>O2 HEALTH > Hypertension – Keeping blood pressure in a healthy range

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Reviewed by  Dr. Damigo; PhD

One in three American adults has high blood pressure. 

Known medically as hypertension, many people don’t even know they have it, because high blood pressure has no symptoms or warning signs. But when elevated blood pressure is accompanied by abnormal cholesterol and blood sugar levels, the damage to your arteries, kidneys, and heart accelerates exponentially. Fortunately, high blood pressure is easy to detect and treat. Sometimes people can keep blood pressure in a healthy range simply by making lifestyle changes, such as losing weight, increasing activity, and eating more healthfully.

Conquering your salt habit

Salt — sodium chloride — is essential for survival. Your body depends on sodium to transmit nerve impulses, contract muscle fibers, and, along with potassium, to balance fluid levels in all your cells. Because the human body is so good at conserving this vital mineral, you need only a tiny amount of sodium. Some tribes, like the South American Yanomamo Indians, consume a mere 200 mg, or about one-tenth of a teaspoon of salt—per day. Thousands of years ago, when humans roamed the earth gathering and hunting, sodium was scarce. But potassium — found naturally in many plant-based foods — was abundant. In fact, the so-called Paleolithic diet provided about 16 times more potassium than sodium.
Today, the average American diet contains about twice as much sodium as potassium, thanks to the preponderance of salt hidden in processed foods. This sodium-potassium imbalance, which is at odds with how humans evolved, is thought to be a major contributor to high blood pressure. Findings from the Trials of Hypertension Prevention study suggest that changing the balance between these two minerals can help the heart and arteries. Researchers measured the amounts of sodium and potassium excreted over the course of 24 hours by nearly 3,000 volunteers. (The amount excreted is a good stand-in for the amount consumed.) The higher the ratio of sodium to potassium, the greater the chance of having a heart attack or stroke, needing bypass surgery or angioplasty, or dying of cardiovascular disease over 10 to 15 years of follow-up, as described in the Archives of Internal Medicine.

To reverse the ratio, choose foods with a high proportion of potassium to sodium (see Table 6).

Table 6: The power of potassium Most people eat too much sodium and not enough potassium. To counteract this trend, try eating more foods with a high potassium-to-sodium ratio.
Food	Potassium-to-sodium ratio
Banana	422 to 1
Black beans, cooked without salt	305 to 1
Orange	232 to 1
Grapefruit juice	126 to 1
Peanuts, dry roasted, no salt	93 to 1
Peanuts, dry roasted, with salt	0.8 to 1
Avocado	69 to 1
Raisins	68 to 1
Baked potato, plain, with skin	54 to 1
Fast-food French fries	2.5 to 1
Peanut butter, without salt	42 to 1
Peanut butter, with salt	1.4 to 1
Brussels sprouts, steamed	35 to 1
Applesauce (jar), no salt	31 to 1
Applesauce (jar), with salt	2.2 to 1
Oatmeal, regular	18 to 1
Quaker’s Instant Oatmeal	0.5 to 1
Cantaloupe	17 to 1
Halibut, baked	8 to 1
Spinach, boiled	7 to 1
Salmon, baked	6 to 1
Salmon, canned	0.8 to 1
V8, low-sodium	6 to 1
V8, regular	1 to 1
Carrots, raw	5 to 1
Milk, 1%	3 to 1
Cheerios	0.9 to 1
Marinara sauce, prepared	0.8 to 1
Pork and beans, canned	0.7 to 1
Fast-food cheeseburger	0.4 to 1
French bread	0.2 to 1
Cornflakes	0.1 to 1

Hypertension: Controlling the “silent killer”

This report details those changes, including a Special Section that features numerous ways to cut excess salt from your diet — a policy strongly recommended by new federal guidelines. This report also includes tips on how to use a home blood pressure monitor, as well as advice on choosing a drug treatment strategy based your age and any other existing medical issues you may have.
Prepared by the editors of Harvard Health Publications in consultation with Randall M. Zusman, M.D., Associate Professor of Medicine, Harvard Medical School and Director, Division of Hypertension, Massachusetts General Hospital. 48 pages. (2011)

Blood pressure basics

• Understanding the numbers
• What does blood pressure measure?

Types of hypertension

• Essential hypertension
• Isolated systolic hypertension
• Secondary hypertension
• White-coat hypertension
• Labile hypertension
• Resistant hypertension
• Malignant hypertension
• Hypertension during pregnancy

Are you at risk for hypertension?

• Risk factors you can’t change
• Controllable risk factors
• Sedentary lifestyle

How hypertension damages your health

• Stroke
• Coronary artery disease
• Atrial fibrillation
• Dementia
• Kidney disease
• Eye damage

Diagnosing hypertension

• Testing for hypertension
• Monitoring blood pressure at home

Lifestyle changes to lower your blood pressure

• Quit smoking
• Attain a healthy weight
• Follow a healthful diet
• Be active
• Stress less

SPECIAL BONUS SECTION: Conquering your salt habit

• Strategies for cutting back on salt

Medications for treating hypertension

• Classes of hypertension drugs
• The right drug for the right person

Resources
Glossary

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>O2 HEALTH > NEW link between brain molecule and obesity& diabetes

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Researchers find link between brain molecule and obesity and diabetes

The brain’s hypothalamus plays a key role in obesity and one of its major complications – type 2 diabetes. Nerve cells in the hypothalamus detect nutrients and hormones circulating in the blood and then coordinate a complex series of behavioral and physiological responses to maintain a balance between calories eaten and calories burned. Obesity and diabetes can result when this regulatory mechanism goes awry.

Now, research by postdoctoral fellow Clémence Blouet, Ph.D., and Gary Schwartz, Ph.D., professor in the Dominick P. Purpura Department of Neuroscience and of medicine at Albert Einstein College of Medicine of Yeshiva University, has revealed a molecule in the brain that may contribute to those health problems, both of which are reaching epidemic proportions. A 2008 study in the journal Obesity predicted that 86 percent of U.S. adults will be overweight or obese by 2030 if current trends continue. And last October the U.S. Centers for Disease Control and Prevention estimated that the prevalence of diabetes among American adults could rise from the current 1 in 10 to as many as 1 in 3 by 2050.
In work involving mouse models of obesity and diabetes, Drs. Blouet and Schwartz have shown that excess nutrient availability leads to an overabundance of a protein found in nutrient-sensing nerve cells of the hypothalamus. They concluded that increased levels of this protein, known as thioredoxin-interacting protein, or TXNIP, contribute to the onset of obesity and the impaired control of blood sugar levels that characterizes type 2 diabetes. Their findings were published in the April 20 online edition of the Journal of Neuroscience.
“Our study indicates that TXNIP in hypothalamic nerve cells provides a crucial link between brain nutrient sensing and the increases in body weight and fat mass that lead to obesity and diabetes,” said Dr. Schwartz. “Hyperglycemia—pathologically elevated glucose levels—causes an excess of TXNIP in hypothalamic neurons, which in turn may contribute in several ways to a breakdown in energy homeostasis—the balance between calories taken in and calories burned. For example, we’ve found that elevated TXNIP in nerve cells contributes to obesity by decreasing energy expenditure, as evidenced by decreased physical activity, and by reducing the rate at which fat is burned to produce energy. In addition to increasing fat mass, hypothalamic TXNIP overabundance also impairs glucose tolerance and insulin sensitivity—two of the hallmarks of diabetes.”
Dr. Schwartz notes that these findings regarding TXNIP could eventually lead to therapies. “Interventions that can suppress TXNIP production or selectively inactivate this protein might help in preventing weight gain and the obesity and diabetes that result from it,” he said.
The title of the paper is “Nutrient-sensing hypothalamic TXNIP links nutrient excess to energy imbalance in mice.” The research was funded by the Skirball Institute for Nutrient Sensing and the National Institutes of Health through the Albert Einstein Diabetes Research and Training Center and the New York Obesity Research Center. Albert Einstein College of Medicine is actively seeking licensing partners interested in pursuing clinical application of this patent-pending technology.

Provided by Albert Einstein College of Medicine (news : web)

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