Microbe Guard Technology Today

Why Choose Microbe Guard Antimicrobials over Traditional Antimicrobial Technology?

Microbe Guard's antimicrobial technolgy is a surface modifying antimicrobial treatment that, once applied by our certified applicators, modifies the surface, creating a new surface that is resistant to microbial attack. Unlike all other conventional antimicrobials, our products do not off-gas, leach, diffuse, migrate, volatize or otherwise leave the surface to which they have been applied. The result is an extraordinary efficacy profile, unmatched by other products. All other conventional antimicrobials used legally, including quats, bleach, heavy metals, peroxides, phenols, triclosan, formaldehydes and paint formulations, work on the basis of diffusion away from the treated surface. This promotes adaptation, loss of activity, leaching, diffusion and creation of zones of inhibition.

How Do Microbe Guard Antimicrobials Work in Comparison to Traditional Antimicrobial Technology?

Antimicrobials – Bound and Unbound…
Antimicrobials can be divided into two major categories: bound and unbound. These terms refer to whether or not the antimicrobial has the capacity to molecularly bond to the surface on which it is applied.

Unbound Antimicrobials…
An unbound antimicrobial has the greater potential for safety concerns because it must diffuse or leach from the treated surface and be consumed by the microorganism to be effective. Most conventional antimicrobials are intended to act quickly and dissipate quickly to minimize the danger to humans, animals and treated objects. Others use the time-release capsule approach and obtain a longer working life by burying the antimicrobial in a paint, glue, binder or other coating and counting on slow migration to the surface. Conventional antimicrobials, even those applied in a carrier, must diffuse (wash off) and create a "zone of inhibition" in order to function properly.

Once inside the organism, the chemical agent will act like a poison, interrupting some key metabolic or life sustaining process of the cell and causing it to die. Once the antimicrobial is depleted or washed away during regular maintenance, protection vanishes. After application, an unbound antimicrobial continues to diffuse or leach from the treated surface. As this diffusion continues, the concentration of the active microorganisms build up a tolerance to these particular antimicrobials. Highly resistant strains can develop which are immune to what was once an effective dose. Just such a phenomenon (genetic adaptation) is of special concern to the health care industry, which has observed the development of more potent strains of disease-causing organisms which are highly resistant to conventional antibiotics.

Bound Antimicrobials…
Microbe Guard Antimicrobials are bound antimicrobials. Because they are bound, they remain chemically attached to the surface on which the substance is applied. The anitimicrobial functions by rupturing the organism's delicate cell membrane. This prevents microorganisms from carrying on vital life processes. The antimicrobial acts on contact with organisms and can do so again and again. One can think of the bound antimicrobial as a sword which is capable of repeated use. In comparison, a conventional antimicrobial treatment is more like a gun with limited ammunition. Because a bound antimicrobial is fixed to the surface, it continually operates at full strength. This means the genetic adaptation process, which is an inherent problem with conventional antimicrobials, cannot and does not occur with a bound antimicrobial.

Microbe Guard Antimicrobial Chemistry Is Unique…

The chemistry of the product is unique. A conventional quaternary ammonium salt is chemically spliced to a silane molecule, resulting in a highly active molecule, 3-(trimethoxysilyl) propyldimethyloctadecyl ammonium chloride, that has tenacious bonding capabilities as well as excellent antimicrobial properties. Once applied to a target surface, it initially bonds to the surface on all available receptor sites (principally H+). Afterward, stable bonds between remaining OH- sites on the molecule and the positive charge on the nitrogen atoms (N+) form, resulting in the creation of a large copolymer involving the target and Microbe Guard's Antimicrobial. Because there is no unused residue once the water evaporates, there is no dislodgeable residue, and no odor, leaching, off-gassing, migration or diffusion of the molecule can occur.

Microbes by nature are negatively charged. We permanently suspend microscopic pieces of glass in a positively charged chemistry. The negatively charged microbes are attracted to the positively charged chemistry; thus pulling the microbes into the glass (swords), piercing the cell wall membrane and electrocuting the microbe.