Eniva Minerals ^TM
ARE YOU ABSORBING YOUR MINERAL
SUPPLEMENT?

Every living cell in your body depends on minerals for proper function and structure. Our bodies don't manufacture minerals, so we must get them from foods and supplements. We need essential minerals such as calcium, magnesium, potassium, phosphorus, sodium, iron, zinc, copper, and selenium to stay healthy.

Food is the best way to get your minerals. It's important to eat a well-balanced diet every day. The problem is that most of us don't eat a perfectly natural balanced diet every day. Even if you did, our foods today don't contain as many minerals as they once did because our land has been over farmed and the soil has been depleted of minerals. Let's take tomatoes for example: Tomatoes grown in parts of the country with poor mineral soil had 5 times less calcium, 13 times less magnesium, over 1900 times less iron, and virtually no manganese, copper, and boron than tomatoes grown where the soil was much richer in minerals.

So how do we make up for this? We supplement with vitamin mineral tablets, capsules, powders and/or liquids. Many of us have taken these supplements for many years. Has it worked for you? If you're like most people, you're not sure but you take it anyway. Let's take calcium as an example. Most elderly people lack calcium and are suffering with osteoporosis. These are the same people who have been taking calcium supplements for years. The percentage on the label is showing over 100% of the RDA. How can you suffer a deficiency of calcium when you're exceeding the RDA every day? Real simple, if you can't absorb it, your cells don't get it, and you will experience a deficit.

What mineral supplements are you taking? Are they complex compounds such as picolinate, citrate, gluconate or carbonate? Are they a chelated or a colloidal mineral supplement? All of these supplements are very large mineral particles. They measure anywhere from 1 micron to 7 microns in size. Minerals that we assimilate from food are tens of thousands times smaller; they are in the angstrom size. (Ten thousand angstroms are equivalent to 1 micron)

Do you see why it's hard to absorb minerals from supplements? The particles are much too large to assimilate. It's like trying to fit a gigantic boulder into a pin hole. It's physically impossible! We absorb minerals from food because the particles are small enough to assimilate.

Why don't we develop mineral supplements with angstrom size particles? That would solve the problem, wouldn't it? Yes, but no one has ever done it until recently. Eniva has been the first company to develop a new, proprietary technology to create an angstrom sized mineral particle in a solution of pure water for total bioavailability.