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1. The Truth about Vitamin D and Infections
2.
Noom Weight Loss - Dr. Berg's Opinion
3. Neuropathy Caused by Vitamin Deficiencies
4. Winter Health

 

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The Truth About Vitamin D and Infections

  • A scientific review published in 2006 concluded that epidemic seasonal influenza is most likely related to the prevalence of vitamin D deficiency during winter months. Since then, other studies have confirmed this theory
  • A 2010 study found there’s an inverse relationship between UVB sun exposure — which is how your body synthesizes vitamin D naturally — and influenza deaths
  • Vitamin D protects against tuberculosis, a fatal lung disease that kills an estimated 1.8 million people around the world each year
  • Vitamin D can reduce your risk of respiratory infections by reducing the survival and replication of viruses, reducing inflammatory cytokine production, maintaining endothelial integrity and increasing ACE2 concentrations, which helps lower severity
    Etc.

    See the entire article Flu & Vitamin D

If you are looking for a quality Vitamin D & K

 

 

 

Noom Weight Loss - Dr. Berg's Opinion

I've heard these commericals and heard "lose the weight for good". It sounds like some psychology way not to eat? But that is no what it is. Listen to Dr. Berg's evaluation

Find out about Noom

Get Educated and Take Control of Your Health

 

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Neuropathy Caused by Vitamin Deficiencies

B vitamins are the most important vitamins for nerve health. Once the nerve is damaged by the high blood sugars of diabetes, chemotheraphy, toxins, trauma, etc. etc. getting enough B vitamins is vital to building healthy nerves again.

But can a deficiency cause the condition?

Neuropathy can be a result of malnutrition caused by an unbalanced diet and by alcoholism . Alcohol does not allow the normal nutrients of the food you eat to be used.  It does not allow it to be absorbed and metabolized.  Thus, the person using alcohol winds up with malnutrition and the symptoms one normally observes as the result of heavy alcohol consumption. See Alcohol for more information.

Poor diet, vegan diet plans, gastric disorders, severely compromised immunity, etc. are just a few of the risk factors for vitamin B deficiency.

The main reason can be due to the lack of B12 in the diet. B12 deficiency can lead to a number of serious conditions and peripheral neuropathy is one of them. Usually this is more than just B12. These B vitamins work together.

It can also be because you digestion is not allowing you to absorb B12. He is a video by Dr. Berg The Most Common Cause of B12 Deficiency

Vitamin D. There is some thought that when a person has diabetes, his D levels go down and that might be a reason for the neuropathy. But that isn’t something that would on its own create the damage. It is the high blood sugars that lead to the nerve damage.

Many doctors after diagnosing someone with neuropathy will take blood tests to see if they have vitamin deficiencies. Because it is believed that neuropathy can be due to B12 deficiency, it is sort of reversed and the deficiency is then looked for.

Very often they can’t find a deficiency, however, the tests used are venous blood which is blood that is leaving the body. It doesn’t seem like a good test to determine what is in the cells. That is where it counts and where the deficiency would matter.

Healthy nerves can be determined as they do not burn, hurt or create coldness, etc. etc. If these symptoms are present the nerves are not healthy.

If the body had all the ingredients to build healthy nerves, they would by using up all the B vitamins and none would appear in the blood test.

However, often the B12 (and other vitamins) found in the blood can be due to laboratory created vitamins that the body cannot use. In fact, there are often a lot of deficiencies created by artificial vitamins found in “supplements” and processed foods. Have you ever seen “vitamin fortified” on a box? These are artificial vitamins made in the laboratory that the body does not recognize and will not use – and, in fact, it can “gum up the works”. See Natural vs Synthetic Supplements

Getting the right nutrients however will give the body what it needs to build healthy nerves again. Once the nerve is damaged it needs certain vitamins to build healthy nerves. An isolated B vitamin will not do that. It needs the various B vitamins to create health in the nerves. It is the nutritional support needed for neuropathy.

To find out what the body needs for healthy nerves read Nerve Health

 

 

Winter Health

Okay, this isn't for residents of Southern Ca, Florida and other warmer areas.

Winter brings on different things that can effect your health. It is different conditions and different type of sports. So here is some things you should know.

Hypothermia - Hypothermia is the condition of having an abnormally low body temperature. Normal body temperature is around 37°C (98°F). Hypothermia occurs when this falls below 34°C (93°F). Young babies and the elderly are the most vulnerable to developing hypothermia.

When the body becomes extraordinarily cold, all the systems begin to slow down - eventually to the point that it can cause death. In some rare cases, though, hypothermia can save lives. There are cases where children who have fallen into freezing water were successfully revived even when there was no heartbeat. Their below-normal temperature slowed down their brain function and caused their bodies to use less oxygen. 

Hypothermia can occur in a number of situations, most often where freezing-cold weather is a factor. You're at risk if you're not adequately dressed for the cold, if you're outside longer than you'd planned or can't move, if you fall into near-freezing water, or if your clothing gets wet.

Every winter, some elderly people die from hypothermia in their own homes because they can't pay for adequate heating or their heating systems break down and they can't get repairs done. 

Hypothermia can also happen in the summer. Many lakes never get very warm and swimmers who stay in cold water for too long can become hypothermic. Many summer cases involve fishermen who have fallen into the water.

Hypothermia can come on very slowly, making it difficult to notice that it's happening. When the body is cold, it responds by shivering - it's trying to warm itself. When hypothermia sets in, the shivering stops, as the body is now trying to save energy. This is one of the first warning signs of hypothermia. The person might also begin to feel clumsy and disoriented as body temperature drops. The heartbeat can become irregular and breathing slows down.

One complication of hypothermia is that the heart becomes very fragile and can be jolted into an irregular rhythm very easily. If you try to rescue someone with hypothermia, you need to be as gentle as possible to prevent sudden movements. As well, emergency personnel will keep an eye on the heart during the re-warming process to watch for any such irregularities.

Treatment of hypothermia needs to be done very carefully and under proper supervision, as the body is very fragile in this state. 

Emergency personnel will warm the person up with heating pads, packs and special blankets while giving them warmed intravenous (IV) fluids and oxygen. They'll be watching very closely for any heart problems, ready to give the proper medications if needed. If the person is brought in without a pulse, the doctors will still go ahead with re-warming and then perform cardio-pulmonary resuscitation (CPR) - many people have been successfully revived after severe hypothermia.

 

Frostbite:

Frostbite happens when a part of the body actually freezes. Mild frostbite doesn't leave lasting damage, but severe frostbite does cause permanent damage and may even lead to amputation.

Frostbite is caused when body parts, usually fingers, toes, noses, and earlobes, are frozen. Extreme cold, a wind-chill factor, lack of proper clothing, and altitude all contribute to quicker freezing of the skin. 

Smokers and people with circulatory problems have a higher risk of developing frostbite.

How fast the signs of frostbite develop depends on the air temperature, wind chill factor, and how well the affected body part is protected. It's possible to get frostbite within minutes during extreme cold conditions.

Mild frostbite (frostnip) makes the skin look white or waxy but the color returns once the skin is warm again. Once thawed, the skin might turn red and it could take a while for the redness to go away. 

Severe frostbite begins with white or waxy-looking skin but, as the damage progresses, the color becomes gray or bluish. The cold feeling disappears and is replaced with numbness. Blisters might form.

At this point, it's very easy to cause more damage besides the actual freezing. Trauma can happen by walking on a frostbitten foot, for example. Because the foot can't be felt, neither can blisters forming and breaking. A frozen finger could break easily in a fall, and skin can burn very easily if it's not warmed up properly. 

As a frozen body part warms up, the area may swell, itch, burn, and be extremely painful.

Extreme frostbite will turn the skin black, and gangrene may set in, making amputation necessary.

For both hypothermia and frostbite, the signs and symptoms described above, along with a history, are all that's needed for a diagnosis. In the hospital, a doctor will also do blood tests decide the course of treatment.

In treating frostbite, care must be taken not to further damage the frozen areas. Doctors will warm the part up slowly and check for permanent damage. They will probably give an antibiotic, a tetanus shot, and possibly some medication to open up the blood vessels and allow more blood to flow through the frozen area. Pain medication might be needed, as this can be a very painful process. 

Surgery to remove dead tissue or amputation might be necessary later on if some areas were permanently damaged by the freezing. Since frostbite often looks worse than it really is, surgery is rarely done immediately. The doctors usually take a wait-and-see attitude to see if the body is able to heal itself.

If you're helping someone with hypothermia or frostbite, 

  • do not give them alcohol to drink
  • do not re-warm frozen parts if there's a risk that they might be refrozen; this may cause more tissue damage. 
  • do not rub snow on the frozen skin 
  • do not place heat directly against the skin or sit directly in front of a fire.
  • You can move the person out of the cold, provide warm heat (but not directly on the skin), and wrap the frostbitten parts in clean bandages and try to keep them from getting banged or hurt any further.

Hypothermia and frostbite are, for the most part, preventable. Be prepared for the conditions outside. Dress warmly, covering exposed skin, and don't let the warm sun fool you in the winter - if the temperature is below freezing, consider yourself at risk, and take precautions

Dehydration and diet (at higher altitudes) - Drinking lots of water.  Urine should be clear not yellow.

Eat a high carbohydrate diet.  Carbohydrates require less oxygen for metabolism than fats or proteins.   A diet of only carbohydrates does not meet the body's overall nutritional needs, thus, eat protein and fat on rest days.  Avoid eating fats and protein at night.

Avoid sleeping pills, which decrease respiratory rates, aggravating the lack of oxygen.

For more information on dehydration and mineral depletion due to dehydration.  See Dehydration

Altitude Sickness:  If you travel in the mountains, you need to know how to prevent, recognize and treat altitude sickness.  Note below, some ski resorts are 7,000 feet at the base and 8000 feet at the top.  Thus base altitudes are not defined as a High Altitude.  Find out what the altitudes are where you go skiing.

Altitudes are defined as: 
High altitude - 8,000 to 14,000 feet
Very high altitude - 14,000-18,000 feet
Extreme altitude - above 18,000 feet

Lack of oxygen is the number one cause of health problems at altitude.

Normally oxygen diffuses into the blood because the air pressure in the lungs is greater than in blood. At altitude, diminished air pressure (barometric pressure) reduces the pressure in the lungs and decreases the amount of oxygen getting into your blood.   

Air pressure is also lower in winter than in summer.  The combination of cold stress and lack of oxygen increases the risk of altitude problems.

At higher altitudes, you get roughly 40% fewer oxygen molecules per breath due to the lower air pressure.  Since the amount of oxygen required for activity is the same as at sea level, the body must adjust to having less oxygen.  It takes several days for your body to acclimatize to the altitude.  At 10,000 feet, 75% of people will have mild symptoms.

A number of changes take place in the body to allow it to operate with decreased oxygen. 

Adaptation to Altitude: 

The body undergoes numerous changes at higher altitude in order to increase oxygen delivery to cells and improve efficiency of oxygen use. People vary in their ability to acclimatize.  

Changes occur:

  • The depth of respiration increases in response to lower concentrations of oxygen in the blood, causing more carbon dioxide to be lost and more oxygen to be delivered via the lungs to the blood.  The increased respiratory rate begins within the first few hours of arriving at altitudes as low as 5000 feet.  The lost carbon dioxide causes the body to become more alkaline.  To compensate for the body's increased alkalinity, the kidneys excrete bicarbonate - an alkaline substance - in the urine. 
  • Increased heart rate:  Cells require a constant supply of oxygen so the heart beats more quickly to meet the demand.  Heart rate returns to near normal after acclimatization.
  • Blood flow to the brain increases to provide the brain with its required oxygen (equivalent to that available at sea level). 
  • Pressure in pulmonary arteries is increased, "forcing blood into portions of the lung which are normally not used during sea level breathing. In the lungs, the pulmonary arteries constrict, increasing resistance to flow through the lungs and raising the pulmonary blood pressure. Dangerously high blood pressure in the pulmonary artery may cause fluid to escape from the capillaries and leak into the lungs (pulmonary edema - water in the lungs).
  • Increased red blood cell production - to acclimatize, the bone marrow increases red blood cell production.  New red blood cells become available in the blood within four to five days, increasing the bloods oxygen-carrying capacity.  An acclimatized person may have 30 to 50 percent more red blood cells than his counterpart at sea level.   
  • The body produces more of a particular enzyme that facilitates the increase of oxygen from hemoglobin to the body tissues. These are organic phosphate which helps oxygen to combine with red blood cells and myoglobin, the intramuscular oxygen carrying protein in red blood cells increases.
  • The body develops more capillaries in response to altitude. This improves the transporting of oxygen to the cells by shortening the distance between the cell and the capillary.
  • Pressure in pulmonary arteries is increased, "forcing blood into portions of the lung which are normally not used during sea level breathing.

Some people become ill at higher altitudes and some don't.  It is not known why.  

Symptoms of "acute mountain sickness"  include

  • Severe headache that is not relieved by medication. Increased cerebral blood flow helps the brain maintain its oxygen supply, but the expanded volume causes pain as the system adapts.
  • Malaise (uneasy feeling), drowsiness, weakness and fatigue occur because of the decreased oxygen in the blood. 
  • Loss of appetite, nausea and vomiting in its attempt to protect the organism, the blood supply goes mainly to the vital organs (heart, lungs & brain), decreasing the blood supply to the digestive organ
    making it harder for them to function.  Thus the result of loss of appetite, nausea and vomiting. 
  • Peripheral edema (retaining fluid) especially in the face and hands as well as a dry cough progressing to a wet productive cough. .
  • Shortness of breath due to the decreased oxygen in the blood.
  • Disturbed sleep due to the difficulty in breathing which is harder during sleep.
  • Decreased coordination (ataxia).   

Things that help:  The only sure treatment is to descend.

Safety:  Helmets are a must for safety.

Nutrition: Athletes face 8 nutritional challenges: Core nutrition, muscle building, energy, reaction time, hormone balance, recovery, repair and rehydration. 

Nature will provide effective and powerful alternatives to dangerous "performance enhancing drugs." The choice becomes clearer when you compare the long term muscle fitness and health building effects of whole food and herbal supplements versus the well-documented health issues often associated with the artificial methods. 

Go to Athletes Products

Dr. Berg's Sport Drink

Competence:  A friend said he didn't like to participate in any snow sport where there was an ambulance waiting for him at the bottom of the hill.  While this is a bit of an exaggeration, making sure that you are competent enough to get down that hill is good advice.  Make sure you increase your competence in any winter sport that you participate in and take lessons.

Training:                                                                   

For year-round excellent training off the slopes go to 
Virtual Snow Year-round skiing and snowboarding on simulators.  It is the practical and easy way to learn, and the foolproof way to increase your abilities no matter what your level of ability is. 

 

 

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Sidebar:

Nutritional Support for Your Nerve Pain

Omega-3 fatty acids can provide important nutritional support for those who have nerve pain.

Nerve pain (or neuropathic pain) is usually caused by a deterioration of the myelin sheath that surrounds and insulates pain nerves.

Then, just like an electrical circuit with exposed wiring, nerves that shouldn't be communicating directly with each other, cross paths and create a feedback loop that perpetuates pain.

The February 2010 "Clinical Journal of Pain" describes five patients with neuropathic pain that experienced lasting relief by taking high dosages of EPA and DHA. Dosages of 2,400 to 7,200 mg a day contributed to improvements that were maintained for as long as 19 months.

It then follows that the higher the Omega-3 (EPA & DHA) content of the fish oil, the more it will nutritionally support and help your body to maintain normal nerve function.

* Average fish oil has 600 mg (EPA & DHA) Omega-3s.
* Higher Quality fish oil has 800 mg (EPA & DHA) Omega-3s.
* RHP Cold Water Fish Oil has 1500 mg (EPA & DHA) Omega-3s.

Not all fish oils are the same. The highest quality fish oil comes from wild caught, cold water fish, and the best cold water fish are found in deep cold waters of the sea.

RHP Cold Water Fish Oil gel caps are also "enteric coated" so that they do not dissolve until they pass through the stomach and reach the intestines. That way there are no "fishy burps" or aftertaste.

To learn more and to order the RHP Cold Water Fish Oil hoil/order.htm

If you have any questions, please email or call me at (888) 758-5590 or (818) 252-1038

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