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BONE FRACTURES SUPPORT

Dr. Hank Liers, PhD bone fracturesSeveral years ago a customer asked me for a program that could be helpful to those suffering with bone fractures. A relative had been diagnosed with multiple bone fractures in his ankle.

Since I have been counseling individuals regarding natural treatments for supporting those with bone fractures and injury for many years, I was able to provide a comprehensive program that could be helpful in recovery. More recently, we have introduced products and tools that can be even more supportive. Therefore, in this article we are providing an update to the bone fractures program.

Clearly, the need for such a program is great. According to the American Academy of Orthopaedic Surgeons (AAOS), about six million individuals suffer fractures each year in North America. In about 5–10 percent of cases, patients suffer either delayed healing or fractures that do not heal.

The problem of bone fractures is especially troubling for the elderly, many of whom suffer from osteoporosis, a condition in which bones become weak and break more easily. For an older person, a fracture affects quality of life because it significantly reduces function and mobility, and requires an extended period of recuperation.

The bone fracture program set forth below also works well to support the healing of other types of bone problems, including broken bones, bone surgery, osteoporosis, and wisdom tooth removal.

THE BONE FRACTURE PROGRAM

IMPORTANCE OF FOUNDATIONAL SUPPLEMENTS

The first element of the program consists of Foundational Supplements. This group of supplements ensures the body is being supplied with all of the basic elements needed for optimal function. The primary foundational supplements consists of 1) a therapeutic multivitamin and mineral formula, 2) a complete buffered Vitamin C with antioxidants formula, 3) an essential fatty acids supplement, and 4) a high-RNA superfoods formula.

Our Foundational Supplements are described in great detail on the HPDI website where we provide a free downloadable e-book “The Need for Foundational Supplements” (.pdf). Suffice it to say that the foundational supplements are a essential part of the program that ensure healing will take place quickly and effectively. I encourage everyone to become familiar with this information as foundational supplements are basic to any wellness or healing program.

bone fractures

ENHANCEMENT FORMULAS ARE CRITICAL FOR HEALING BONE FRACTURES

The second element of the program for healing bone fractures consists of Enhancement Formulas that strengthen the body as it relates to dealing with the damaging effects of bone fractures. These include a Vitamin D3 formula with the synergistic nutrients of Vitamin A and Vitamin K2 that are required for the rebuilding of bone as well as strengthening the body in many other ways. The HPDI Vitamin D3 Plus formula to designed to specifically address this need.

A second Enhancement Formula in this program is our comprehensive Bone Guardian formula that is based upon micronized veal bone that provides hydroxyapatite (Ca10(PO4)6(OH)2). Hydroxyapatite is the basic component of human bone that is 50% by volume and 70% by weight. Whereas the Vitamin D3 Plus formula builds the bone matrix, the Bone Guardian fills in the matrix with materials such as calcium, phosphorus, magnesium, boron, zinc, manganese, copper, silica, and strontium. HPDI sells Bone Guardian in both the tablet and capsule forms. The capsule form may be better for older people who are able to absorb capsules better than tablets.

A third Enhancement Formula to the program is additional amounts of Vitamin C. Vitamin C is known to participate in every step of the process of building collagen, which is a key component of bone. Vitamin C has been shown to increase bone mass density. We recommend slowly increasing your intake of buffered Vitamin C until you reach your bowel tolerance. This can be accomplished by increasing your intake of HPDI’s foundational supplement PRO-C™ formula. The PRO-C has the added value of containing oligomeric proanthocyanidins (OPCs) from grape seed, skin, & pulp. OPCs in the body are able to strongly crosslink and strengthen new and damaged collagen fibers needed needed to repair bones, ligaments, tendons, and cartilage.

SPECIFIC CONDITION FORMULAS TARGET BONE FRACTURES

The third element in the program are Specific Condition Formulas that directly address issues related to bone fractures. The first of these is the addition of a joint formula that allows the body to build and repair connective tissue and to significantly reduce inflammation in the area of bone fractures. In most cases of fractures there will be damaged ligaments and tendons as well as inflammation in the area.

HPDI’s Joint Health Formula includes the ingredients glucosamine hydrochloride, MSM, and sea cucumber (a significant source of chondroiten sulfate) in addition to anti-inflammatory substances such as turmeric extract, rutin, and grape extract (seed, pulp, and skin) that have been extremely helpful in both repairing connective tissue and reducing pain and inflammation.

A second strongly recommended condition-specific formula is proteolytic enzymes. Because it is highly likely in the case of bone fractures and injury that there is significant tissue damage, a formula with pancreatic and plant enzymes as well as anti-inflammatories can be extremely helpful is clearing out the damaged tissue. This gives the body the opportunity to begin the rebuilding process much sooner.

Our recommended PROLYT formula contains the proteolytic enzymes bromelain, trypsin (pancreatic enzyme), and chymotrypsin (pancreatic enzyme), and the polyphenols/bioflavonoids turmeric extract (95% curcuminoids), quercetin and oligomeric proanthocyanidins (OPCs) from grape extract. This formula when taken on an empty stomach between meals is quickly absorbed into the bloodstream and goes to work cleaning up any damaged tissues in the area surrounding a fracture and assists in reducing pain and inflammation.

TOPICAL MAGNESIUM CHLORIDE FOR PAIN AND RAPID HEALING

A final Specific Condition Formula that I highly recommend for healing bone fractures is to rub Ancient Minerals Magnesium Oil on and surrounding the fracture area. Bones cannot heal without having adequate amounts of magnesium available. Unfortunately, many people are deficient in magnesium and even taking oral magnesium cannot easily provide sufficient amounts to an area with a bone fracture. Magnesium oil (mostly magnesium chloride) is quickly absorbed transdermally (via skin) and often can provide rapid healing and pain relief!

BODY pH COULD BE A FACTOR IN HEALING BONE FRACTURES

The processed food diets with a high protein and low vegetable content consumed by many people in the U.S. and elsewhere often produce conditions in the body of acidity. This in turn leads to decreased oxygenation of cells and encourages a greater amount of anaerobic processes in metabolism. In addition, when the body is acidic calcium can be taken from bones in order to balance the acidity. This can lead to poor healing of bone fractures.

In order to counter acidic conditions in the body we recommend the use of HPDI’s pH ADJUST formula. As a dietary supplement, take 1 gm (about a rounded ¼ tsp) in 4-8 ounces of purified water preferably away from food, or as directed by a health care professional.  For extremely acidic conditions, try 4–10 doses per day, depending on acidity level. Use pH paper to ensure pH levels remain balanced, and do not become too alkaline (alkalosis may occur above pH 8.2).

TESTING pH LEVELS: The best way to test pH levels is to use litmus paper, which HPDI offers in rolls (Hydrion brand) for this purpose. You can test salivary or urinary pH. In order to test salivary pH, simply use a small strip of pH paper to dip into a small amount of saliva. Advantages of pH paper include rapid results, ease of use, and cost effectiveness.

pH Paper bone fractures protocol

The color of the litmus paper indicates the pH level of the body fluid tested. Most litmus paper comes with an indicator chart showing colors corresponding to various pH levels. Alkaline states will generally produce a dark green, blue or purple color (most basic). Acidic states will range from yellow (most acidic) to light green.

Salivary pH and urinary pH are significantly affected by recent food consumption and other factors, so it it best to test pH hours after meals or in the morning when you awake. We prefer to measure urinary pH since results are more consistent. Measuring urinary pH is a simple as placing a few drops of urine on the paper or dipping the paper into a sample cup of fresh urine.

A consistent pH measurement of less than 7.0 indicates that you are too acidic (values less than 6.2 show extreme acidity). This indicates that you should consume more alkaline forming foods (usually vegetables) and/or take pH ADJUST. A single dose of pH ADJUST can change conditions in the body from acidic to alkaline within a few hours.

GENETIC VARIATIONS IN YOUR VITAMIN D RECEPTOR GENE (VDR) MAY BE AN IMPORTANT FACTOR

The VDR gene (contained in every cell of the body) provides instructions for making a protein called vitamin D receptor (VDR), which allows the body to respond appropriately to vitamin D. This vitamin can be acquired from foods in the diet or made in the body by exposure to from sunlight. Vitamin D is involved in maintaining the proper balance of several minerals in the body, including calcium and phosphate, which are essential for the normal formation of bones and teeth. One of vitamin D’s major roles is to control the absorption of calcium and phosphate from the intestines into the bloodstream. Vitamin D is also involved in several process unrelated to bone formation.

VDR attaches (binds) to the active form of vitamin D, known as calcitriol. Calcitrol is produced in the body from Vitamin D3 (cholecalciferol) in the liver and kidneys. The interaction with calcitriol allows VDR to partner with another protein called retinoid X receptor (RXR). The resulting complex of proteins then binds to particular regions of DNA, known as vitamin D response elements, and regulates the activity of vitamin D-responsive genes. By turning these genes on or off, VDR helps control calcium and phosphate absorption and other processes.

In recent years, genetic tests have become available that show VDR variations can cause serious conditions related to low bone density and other important body functions such a higher blood glucose levels or lower immune system function. If a person is having little success in healing bone fractures, it is possible that VDR variations are a key factor of causation.

In such cases, we recommend having genetic testing done to determine if VDR variations are present. Recently, HPDI has teamed with a genetic testing company (BodySync, Inc.) and sells the BodySync test kits on our Reseller site. Please click here to see our blog article regarding the BodySync genetic test. Among the genes tested for in the test are three variations of the VDR gene. Resellers can purchase the test kits directly from HPDI and retail customers can call us  (800-228-4265) to find out how we can help them get a test kit and support them with any associated counseling regarding the results.

SUGGESTED SUPPLEMENT SCHEDULE – BONE FRACTURES

I have included all of the above supplements including recommended dosages plus more related to having an excellent diet in the table provided below.

Description AM Noon PM Night Comments
PRO-C 2 caps 2 caps 2 caps Take with meals or with snack.
Bone Guardian 

Bone Guardian Caps (easier to absorb)

3 tabs

3 caps

 

3 caps

3 tabs

3 caps

Take with meals.

Take with meals.

Mighty Multi-Vite! or
Multi Two — Multivitamins
2 caps or
1 tab
2 caps or
1 tab
Take with meals.
Essential Fats plus E 2 softgel 2 softgel 2 softgel Take with meals.
PROLYT – Proteolytic Enzyme Formula 2 caps 2 caps 2 caps 2 caps Take between meals.
Buffered Vitamin C, Tablets — 1,000 mg (1 gm) or Powder (1/4 tsp = 1 gm) 2 tabs or
1/2 tsp
2 tabs or
1/2 tsp
2 tabs or 1/2 tsp 2 tabs or 1/2 tsp Best with meals, but other times are okay. Start with 2 tabs or 1/2 tsp twice per day and add another 2 tabs or 1/2 tsp every few days until you are taking 8 tabs or 2 tsp per day.
Vitamin D3 Plus 5,000 IU 1 softgel 1 softgel Take with meals. Reduce to 1 softgel after 2 months.
Joint Health Formula 2 caps 2 caps 2 caps Take between meals and away from Bone Guardian.
Magnesium Oil 10 pumps 10 pumps 10 pumps 10 pumps Spray on affected area – or nearby area.
Rejuvenate! Plus or
Rejuvenate! (original)
1 scoop 1 scoop Take as a meal by itself or with fruit/berries.

ADDITIONAL NUTRIENTS FOR BONE FRACTURES

Additional nutrients that may be helpful include pH ADJUST (to balance excess acidity in the body),  Warrior Mist™ for pain relief (rub on adjacent area several times daily), Echinacea (as drops or capsules), N-Acetyl-L-Cysteine – NAC (2 gms per day), Progesterone Cream – for women (1/4–1/2 tsp twice daily), and Prescript-Assist™ probiotics (2 capsules daily) if on antibiotics.

PROPER DIET IS ESSENTIAL

Consume a diet that provides good amounts of protein which is needed by the body to support the healing of bone fractures. Eat meats, poultry and fish (e.g., sardines, salmon, mackerel) in the amount of a 5–10 ounces per day. Ensure a good intake of organic vegetables, including high levels of dietary fiber. Drink 16 oz per day of fresh vegetable juices from carrot, celery, beets, cabbage, etc.

Other healthy foods (preferably organic) include fruits, whole grains (e.g., brown rice, millet, and quinoa), beans, nuts and seeds (sunflower, chia, flax, pumpkin, almond, walnut and sesame in small amounts — 2 or 4 ounces — are good). Try eating Hank’s Vegetable Soup several times a week. Avoid all sweets (sugar), processed/refined foods (white bread and pasta), preservatives, and artificial flavors and colors. Vary your diet.

HYDROTHERAPY (WATER THERAPY) FOR BONE FRACTURES

An additional treatment that can be useful is hydrotherapy. In particular, hot and cold showers are a very effective way to move the blood and create circulation. This can speed up both detoxification and delivery of healing nutrients to the area of a bone fracture. Here’s how to do this. Once daily, take a complete hot and cold shower. You will start with hot water for one minute, then cold for one minute. Repeat this seven (7) times so the shower should last about 15 minutes.

Another time, daily, you can perform a complete hot and cold shower routine again or a partial one just applying the water directly to or near the area where there is a bone fracture. While you are doing both hot and cold showers, pay special attention to any affected area and massage it as vigorously as is safe and comfortable. If a shower is impossible, then alternate hot packs and ice packs on the area of the bone fracture.

BONE FRACTURES – CONCLUSION

By following the recommendations and suggested supplement schedule, healing time for bone fractures can be significantly reduced and fractures may heal more completely with fewer complications. By ensuring your body receives the proper nutrients it needs to heal itself, and by engaging in other relevant practices (e.g., hydrotherapy), you and/or your loved ones may be able to deal with bone fractures successfully, and continue a healthy, vibrant lifestyle.

ADDITIONAL RESOURCES

HPDI REJUVENATION PROGRAM

REJUVENATION PROGRAM PART 6 (INCLUDES HYDROTHERAPY)

REJUVENATE!™ SUPERFOODS

ULTIMATE PROTECTOR™

“FRED’S FAVORITE VEGETABLE JUICE RECIPE: ‘THE DOCTOR'”

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PRO-C AND ULTIMATE PROTECTOR – COMPARISON OF ANTIOXIDANT FORMULAS

Dr. Hank Liers, PhD antioxidant formulasI have written extensively regarding the benefits HPDI’s PRO-C™ and Ultimate Protector™ antioxidant formulas. Based upon my experience with these formulas they are among the most effective antioxidant formulas available.

Both antioxidant formulas are included in HPDI’s system of foundational supplements and work most effectively when used with multivitamins, essential fats, and superfoods.

Yet, both formulas also are excellent standalone products that can rapidly provide the body with extremely high protection against free radicals.
Ultimate Protector antioxidant formulas

We are often asked “which of these two antioxidant formulas should I take?” My answer usually is to take both formulas. I personally take both of them on a daily basis.

Below I will briefly show the reason my answer is to take both formulas. I include information showing the relationship, in terms of ingredients of the two formulas (per serving of three (3) capsules daily of PRO-C and six (6) capsules daily of Ultimate Protector).

Ultimate Protector

INGREDIENTS OF ANTIOXIDANT FORMULAS

PRO-C™ (per serving of three “00” veggie caps)

• Buffered non-GMO Vitamin C (1,500 mg)  buffered with Ca/Mg/Zn
• Grape Extract (seed, skin, and pulp) (90 mg)
• Green Tea Extract 95% polyphenols 40% min. EGCG (90 mg)
• Glutathione – reduced (60 mg)
• N-Acetyl-l-Cysteine (NAC) (45 mg)
• R-Lipoic Acid (15 mg)
• Coenzyme B2/R5P (3 mg)
• Coenzyme B6/P5P (3 mg)
• Selenium from l-selenomethionine (30 mcg)
• Calcium (70 mg)
• Magnesium (70 mg)
• Zinc (6 mg)

ULTIMATE PROTECTOR™ (per serving of six “0” veggie caps)

• Vitamin C as non-GMO Ascorbic acid (1500 mg)
• Anthocomplete™ (135 mg)  Wild Blueberry, Wild Bilberry, Acai, Black Currant Extract, Sweet Cherry, Raspberry, Elderberry, Blackberry, Aronia, Black Soybean Hull Extract, and Blue Corn
• CoffeeBerry®Forte (135 mg)
• Vitaberry® Plus (90 mg) freeze-dried Grape Seed, Wild Blueberry, Wild Bilberry, Cranberry, Tart Cherry, Prune, Raspberry Seed, Strawberry, Trans-Resveratrol, and Quercetin
• VitaVeggie® (90 mg)  Broccoli, Broccoli Sprouts, Tomato, Kale, Carrot, Brussels Sprouts, Onion, and Spinach
• Curcumin 95%  (90 mg)
• Trans-Resveratrol 98% (90 mg)
• Malic Acid (500 mg)
• Calcium (60 mg)
• Magnesium (60 mg)
• BioPerine® (7.5 mg)

The products together contain nine (9) unique PRO-C™ ingredients, eight (8) unique Ultimate Protector™ ingredients, and three (3) overlapping ingredients.

DISCUSSION OF ANTIOXIDANT FORMULAS

PRO-C™

When PRO-C™ was first released in 1997 there were few publications available regarding Nrf2 ingredients and their benefits. The product design was based on the work of Dr. Lester Packer and his work done on the “Antioxidant Network” showing how nutrients such as Vitamin E, Vitamin C, Glutathione, and Lipoic acid work in a redox network to regenerate key nutrients in the body (see Figure 1. below)

doctor lester packer antioxidant formulas

                                                Figure 1. – Dr. Packer’s Antioxidant Network

At that time the powerful antioxidant formulas of Grape Seed Extract and Green Tea Extract were well known, but their powerful Nrf2 effects were not discovered until later. These ingredients are able to trap free radicals and conserve the body’s store of network antioxidants.

Also, the Nrf2 effects of NAC and Lipoic acid were not known at the time, but their powerful effects on the body were known to support the production of glutathione. Additionally, the super powerful glutathione (reduced) was included with supporting coenzymes B2 (from riboflavin 5′-phosphate) and B6 (from pyridoxal 5′-phosphate) that allow the enzymes glutathione reductase and transferase to function at a higher level.

ULTIMATE PROTECTOR™

From the beginning of the design process, Ultimate Protector™ (UP) was focused on creating a highly effective Nrf2 activator formula with outstanding antioxidant effects. Our understanding was that a very broad spectrum of plant polyphenols including flavonoids, anthocyandins, oligoproanthocyanidins (OPCs), etc. would deliver the best results.

We selected Futureceuticals Anthocomplete™, CoffeeBerry® Forte, Vitaberry® Plus, and VitaVeggie® in order to accomplish this and added Curcumin 95%, and Trans-Resveratrol 98% because of the powerful scientific findings regarding Nrf2 activation for these two ingredients. We found out later in testing that this combination of ingredients produces very high ORAC5.0 values (486,000 units/serving of six capsules) and works effectively against all of the primary types of free radicals in the body.

WHY TAKE BOTH PRO-C™ AND
ULTIMATE PROTECTOR™ ANTIOXIDANT FORMULAS?

Ultimate Protector versus PRO-C antioxidant formulas

Venn diagram showing unique and overlapping ingredients in PRO-C and Ultimate Protector.

There are 29 unique Nrf2 activator ingredients in Ultimate Protector (UP) and four (4) non-overlapping Nrf2 activator ingredients in PRO-C. Thus by taking both formulas you are able to receive 33 identifiable Nrf2 activator ingredients (870 mg). The amount of unique Nrf2 ingredients is probably significantly more than this because most of the identifiable ingredients contain a range of plant polyphenols.

Other unique ingredients of each formula include glutathione – reduced (60 mg), malic acid (500 mcg), zinc (6 mg), selenium (30 mcg), B2 (3 mg) and B6 (3 mg) from coenzyme forms, and Bioperine (7.5 mg) (for enhanced absorption of nutrients). These are important ingredients to have the formulas work more effectively together.

The overlapping ingredients in the formula include Vitamin C (3 gm – 1.5 gm from each formula), calcium (130 mg – 70 mg from PRO-C & 60 mg from UP), magnesium (130 mg – 70 mg from PRO-C & 60 mg from UP), and a little grape seed extract (~10 mg). We view this to be very positive especially because we believe that most people should take in at least 3 grams daily of Vitamin C. Equal amounts of calcium and magnesium balance each other in the body and have many important functions such as being part of critical enzymes.

SOURCES & RESOURCES

The Antioxidant Miracle. Lester Packer, PhD, and Carol Coleman. New York: John Wiley and Sons, 1999.

“Antioxidant Cocktail Update: Part 1: The Take Home Message is to Use Antioxidant Supplements”
(Interview of Dr. Lester Packer by Richard A. Passwater, PhD, Whole Foods Magazine, 1999)

HPDI BLOG ARTICLES

CONTACT US:

You can reach HPDI by calling 1-800-228-4265, email support(at)IntegratedHealth.com, or visit the retail website: IntegratedHealth.com

Health care professionals and resellers can apply for wholesale account, which includes access to the HPDI reseller website: HealthProductsDistributors.com. Email: Support(at)HealthProductsDistributors.com.

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ULTIMATE PROTECTOR INGREDIENTS – WILD BILBERRY AND WILD BLUEBERRY

Dr. Hank Liers, PhD biography about us HPDI integratedhealth formulator founder CEO scientist physicist wild bilberry and wild blueberry

Ultimate Protector contains wild bilberry and wild blueberry, as well as components from 29 different fruits, vegetables, and herbs. Each of these ingredients contain substances that may be considered to be polyphenols, antioxidants, and Nrf2 activators. In this article I will explore the ingredients wild bilberry and wild blueberry, which are components of Anthocomplete™ and VitaBerry Plus® from Futureceuticals.

ANTHOCOMPLETE™

AnthoComplete™ (N669) is a specially designed blend of anthocyanins derived from wild bilberry and wild blueberry, acai, black currant extract, sweet cherry, raspberry, elderberry, blackberry, aronia, black soybean hull extract, and blue corn. Anthocyanins are powerful plant polyphenols associated with a variety of areas of human health, including healthy aging, healthy glucose metabolism, cardiovascular health, and inflammation management.

Carefully designed to maximize the amount of beneficial anthocyanins that can be available in a single source, AnthoComplete is a proprietary formula suitable for a wide-range of applications.

With its diverse blend, AnthoComplete contains a minimum level of 10% anthocyanins, 3,000 ORAC μmole TE/g (typical), and 15% total phenolics (typical).

Bilberry / Blueberry wild bilberry and wild bluebery

VITABERRY PLUS®

VitaBerry® (N1023) is the trade name for a line of high ORAC blends of fruit powders and fruit extracts, exclusively available through FutureCeuticals.

VitaBerry® is a proprietary formula that combines wild bilberry and wild blueberry, cranberry, raspberry, strawberry, prune, cherry, and grape whole powders and extracts into lines of custom blends. High in fruit polyphenols, anthocyanins, proanthocyanins, ellagic acid, chlorogenic acid, resveratrol, and quinic acid, VitaBerry offers 6,000 ORAC units in a single gram.

VitaBerry® Plus (N81.3) combines the standard blend of VitaBerry® with resveratrol and quercetin to deliver a minimum of 12,000 ORAC units per gram.

HEALTH BENEFITS OF WILD BILBERRY AND WILD BLUEBERRY

Bilberry is any of several Eurasian  species of low-growing shrubs in the genus Vaccinium, bearing edible, nearly black berries. The species most often referred to is Vaccinium myrtillus L., but there are several other closely related species. Bilberries are distinct from blueberries but closely related. Whereas the bilberry is native to Europe, the blueberry is native to North America.

The bilberry fruit is smaller than that of the blueberry, but with a fuller taste. Bilberries are darker in color, and usually appear near black with a slight shade of purple. While blueberry fruit pulp is light green in color, bilberry is red or purple, heavily staining the fingers, lips, and tongue of consumers eating the raw fruit. The color comes from diverse anthocyanins.

So-called wild (lowbush) blueberries, smaller than cultivated highbush ones, are prized for their intense color. “Wild” has been adopted as a marketing term for harvests of managed native stands of lowbush blueberries. The bushes are not planted or genetically manipulated, but they are pruned or burned every two years, and pests are “managed”. The content of polyphenols and anthocyanins in lowbush (wild) blueberries (V. angustifolium) exceeds values found in highbush cultivars.

wild bilberry and wild blueberry

Wild bilberry and wild blueberry (above) provide Nrf2 activators.

The key compounds in bilberry fruit are called anthocyanins and anthocyanosides. These compounds help build strong blood vessels and improve circulation to all areas of the body. They also prevent blood platelets from clumping together (helping to reduce the risk of blood clots), and they have antioxidant properties (preventing or reducing damage to cells from free radicals). Anthocyanins boost the production of rhodopsin, a pigment that improves night vision and helps the eye adapt to light changes.

Bilberry fruit is also rich in tannins, a substance that acts as an astringent. The tannins have anti-inflammatory properties and may help control diarrhea.

Bilberries have been shown to have the highest Oxygen Radical Absorbance Capacity (ORAC) rating of more than 20 fresh fruits and berries. The antioxidant properties of bilberries were shown to be even stronger than those of cranberries, raspberries, strawberries, plums, or cultivated blueberries.

The antioxidant powers and health benefits of bilberries and blueberries can be attributed to a number of remarkable compounds contained in them, including the following:

  • Anthocyanins
    • malvidins
    • delphinidins
    • pelargonidins
    • cyanidins
    • peonidins
  • Hydroxycinnamic acids
    • caffeic acids
    • ferulic acids
    • coumaric acids
  • Hydroxybenzoic acids
    • gallic acids
    • procatchuic acids
  • Flavonols
    • kaempferol
    • quercetin
    • myricetin
  • Other phenol-related phytonutrients
    • pterostilbene
    • resveratrol
  • Other nutrients
    • lutein
    • zeaxanthin
    • Vitamin K
    • Vitamin C
    • manganese

Scientific Studies on the Antioxidant Effects of Wild Bilberry and Wild Blueberry

Databases of scientific studies (like the National Institutes of Health (NIH) PubMed database) contain thousands of up-to-date studies and abstracts about various Vaccinium species, including wild bilberry and wild blueberry (V. myrtillis and V. angustfolium, respectively).

We provide a few relevant scientific studies on the antioxidant effects of wild bilberry and wild blueberry.

In vitro anticancer activity of fruit extracts from Vaccinium species.

From: http://www.ncbi.nlm.nih.gov/pubmed/8693031

Abstract

Fruit extracts of four Vaccinium species (lowbush blueberry, bilberry, cranberry, and lingonberry) were screened for anticarcinogenic compounds by a combination of fractionation and in vitro testing of their ability to induce the Phase II xenobiotic detoxification enzyme quinone reductase (QR) and to inhibit the induction of ornithine decarboxylase (ODC), the rate-limiting enzyme in polyamine synthesis, by the tumor promoter phorbol 12-myristate 13-acetate (TPA). The crude extracts, anthocyanin and proanthocyanidin fractions were not highly active in QR induction whereas the ethyl acetate extracts were active QR inducers. The concentrations required to double QR activity (designated CDqr) for the ethyl acetate extracts of lowbush blueberry, cranberry, lingonberry, and bilberry were 4.2, 3.7, 1.3, and 1.0 microgram tannic acid equivalents (TAE), respectively, Further fractionation of the bilberry ethyl acetate extract revealed that the majority of inducer potency was contained in a hexane/chloroform subfraction (CDqr = 0.07 microgram TAE). In contrast to their effects on QR, crude extracts of lowbush blueberry, cranberry, and lingonberry were active inhibitors of ODC activity. The concentrations of these crude extracts needed to inhibit ODC activity by 50% (designated IC50) were 8.0, 7.0, and 9.0 micrograms TAE, respectively. The greatest activity in these extracts appeared to be contained in the polymeric proanthocyanidin fractions of the lowbush blueberry, cranberry, and lingonberry fruits (IC50 = 3.0, 6.0, and 5.0 micrograms TAE, respectively). The anthocyanidin and ethyl acetate extracts of the four Vaccinium species were either inactive or relatively weak inhibitors of ODC activity. Thus, components of the hexane/chloroform fraction of bilberry and of the proanthocyanidin fraction of lowbush blueberry, cranberry, and lingonberry exhibit potential anticarcinogenic activity as evaluated by in vitro screening tests.

 

Bilberry (Vaccinium myrtillus) anthocyanins modulate heme oxygenase-1 and glutathione S-transferase-pi expression in ARPE-19 cells.

From: http://www.ncbi.nlm.nih.gov/pubmed/17460300

Abstract

PURPOSE: To determine whether anthocyanin-enriched bilberry extracts modulate pre- or posttranslational levels of oxidative stress defense enzymes heme-oxygenase (HO)-1 and glutathione S-transferase-pi (GST-pi) in cultured human retinal pigment epithelial (RPE) cells.

METHODS: Confluent ARPE-19 cells were preincubated with anthocyanin and nonanthocyanin phenolic fractions of a 25% enriched extract of bilberry (10(-6)-1.0 mg/mL) and, after phenolic removal, cells were oxidatively challenged with H(2)O(2). The concentration of intracellular glutathione was measured by HPLC and free radical production determined by the dichlorofluorescin diacetate assay. HO-1 and GST-pi protein and mRNA levels were determined by Western blot and RT-PCR, respectively.

RESULTS: Preincubation with bilberry extract ameliorated the intracellular increase of H(2)O(2)-induced free radicals in RPE, though H(2)O(2) cytotoxicity was not affected. By 4 hours, the extract had upregulated HO-1 and GST-pi protein by 2.8- and 2.5-fold, respectively, and mRNA by 5.5- and 7.1-fold, respectively, in a dose-dependent manner. Anthocyanin and nonanthocyanin phenolic fractions contributed similarly to mRNA upregulation.

CONCLUSIONS: Anthocyanins and other phenolics from bilberry upregulate the oxidative stress defense enzymes HO-1 and GST-pi in RPE, suggesting that they stimulate signal transduction pathways influencing genes controlled by the antioxidant response element.

 

Berry anthocyanins suppress the expression and secretion of proinflammatory mediators in macrophages by inhibiting nuclear translocation of NF-κB independent of NRF2-mediated mechanism.

From: http://www.ncbi.nlm.nih.gov/pubmed/24565673

Abstract

The objectives of this study were to compare the anti-inflammatory effects of anthocyanins from blueberry (BBA), blackberry (BKA), and blackcurrant (BCA) and to determine the relationship between their antioxidant capacity and anti-inflammatory effect in macrophages. Major anthocyanins in BBA, BKA and BCA were malvidin-3-glucoside (16%), cyanidin-3-glucoside (98%) and delphinidin-3-rutinoside (44%), respectively. BKA showed higher total antioxidant capacity than BBA and BCA. RAW 264.7 macrophages were incubated with 0-20 μg/ml of BBA, BKA and BCA, and subsequently activated by lipopolysaccharide (LPS) to measure proinflammatory cytokine production. Interleukin 1β (IL-1β) messenger RNA (mRNA) levels were significantly decreased by all berry anthocyanins at 10 μg/ml or higher. Tumor necrosis factor α (TNFα) mRNA levels and secretion were also significantly decreased in LPS-treated macrophages. The levels of the repression were comparable for all berry anthocyanins. LPS-induced nuclear factor κB (NF-κB) p65 translocation to the nucleus was markedly attenuated by all of the berry anthocyanins. In bone marrow-derived macrophages (BMMs) from nuclear factor E2-related factor 2 wild-type (Nrf2(+/+)) mice, BBA, BKA and BCA significantly decreased cellular reactive oxygen species (ROS) levels with a concomitant decrease in IL-1β mRNA levels upon LPS stimulation. However, in the BMM from Nrf2(-/-) mice, the anthocyanin fractions were able to significantly decrease IL-1β mRNA despite the fact that ROS levels were not significantly affected. In conclusion, BBA, BKA and BCA exert their anti-inflammatory effects in macrophages, at least in part, by inhibiting nuclear translocation of NF-κB independent of the NRF2-mediated pathways.

 

Purified Anthocyanins from Bilberry and Black Currant Attenuate Hepatic Mitochondrial Dysfunction and Steatohepatitis in Mice with Methionine and Choline Deficiency

From: http://pubs.acs.org/doi/abs/10.1021/jf504926n

Abstract

The berries of bilberry and black currant are rich source of anthocyanins, which are thought to have favorable effects on non-alcoholic steatohepatitis (NASH). This study was designed to examine whether purified anthocyanins from bilberry and black currant are able to limit the disorders related to NASH induced by a methionine-choline-deficient (MCD) diet in mice. The results showed that treatment with anthocyanins not only alleviated inflammation, oxidative stress, steatosis and even fibrosis, but also improved the depletion of mitochondrial content and damage of mitochondrial biogenesis and electron transfer chain developed concomitantly in the liver of mice fed the MCD diet. Furthermore, anthocyanins treatment promoted activation of AMP-activated protein kinase (AMPK) and expression of peroxisome proliferator-activated receptor-gamma coactivator-1α (PGC-1α). These data provide evidence that anthocyanins possess significant protective effects against NASH and mitochondrial defects in response to a MCD diet, with mechanism maybe through affecting the AMPK/PGC-1α signaling pathways.

 

Effect of blueberry on hepatic and immunological functions in mice.

From: http://www.ncbi.nlm.nih.gov/pubmed/20382588

Abstract

Background: Conventional drugs used in the treatment and prevention of liver diseases often have side effects, therefore research into natural substances are of significance. This study examined the effects of blueberry on liver protection and cellular immune functions.

METHODS: To determine the effects of blueberry on liver protective function, male mice were orally administered blueberry (0.6 g/10 g) or normal saline for 21 days. Hepatic RNA was extracted by Trizol reagent, and the expression of Nrf2, HO-1, and Nqo1 was determined by real-time RT-PCR. Superoxide dismutase (SOD) and malondialdehyde (MDA) in liver homogenate were determined, and liver index was measured. To assess the effects of blueberry on cellular immune function, male mice received blueberry (0.4, 0.6, or 0.8 g/10 g) for 35 days, and the percentages of CD3+, CD4+, and CD8+ T lymphocyte subgroups in peripheral blood were detected by flow cytometry, the index of the thymus and spleen was measured, and lymphocyte proliferation in the spleen was determined by MTT assay.

RESULTS: Blueberry treatment significantly increased the expression of Nrf2, HO-1, and Nqo1, the important antioxidant components in the liver. Hepatic SOD in the blueberry group was higher and MDA was lower than that in the control group (P<0.05). Blueberry also increased the index of the spleen and enhanced the proliferation of lymphocytes of the spleen (P<0.05). The percentages of the CD3+ and CD4+ T lymphocyte subsets and the CD4+/CD8+ ratio were also increased by blueberry (P<0.05).

CONCLUSIONS: Blueberry induces expression of Nrf2, HO-1, and Nqo1, which can protect hepatocytes from oxidative stress. In addition, blueberry can modulate T-cell function in mice.

 

Anthocyanins: Janus Nutraceuticals Displaying Chemotherapeutic and Neuroprotective Properties

From: http://link.springer.com/chapter/10.1007/978-94-007-4575-9_21

Abstract

Anthocyanins are natural polyphenolic compounds widely distributed as pigments in many fruits and vegetables. In addition to displaying antioxidant properties, these nutraceuticals exhibit anti-inflammatory, anti-proliferative, and pro-apoptotic activities suggesting their potential as novel chemotherapeutic agents. Through cell cycle down-regulation, and context-specific pro-oxidant activity, anthocyanins induce cytotoxicity in cancer cells in vitro and in vivo. Specifically, via regulation of the Bcl-2 protein family and induction of caspase-dependent or caspase-independent apoptotic pathways, anthocyanins inhibit the growth of cancers by inducing cell death. Moreover, by modulating the activities of specific kinases and proteases, including (but not limited to) cyclin-dependent kinases, mitogen-activated protein kinases, matrix metalloproteases, and urokinase-type plasminogen activators, anthocyanins induce apoptosis, inhibit motility, and suppress invasion of cancer cells. In marked contrast to their effects in cancer cells, we have found that anthocyanins display significant anti-apoptotic activity in neurons. Antioxidant properties of these nutraceuticals, particularly at the level of the mitochondria, appear to underlie their neuroprotective effects. The opposing effects of anthocyanins on cancer cells and neurons suggest that these nutraceuticals are promising candidates for development as either chemotherapeutic agents or novel neuroprotective compounds for the treatment of cancers or neurodegenerative diseases, respectively.

Recent Research on Polyphenolics in Vision and Eye Health

From: http://pubs.acs.org/doi/abs/10.1021/jf903038r#end-1

Abstract

A long-standing yet controversial bioactivity attributed to polyphenols is their beneficial effects in vision. Although anecdotal case reports and in vitro research studies provide evidence for the visual benefits of anthocyanin-rich berries, rigorous clinical evidence of their benefits is still lacking. Recent in vitro studies demonstrate that anthocyanins and other flavonoids interact directly with rhodopsin and modulate visual pigment function. Additional in vitro studies show flavonoids protect a variety of retinal cell types from oxidative stress-induced cell death, a neuroprotective property of significance because the retina has the highest metabolic rate of any tissue and is particularly vulnerable to oxidative injury. However, more information is needed on the bioactivity of in vivo conjugates and the accumulation of flavonoids in ocular tissues. The direct and indirect costs of age-related vision impairment provide a powerful incentive to explore the potential for improved vision health through the intake of dietary polyphenolics.

 

Bilberry Extracts Induce Gene Expression Through the Electrophile Response Element

From: http://www.tandfonline.com/doi/abs/10.1207/s15327914nc5401_11#.VLK6LVqBO24

Abstract

A number of genes important for detoxification and antioxidant defense induced by mild stress generated by, for example, physical activity/exercise, caloric restriction, or alcohol may provide health benefits by causing the organism to mount such a defense response. More recently, induction of these defenses has also been attributed to phytochemicals or secondary metabolites from dietary plants. Many polyphenols, which constitute a large fraction of these phytochemicals, increase cellular levels of antioxidants, such as glutathione and other components of the detoxification systems, via the transactivation of genes containing electrophile response elements (EpREs) within their promoters. One such gene, γ-glutamylcysteine synthetase, has previously been shown to be positively regulated by quercetin, a flavonoid found in high concentrations in onions, apples, and bilberries through EpRE transactivation. As a further step, we have investigated whether bilberries and quercetin have the ability to induce transcription of Fos-related antigen 1 (Fra-1), which contains two EpREs in its promoter. Fra-1 is a member of the activator protein 1 (AP-1) family of transcription factors and, due to the lack of transactivation domain Fra-1, can suppress activation of AP-1. We present results demonstrating that extracts from bilberries, and the flavonoid quercetin, abundant in bilberries, induce the fra-1 promoter and the cellular content of Fra-1 mRNA. We further provide evidence that this induction is mediated through EpREs.

 

Bilberry (Vaccinium myrtillus)

From: http://www.sigmaaldrich.com/life-science/nutrition-research/learning-center/plant-profiler/vaccinium-myrtillus.html

Synonyms / Common Names / Related Terms
Airelle, anthocyanins, Bickbeere (German), bilberry leaf, black whortle, Blaubeere (Dutch), blaubessen, bleaberry, blueberry, blueberry leaf, bogberry, bog bilberry, burren myrtle, cranberry, dwarf bilberry, dyeberry, Ericaceae (family), European blueberry, Heidelbeere (Dutch), Heidelbeereblatter, heidelberry, huckleberry, hurtleberry, lingonberry, lowbush blueberry, Mirtillo nero (Italian), Myrtilli folium, Myrtilli fructus, Myrtilus niger Gilib., Optiberry, resveratrol, sambubiosides, trackleberry, Vaccinium angulosum Dulac, Vaccinium montanum Salibs., Vaccinium myrtillus anthocyanoside extract, VMA extract, VME, whortleberry, wineberry
Mechanism of Action

Pharmacology:

  • Constituents: Bilberry contains several compounds that have demonstrated biological activity. The main chemicals contained in bilberry extract have been shown to be: anthocyanins30,31, flavonoids, hydroquinone, oleanolic acid, neomyrtillin, sodium, tannins, and ursolic acid17,20,32,33,34. Bilberry also contains resveratrol.28,29 The anthocyanosides, tannins, and flavonoids have been of particular scientific interest. Flavonoids have been shown in vitro to possess a number of biological properties, including inhibition of prostacyclin synthesis, reduction of capillary permeability and fragility, free radical scavenging, inhibition of a wide range of enzymes, impairment of coagulation and platelet aggregation, and anticarcinogenicity.33,5
  • Mechanism of action: Anthocyanins and other phenolics from bilberry upregulate the oxidative stress defense enzymes heme-oxygenase-1 and glutathione S-transferase-pin cultured human retinal pigment epithelial cells, suggesting that they stimulate signal transduction pathways, influencing genes controlled by the antioxidant response element.30
  • Antibacterial effects: In an in vitro study using Staphylococcus aureus, Staphylococcus aureus Oxford, Enterococcus faecalisBacillus subtilis, and Escherichia coli, an aqueous extract of bilberry leaves had a MIC of 12.7-17.8mg/mL and an aqueous extract of bilberry fruit had a MIC of 15.4-30.7mg/mL.24
  • Anticarcinogenic effects: In an in vitro study, anthocyanin-rich extracts from bilberry (Vaccinium myrtillus L.) inhibited the growth of a colon cancer cell line.6
  • Bomser et al. screened fruit extracts of bilberry for potential anticarcinogenic compounds by a combination of fractionation and in vitro testing of their ability to induce the Phase 2 xenobiotic detoxification enzyme quinone reductase (QR) and to inhibit the induction of ornithine decarboxylase (ODC), the rate-limiting enzyme in polyamine synthesis, by the tumor promoter phorbol 12-myristate 13-acetate (TPA).5 The crude extracts, anthocyanin, and proanthocyanidin fractions were not found to be highly active in Phase 2 xenobiotic detoxification enzyme quinone reductase (QR) induction, whereas the ethyl acetate extracts were active QR inducers. The concentrations required to double QR activity (designated CDqr) for the ethyl acetate extracts of bilberry were 1.0mcg tannic acid equivalents (TAE). Further fractionation of the bilberry ethyl acetate extract revealed that the majority of inducer potency was contained in a hexane/chloroform subfraction (CDqr = 0.07mcg TAE). The anthocyanidin and ethyl acetate extracts of bilberry were either inactive or relatively weak inhibitors of ornithine decarboxylase (ODC) activity. The authors concluded that components of the hexane/chloroform fraction of bilberry exhibit potential anticarcinogenic activity, as evaluated by in vitro screening tests.
  • Antihyperglycemic effects: In normal and depancreatized dogs, oral administration of bilberry leaves reduced hyperglycemia, even when the glucose was injected intravenously concurrently.15,16
  • Antioxidant effects: Bilberry contains anthocyanosides that are flavonoid derivatives of anthocyanins (the blue, red, or violet pigments found in many berry varieties), which are closely related in structure and activity to flavonoids17 and possess free radical scavenging/antioxidant properties. Antioxidant properties have been attributed to bilberry based on in vitro studies.1,2,34
  • Antiplatelet activity: In a clinical study of 30 subjects with normal platelet aggregation, 480mg of Myrtocyan® (Vaccinium myrtillus anthocyanins) daily, 3g of ascorbic acid daily, or both treatments all reduced platelet aggregation after 30 and 60 days.11 Bilberry anthocyanins reduced platelet aggregation more than ascorbic acid alone, but bilberry anthocyanins and ascorbic acid together were the most effective. Also, in in vitro studies, anthocyanins extracted from bilberry have inhibited platelet aggregation.13,14,10,12
  • Flavonoids have been shown in vitro to inhibit prostacyclin synthesis. In one animal model, Vaccinium myrtillus anthocyanosides were studied for their effects on prostacyclin-like activity in rat arterial issue.7
  • Antiproliferative effects: According to one laboratory study, anthocyanins were the predominant phenolic compounds in bilberry extracts.31 Compared to other plants with anthocyanins, such as black currant or lingonberry, cell growth inhibition was greater for bilberry than other plants studied. The pro-apoptosis marker, Bax, was increased 1.3-fold in bilberry-treated cells, whereas the pro-survival marker, Bcl-2, was detected only in control cells. The results demonstrated that bilberry and other berry extracts containing anthocyanins inhibited cancer cell proliferation, mainly via the p21WAF1 pathway.
  • Antiulcer effects: In an animal study, large doses of cyanidin chloride from bilberry significantly increased gastric mucosal release of prostaglandin E2.19 In animal models of gastric ulcers, cyanidin chloride showed antiulcer activity.26,8
  • Astringent effects: Bilberry contains tannins that have been used medicinally as astringents and to treat diarrhea.
  • Connective tissue stabilizing effects: An in vitro study has suggested that anthocyanosides appear to stabilize connective tissue by enhancing collagen synthesis, inhibiting collagen degradation, and enhancing collagen cross linking.35 In contrast, Boniface et al. found a significant decrease in connective tissue synthesis (collagen and glycoproteins) in gingival tissue samples of 12 adult diabetics treated with 600mg of anthocyanosides daily for two months.36
  • Hepatoprotective activity: In an animal study, anthocyans exerted a protective effect on liver cells.27
  • Hyperglycemic effects: In an oral glucose tolerance test in healthy rats, an alcoholic extract of Vaccinium myrtillus leaves increased serum glucose levels compared to controls.25
  • Hypotensive effects: Bilberry has been theorized to potentially drop blood pressure, based on pre-clinical evidence of vascular smooth muscle-relaxing properties.21,22,23
  • Anthocyanoside extracts have been shown to have smooth muscle-relaxing activity, which may account for their purported effects in one series of women with dysmenorrhea.18 Bioflavonoids and extracts of anthocyanosides (such as those present in bilberry) have been shown to relax vascular smooth muscles in experimental models, possibly via stimulation of prostaglandins.21,22,23
  • Intracellular signaling effects: Anthocyanosides have been shown to inhibit cAMP phosphodiesterase, which is involved in intracellular signal transduction pathways.8
  • Ocular effects: Anthocyanosides have been shown to exert direct effects on the retina, including the alteration of local enzymatic reactions and enhancement of the recovery of rhodopsin.9 The multi-ingredient product Mirtogenol (Pycnogenol® – French maritime pine bark extract and Mirtoselect® – standardized bilberry extract) has been reported to lower intraocular pressure and improve ocular blood flow.37
  • Smooth muscle relaxant effects: Anthocyanoside extracts have been shown to have smooth muscle-relaxing activity, which may account for their purported effects in one series of women with dysmenorrhea.18 Bioflavonoids and extracts of anthocyanosides (such as those present in bilberry) have been shown to relax vascular smooth muscles in experimental models, possibly via stimulation of prostaglandins.21,22,23
  • Vasoprotective effects: Flavonoids have been shown in vitro to reduce capillary permeability and fragility. Anthocyanosides have been studied for their potential protective effect in disorders due to abnormal capillary fragility.33

Pharmacodynamics/Kinetics:

  • There are limited data regarding the pharmacodynamics and kinetics of Vaccinium myrtillus (bilberry) anthocyanosides (VMA). In one animal study, bilberry anthocyanosides were rapidly distributed after intra-peritoneal injection and intravenous administration.38 In another animal study, bilberry anthocyanosides were found to be eliminated via the bile and urine with a modest level of liver extraction.32
  • Bioavailability in animals is low. Following oral doses in rats, plasma levels of VMA reached a peak at 15 minutes and declined rapidly within two hours, and the absolute bioavailability was 1.2% of the administered dose.38 The gastrointestinal absorption of VMA was 5% of the administered dose. Another study found a differential affinity of VMA for certain tissues (especially skin and kidney).20 This suggests that different tissues may have more persistent local concentrations.
References:

  1. Martin-Aragon S, Basabe B, Benedi JM, and et all. In vitro and in vivo antioxidant properties of Vaccinium myrtillus. Pharmaceutical Biology 1999;37(2):109-113.
  2. Prior R, Cao G, Martin A, and et all. Antioxidant capacity as influence by total phenolic and anthocyanin content, maturity, and variety of Vaccinium species. J Agricult Food Chem 1998;46:2686-2693.
  3. Martin-Aragon S, Basabe B, Benedi J, and et all. Antioxidant action of Vaccinium myrtillus L. Phytotherapy 1998;46:S104-S106.
  4. Laplaud, P. M., Lelubre, A., and Chapman, M. J. Antioxidant action of Vaccinium myrtillus extract on human low density lipoproteins in vitro: initial observations. Fundam Clin Pharmacol 1997;11(1):35-40. 9182074
  5. Bomser, J., Madhavi, D. L., Singletary, K., and Smith, M. A. In vitro anticancer activity of fruit extracts from Vaccinium species. Planta Med 1996;62(3):212-216.
  6. Zhao, C., Giusti, M. M., Malik, M., Moyer, M. P., and Magnuson, B. A. Effects of commercial anthocyanin-rich extracts on colonic cancer and nontumorigenic colonic cell growth. J Agric Food Chem  10-6-2004;52(20):6122-6128. 15453676
  7. Morazzoni P and Magistretti MJ. Effects of Vaccinium myrtillus anthocyanosides on prostacyclin-like activity in rat arterial issue. Fitoterapia 1986;57:11-14.
  8. Magistretti, M. J., Conti, M., and Cristoni, A. Antiulcer activity of an anthocyanidin from Vaccinium myrtillus. Arzneimittelforschung  1988;38(5):686-690. 3415709
  9. Cluzel, C., Bastide, P., Wegman, R., and Tronche, P. [Enzymatic activities of retina and anthocyanoside extracts of Vaccinium myrtillus (lactate dehydrogenase, alpha-hydroxybutyrate dehydrogenase, 6-phosphogluconate dehydrogenase, glucose-6-phosphate dehydrogenase, alpha-glycerophosphate dehydrogenase, 5-nucleotidase, phosphoglucose isomerase)]. Biochem Pharmacol 1970;19(7):2295-2302. 4329039
  10. Morazzoni P and Bombardelli E. Vaccinium myrtillus L. Fitoterapia 1996;66:3-29.
  11. Pulliero G, Montin S, Bettini V, and et al. Ex vivo study of the inhibitory effects of Vaccinium myrtillus anthocyanosides on human platelet aggregation. Fitoterapia 1989;60:69-75.
  12. Bottecchia D. Preliminary report on the inhibitory effect of vaccinium myrtillus anthocyanosides on platelet aggregation and clot retraction. Fitoterapia 1987;48:3-8.
  13. Zaragoza, F., Iglesias, I., and Benedi, J. [Comparative study of the anti-aggregation effects of anthocyanosides and other agents]. Arch Farmacol Toxicol 1985;11(3):183-188. 4096552
  14. Fdez, M., Zaragoza, F., and Alvarez, P. In vitro platelet aggregation effects of anthocyanosides of vaccinium myrtilus L. Anales de la Real Academia de Farmacia 1983;49:79-90.
  15. Bever B. Plants with oral hypoglycemic action. Q J Crude Drugs Res 1979;17:139-196.
  16. Allen, F. M. Blueberry leaf extract: Physiologic and clinical properties in relation to carbohydrate metabolism. 89:1577-81, 1927. JAMA 1927;89:1577-1581.
  17. Havsteen, B. Flavonoids, a class of natural products of high pharmacological potency. Biochem Pharmacol 4-1-1983;32(7):1141-1148. 6342623
  18. Colombo D and Vescovini R. Controlled clinical trial of anthocyanosides from Vaccinium myrtillus in primary dysmenorrhea. G Ital Obstet Ginecol 1985;7:1033-1038.
  19. Mertz-Nielsen, A., Munck, L. K., Bukhave, K., and Rask-Madsen, J. A natural flavonoid, IdB 1027, increases gastric luminal release of prostaglandin E2 in healthy subjects. Ital J Gastroenterol  1990;22(5):288-290. 2134327
  20. Lietti, A., Cristoni, A., and Picci, M. Studies on Vaccinium myrtillus anthocyanosides. I. Vasoprotective and antiinflammatory activity. Arzneimittelforschung 1976;26(5):829-832. 9100
  21. Colantuoni, A., Bertuglia, S., Magistretti, M. J., and Donato, L. Effects of Vaccinium Myrtillus anthocyanosides on arterial vasomotion. Arzneimittelforschung  1991;41(9):905-909. 1796918
  22. Bettini V. Effects of Vaccinium myrtillus anthocyanosides on vascular smooth muscle. Fitoterapia 1984;55(5):265-272.
  23. Bettini V, Mayellaro F, Ton P, and et al. Interactions between Vaccinium myrtillusanthocyanosides and serotonin on splenic artery smooth muscle. Fitoterapia 1984;55(4):201-208.
  24. Brantner, A. and Grein, E. Antibacterial activity of plant extracts used externally in traditional medicine. J Ethnopharmacol 1994;44(1):35-40. 7990502
  25. Neef H, Declercq P, and Laekeman G. Hypoglycaemic activity of selected European plants. Phytotherapy Research 1995;9:45-48.
  26. Cristoni, A. and Magistretti, M. J. Antiulcer and healing activity of Vaccinium myrtillus anthocyanosides. Farmaco [Prat] 1987;42(2):29-43. 3582621
  27. Mitcheva, M., Astroug, H., Drenska, D., Popov, A., and Kassarova, M. Biochemical and morphological studies on the effects of anthocyans and vitamin E on carbon tetrachloride induced liver injury. Cell Microbiol 1993;39(4):443-448. 8329983
  28. Lyons, M. M., Yu, C., Toma, R. B., Cho, S. Y., Reiboldt, W., Lee, J., and van Breemen, R. B. Resveratrol in raw and baked blueberries and bilberries. J Agric Food Chem  9-24-2003;51(20):5867-5870. 13129286
  29. Rimando, A. M., Kalt, W., Magee, J. B., Dewey, J., and Ballington, J. R. Resveratrol, pterostilbene, and piceatannol in vaccinium berries. J Agric Food Chem 7-28-2004;52(15):4713-4719. 15264904
  30. Milbury, P. E., Graf, B., Curran-Celentano, J. M., and Blumberg, J. B. Bilberry (Vaccinium myrtillus) anthocyanins modulate heme oxygenase-1 and glutathione S-transferase-pi expression in ARPE-19 cells. Invest Ophthalmol Vis Sci 2007;48(5):2343-2349. 17460300
  31. Wu, Q. K., Koponen, J. M., Mykkanen, H. M., and Torronen, A. R. Berry phenolic extracts modulate the expression of p21(WAF1) and Bax but not Bcl-2 in HT-29 colon cancer cells. J Agric Food Chem 2-21-2007;55(4):1156-1163. 17243699
  32. Lietti, A. and Forni, G. Studies on Vaccinium myrtillus anthocyanosides. II. Aspects of anthocyanins pharmacokinetics in the rat. Arzneimittelforschung  1976;26(5):832-835. 989354
  33. Mian E. Anthocyanosides and microvessel walls: new findings on the mechanism of action of their protective effect in syndromes due to abnormal capillary fragility. Minerva Med 1977;68(52):3565-3581.
  34. Marcollet M, Bastide P, and Tronche P. Effet angio-protecteur des anthocyanosides de Vaccinium myrtillus odjective vis a vis de la liberation de la lactate deshydrogenase (LDH) et de ses isoenzymes cardiaques chez le rat soumis a une epreuve de nage. C R Soc Biol  1970;163:1786.
  35. Jonadet, M., Meunier, M. T., Bastide, J., and Bastide, P. [Anthocyanosides extracted from Vitis vinifera, Vaccinium myrtillus and Pinus maritimus. I. Elastase-inhibiting activities in vitro. II. Compared angioprotective activities in vivo]. J Pharm Belg 1983;38(1):41-46. 6553084
  36. Boniface, R. and Robert, A. M. [Effect of anthocyanins on human connective tissue metabolism in the human]. Klin Monatsbl Augenheilkd  1996;209(6):368-372. 9091714
  37. Steigerwalt, R. D., Gianni, B., Paolo, M., Bombardelli, E., Burki, C., and Schonlau, F. Effects of Mirtogenol on ocular blood flow and intraocular hypertension in asymptomatic subjects. Mol Vis  2008;14:1288-1292. 18618008
  38. Morazzoni, P., Livio, S., Scilingo, A., and Malandrino, S. Vaccinium myrtillus anthocyanosides pharmacokinetics in rats. Arzneimittelforschung  1991;41(2):128-131. 2043174

SUMMARY

Wild bilberries and wild blueberries are important fruits full of polyphenols, anthocyanins, antioxidants, and Nrf2 activators that help to make Ultimate Protector such an outstanding nutritional supplement.

 

up-4 elderberry wild bilberry and wild blueberry

Ultimate Protector provides wild bilberry and wild blueberry, and 27 other Nrf2 activator-containing plant-based ingredients.

ADDITIONAL RESOURCES