science offering still more evidence of what a powerhouse this vitamin is. The clinical support for maintaining high levels of B-12 has been steadily building over the past couple of years.

That’s one of the many reasons that when patients come to me with mood, memory and energy complaints, I advise them to supplement with the form of B-12 that gives maximum absorption: TriVita Sublingual B-12. Because it dissolves under the tongue, Sublingual B-12 goes directly into your bloodstream in a formula that helps you enjoy:

Sustained mental energy and stamina
Greatermental focus and alertness
Improved memory and concentration
Better mood and sense of well-being

If you or a loved one would like to feel more energized, focused and upbeat, I urge you to try TriVita Sublingual B-12. Even if you give yourself all the healthy advantages of smart eating and exercise, you could be suffering a B-12 deficiency. Some of the most common risk factors for insufficient levels of Vitamin B-12 include stress, age, taking certain prescription medications, a vegetarian lifestyle, stomach surgery or disease, and digestive problems.

Even the young are at risk

We know that as we age, our bodies are less able to absorb all the B-12 we need from food. But here’s something we didn’t know until fairly recently: even young people aren’t immune from this absorption problem.

A study published in the American Journal of Clinical Nutrition looked at B-12 blood levels among participants in three age groups: 65 and over, 50-64, and 26-49. They all had approximately the same levels of B-12 deficiency. That’s right: people as young as 26 turned out to be as B-12 deficient as some people over 65!

Over the last few years, other studies have shown that B-12 deficiencies are associated with a range of health problems, from brain shrinkage to memory loss to attention disorders. I hope the latest research from Scandinavia gives you more reason to start (or stay with) your Sublingual B-12 regimen. And if you’ve made a wellness resolution for 2011, I congratulate and support you on your journey.

Reference:

B12 Fraction May Lower Risk of Alzheimer’s. “Homocysteine and holotranscobalamin and the risk of Alzheimer’s disease: a longitudinal study. “ Neurology 2010; 75:1408-1414. See it at: www.medpagetoday.com/tbprint.cfm?tbid=22815

Sunday, March 27, 2011

When Memory Loss Turns Serious

by Dr. Scott Conard

We all forget things sometimes: where we parked the car, a lunch appointment or why we opened the refrigerator. When these "sometime" lapses become daily occurrences, though, that can be a sign that it's time to consult a healthcare professional. According to the U.S. Food and Drug Administration (FDA), these questions can help determine if that time has come:

Does the memory loss disrupt daily life?
If tasks that used to be routine, such as balancing a checkbook or bathing, become difficult, action should be taken.

Are lapses becoming more frequent?
It isn't normal to forget where you parked every day, or to forget appointments over and over.

What kinds of things are being forgotten?
It's fairly natural to forget the name of someone you just met, but not the name of a close friend or relative. Other potential tip-offs of trouble could be forgetting entire conversations, frequently repeating yourself or asking the same questions more than once in the same conversation.

Are there signs of confusion?
If someone gets lost in a familiar place (such as your local grocery store), or frequently puts something in an oddly incorrect location (such as car keys in the refrigerator), that could be a sign of a serious memory problem. Most members of the TriVita community won't be surprised to hear that a deficiency of Vitamin B-12 is among the major causes of memory loss. Along with stress, certain infections and sleep deprivation, the FDA cites "nutritional deficiencies" of Vitamin B-12 as one of the culprits behind faltering memory.

Of course, if you've been supplementing with Sublingual B-12, you know why you continue to make this smart health move. You may find that this amazing vitamin helps you stay upbeat and maintain a balanced mood, keep energy levels steady throughout the day, stay mentally sharp and, yes, enhance memory. If you're not among those who help "feed their brains" with B-12, I urge you to consider starting soon, for a host of reasons.

Are you at risk of B-12 deficiency?
If you're over 40, a strict vegetarian, or have thyroid, liver or kidney problems, you're at risk for B-12 deficiency. As we age, our bodies may become less able to absorb some vitamins efficiently, especially in the case of Vitamin B-12. Without enough B-12, other vitamins like folate and B-6 cannot function normally within the body.

As a doctor, I know the importance of maintaining appropriate levels of these essential vitamins, especially Vitamin B-12. That's why I applaud those who supplement their healthy diets with TriVita Sublingual B-12 products, and encourage others to see how they might benefit, too. For years, clinical evidence has been building to show that those who have a B-12 deficiency can experience symptoms caused by decreased mental and nerve functioning. These symptoms can include mental confusion and forgetfulness, mood swings and even psychotic behavior like seeing and/or hearing things.

Because of these associations, one of the first things I do when people complain of these problems is make sure they are getting enough of the essential vitamins like B-12. Unlike injections, or pills that you swallow, Sublingual B-12 dissolves under the tongue. That's the painless, easy way to make sure it gets into your bloodstream to give you maximum absorption and maximum benefit.

If you or someone you care about is showing signs of memory loss, I urge you to consult your healthcare professional to explore the options and resources available. And I also urge you to remember the research-proven benefits of B-12 supplementation. They could make a big difference in so many lives.