Colloidal silver is a broad term for a solution that can contain various concentrations of ionic silver compounds, silver colloids, or silver compounds bound to proteins in water. Colloidal silvers have been around for hundreds if not thousands of years and have been used by many ancient civilizations as a means to maintain health. Before the mainstream discovery and acceptance of antibiotics in the early 1900's, silver products were used by doctors. These earlier versions of silver products are not to be discounted because they indeed provided countless favorable benefits to those who used them to improve their health. But just like any new discovery, as technology and science advances, we find more efficient and effective ways to design and engineer products.
Take for instance the Wright Flyer 1, the first powered aircraft designed by the Wright Brothers. At the time of its first flight, nothing like it existed in the world. It was a remarkable advancement in the technology and physics of transportation. Now imagine for a second, if the people had stopped innovating after the Wright Flyer 1. They had accomplished the goal of flying. If the world would have settled for that who knows where we would be today.
Like the innovators who moved past the Wright Flyer 1, we have taken the old technology of colloidal silver and improved it to create the next generation of silver products. Through a new manufacturing technology, patented under multiple patents, ABL has claimed, "our advanced nano-silver solution has become the new standard by which all other silver products are measured. We call this new generation of colloidal silver, SilverSol®, SilverSol Technology®, or SilverSol® 101. Not only is our SilverSol Technology® more advanced than the original colloidal silvers, but through years of research at leading universities, we've compiled thousands of pages of test work documenting many key advances."
Metallic Nano Silver Particle + Ag4O4 Molecules
More Stable and Bioavailable and multiple modes of action.
With the Ag4O4 coating, the silver particle is
attracted to the surrounding water molecules,
and as such, becomes part of the structure of
the water. This makes the silver much more
stable and bioavailable than other forms of
silver
Ag4O4 Molecule
A thin multivalent silver oxide coating, built
of thousands of Ag4O4 molecules, surrounds
the metallic nano sized silver core
Multiple Modes of Action
Testing has uncovered multiple modes of action by which the ABL Metallic Nano-silver Particle functions. First, it has an
ability to steal multiple electrons (compared to ionic silvers which can only steal one). Second, each particle is permanently
embedded with a resonant frequency, which allows the particles to have a positive effect on things, without
needing direct contact with them. Lastly, the particles also utilize a very useful electrostatic charge.
Product Type | Nano Silver | Colloidal Silver | Colloidal Silver |
---|---|---|---|
Chemical Compound | Metallic Nano Silver Particle + Ag4O4 | Ionic Silver (Silver Ions) | Ionic Silver bound to a Protein (Mild Silver Protein) |
Structure | This metallic nano silver particle is coated with a multivalent silver oxide coating or "skin". | Ionic Silver is one of the most common forms of silver liquid found in the supplement industry today. Many are made by diluting chemical forms of silver, like silver nitrate, to a desired parts per million (ppm), which is then bottled and sold to the public. | Mild silver proteins are simply another form of ionic silver. |
Precipitation | NO With this outer coating, the silver particle is attracted to the surrounding water molecules, and as such, becomes part of the structure of the water. |
YES Ionic forms of silver are easily metabolized, and as a result, can bind up in the body. Over extended periods of time this build up could cause a skin condition known as Argyria, otherwise known as the blue man's syndrome. |
YES They contain unusually large amounts of silver and are sometimes bound to a protein which easily results in precipitation. |
Stable and Bioavailable | YES The unique metallic nano silver particle blending with water molecules makes the silver much more stable and bioavailable than other silver particles. |
NO Although ionic silver products have the smallest particle size (which they usually tout), they are often the least stable and can easily fall out of suspension. |
NO ionic forms of silver are not generally stable. The idea behind binding the ionic silver to the protein is to help make the product more stable than traditional forms of ionic silver, as well as, hopefully making the ionic solution more bioavailable. However, as a result of this binding with protein, the silver ion is less functional and useful than traditional ionic silver ions. Consequently, higher levels of silver (ppm) are needed to obtain the desired effect. |
Modes of Action | MULTIPLE The unique Ag4O4 coating gives the silver particle multiple modes of action by which the particle can be useful in the body:
- Ability to steal electrons |
ONE ionic forms of silver only have one mode of action. Once each silver ion steals its missing electron, it becomes neutral and is no longer useful in the body. |
ONE |
Levels of Silver particles, PPM (No of Particles per million of water particles) | LESS (e.g., 10 ppm) | HIGH (e.g., 40-60 ppm) | HIGHER (e.g., 50-80 ppm) |
Disease | Pathogen | Effective Concentration |
---|---|---|
Boils | Staphylococcus aureus | Killed @ 5 ppm |
Bone Inflammation (Osteomyelitis) | Staphylococcus aureus | Killed @ 5 ppm |
Bowel Infection (Bacillary Dysentery) | Shigella boydii | Killed @ 2.5 ppm |
Burn Infections | Pseudomonas aeruginosa | Killed @ 5 ppm |
Dental Plaque | Streptococcus mutans | Killed @ 5 ppm |
Diarrhea (bloody) | Shigella boydii | Killed @ 2.5 ppm |
Diarrhea | E. Coli | Killed @ 2.5 ppm |
Ear Infection | Haemophilus influezae | Killed @ 1.25 ppm |
Ear Infection | Streptococcus pneumonie | Killed @ 2.5 ppm |
Enteric Fever | Salmonella typhimurium | Killed @ 2.5 ppm |
Epiglottitis (in children) | Haemophilus influenzae | Killed @ 1.25 ppm |
Eye Infections | Staphylococcus aureus | Killed @ 5 ppm |
Eye Infections (Corneal Ulcers-Keratitis) | Pseudomonas aeruginosa | Killed @ 5 ppm |
Food Poisoning | Salmonella Arizona | Killed @ 5 ppm |
Food Poisoning | Salmonella typhimurium | Killed @ 2.5 ppm |
Food Poisoning | E. Coli | Killed @ 2.5 ppm |
Heart Valve Infection (Endocarditis) | Streptococcus faecalis | Killed @ 2.5 ppm |
Heart Valve Infection (Endocarditis) | Streptococcus gordonii | Killed @ 5 ppm |
Meningitis | Haemophilus influenzae | Killed @ 1.25 ppm |
Meningitis | Enterobacter aerogenes | Killed @ 2.5 ppm |
Meningitis | Pseudomonas aeruginosa | Killed @ 5 ppm |
Meningitis | Streptococcus pneumonie | Killed @ 2.5 ppm |
Nosocomial Infections (from hospitals) | Klebsiella pneumoniae | Killed @ 2.5 ppm |
Nosocomial Infections (from hospitals) | Pseudomonas aeruginosa | Killed @ 5 ppm |
Nosocomial Infections (from hospitals) | Streptococcus pyogenes | Killed @ 1.25 ppm |
Pneumonia | Staphylococcus aureus | Killed @ 5 ppm |
Pneumonia | Haemophilus influenzae | Killed @ 1.25 ppm |
Pneumonia | Pseudomonas aeruginosa | Killed @ 5 ppm |
Pneumonia | Streptococcus pneumonie | Killed @ 2.5 ppm |
Respiratory Tract Infections (Upper) | Streptococcus pyogenes | Killed @ 1.25 ppm |
Respiratory Tract Infections | E. Coli | Killed @ 2.5 ppm |
Respiratory Tract Infections (lower) | Klebsiella pneumoniae | Killed @ 2.5 ppm |
Scarlet Fever | Streptococcus pyogenes | Killed @ 1.25 ppm |
Septicemia | aerogenes | Killed @ 2.5 ppm |
Sinus Infections | influenzae | Killed @ 1.25 ppm |
Sinusitis | pneumonie | Killed @ 2.5 ppm |
Skin Infection (Impetigo) | aureus | Killed @ 5 ppm |
Skin Infections | aureus | Killed @ 5 ppm |
Skin Infections | pyogenes | Killed @ 1.25 ppm |
Strep Throat | pyogenes | Killed @ 1.25 ppm |
Supportive Arthritis (in children) | Haemophilus influenzae | Killed @ 1.25 ppm |
Throat Infections | influenzae | Killed @ 1.25 ppm |
Tooth Decay | mutans | Killed @ 5 ppm |
Tooth Decay | gordonii | Killed @ 5 ppm |
Urethritis (men) | vaginalis | Killed @ 10 ppm |
Urinary Tract Infections | E. Coli | Killed @ 2.5 ppm |
Urinary Tract Infections | pneumoniae | Killed @ 2.5 ppm |
Urinary Tract Infections | aeruginosa | Killed @ 5 ppm |
Urinary Tract Infections | faecalis | Killed @ 2.5 ppm |
Urinary Tract Infections | aerogenes | Killed @ 2.5 ppm |
Vaginitis (women) | vaginalis | Killed @ 10 ppm |
Wound Infections | E. Coli | Killed @ 2.5 ppm |
Wound Infections | aerogenes | Killed @ 2.5 ppm |
Wound Infections | pneumoniae | Killed @ 2.5 ppm |
Wound Infections | aeruginosa | Killed @ 5 ppm |
Wound Infections | faecalis | Killed @ 2.5 ppm |
Following are respected Labs and institutions who have completed test work on products manufactured using patented SilverSol® Technology.