Vitamins

Vitamins

Avoid anything that says…”Enriched!” because it’s rock iron! Since the 1940’s white flour has been “enriched” with iron ore or a rock form of iron. They pulverize the iron ore and add it to white flour. The rock form of iron accumulates in your liver and as a result, your liver is unable to detoxify your body.
Pasta, bagels, cereals, crackers, pancakes, waffles, rolls, buns, etc. all contain rock forms of iron via white flour.

Nutrient deficiency is widespread even in the relatively affluent industrialized world.
More than half of Americans are deficient in zinc, calcium, magnesium, vitamin A, vitamin B6, and vitamin E, according to a 1997 survey.
Approximately one-third are also deficient in riboflavin, thiamine, folate, vitamin C, and iron.
In many cases, these aren’t mild nutrient deficiencies; up to 50 percent of Americans consume less than half of the recommended daily allowance (RDA) for several
micronutrients.
This is especially alarming when you consider the fact that the RDA is based on the amount of a nutrient required to avoid acute deficiency symptoms.
Because nutrients fuel all processes in the body, nutrient deficiency affects literally every cell, organ, and tissue. Nutrient deficiency is associated with a long list of problems,
including:
• Weakened immune function.
• Premature aging.
• Cancer and cellular damage.
• Cardiovascular disease.
• High blood pressure.
• Lipid (cholesterol) abnormalities.
• Depression and anxiety.
• Infertility.
In truth, it’s almost impossible to find a health condition that is not associated with nutrient deficiency, given the importance nutrients play in maintaining optimal function.

Jan 272017
 

Where to get supplies

link main content / DV Dose needed other content dose needed dose needed
 Gaia-Herbs-Thyroid-Support-60-Vegetarian-Liquid-Phyto-Caps Iodine  from seaweed 100 mcg 67% DV  start with kelp tablets that contain 325 mcg. increase over time

take with 200 mcg of selenium

 L-Tyrosine 200 mg  Ashwagandha root extract 80 mg  500mg 1-2x daily
Iodine 7% 12mg (3 drops) daily.
Selenium 100ug
Planetary-Herbals-Ashwagandha-Liquid-Herbal-Extract-Lemon-Flavor-2-fl-oz  Organic Ashwagandha Root Extract 2.5 mL  500mg 1-2x daily
Buy LDN

 LDN

LDN

 1,2,3,4.5 mg  3mg – 4.5mg / day
Curcumin

100% Turmeric

 500mg
Melatonin 3mg
 Collodial Silver  1ml /day
Vitamin D3 5,000 to 10,000 IU of vitamin D3 daily
Mushroom 6 turkey tail 500mg

shiitake 367mg

reiishi 300mg

 1 to 2 capsules once to three times daily
Symbiotique Lactobacillus rhamnosus (HA-111)

Bifidobacterium bifidum (HA-132)

Bifidobacterium longum (HA-135)

(3g) into your breakfast cereal, juice or water. Consume once or twice daily
 Lemon Balm  300-1200 mg daily in tea or capsules
 Echinacea  300-500 mg up to three times daily
 Licorice  150-300 mg / day
 Zinc Citrate  30-60 mg
 St John’s Wort  300-600 mg/day

 

 

Supply Support

Jan 272017
 

If you are looking to restore your energy, look younger, and reverse disease then ashwagandha may be the herb you’re looking for.  Ashwagandha benefits are impressive.

Ashwagandha, is an adaptogenic herb popular in Ayurvedic medicine that has shown incredible results for lowering cortisol and balancing thyroid hormones.

In India, ashwagandha is known as the “strength of the stallion” since it has traditionally been used to strengthen the immune system after illness.

Ashwagandha has also been referred to as Indian ginseng because of its ability to enhance stamina and has extraordinary stress relieving properties.

There have been over 200 studies on Ashwagandha’s ability to:

Improve thyroid function

Treat adrenal fatigue
Reduce anxiety and depression
Combat effects of stress

Increase stamina and endurance

Prevent and treat cancer

Reduce brain cell degeneration
Stabilize blood sugar
Lower cholesterol
Boost immunity

This article discusses the benefits of ashwagandha in healing your thyroid, adrenal glands, improving mood and energy, preventing cancer, and supporting brain health.


Ashwagandha Thyroid Benefits

Ashwagandha is a superstar when it comes to improving the health of your thyroid.  Scientists don’t completely understand how adaptogens work, but we know that they can be extremely effective especially at balancing hormones.

One of the most incredible aspects about adaptogenic herbs like ashwagandha is that it can help people with both hypo and hyper thyroid issues.  It has been shown to support a sluggish thyroid for people diagnosed with Hashimotos, and has been shown to improve the health of those with an overactive thyroid or Graves disease.

Adaptogenic herbs work with your body to bring you back into balance whether your levels are high or low.

Animal studies reveal ashwagandha has a thyroid hormone balancing effect.  In a 20 days study mice were give ashwagandha and their T3 and T4 levels were analyzed along with lipid peroxidation (anti-oxidant protection).  Significant increases in serum T4 were found which indicates this herb has a stimulatory effect on a sluggish thyroid.

Also, ashwagandha may benefit thyroid function because it greatly reduced lipid peroxidation by promoting scavenging of free radicals that cause cellular damage.  These results prove ashwagandha can be useful in treating hypothyroidism.

There are currently millions of people who struggle with thyroid problems (many who don’t even know it) and ashwagandha may just be the solution they are searching for.


Ashwagandha Adrenal Rejuvenation

Ashwagandha has also been proven effective in supporting adrenal function helping you overcome adrenal fatigue and chronic stress.

Your adrenal glands are endocrine glands that are responsible for releasing hormones (cortisol and adrenaline) in response to stress on your body.

If your adrenals are overtaxed due to an overabundance of emotional, physical and mental stress, it can lead to a condition known as adrenal fatigue. As you can see from this chart below, if your adrenals become exhausted it can also disrupt your other hormones, including progesterone, which can cause infertility and lower DHEA — which can cause you to age faster.
diagram

Medical studies have shown that ashwagandha improves cortisol levels, improves insulin sensitivity and naturally balances hormones. A case study reported a case of a 57-year-old woman with non-classical adrenal hyperplasia. She was treated with ashwagandha for six months, and after her treatment she saw improvements in four adrenal hormone markers, including corticoosterone and 11-deoxycortisol, which decreased by 69 percent and 55 percent respectively — a major improvement!

This hormonal improvement was also accompanied by a noticeable reduction in hair loss.


Benefits Brain Health

Emotional, physical, and chemical stress can all have damaging effects to the brain and nervous system.  Recent research has proven ashwagandha is more than a stress reliever, it also protects the brain from degeneration and improves symptoms of alzheimer’s, depression, and anxiety.

One of the main reasons ashwagandha is so effective at healing the brain has to do with its powerful antioxidants that destroy free radicals that cause aging. A study published in Phytotherapy Research explains these benefits:

Several studies have revealed that natural antioxidants, such as vitamin E, vitamin C and beta-carotene, may help in scavenging free radicals generated during the initiation and progression of this [Alzheimer’s] disease.  But we found Ashwagandha afforded lipid peroxidation inhibitory effects more potent than commercial antioxidants.

Researchers at the National Brain Research Centre found that mice with Alzheimer’s were unable to retain what they learned, but after 20 days of supplementing with ashwagandha, this improved significantly. The results of the study found a reduction in amyloid plaques (these cause degradation of the brain).


Improves Mood

There is also now evidence that ashwagandha is effective at treating both anxiety and depression.  In fact, in a recent study its results were comparable to common pharmaceutical drugs lorazepam and imipramine without the side effects.

In the 12-week controlled study, 87 participants with anxiety were given 300mg of ashwagandha two times a day or two placebo pills two times per day.  The group treated with ashwagandha resulted in much greater improvements in anxiety as well as focus, reduced stress, and decreased fatigue than the placebo group.

The other major benefit of ashwagandha is that there are no adverse reactions by taking it compared to anti-depressant and anti-anxiety medications which can have terrible side effects.


Prevents and Treats Cancer

Ashwagandha extract has been shown in studies to have very promising benefits when it comes to helping with preventing and treating cancer. In certain studies, researchers have found that ashwagandha extract has a powerful anti-tumor effect. (1)

The extract has been shown to help inhibit the proliferation of cancer cells – specifically breast, lung, stomach, and colon cancer cells which are among some of the leading types of cancers in the world. It’s believed that ashwagandha helps to prevent the growth of cancer cells mostly due to its immune boosting and antioxidant abilities. Supplementing with ashwagandha is correlated with an increase in white blood cells within the body, which indicate that the immune system is better able to protect the body from disease and harmful invaders (2).  Another way that ashwagnadha helps prevent cancer is due to its ability to stop blood vessels around cancer cells from feeding into the growth of cancerous tumors.

In addition to preventing cancer cells from growing, studies have shown that ashwagandha can be a very useful addition to chemotherapy in treating existing cancer. Taking the extract seems to be effective in halting the immune system from becoming suppressed during chemotherapy.

Ashawagandha is able to counteract one of the biggest concerns with chemotherapy- the count of white blood cells in the body becoming lowered, which puts cancer patients as much higher risk for things like infection. Many cancer experts are now recommending ashwagandha extract be both a cancer prevention method as well as an addition to typical cancer treatments. In fact some studies have shown that some patients are even able to reverse signs of cancer using ashwagandha alone over other standard treatment methods (3).


Increases Stamina and Endurance

Studies have shown that ahswagandha can boost endurance during physical activity by sharpening brain function and reducing bodily pain. Due to its positive calming, yet energizing, effects on the brain and ability to lower stress hormones, ashwaganha showed improvements in concentration, motivation, and stamina in conducted studies.

One particular study found that when lab rats were given ashwagandha, they actually were able to swim twice as long compared to the same type of rats that were not given the supplements (4). Researchers believe that similar effects take place in humans due to the extract’s ability to balance adrenal hormones that are involved in physical activity. The extract was also shown to reduce bodily pain in the muscles and joints while at the same time keeping energy levels more steady, which is another reason why it could be a promising supplement for athletes, or for those who find it difficult to be physically active due to pain.


Ashwagandha Dosage

As you can see, ashwagandha is an adaptogenic superstar that can have some tremendous health benefits.  It is recommended to supplement with 500mg 1-2x daily along with following a diet high in healthy fats, protein, and fiber as well as removing grains and sugars from your diet.

These dietary changes along with supplementing with ashwagandha can help you see great results in aging slower, reducing stress, balancing hormones, boosting energy, and improving neurological health.

Jan 272017
 

What do all of these diseases have in common?

  • Alzheimer’s, dementia, cognitive decline and memory loss (collectively referred to as “aging”)
  • Multiple sclerosis (MS) and other neurological disorders
  • Mental illness (depression, anxiety, bipolar disorder, psychosis)
  • Cardiovascular disease
  • Learning or developmental disorders in kids
  • Autism spectrum disorder
  • Autoimmune disease and immune dysregulation
  • Cancer
  • Male and female infertility

Answer: they can all mimic the signs and symptoms of vitamin B12 deficiency.

B12 deficiency: an invisible epidemic

B12 deficiency isn’t a bizarre, mysterious disease. It’s written about in every medical textbook and its causes and effects are well-established in the scientific literature.

However, B12 deficiency is far more common than most health care practitioners and the general public realize. Data suggests that 40 percent of people between the ages of 26 and 83 have plasma B12 levels in the low normal range – a range at which many experience neurological symptoms. 9 percent had outright deficiency, and 16 percent exhibited “near deficiency”. Most surprising to the researchers was the fact that low B12 levels were as common in younger people as they were in the elderly.

That said, B12 deficiency has been estimated to affect about 40% of people over 60 years of age. It’s entirely possible that at least some of the symptoms we attribute to “normal” aging – such as memory loss, cognitive decline, decreased mobility, etc. – are at least in part caused by B12 deficiency.

Why is B12 deficiency so under-diagnosed?

B12 deficiency is often missed for two reasons. First, it’s not routinely tested by most physicians. Second, the low end of the laboratory reference range is too low. This is why most studies underestimate true levels of deficiency. Many B12 deficient people have so-called “normal” levels of B12.

Yet it is well-established in the scientific literature that people with B12 levels between 200 pg/mL and 350 pg/mL – levels considered “normal”  – have clear B12 deficiency symptoms. Experts who specialize in the diagnosis and treatment of B12 deficiency, suggest treating all patients that are symptomatic and have B12 levels less than 450 pg/mL. They also recommend treating patients with normal B12, but elevated urinary methylmalonic acid (MMA), homocysteine and/or holotranscobalamin (other markers of B12 deficiency).

In Japan and Europe, the lower limit for B12 is between 500-550 pg/mL, the level associated with psychological and behavioral manifestations such as cognitive decline, dementia and memory loss. Some experts have speculated that the acceptance of higher levels as normal in Japan and the willingness to treat levels considered “normal” in the U.S. explain the low rates of Alzheimer’s and dementia in that country.

What is vitamin B12 and why do you need it?

Vitamin B12 works together with folate in the synthesis of DNA and red blood cells. It’s also involved in the production of the myelin sheath around the nerves, and the conduction of nerve impulses. You can think of the brain and the nervous system as a big tangle of wires. Myelin is the insulation that protects those wires and helps them to conduct messages.

Severe B12 deficiency in conditions like pernicious anemia (an autoimmune condition where the body destroys intrinsic factor, a protein necessary for the absorption of B12) used to be fatal until scientists figured out death could be prevented by feeding patients raw liver (which contains high amounts of B12). But anemia is the final stage of B12 deficiency. Long before anemia sets in, B12 deficiency causes several other problems, including fatigue, lethargy, weakness, memory loss and neurological and psychiatric problems.

B12 deficiency occurs in four stages, beginning with declining blood levels of the vitamin (stage I), progressing to low cellular concentrations of the vitamin (stage II), an increased blood level of homocysteine and a decreased rate of DNA synthesis (stage III), and finally, macrocytic anemia (stage IV).

Why is B12 deficiency so common?

The absorption of B12 is complex and involves several steps – each of which can go wrong. Causes of B12 malabsorption include:

  • intestinal dysbiosis
  • leaky gut and/or gut inflammation
  • atrophic gastrits or hypochlorhydria (low stomach acid)
  • pernicious anemia (autoimmune condition)
  • medications (especially PPIs and other acid-suppressing drugs)
  • alcohol
  • exposure to nitrous oxide (during surgery or recreational use)

This explains why B12 deficiency can occur even in people eating large amounts of B12-containing animal products. In fact, many patients that are B12 deficient are following a Paleo diet where they eat meat 2-3 times a day.

Experience in Melbourne Australia sees Afghan refugees, whose diet is heavily centered around lamb, needing B12 injections, as do Indians who have a primarily vegetarian diet.

In general, the following groups are at greatest risk for B12 deficiency:

  • vegetarians and vegans
  • people aged 60 or over
  • people who regularly use PPIs or acid suppressing drugs
  • people on diabetes drugs like metformin
  • people with Crohn’s disease, ulcerative colitis, celiac or IBS
  • women with a history of infertility and miscarriage

Note to vegetarians and vegans: B12 is found ONLY in animal products

B12 is the only vitamin that contains a trace element (cobalt), which is why it’s called cobalamin. Cobalamin is produced in the gut of animals. It’s the only vitamin we can’t obtain from plants or sunlight. Plants don’t need B12 so they don’t store it.

A common myth amongst vegetarians and vegans is that it’s possible to get B12 from plant sources like seaweed, fermented soy, spirulina and brewers yeast. But plant foods said to contain B12 actually contain B12 analogs called cobamides that block intake of and increase the need for true B12.

This explains why studies consistently demonstrate that up to 50% of long-term vegetarians and 80% of vegans are deficient in B12.

The effects of B12 deficiency on kids are especially alarming. Studies have shown that kids raised until age 6 on a vegan diet are still B12 deficient even years after they start eating at least some animal products. In one study, the researchers found:

…a significant association between cobalamin [b12] status and performance on tests measuring fluid intelligence, spatial ability and short-term memory” with formerly vegan kids scoring lower than omnivorous kids in each case.

The deficit in fluid intelligence is particularly troubling, the researchers said, because:

…it involves reasoning, the capacity to solve complex problems, abstract thinking ability and the ability to learn. Any defect in this area may have far-reaching consequences for individual functioning.

It’s absolutely crucial for those that abstain from animal products to understand that there are no plant sources of B12 and that all vegans and most vegetarians should supplement with B12. This is especially important for vegetarian or vegan children or pregnant women, whose need for B12 is even greater than adults.

Treatment of B12 deficiency

One of the greatest tragedies of the B12 epidemic is that diagnosis and treatment is relatively easy and cheap – especially when compared to treatment of the diseases B12 deficiency can cause. A B12 test can be performed by any laboratory.

As always, adequate treatment depends on the underlying mechanism causing the problem. People with pernicious anemia or inflammatory gut disorders like Crohn’s disease are likely to have impaired absorption for their entire lives, and will likely require B12 injections indefinitely. This may also be true for those with severe B12 deficiency causing neurological symptoms.

Some recent studies have suggested that high dose oral or nasal administration may be as effective as injections for those with B12 malabsorption problems. However, most B12 experts still recommend injections for people with pernicious anemia and advanced B12 deficiency involving neurological symptoms.

Cyanaocobalamin is the most frequently used form of B12 supplementation but recent evidence suggests that hydroxycobalamin (frequently used in Europe) is superior to cyanocobalamin, and methylcobalamin may be superior to both – especially for neurological disease.

Japanese studies indicate that methylcobalamin is even more effective in treating the neurological sequelae of B12 deficiency, and that it may be better absorbed because it bypasses several potential problems in the B12 absorption cycle. On top of that, methylcobalamin provides the body with methyl groups that play an role in various biological processes important to overall health.

If you suspect you have B12 deficiency, the first step is to get tested. You need an accurate baseline to work from. If you are B12 deficient, the next step is to identify the mechanism causing the deficiency. This is something you’ll probably need help with from a medical practitioner. Once the mechanism is identified, the appropriate form (injection, oral, sublingual or nasal) of supplementation, the dose and the length of treatment can be selected.

So, next time you or someone you know is “having a senior moment”, remember: it might not be “just aging”. It could be B12 deficiency.

Jan 272017
 

The importance of bioavailability
It’s not just the amount of nutrients that a food contains that is important, it’s how bioavailable those nutrients are to the body.
Bioavailability refers to the portion of a nutrient that is absorbed by the body.
The amount of nutrients we absorb from a food is invariably lower than the absolute amount of nutrients the food contains.
The nutrients in some foods are more bioavailable to humans than others. For example, the grass on your front lawn is loaded with vitamins and minerals, but they’re largely inaccessible to humans. Grass contains large amounts of a plant fibre called cellulose, which humans cannot break down. Since we can’t break down the cellulose, we can’t absorb the nutrients grass contains.
On the other hand, nutrients in animal products like fish, meat, poultry, dairy, and eggs are highly bioavailable. This means we can absorb them easily.
The key to nourishing your body, then, is to maximize your intake of bioavailable nutrients. This will ensure that your body has everything it needs to function optimally.

The nutrient density and bioavailability of foods
The table below ranks foods according to their nutrient density and bioavailability.

HIGH MEDIUM  LOW
Organ meat Whole grains* Refined grains (i.e.bread,
pasta, crackers, etc.)
Meat,wild game and poultry Legumes*  Sugar
Fish and shellfish Plant fats and oils**  Industrial seed oils
Eggs Animal fats and oils**  Processed food and snacks
Fruits Dairy products  Sugar-sweetened beverages
Vegetables  Artificial ingredients
Nuts and seeds*  Alcohol
Herbs and spices  Natural sweeteners

* Whole grains, legumes, and nuts and seeds contain substances called “nutrient inhibitors” that impair the  absorption of some of the nutrients they contain.
** Plant and animal fats are relatively low in nutrients, but they play other crucial roles, including helping us to absorb the nutrients in other foods.

Looking at the table you might notice several interesting things.

Firstly, all of the most nutrient-dense foods are real, whole foods, and all of the least  nutrient-dense foods are processed and refined foods.

Processed and refined foods are destroying our health because they promote overeating and inflammation, and inflammation is at the root of all modern disease. Here  we see yet another problem with these foods: they are at the bottom of the scale in  terms of nutrient density.

Secondly, you might be surprised to see that organ meats, meat, fish and shellfish are in  the highest category of nutrient density. In fact, when the major nutrients required for human function are considered, these foods are even more nutrient-dense than fruits  and vegetables.

One serving of beef (about 3.5 ounces) typically contains more B12,  niacin (B3), vitamin D, retinol (vitamin A), zinc, iron, potassium, phosphorus, and EPA and  DHA than the same amount of blueberries or kale, which are two of the most nutrient dense plant foods. In addition, the nutrients in meat are highly bioavailable when  compared to foods like cereal grains, nuts and seeds, and legumes. The bioavailability of zinc, for example, is four times higher in meat than it is in grains.

Thirdly, while neither animal nor plant fats are especially nutrient dense, they do play other important roles in the diet. Perhaps most importantly, they help us to absorb the nutrients that are present in other foods.

Finally, look at where whole grains and legumes are on the table; they’re not the  nutritional powerhouses you may have been led to believe they are. Not only do they lack important nutrients, but they also contain substances called “nutrient inhibitors” that make it more difficult for us to absorb some of the nutrients they do contain.

Cultures who ate a lot of grains and legumes went to great lengths to break down these nutrient inhibitors so they could better absorb the nutrients in these foods.
Methods included soaking, sprouting, fermenting, and leavening.
If you have the time and energy to prepare grains and legumes in these ways, and you tolerate them well, there’s no reason they can’t be part of a diet that emphasizes other more nutrient dense foods like meat, fish, eggs, and fruits and vegetables.

Likewise, if you eat nuts and seeds, you should soak and then dehydrate or roast them first in order to increase the bioavailability of the nutrients they contain.

Jan 272017
 

Food

Numerous foods provide vitamin E. Nuts, seeds, and vegetable oils are among the best sources of alpha-tocopherol, and significant amounts are available in green leafy vegetables and fortified cereals. Most vitamin E in American diets is in the form of gamma-tocopherol from soybean, canola, corn, and other vegetable oils and food products

 

Selected Food Sources of Vitamin E (Alpha-Tocopherol)
Food Milligrams (mg)
per serving
Percent DV*
Wheat germ oil, 1 tablespoon 20.3 100
Sunflower seeds, dry roasted, 1 ounce 7.4 37
Almonds, dry roasted, 1 ounce 6.8 34
Sunflower oil, 1 tablespoon 5.6 28
Safflower oil, 1 tablespoon 4.6 25
Hazelnuts, dry roasted, 1 ounce 4.3 22
Peanut butter, 2 tablespoons 2.9 15
Peanuts, dry roasted, 1 ounce 2.2 11
Corn oil, 1 tablespoon 1.9 10
Spinach, boiled, ½ cup 1.9 10
Broccoli, chopped, boiled, ½ cup 1.2 6
Soybean oil, 1 tablespoon 1.1 6
Kiwifruit, 1 medium 1.1 6
Mango, sliced, ½ cup 0.7 4
Tomato, raw, 1 medium 0.7 4
Spinach, raw, 1 cup 0.6 3

 

Tolerable Upper Intake Levels (ULs) for Vitamin E
Age Male Female Pregnancy Lactation
1–3 years 200 mg
(300 IU)
200 mg
(300 IU)
4–8 years 300 mg
(450 IU)
300 mg
(450 IU)
9–13 years 600 mg
(900 IU)
600 mg
(900 IU)
14–18 years 800 mg
(1,200 IU)
800 mg
(1,200 IU)
800 mg
(1,200 IU)
800 mg
(1,200 IU)
19+ years 1,000 mg
(1,500 IU)
1,000 mg
(1,500 IU)
1,000 mg
(1,500 IU)
1,000 mg
(1,500 IU)

https://ods.od.nih.gov/factsheets/VitaminE-HealthProfessional/

Jan 272017
 

7 PROVEN WAYS TO LOSE WEIGHT WITH ADRENAL FATIGUE

 

 

More  on meals for weigh loss… ·∙
Each meal should include 1-­‐2 potions of lean protein. ·∙
Eat all the low-­‐glycemic veggies you want, at least 6 servings a day

Low Glycemic Veggies (organic):
Artichokes
Asparagus
Beans & Legumes
Broccoli
Brussels sprouts
Cauliflower
Celery
Cucumbers
Eggplants
Green Beans
Green Peppers
Lettuce
Mushrooms
Spinach
Tomatoes
Zucchini

Higher Glycemic Veggies (Try to limit):
Beets
Carrots
Celery Root
Corn
Parsnips
Peas
Red potatoes
Rutabaga
Sweet potatoes
Turnips
White potatoes
Winter squash
Yams
If you have a thyroid problem and  have read/heard that cruciferous vegetables like
broccoli, kale, cabbage, rutabaga, and cauliflower are bad because they are goitergenic (ie. they will cause an enlargement)”  theres no need to worry about if your organs are working! (stomach, liver, pancreas, adrenals, etc.)
That is WHY you HAVE to be HEALTHY TO LOSE WEIGHT!
Cruciferous vegetables are very high in phytonutrients! They eliminate toxins from the body by providing enzymes to help your liver!

 

Low Glycemic Fruits: (The best are berries and any fruit with a pit)
Apples
Apricots
Blackberries
Blueberries
Cantaloupes
Cherries
Grapefruits
Nectarines
Peaches
Plums
Raspberries
Strawberries

Higher Glycemic Fruits (Try to limit/avoid):
Bananas
Clementines
Grapes
Honeydew
Oranges
Papayas
Pineapples
Raisins
Tangerines
Watermelon
Dates, dried fruits
Juicing is a NO-­‐NO when attempting to lose weight! You NEED the fiber!!!!

A small serving of good fat with each meal and snack (Coconut oil is the best!!!)
Eat 1-­‐2 snacks per day if needed BUT
Don’t eat after 8pm ·∙
Drink 48-­‐64 oz of water minimum each day ·∙
Have a minimum of 25 grams of fiber a day!

Good Fats:
Coconut oil
Avocados
Raw Nuts & seeds
Olives/Olive Oil
Peanuts/Oil
Peanut Butter
Almonds
Fish (omega-­‐3…salmon, tuna, etc)
Flaxseed

 

Eat spicy foods,
drink more water,
snack on nuts and seeds,
eat a big breakfast,
eat three meals/day,
eat a lighter dinner,
eat slowly and chew thoroughly,
eliminate  MSG/Modified Food Starch/Natural Flavorings.

Jan 272017
 

http://www.ringingcedarsofrussia.org/cedar_nut_oil_information.php#oil

Cedar nut oil improves the composition of the blood, and helps prevent the development of tuberculosis and anemia. The oil is used for prophylactic purposes in atherosclerosis, hypertension, cirrhosis of the liver, stomach and duodenal ulcers, shortness of breath, and silicosis, and facilitates the treatment of patients suffering from leukemia.

The oil contains a high quantity of vitamin E (tocopherol, 56 mg for 100 g), which promotes the restoration of male potency, the preservation of a high capacity for work, the assimilation of proteins and fats, and treatment in cases of illnesses of the liver, pancreas, intestines, atherosclerosis, and rheumatism. Tocopherol translated means “I bear life.” Cedar nut oil also contains significant quantities of vitamins P, A, B, which are essential for the normal development and functioning of the human organism.

The oil is composed of unsaturated fatty acids, including those not synthesized in the human body — linoleic, lineolenic, and arachidonic acid, which possess an antisclerotic action. They have a normalizing effect on the walls of the blood vessels, increase their elasticity, and lower their permeability. It has been determined that linoleic acid possesses a neutralizing effect for many poisons. In this regard, Cedar nut oil is extremely necessary for a population that lives in cities, where the atmosphere is strongly polluted by gaseous emissions.

The energy value of one gram of Cedar nut oil is high, and comes to 9 kCal. The composition of this oil includes vitally essential irreplaceable components, among which are those involved in lipotropic and antisclerotic activity (polyunsaturated fatty acids, vitamins A, E, and others). The ease of assimilation of the oil is high: 95-98%.

Cedar nut oil may be used in cooking, in the production of confectionary goods of the highest quality, mayonnaises, margarines, and in the preparation of vegetable dishes and tasty additives.

Cedar nut oil is the purest in comparison to other vegetable oils. While sunflower, cotton-seed, soya, mustard, rape, and other oils are obtained from agricultural crops grown on soils fertilized with various chemical substances and treated with pesticides, Cedar stands in Siberia are not subjected to these types of supplements and treatments, so this oil is ecologically pure.

The vitamin E content of Cedar nut oil exceeds that of olive oil by five times and coconut oil by three times. The concentration of vitamin F in the oil is three times greater than in the cod-liver oil based Vitamin F preparation sold in pharmacies

Use of Cedar nut oil in medicine

Cedar nut oil is used as a supplementary remedy for the basic course of treatment.

Internal Medicine – as an excellent remedy for tonsillitis, respiratory illnesses, and influenza.

Gastroenterology – in erosive ulcerous lesions of the stomach and duodenum, superficial gastritis and bulbitis, chronic pancreatitis, post-resection disturbances of a peptic ulcer, gastritis of the stump of the stomach, anastomositis, esophagitis, cholecystitis, and hepatocholecystitis.

The oil suppresses the secretion of hydrochloric acid and regulates the acid-forming function of the stomach, and the fat soluble vitamins it contains promotes the processes of the regeneration of the mucous gastroduodenal area. It has a beneficial action on the functions of the intestine, promotes the evacuation of the gallbladder and the elimination of constipation.

In chronic gastritis with increased secretions (of gastric juice, hydrochloric acid, pepsin), 25-30 g taken 30 minutes before eating.

Obstetrics and Gynecology – in erosive ulcerous lesions of the neck of the uterus. Recommended for pregnant women to prevent fetal mutation and as an essential, easily assimilated natural vitamin preparation, which additionally has a slight purgative effect.

For nursing mothers – as an agent: a) that increases the level of lactation; b) that improves the composition of the milk; c) that prevents the formation of intestinal pain in infants.

In internal use, it is a source for the rejuvenation of the organism, completing the balance of vitamins and trace elements in pregnant women and patients in the postpartum period.

Pediatrics – indispensable in child nutrition from the first year of age, since it promotes the growth of the human organism.

Surgery – as an agent to accelerate the joining together of tissues in the postoperative period and for the healing of sutures and scars, as well as in varicosis. It is a healing agent.

Cedar nut oil promotes the healing of wounds and sutures. It is an antiseptic and an agent that promotes rapid healing. It may be used both externally (rub into the ulcers, wounds, and sutures) as well as internally (take 1 teaspoon three times per day).

Cedar nut oil may be taken to accelerate the regenerative processes in the postoperative period in the form of applications to the areas of postoperative sutures. Also possible is local use in the pathology of the neck of the uterus (erosion of the neck of the uterus).

Dentistry – as a remedy for stomatitis, parodontosis, parodontitis, and as an analgesic and antibacterial agent.

Proctology – in hemorrhoids and lesions in the tissues of the rectum.

Neurology – to normalize the activity of the nervous system.

Dermatology – as an agent to fight dandruff and hair loss. To fight bedsores. It prevents the development of dermatitis in children. Used in the treatment of burns and frostbite by rubbing or applying dressings soaked in the oil. The dressing should be changed each day.

Immunology – as a highly effective agent for stimulating the immune system.

As part of the daily food allowance for a healthy person, 28-30 g (without the use of other oils of vegetable origin).

Endocrinology – against diseases of the thyroid gland.

Cosmetology – as masks to prevent the fading of the skin. It strengthens the nails and hair, softens the cuticles, the skin of the hands, feet, and entire body. Massage with the use of Cedar nut oil eliminates fatigue, improves peripheral blood circulation, improves lymphatic drainage, eliminates venous congestion in the extremities, improves the elasticity of the skin, increases vitality. Use of the oil in a bath, in a sauna while rubbing into the skin promotes the rejuvenation of the dermal layers and the healing of wounds.

Jan 272017
 

The two major classes of polyunsaturated fatty acids (PUFAs) are the omega-3 and omega-6 fatty acids. Like all fatty acids, PUFAs consist of long chains of carbon atoms with a carboxyl group at one end of the chain and a methyl group at the other. PUFAs are distinguished from saturated and monounsaturated fatty acids by the presence of two or more double bonds between carbons within the fatty acid chain.

Omega-3 fatty acids (omega-3s) have a carbon–carbon double bond located three carbons from the methyl end of the chain. Omega-3s, sometimes referred to as “n-3s,” are present in certain foods such as flaxseed and fish, as well as dietary supplements such as fish oil. Several different omega-3s exist, but the majority of scientific research focuses on three: alpha-linolenic acid (ALA), eicosapentaenoic acid (EPA), and docosahexaenoic acid (DHA). ALA contains 18 carbon atoms, whereas EPA and DHA are considered “long-chain” (LC) omega-3s because EPA contains 20 carbons and DHA contains 22.

The human body can only form carbon–carbon double bonds after the 9th carbon from the methyl end of a fatty acid. Therefore, ALA and linoleic acid are considered essential fatty acids, meaning that they must be obtained from the diet. ALA can be converted into EPA and then to DHA, but the conversion (which occurs primarily in the liver) is very limited, with reported rates of less than 15%. Therefore, consuming EPA and DHA directly from foods and/or dietary supplements is the only practical way to increase levels of these fatty acids in the body.

ALA is present in plant oils, such as flaxseed, soybean, and canola oils. DHA and EPA are present in fish, fish oils, and krill oils, but they are originally synthesized by microalgae, not by the fish. When fish consume phytoplankton that consumed microalgae, they accumulate the omega-3s in their tissues.

After ingestion, dietary lipids are hydrolyzed in the intestinal lumen. The hydrolysis products—monoglycerides and free fatty acids—are then incorporated into bile-salt– containing micelles and absorbed into enterocytes, largely by passive diffusion. The process is efficient, with an absorption rate of about 95%, which is similar to that of other ingested fats. Within intestinal cells, free fatty acids are primarily incorporated into chylomicrons and enter the circulation via the lymphatic system. Once in the bloodstream, lipoprotein particles circulate within the body, delivering lipids to various organs for subsequent oxidation, metabolism, or storage in adipose tissue.

Omega-3s play important roles in the body as components of the phospholipids that form the structures of cell membranes. DHA, in particular, is especially high in the retina, brain, and sperm. In addition to their structural role in cell membranes, omega-3s (along with omega-6s) provide energy for the body and are used to form eicosanoids. Eicosanoids are signaling molecules that have similar chemical structures to the fatty acids from which they are derived; they have wide-ranging functions in the body’s cardiovascular, pulmonary, immune, and endocrine systems.

The eicosanoids made from omega-6s are generally more potent mediators of inflammation, vasoconstriction, and platelet aggregation than those made from omega-3s, although there are some exceptions. Because both classes of fatty acids compete for the same desaturation enzymes, ALA is a competitive inhibitor of linoleic acid metabolism and vice versa. Similarly, EPA and DHA can compete with arachidonic acid for the synthesis of eicosanoids. Thus, higher concentrations of EPA and DHA than arachidonic acid tip the eicosanoid balance toward less inflammatory activity.

Some researchers propose that the relative intakes of omega-6s and omega-3s—the omega-6/omega-3 ratio—may have important implications for the pathogenesis of many chronic diseases, such as cardiovascular disease and cancer, but the optimal ratio has not been defined. Others have concluded that such ratios are too non-specific and are insensitive to individual fatty acid levels. Most agree that raising EPA and DHA blood levels is far more important than lowering linoleic acid or arachidonic acid levels.

Currently, most clinicians do not assess omega-3 status, but it can be done by measuring individual omega-3s in plasma or serum phospholipids and expressing them as the percentage of total phospholipid fatty acids by weight. Experts have not established normal ranges, but mean values for serum or plasma phospholipid EPA plus DHA among U.S. adults not taking omega-3 supplements are about 3%–4%. Plasma and serum fatty acid values, however, can vary substantially based on an individual’s most recent meal, so they do not reflect long-term dietary consumption.

It is also possible to assess omega-3 status via analysis of erythrocyte fatty acids, a measurement that reflects longer-term intakes over approximately the previous 120 days. The “omega-3 index” proposed by Harris and von Schacky reflects the content of EPA plus DHA in erythrocyte membranes expressed as a percentage of total erythrocyte fatty acids. This index can be used as a surrogate for assessing tissue levels of EPA plus DHA. EPA and DHA typically comprise about 3%–5% of erythrocyte fatty acids in Western populations with low fish intakes. In Japan, where fish consumption is high, erythrocyte EPA and DHA levels are about twice those of Western populations.

Recommended Intakes

The table below lists the current AIs for omega-3s in grams per day.
Human milk contains omega-3s as ALA, EPA and DHA, so the IOM established an AI for infants from birth to 12 months that is equivalent to the mean intake of omega-3s in healthy, breastfed infants.

For infants, the AIs apply to total omega-3s. For ages 1 and older, the AIs apply only to ALA because ALA is the only omega-3 that is essential. The IOM did not establish specific intake recommendations for EPA, DHA or other LC omega-3s.

Adequate Intakes (AIs) for Omega-3s
Age Male Female Pregnancy Lactation
Birth to 6 months 0.5 mg 0.5 mg
7–12 months 0.5 mg 0.5 mg
1–3 years 0.7 mg 0.7 mg
4–8 years 0.9 mg 0.9 mg
9–13 years 1.2 mg 1.0 mg
14–18 years 1.6 mg 1.1 mg 1.4 mg 1.3 mg
19-50 years 1.6 mg 1.1 mg 1.4 mg 1.3 mg
51+ years 1.6 mg 1.1 mg

Sources of Omega-3s

Food
Plant oils that contain ALA include flaxseed (linseed), soybean, and canola oils.
Chia seeds and black walnuts also contain ALA.

The omega-3 content of fish varies widely.
Cold-water fatty fish, such as salmon, mackerel, tuna, herring, and sardines, contain high amounts of LC omega-3s,
whereas fish with a lower fat content—such as bass, tilapia and cod—as well as shellfish contain lower levels.
The omega-3 content of fish also depends on the composition of the food that the fish consumes.
Farmed fish usually have higher levels of EPA and DHA than wild-caught fish, but it depends on the food they are fed. An analysis of the fatty acid composition of farm-raised Atlantic salmon from Scotland showed that the EPA and DHA content significantly decreased between 2006 and 2015 due to the replacement of traditional marine ingredients in fish feed with other ingredients.

Beef is very low in omega-3s, but beef from grass-fed cows contains somewhat higher levels of omega-3s, mainly as ALA, than that from grain-fed cows.

Some foods, such as certain brands of eggs, yogurt, juices, milk, and soy beverages, are fortified with DHA and other omega-3s.
Since 2002, manufacturers have added DHA and arachidonic acid (the two most prevalent LC PUFAs in the brain) to most infant formulas available in the United States.

Several food sources of ALA, DHA, and/or EPA are listed in the Table below.
The U.S. Food and Drug Administration (FDA) has established a Daily Value (DV) of 65 g for total fat but not for omega-3s. Thus, the Table presents the amounts of omega-3 fatty acids in grams per serving only and not the percent of the DV.

 Selected Food Sources of ALA, EPA, and DHA
Food Grams per serving
ALA DHA EPA
Flaxseed oil, 1 tbsp 7.26
Chia seeds, 1 ounce 5.06
Flaxseed, whole, 1 tbsp 2.35
Salmon, Atlantic, farmed cooked, 3 ounces 1.24 0.59
Salmon, Atlantic, wild, cooked, 3 ounces 1.22 0.35
Herring, Atlantic, cooked, 3 ounces 0.94 0.77
Canola oil, 1 tbsp 1.28
Sardines, canned in tomato sauce, drained, 3 ounces 0.74 0.45
Mackerel, Atlantic, cooked, 3 ounces 0.59 0.43
Salmon, pink, canned, drained, 3 ounces 0.04 0.63 0.28
Soybean oil, 1 tbsp 0.92
Trout, rainbow, wild, cooked, 3 ounces 0.44 0.40
Black walnuts, 1 ounce 0.76
Mayonnaise, 1 tbsp 0.74
Oysters, eastern, wild, cooked, 3 ounces 0.14 0.23 0.30
Sea bass, cooked, 3 ounces 0.47 0.18
Edamame, frozen, prepared, ½ cup 0.28
Shrimp, cooked, 3 ounces 0.12 0.12
Refried beans, canned, vegetarian, ½ cup 0.21
Lobster, cooked, 3 ounces 0.04 0.07 0.10
Tuna, light, canned in water, drained, 3 ounces 0.17 0.02
Tilapia, cooked, 3 ounces 0.04 0.11
Scallops, cooked, 3 ounces 0.09 0.06
Cod, Pacific, cooked, 3 ounces 0.10 0.04
Tuna, yellowfin, cooked 3 ounces 0.09 0.01
Kidney beans, canned ½ cup 0.10
Baked beans, canned, vegetarian, ½ cup 0.07
Ground beef, 85% lean, cooked, 3 ounces 0.04
Bread, whole wheat, 1 slice 0.04
Egg, cooked, 1 egg 0.03
Chicken, breast, roasted, 3 ounces 0.02 0.01
Milk, low-fat (1%), 1 cup 0.01

 

Jan 272017
 

Video with explanation of hypothyroidism and tips on diet to help resolve the problem.

8 minutes.

 

Diet rich in;

  • Protein
  • Iodised salt
  • Sea salt
  • Most fish
  • Fish oil
  • Sea weed / kelp
  • Eggs
  • Certain cheeses
  • Green leafy vegetables

Eat foods that contain a lot of fatty acids;

  • Almonds
  • Walnuts
  • Whole grains
  • Lean Meat
  • Milk
  • Egg Whites

Eat foods with Selenium that contain anti-oxidants, anti-aging, anti-cancer enzymes;

  • Rice
  • Corn
  • Wheat
  • Brazil Nuts
  • Walnuts
  • Onions
  • Oats
  • Garlic
  • Soybeans

Chicken, Beef and certain fish also contain Selenium so be careful not to overdose.

Eat Vitamins

  • A
  • B2
  • B3
  • B6
  • C

Eat foods that contain these vitamins including;

  • Bananas
  • Bok Choy
  • Broccoli
  • Cantaloupe
  • Carrots
  • Egg Yokes
  • Figs
  • Oranges
  • Spinach

Stay away from;

  • Sugar
  • Junk food & fast food – especially fried fast food
  • Vegetables that contain high amounts of iron – cauliflower, mustard
  • Alcohol

 

7 foods that help with Hypothyroidism

4 minutes

  1. Coconut oil – 1 teaspoon virgin coconut oil per day
  2. Ginger Tea   source of zinc, magnesium, potassium
  3. Fish – selenium, iodine, B12, Omega 3
  4. Apple Cider Vinegar – restore pH balance
  5. Nuts – for selenium – Brazil nuts, Macadamia, Hazelnuts
  6. Wild Oats – selenium, iron, zinc, manganese, fiber
  7. Black Walnut – iodine, magnesium.  Blood purifier- removes toxins from blood

The Elimination Diet
Dr. Izabella Wentz with Tom Malterre on the Elimination Diet

45 min

Jan 262017
 

Video – Natural Solutions for Thyroid Disorders

44 minutes

 

Top things to do to treat Hashimotos

4 min

Thyroid Pharmacist Izabella Wentz

  • Reduce Stress
  • Supplements for nutrient deficiencies
  • Reduce / remove Gluten
  • Careful diet – Sugar free, Grain free, Dairy free, Paleo, Low GI index
  • Supplements B12, D3, digestive enzymes, ferritin/ iron, omega 3
    Selenium 200 mcg, Betaine with pepsin, Curcumin, Zinc 30 mg, l- Glutamine
  • Lifestyle changes – relaxation, massage, sauna
  • TSH levels <1-2
  • LDN
  • Probiotics or fermented foods

The Elimination Diet
Dr. Izabella Wentz with Tom Malterre on the Elimination Diet

45 min

The most common triggers in Hashimoto’s are nutrient deficiencies, food sensitivities, intestinal permeability (leaky gut), stress, an impaired ability to get rid of toxins and in some cases, infections. Optimizing your health starts with food. Figuring out which foods nourish you, and which ones cause you harm is the single most important thing you can learn in your health journey.

I’ve found that recognizing and eliminating reactive foods can be a life-changer for most people with Hashimoto’s.

Reactive foods trigger an inflammatory response in the GI tract, leading to malabsorption of nutrients (gluten sensitivity in particular has been implicated in causing a Selenium deficiency, a well known risk factor for Hashimoto’s), and can also produce intestinal permeability whenever they are eaten.

Most people will see a dramatic reduction in gut symptoms, brain symptoms, skin breakouts and pain by eliminating the foods they are sensitive to. Some will also see a significant reduction in thyroid antibodies! An additional subset of people, will actually be able to get their Hashimoto’s into complete remission just by getting off the foods they react to, normalizing their thyroid antibodies, and some even normalizing their thyroid function!

What’s Your Hashimoto’s Hypothyroidism Root Cause?

2 min

 

Dr. Izabella Wentz Can Thyroid Issues & Hashimoto’s Disease Be Reversed Naturally?

22 min