It seems that every few years we hear of another diet fad or food fad. In the last few years gluten is getting all of the attention. How can wheat or other common grains–fixtures of the American diet–be causing such problems?

What is gluten? Gluten is the protein found in wheat (including spelt, kamut, triticale , which are varieties of wheat), rye, and barley.

Why has gluten become a problem for so many?

There are several reasons gluten has become a problem for so many Americans.

First of all, bread or wheat forms the basis of the American diet. Toast for breakfast, sandwiches for lunch, rolls or pasta for dinner–the majority of Americans eat wheat all day, every day.

The wheat we eat barely resembles the wheat our ancestors ate. Although it is not genetically modified (yet), it has been significantly altered by selection, through generations of hybrid alterations to increase yields and make it more disease resistant.

Our ancestors used to sprout grains before using them. We rarely take this step to make grains more digestible.

And last, but certainly not least, Candida overgrowth in the gut is epidemic due to the American diet and use of antibiotics.

What is the link between Candida and gluten intolerance?

Our gut is filled with bacteria. If properly balanced, the beneficial bacteria far exceeds the bad bacteria and yeast. The beneficial bacteria are crucial to our health. They help us digest our food. They create neurotransmitters and vitamins. It is said that 80% of our immune system is in the gut.

When we take antibiotics, we kill off beneficial bacteria along with bad bacteria. When the level of bacteria drops in our gut, Candida, the opportunist, overgrows. When we eat sugar and simple carbs that change into sugar (including alcohol), we feed the Candida its favorite food.

Candida begins as a single cell yeast but soon changes form, becoming a hyphae, stretching out long filaments that bore through tissues in the gut (and throughout all organs of the body). A healthy intestine is lined with cells that form a tightly knit defense to keep its contents contained. Nutrients are pulled from the food we eat through tiny vessels from the circulatory system and lymphatic system within the villi, little hair like projections. When Candida erodes the lining of the gut, undigested food particles and large proteins, like gluten, are leaked into the bloodstream and the lymphatic fluid. The immune system attacks these particles, perceiving them as foreign invaders. This is the root cause of many auto-immune diseases and allergies.

What are the symptoms of gluten intolerance?

Digestive disturbances such as gas, bloating, and diarrhea are the most basic symptoms of gluten intolerance experienced when gluten is consumed. Those with a severe sensitivity also experience rashes (which can be severe, itchy, weeping sores) along with mild to severe muscle and joint pain.

Gluten sensitivity includes a reaction to foods with minute amounts of gluten including foods processed in a shared facility. In other words, wheat , rye, or barley may not be an included ingredient, but if the equipment used to process a particular sauce or packaged food was used to process food with wheat, it can be contaminated and produce symptoms.

What is Celiac Disease?

Celiac disease is an autoimmune disease with a genetic predisposition. There are up to 300 symptoms of this disease, but there are also individuals who are asymptomatic. The one thing they all have in common is the result of eating gluten–it attacks and destroys the villi in the intestine. When villi is destroyed, our capacity for absorbing nutrients from our food is diminished. Each time gluten is eaten even in small amounts, more damage ensues.

Can gluten intolerance be reversed?

If Candida is eradicated, if the gut is completely healed and is no longer permeable, and the immune system has healed, it is possible that many will again tolerate gluten. It is advisable, however, to get tested to be sure Celiac disease is not silently damaging the intestine.

In conclusion

Gluten intolerance is not a fad. It is a fact–an every growing reality caused by the American diet and lifestyle. If you have been diagnosed with any autoimmune disease or with gluten intolerance, leaky gut caused by Candida may well be the root cause. See How to Kill Candida and Balance Your Inner Ecosystem.

Recommended Supplements:

• FloraMend – Thorne Research
• Formula SF722 – Thorne Research
• Shillington’s Intestinal Cleanse
• Shillington’s Intestinal Detox

Further Reading:

• Foods To Avoid With Gluten Intolerance or Celiac disease
• 5 Things You Didn’t Know About GLuten
• How Gluten Can Affect Your Brain, Gut, and Skin
• How to Kill Candida and Balance Your Inner Ecosystem

Sources:

• What is Celiac Disease? – celiac.org

(NaturalNews – Jonathan Benson) Millions of prohibitionist-minded Americans have been exposed as complete hypocrites by research proving that refined sugar is more addictive than even hard drugs like cocaine. A compilation of scientific evaluations looking at both sugar and synthetic sweeteners reveals that these omnipresent substances often trigger the same or stronger responses in the brain as illegal drugs, and are sometimes much harder to break in terms of habitual consumption.

A paper published in the journal PLOS ONE back in 2007, for instance, explains how rats given the option to choose between drinking water sweetened with saccharin (Sweet’n Low) or intravenous cocaine almost always chose the water. A shocking 94 percent of rats, according to the researchers, actually preferred the high that they got from saccharin as opposed to the cocaine rush.

The same study found that sucrose, or common table sugar, was also preferred by the rats over cocaine. Based on this observance, the research team noted that regardless of caloric content, the sheer intensity and pleasure of sweetness seems to be more addictive than even the sensitization and intoxication brought about by cocaine, which mainstream society still recognizes as being much more harmful than sugar.

“Refined sugars (e.g., sucrose, fructose) were absent in the diet of most people until very recently in human history,” wrote the researchers from University of Bordeaux in France and James Cook University in Australia. “Today overconsumption of diets rich in sugars contributes together with other factors to drive the current obesity epidemic.”

Sugar addiction is biologically equivalent to drug addiction

But is it just that the taste of sweetness is enjoyable, or is there something more going on in the brain to indicate actual dependency and addiction? Nearly 40 years ago, William Dufty helped answer this question when he penned a book entitled Sugar Blues, which highlighted the addictive properties of sugar and how sweets are a major driver for declining public health.

Many of the ideas presented in this groundbreaking book have been affirmed and reaffirmed by science, which has repeatedly demonstrated that certain neuroendocrine pathways are activated in response to sugar. The infamous “sweet tooth” and frequent sugar cravings are indicative of how these pathways drive obsessive consumption and addiction.

“In most mammals, including rats and humans, sweet receptors evolved in ancestral environments poor in sugars and are thus not adapted to high concentrations of sweet tastants,” wrote the author of another study involving bees, which experienced cocaine-withdrawal-type symptoms when their sweet floral resources were taken away from them.

“The supranormal stimulation of these receptors by sugar-rich diets, such as those now widely available in modern societies, would generate a supranormal reward signal in the brain, with the potential to override self-control mechanisms and thus to lead to addiction.”

Wheat, cow’s milk contain opioid components similar to heroin

Wheat and processed milk are similarly addictive, according to GreenMedInfo, which documents how many processed foods made from these additives possess narcotic properties, acting in a similar way to heroin when consumed. Modern wheat actually contains psychoactive chemicals that bind to opioid receptors in the nervous system, literally acting as a drug inside the body.

Wheat contains a variety of opioid peptides known as gluten exorphins, while cow’s milk contains a variety of casomorphin peptides. Both of these component classes are highly addictive, and are part of the reason why foods made with them are often referred to as “comfort” foods.

“Fructose… is known to increase brain levels of endogenous morphine following ingestion, and may produce metabolic products in the brain very similar to those produced by morphine,” wrote Sayer Ji for GreenMedInfo about another highly addictive food additive prevalent in the American food supply.

Sources:
http://www.ncbi.nlm.nih.gov
http://www.ncbi.nlm.nih.gov
http://www.greenmedinfo.com
http://science.naturalnews.com

As the old adage says, “An apple a day keeps the doctor away.”

The apple belongs to the Rosaceae family like it’s cousins the plum, nectarine, and peach. The apple is a sweet, crunchy fruit with an edible skin and a cream or white flesh that has been touted the world over for its health promoting and disease prevention benefits. The reality is that the medicinal properties of apples are well documented. Here are just a few to get you started.

Apples Are Low in Calories

A medium sized apple contains about 80-100 calories.

Apples Contain Vitamin C and Beta Carotene

The apple contains both Vitamin C and Beta Carotene antioxidants that help the body develop resistance against infections as well as aiding in the removal of harmful free radicals that cause inflammation inside the body.

Good Source of B Vitamins

Apples are a great source of B complex vitamins such as riboflavin, thiamin, and pyridoxine (vitamin B-6). These vitamins are considered “helper molecules” that assist in biochemical transformations inside the body.

Consuming Apples Can Boost Your Immune System

Apples contain several antioxidants that help the body protect itself from the effects of free radicals. Antioxidants are disease fighting compounds, which scientists believe help prevent and repair oxidation damage that happens in our bodies due to normal cell activity. Apples are rich in antioxidant phytonutrients, flavonoids, and polyphenolics. Some of the important flavonoids in apples are quercetin, epicatechin, and procyanidin B2 which help boost and fortify your immune system.

Apples Are High in Soluble Fiber

The apple is rich in dietary fiber, which helps prevent absorption of bad cholesterol in the gut.

Contain Fiber To Help Regulate Cholesterol

The soluble fiber found in apples binds with fats in the intestines and brings your overall cholesterol to lower levels.

Help Detoxify  Your Liver & Colon

Your liver is responsible for clearing the toxins out of your body. Toxins get into our bodies because we are consistently consuming them in the form of food or drinks. If the liver fails to function properly, all sorts of health problems will begin to occur. Eating a diet rich in vegetables and fruits, like apples, is the easiest thing you can do to help detoxify your liver. The fiber is also beneficial because it saves the colon mucous membrane from exposure to these toxic substances by binding to cancer-causing chemicals inside the colon.

Can Decrease Risk of Diabetes

Apples are loaded with soluble fiber which dulls the blood sugar swings. Also, research shows that certain flavonoids present in apples could be the reason they have a beneficial effect. One study noted in the Feb 2012 issue of the American Journal of Clinical Nutrition noted that people who ate 5 or more apples a week had a lower risk of developing diabetes than those who did not.

Fiber and Pectin Can Help Prevent Colon Cancer

The high amounts of fiber and pectin in the apple helps eliminate toxins and protects the lining of the colon so that cancer cells are unable to form.

Phenolic Compounds Aid the  Heart

When plaque builds inside your arteries, it reduces blood flow to your heart which can lead to coronary artery disease. High soluble fiber intake slows the buildup of cholesterol-rich plaque in your arteries. The cholesterol that gets into your system is prevented from solidifying on your artery walls by the phenolic compound found in apple skins.

Helps Prevent Destruction of Brain Cells Causing  Alzheimers

Eating a few apples a day will prevent the destruction of brain cells which leads to Alzheimers. Noticeable improvements in the memory of Alzheimers patients were made after consuming apples and/or apple juice for a few weeks. Consuming apples may reduce your chances of developing Alzheimers by 75% as noted in a study done by Dr Shea, a neurobiologist at the University of Massachusetts.

Work To Prevent Gallstones

The gallbladder is a storage place for bile which is a liquid produced in the liver. The normal function of bile is to help your body digest fats. Gallstones form when liquid bile hardens and becomes pieces of stone like material that can block the common bile duct causing symptoms such as nausea and vomiting or a painful gallbladder attack. Gallstones have also been known to form when there is too much cholesterol in your bile. To prevent gallstones, doctors recommend a diet high in fiber to help you control your weight and cholesterol levels.

Work To Remove Stains from Teeth

Miraculously, the enzymes present in apples react to the stains on the surface of the teeth. Eating the skin as well as the flesh causes a rubbing effect which removes the stains from the teeth. This natural teeth whitening solution will not strip the enamel of the teeth while keeping them healthy and white!

How To Add Apples to Your Diet

There are many ways to add apples to your diet. Some common methods include eating them whole at breakfast or as a snack in between meals. Apples also make a great addition to any smoothie providing much of the bulk/fiber needed to hold it together. You can also chop apples to top a fresh salad or cook them in pies, muffins, breads, and cakes. Personally, I find apples and peanut butter to be a perfect, healthy treat that satisfies my sweet tooth.

Sources & Further Reading:

• 15 health benefits of eating apples
• How Do Gallstones Form? 
• Apple Fruit nutrition facts
• Blueberries and apples tied to lower diabetes risk

Blueberries are perennial flowering plants of the Ericaceous family known as Vaccinium Cyanococcus. The flower itself is typically bell shaped and can be white, pale pink, or red. The fruit is a deep velvety purple with a fleshy characteristic.

Blueberries are sweet and juicy and can be used in a wide variety of recipes from jams, sauces, and smoothies to cakes, baked goods, and other pastries. Aside from the tasty recipes that can come together using blueberries, they are medicinal in terms having antibacterial and antiviral qualities. This succulent fruit packs quite the nutritional punch with its panel of plant nutrients.

Potent Concentrations of Antioxidants

Did you know that blueberries contain high concentrations of antioxidants, which help your body fight free radicals that kill your cells and accelerate aging? In fact, consumption of this natural medicine may even help protect your heart and brain health. Blueberries possess the highest antioxidant capacity, bar none, when compared to other fruit, veggies, and spices according to the world’s healthiest foods website. Eat them raw and optimize your health by giving the body the nutrients it needs to combat free radicals that damage our cellular structures right down to the DNA.

In fact, according to Prevent Disease.com, 300 grams of blueberries puts up a strong fight against DNA damage to blood cells resulting from oxidative stress. Consuming blueberries on a regular basis may just help one bypass the rising risk of cardiovascular and other degenerative diseases.

Loaded With Phytochemical Anthocyanin

The phytochemical, anthocyanin, is present in substantial levels in blueberries and is responsible for its healing qualities involving inflammation reduction, blood pressure reduction, and the overall rise of health and longevity when consumed often. Due to the antioxidant properties of Anthocyanins, good vision can be maintained and even reserved by preventing or slowing down visual loss and other age related eye problems.

Rich in Other Vitamins and Antioxidants, Too

Anthocyanin is just one of the potent antioxidants found in blueberries. You will be surprised to learn that consuming blueberries will raise your levels of vitamin A, vitamin B, vitamin C, copper, phosphorous, selenium, zinc, and iron. These antioxidants make the blueberry the go to for a quick nutritious snack promoting health and wellbeing. The copper, for example, helps build immunity by fighting bacteria and it’s required for the production of red blood cells; the zinc and iron will raise hemoglobin and oxygen in the blood to strengthen immunity.

Excellent Nutrients for Brain Health

With all the antioxidants present in blueberries, neurological disorders can be prevented and healed as the degeneration neurons and brain cells are restored to health along with the central nervous system. Adequate intake of antioxidants such as those found in blueberries can benefit Alzheimer’s sufferers because they heal deteriorating brain cells and tissues. This can work toward keeping the memory focused and sharp.

Effective Nourishment for Heart Health

There are several factors that make blueberries terrific for heart health including the high fiber content along with the high level of antioxidants found in the fruit. These factors help blueberries dissolve bad cholesterol and strengthen cardiac muscles.

Works Toward Healthy Digestion

The fiber content in blueberries, if consumed by the handful, will help keep constipation at bay, while the vitamins, minerals, and acids help correct digestive difficulties. One such vitamin is the B-complex group with folates, pantothenic acid, niacin pyridoxine, riboflavin, and folic acid. Together these allow the body to metabolize carbs, protein, and fats, ultimately promoting healthy digestion.

Low in Calories

Stay trim snacking on blueberries, as they are quite low in calories. Just under a half a cup of blueberries is only 57 calories. This is a much more health conscious choice then a processed food snack or baked good which does not offer much in terms of nutrients.

Still Potent When Frozen

Studies have shown that there isn’t any damage to the antioxidant content when blueberries are frozen. When frozen for 36 months, researchers learned that the overall power of the antioxidant was not lost; this is fantastic news for those who may have difficulty getting their hands on fresh blueberries and typically buy them frozen.

Use certified organic ingredients to maximize flavors and nutrition while minimizing your risk of exposure to pesticides, chemicals, and preservatives. In the case of blueberries, it’s best to use the organic varieties as the conventional are high in pesticides according to the EWG’s Dirty Dozen list.

Blueberry Banana Smoothie/ Frozen Ice

This recipe uses 1.5 cups of frozen blueberries, 1 frozen banana, ½ cup of Strauss Organic vanilla yogurt, 2 cups water and 1 cup of crushed ice. Combine ingredients in your blender to desired consistency, then enjoy a frozen treat that is packed with antioxidants and nutrients. This same recipe can be used to make blueberry banana frozen ice by pouring into ice cube tray and freezing.

Blueberry Banana Muffins

This recipe calls for 1 ¾ cups of flour. I like to use a combination of almond, amaranth, and quinoa flour in equal portions. This is then combined with ¼ cup of whole oats, 1 teaspoon baking soda, ½ teaspoon of salt, ½ cup coconut oil, 3 ripe bananas, 1/3 cup of coconut sugar, 2 large eggs, 1/3 cup of almond milk, a dash of vanilla extract ad 1 ½ cup of frozen blueberries.  Combine ingredients, bake for 30 minutes on 375.

Blueberry Flaxseed Pancakes

For this dish, combine 2 well beaten eggs with 1 cup of buttermilk, 2 tablespoons of vegetable oil, 1 stick of melted butter, 1 cup of your choice of gluten free flour such as brown rice flour and or quinoa and amaranth flour, ¼ cup of ground flax seeds, 3 teaspoons of baking powder, 1/3 cup of honey, 2 cups of blueberries, 3 mashed up bananas and a nice pinch of cinnamon.

Blueberry Parfait

Layer your favorite oatmeal and yogurt with fresh or frozen blueberries. Top with hemp, chia, or sunflower seeds, drizzle with honey and dig in!

Blueberry Jam

Boil 3 cups of blueberries with some maple syrup. Mash the blueberries and boil down to your favorite texture, about 15 minutes. Stir often so that it does not stick. Once you have achieved your desired consistency, remove from heat, let cool, and add ½ teaspoon of vanilla extract. This can be spread on muffins, toast, tarts, cookies, and more.

Sources:

• Frozen Blueberries Is Even More Healthy, Study Says – Epoch Times
• 36 Foods That Help Detox and Cleanse Your Entire Body – eatlocalgrown.com
• Eat Blueberries and Strawberries Three Times Per Week – Harvard Health Publications
• Blueberries – Wikipedia
• Blueberries – Women Fitness
• Blueberries – Nutrition and You

The thought of apple cider vinegar will make some people cringe as the sour flavor and pungent odor can be challenging. If you are able to get past these things, there are many uses for apple cider vinegar and it is known to have a plethora of medicinal benefits. Apple cider vinegar is basically fermented juice derived from crushed apples. It has some other nomenclature such as Malus Sylvestris, Vinigare de Manzana, and Vinaigre de Cidre.

Due to its tremendous health benefits, I use apple cider vinegar every day in my tea elixir and always in my water, but I have found it to have a wide variety of uses ranging from fighting against warts, to marinating meat! Proper apple cider vinegar will include some strand like material that drops to the bottom of the container. This substance is called the “mother” which holds the raw enzymes and gut friendly bacteria that encourage healing, wellbeing and even aids in weight loss due to its metabolizing effects! Let’s look at some more of the reasons why you should keep apple cider vinegar in your pantry.

Apple Cider Vinegar Contains B vitamins– B1, B2, B6, Biotin, Folic Acid and Niacin

Many of the B vitamins are found in apple cider vinegar. B vitamins are responsible for metabolizing fats and carbohydrates into the  energy we need. B vitamins are also important for the nervous system and muscle functions. B Vitamins in appropriate amounts has been shown to alleviate stress, treat anxiety and depression, help memory, relieve PMS, and reduce heart disease risk!

Apple cider vinegar also contains folic acid, a member of the B family of vitamins, that has been touted for reducing the risk of birth defects. Some research has shown that if taken enough, it can reduce the threat of certain types of cancer as well.

Niacin, another B vitamin found in apple cider vinegar, is an aid to boost the HDL cholesterol while decreasing the LDL cholesterol in the bloodstream. This effect makes it beneficial to the body because the more HDL in the body the more bad cholesterol it picks up and sends back to the liver for discarding. This equates to a healthier you!

Apple Cider Vinegar Contains Vitamin C                                                            Vitamin C acts as an antioxidant in the body protecting your skin cells from free radical damage due to exposure to air pollution, ultraviolet light from the sun, first and second hand cigarette smoke, and more. Vitamin C is the principal water-soluble antioxidant in the body, which deactivates free radicals and prevents damage in the environments both inside and outside the cells. Free radical damage to cellular structures and other molecules can result in excruciating inflammation. Vitamin C, strives to prevent the free radical damage that triggers the onset of inflammation and swelling, therefore it may be associated with relief from inflammatory conditions such as asthma, osteoarthritis, and rheumatoid arthritis.  Regular consumption of vitamin C delays the development of hardening of the arteries and also boosts the production of two of the skin’s most important proteins, collagen and elastin.

Apple Cider Vinegar is Rich in potassium

Potassium is a mineral that is crucial for the heart, kidneys, and other organs to work properly.  It helps cell growth and muscle building. Research has shown that a low level of potassium intake is linked with a risk of high blood pressure, heart disease, stroke, arthritis, cancer, digestive disorders and infertility. The good news is that potassium can be derived naturally from our diet when we include apple cider vinegar! Potassium can also be found in foods such as radishes, bananas, avocados, nuts, and leafy green veggies, milk and potatoes, among others.

Apple Cider Vinegar Contains Much Needed Calcium

Calcium is the most familiar mineral in the body but it can also be lost every day via urine and feces. The body replenishes the lost calcium easily from the diet so use lots of apple cider vinegar instead of dressing on your salad for a good source of this nutrient.  Calcium is needed to build and maintain strong bones; is essential for blood clotting, muscle contraction, and nerve impulse transmission.

Apple Cider Vinegar Contains an Essential Mineral– Magnesium

Magnesium is an essential nutrient that keeps the body healthy. It is accountable for about 300 biochemical reactions in the body if not more and it helps the body absorb phosphorous.  The benefits of magnesium are endless and include proper transmission of nerve impulses, regulation of body temperature, detoxification and energy production. Magnesium is also necessary for the healthy formation of bones and teeth. Magnesium intake relieves symptoms of PMS and aids in the assimilation of calcium by the body. Some other health benefits include protein synthesis, boosting the bioavailability of B6, and improving muscle functions. Magnesium also works to prevent a myriad of health ailments that we experience today as a society such as osteoporosis, insomnia, constipation, heart attacks, hypertension, migraines, kidney stones and gallstones. Getting some magnesium into your system will only benefit you by helping to lower the risks of these ailments.

Apple Cider Vinegar Contains Antiviral, Antibacterial, and Antifungal Properties

A key component of apple cider vinegar is malic acid, which gives it the power against viruses, bacteria, and fungi. I have even heard of it being used as a deodorant because of its proven effects in fighting bacteria and absorbing and neutralizing odors. The pungent odor dissipates once it dries.

Apple Cider Vinegar May Be Used to Trigger Weight Loss

Apple cider vinegar increases metabolism and stimulates fat burning when consumed every day before meals. It also makes you feel fuller and eat less. A study noted on Mercola.com involved 29 people who were given 2 tablespoons of vinegar before consuming a meal. These individuals were found to lose approximately 2- 4 pounds during a four-week period.

Apple Cider Vinegar Was Found to Be Effective in People With Diabetes or Those at Risk

In 2004, the American Diabetes Foundation published a study in their journal, Diabetes Care, that found taking vinegar before meals helped decrease insulin and glucose spikes that typically occur after meals. In fact, WebMD also published a study in 2007 involving several people with type 2 diabetes taking 2 tablespoons of ACV before bedtime. In the morning, their glucose levels had been lowered by 4-6%. The research definitely looks promising in this area, however many more studies would be necessary to accurately determine the full extent of insulin stabilization that may occur by adding apple cider vinegar to the diet.

Hair and Skin Care

Apple Cider Vinegar can be used as a rinse to soften and shine your hair due to its alkaline properties, making it feel smooth and silky. It will  substance will clear up and remove dirty residue and oils. Due to its alkalinity, it can also balance the pH in your hair. Just dilute 1 part aple cider vinegar to 3 parts water and rinse. This same dilution can be used for skincare. Apple cider vinegar can also be used as an astringent, firming up and toning the skin while reducing the presence of wrinkles.

Incorporate Apple Cider Vinegar into Your Diet with Recipes from Mimi’s Organic Corner

I love organic food and pursue an eco-friendly lifestyle. So I suggest using certified organic ingredients to maximize flavors and nutrition while minimizing your risk of exposure to pesticides, chemicals and preservatives. Always choose raw, organic, and unpasteurized apple cider vinegar.

Mimi’s favorite herbal infused tea– Steep mint leaves, lavender flowers, two sticks of cinnamon and a slice of raw ginger in water. Then add a tablespoon full of raw honey and a tablespoon of apple cider vinegar.

Apple Cider Tonic– Mix 2 teaspoons of apple cider vinegar in 2 cups of water everyday. Drink it before or during meals. To sweeten it up, use stevia, maple syrup, or molasses. A pinch of cinnamon may help you get it down.

Apple Cider Vinaigrette Salad Dressing– Mix apple cider vinegar, Italian herbs, your favorite oil—I suggest sesame, Hemp or avocado oil–add honey, crushed garlic, sea salt, black pepper and some feta cheese, then drizzle over your favorite green salad.

Apple Cider Vinegar Marinade– Drizzle apple cider vinegar over your favorite meats or poultry, then spice and cook as usual. Marinades will make your meats more tender.

Substitute Apple Cider Vinegar– Apple cider vinegar is a good substitute for lemon on your steamed vegetables or in other recipes that call for lemon. Mix it with crushed garlic, fresh ground pepper, salt, cumin, and oil.

Pickling– Pickled veggies are a fantastic side to serve with drinks or crudités. To prepare, combine apple cider vinegar, water, salt, and chili powder. Bring to a boil. Add cloves, garlic and your favorite veggies. Bring to a boil again. Then remove from heat and cool for a while before refrigerating. Serve cold.

Tomato Sauce– Prepare your sauce as usual and add a tablespoon of apple cider vinegar to give it a tangy flavor.

Further Reading:

• Health Benefits of Apple Cider Vinegar & How to Make Your Own 

(NaturalNews – Jonathan Benson) It is safe to say that the link between soda consumption and health conditions like diabetes and weight gain has been clearly established by a plethora of scientific research published in recent years. But what has not necessarily been fully recognized or understood is how consuming soft drinks affects the behavioral normalcy of children, particularly young children — that is, until now.

A new study set to appear in the Journal of Pediatrics has found, perhaps not surprisingly, that soft drinks like soda pop and processed juice can make children hyper, irritable and unable to focus, especially compared to their non-soda-drinking peers. Sugar-filled beverages, it turns out, can also make children aggressive, violent and even suicidal, altering brain chemistry and disrupting normal physiological balance.

To come to these conclusions, Shakira Suglia, Sc.D., and her colleagues from Columbia University, the University of Vermont and the Harvard School of Public Health assessed roughly 3,000 five-year-old children enrolled in the Fragile Families and Child Wellbeing Study. The participating children came from 20 large U.S. cities, and their mothers reported information on their soft drink consumption patterns and behavioral profiles.

Upon analysis, it was found that a shocking 43 percent of children consumed at least one serving of soda or other soft drink per day, and four percent consumed four or more servings daily. But the really disturbing part is that, with each increase in soda consumption among all the children, aggression issues, withdrawal, attention disorders and other conditions became more pronounced.

In essence, after accounting for various outside influencing factors like socioeconomic status, parental stability (or lack thereof) and living situations, the study team verified that soda consumption is a direct cause of behavioral problems in young children. In fact, children who drank four or more soft drinks per day were found to be twice as likely as their peers to get in fights, destroy other people’s property and physically attack others.

“We found that the child’s aggressive behavior score increased with every increase in soft drinks servings per day,” says Dr. Suglia about the findings.

People of all ages damage their brains by drinking soft drinks, research shows

Earlier studies have found that older children, teenagers and even adults are behaviorally affected by soft drink consumption as well. A 2011 study published in the journal Injury Prevention, for instance, found that teenagers who drink at least five cans of soda per week, less than one per day, are more likely to have violent, aggressive tendencies.

Similarly, individuals of all ages were found in another study by the same authors to be more prone to mood-related behavioral problems, including feelings of belligerence, depression and suicide. All across the board, drinking soda and other sugar-dense beverages is a surefire way to mess up your brain and mental health, based on this collective research.

“Soft drinks are highly processed products containing carbonated water, high-fructose corn syrup, aspartame, sodium benzoate, phosphoric or citric acid, and often caffeine, any of which might affect behavior,” say the authors of the Journal of Pediatrics study.

Sources for this article include:
http://www.sciencedaily.com
http://healthland.time.com
http://www.reuters.com
http://science.naturalnews.com

(Cornucopia – Ensia – by Elizabeth Grossman) It’s almost impossible to imagine life without flexible, transparent and water-resistant food packaging, without plastic sandwich bags, cling film or shelves filled with plastic jars, tubs and tubes, and durable bags and boxes.

While storing food in containers dates back thousands of years, and food has been sold in bottles since the 1700s and cans since the 1800s, what might be considered the modern age of food packaging began in the 1890s when crackers were first sold in sealed waxed paper bags inside a paperboard box. Plastics and other synthetics began to appear in the 1920s and ’30s, shortly after chemical companies started experimenting with petroleum-based compounds and pioneering new materials that could be used for household as well as industrial applications.

Fast forward to 2014: Upwards of 6,000 different manufactured substances are now listed by various government agencies as approved for use in food contact materials in the U.S. and Europe — materials that can legally go into consumer food packaging, household and commercial food containers, food processing equipment, and other products.

Recent analyses have revealed substantial gaps in what is known about the health and environmental effects of many of these materials and raised questions about the safety of others. A study published this past July found that 175 chemicals used in food contact materials are also recognized by scientists and government agencies as chemicals of concern — chemicals known to have adverse health effects. Another published in December 2013 found that more than 50 percent of food contact materials in the U.S. Food and Drug Administration database of such substances lacked accompanying toxicology information filed with the FDA about the amount people can safely eat. This database is publicly available and searchable, but the database itself doesn’t include toxicology information about these substances or any details of the products in which the listed chemicals are used.

Presumably, the primary goal of food packaging is to keep food safe to eat. But what do we actually know about the stuff that surrounds our food? What do we know about how these materials may interact with the food they touch, or their potential effects on human health and the environment?

Plastics, Coatings, Colors, Glues

In the U.S., the FDA regulates food contact materials, classifying them as “indirect food additives.” These materials, which fall under the jurisdiction of the Food Drug and Cosmetic Act, include not only the polymers that make up plastics but also resins and coatings used in can linings and jar lids, pigments, adhesives, biocides and what the FDA charmingly calls “slimicides.” The FDA distinguishes these substances from those added to food itself by explaining that food contact materials are “not intended to have a technical effect in such food,” meaning that these substances are not supposed to change the food they touch.

This categorization makes such substances exempt from food ingredient labeling requirements, explains Dennis Keefe, director of the FDA’s Office of Food Additive Safety. In other words, food packaging need not carry any information about what it’s made of. Any such information is voluntary, often geared toward facilitating recycling and sometimes part of marketing campaigns declaring a product “free of” a substance of concern.

“Food packaging chemicals are not disclosed, and in many cases we don’t have toxicology or exposure data,” explains Maricel Maffini, an independent scientist and consultant who specializes in food additives research. Yet a core component of the FDA’s regulation of food contact materials is based on the assumption that these substances may migrate into and be present in food.

In fact the FDA’s system for approving food contact materials — which it does on an individual basis, with approval granted to a specific company for a particular intended use — depends on how much of a substance is expected to migrate into food. This is assessed based on information a company submits to the FDA; the FDA may come back to a company with questions and do its own literature search, but it doesn’t send the substances to a lab for testing as part of the approval process. The higher the level of migration, the more extensive toxicological testing the FDA requires.

“We’re talking parts per billion,” explains George Misko, partner at Keller & Heckman, a Washington, D.C.–based law firm that specializes in regulation. But that’s a level at which some chemicals used in food packaging have been found to be biologically active.

Beyond the Container

But there’s “more than the threshold of migration” that needs to be considered when assessing food contact material safety, says Jane Muncke, managing director and chief scientific officer of the Zurich-based nonprofit Food Packaging Forum. In addition to the materials themselves, Muncke explains, these substances’ chemical breakdown and by-products need to be considered. This means that there are lots more individual chemicals that may be touching food — and therefore be detectable in food — than those present in the packaging as formulated. For polymers — the large molecules that typically make up plastics — these breakdown and by-products “can be significant,” says Muncke.

These additional breakdown and by-product chemicals also contribute to issues of chemical safety assessment, explains Maffini. Chemical regulations typically consider chemicals one at a time, when in reality we’re exposed to multiple chemicals concurrently, including those present in food. So the individual chemical assessments that determine food contact material approvals may not capture all the ways in which a single substance may interact with food, human bodies or the environment. The list of chemicals measured by the U.S. Centers for Disease Control and Prevention’s National Health and Nutrition Examination survey offers a snapshot of this issue. It includes in its biomonitoring (testing for chemicals in the human body) not only whole chemicals to which people may be exposed, but also numerous compounds that occur only after these chemicals enter and are metabolized by the human body.

As Muncke and other scientists have pointed out, while food contact materials are not intended to alter food, they are not necessarily inert or biologically inactive. This is where the parts-per-billion levels that trigger the FDA’s testing levels for food contact materials quickly gets complicated.

Back in the 1950s when the U.S. government laid the groundwork for current food additive regulations, the scientific assumption was that the higher the level of exposure, the greater a chemical’s biological effect. The focus of concern then was acute effects: birth defects, genetic mutations and cancers. Since the mid-1980s, however, and especially in the last 10 to 15 years, scientific evidence indicating that low levels of exposure — particularly to chemicals that can affect hormone function — can have significant biological effects has been accumulating rapidly. So has evidence that such exposures can lead to chronic effects on metabolic, reproductive, neurological, cardiovascular and other body systems and can set the stage for health disorders that may take years to become apparent. Yet from an FDA regulatory perspective, such low dose effects are very much still under review as they are, for example, for bisphenol A, a building block of polycarbonate plastic that is used widely in food contact products and — as an endocrine disrupter — has become a focal point in the public debate over safety of food contact materials.

Chemicals of Concern

“The last 20 years has seen more innovation in packaging than almost anything else,” says Misko. So where are the scientists who scrutinize food packaging and contact materials looking to better understand potential exposure effects, given the large universe of these materials?

They are looking both at materials used widely in consumer packaging and at materials used commercially to store and process food. While extensive research into health effects of BPA continues, phthalates, another long-used category of chemicals that has also been identified as having hormonal effects, is receiving additional research attention. One use of phthalates — of which there are many different types — is as plasticizers, often with polyvinyl chloride. Numerous studies, including those conducted by scientists at the U.S. National Institutes of Health and Environmental Protection Agency, to name but a very few of those published, have now linked various phthalates to adverse male reproductive hormone effects and have found associations between phthalate exposure and childhood asthma. While the American Chemistry Council says that “phthalates do not easily migrate,” the final report of the U.S. Consumer Product Safety Commission Chronic Hazard Advisory Panel on Phthalates released in July (the panel was convened under the 2008 Consumer Product Safety Improvement Act that also restricted use of certain phthalates in children’s products but doesn’t affect food packaging), found food to be a significant source of phthalate exposure. Recent studies, including those by researchers at the National Institutes of Health, New York University, University of Texas, University of Washington and U.S. EPA, have also found food to be a consistent source of phthalates.

“Food packaging is a big issue,” says Robin Whyatt, professor of environmental health sciences at Columbia University Mailman School of Public Health’s Center for Children’s Environmental Health. Whyatt’s most recent research looks at the potential association between prenatal phthalate exposure and childhood asthma. The positive links found in her first-of-a-kind human epidemiological study will have to be replicated to be confirmed, but when considered in conjunction with other research, particularly that points to food as an ongoing source of phthalate exposure, Whyatt says this indicates a “need for FDA to conduct a total dietary study” for at least one phthalate. Muncke notes that phthalates are often part of plastics used in food processing and other commercial or industrial rather than household applications.

Tip of the Iceberg

Yet BPA and phthalates — chemicals that have found their way into public consciousness — are just the tip of the iceberg. Other materials coming under scrutiny, says Natural Resources Defense Council senior attorney Tom Neltner, include greaseproof papers that use what are called perfluorinated compounds, chemicals known to be environmentally persistent and associated in both animal and human studies with various adverse health effects. While some of these compounds have been phased out of use in the U.S. and EU, Neltner says they appear to be in ongoing — even increasing — use in Asia.

Among the substances the Food Packaging Forum is looking at are printing inks that can become mixed into recycled papers used in food packaging. “This is a big issue in Europe,” says Muncke, pointing out that thousands of different chemicals can be used in these inks. Other substances that are in FDA-listed food contact materials as part of chemical formulations — or that can be released from those materials — include formaldehyde and a category of chemicals known as organotins that have been found in studies to have adverse hormonal effects. Again, because FDA grants approval for food contact materials on a use-by-use basis, the database of these substances doesn’t indicate for which products the FDA has okayed their use.

Environmental impacts

Some forms of packaging pose environmental hazards as well. Plastic bags (or parts thereof) can clog drains, become entangled with aquatic organisms or disrupt the digestive tracts of birds and other animals. Polystyrene — often used for take-out food and beverage containers — can similarly pose physical hazards for marine and aquatic life if it ends up in rivers or ocean environments. Such materials are slow to degrade and so can persist in the environment, including in landfills. Both plastic bags and polystyrene can be recycled for reuse but convenient recycling options are often not widely available.

Virtually any plastic packaging, whether a plastic water bottle or “clamshell” container will persist in the environment to some degree if not put into recycling. Large quantities of this long-lasting debris ends up being washed out to sea where its impacts are now well documented as creating physical and potential chemical hazards in the world’s oceans.

Meanwhile, PVC plastics can release dioxins and furans — both persistent carcinogens — if subjected to incomplete combustion as can happen in environmentally substandard landfills, particularly in places where garbage dumps are routinely burned to reduce volume as they often are in cities in Africa and Asia, for example. Other additives used in plastics — such as plasticizers, stabilizers and flame retardants — can also be released to the environment during disposal as has been documented innumerous studies conducted worldwide. Many of these chemicals, among them phthalates, halogenated flame retardants and organotins, have adverse effects.

The Knottiest Issue

Given the vast number of chemicals that may be used in food contact materials, what’s a consumer to do, particularly since so little information is readily available about these substances? “We don’t want to scare consumers,” says Muncke. At the same time, she says, consumers who want to play it safe can follow some basic practices. Don’t microwave plastic. Minimize purchase of processed food. In general, reduce home contact of food and beverages — including water — with plastic.

Meanwhile, at least one company is working to commercialize food packaging that is safe enough to eat. WikiPearl, an invention of Cambridge, Mass.–based WikiFoods and Harvard University bioengineering professor David Edwards, makes it possible to package ice cream, yogurt and cheese in edible shells durable enough to protect the food from contaminants and moisture loss. Inspired by fruit skins, the packaging is designed in part to reduce plastic packaging, says WikiFoods senior vice president for marketing and sales Eric Freedman. But exactly what the edible shell is made of is proprietary information.

Which points to perhaps the knottiest issue of all: How to provide the information transparency needed to fully inform the public about the health and environmental impacts of the materials they’re exposed to, while providing companies with information protection they need to succeed in a competitive market.

In its 2013 assessment of food additive chemicals — including those used in food packaging — the Pew Charitable Trusts found that the FDA’s method of assessing the safety of these materials is “fraught with systemic problems,” largely because it lacks adequate information. In the absence of labeling requirements and accessible health, safety and life cycle information, what consumers need to know about food contact materials will likely continue to be anything but transparent.