about diphoterine~
DIPHOTERINE®
Action mechanism of Diphoterine®
Diphoterine® : a multi-site absorbent molecule
The Diphoterine® molecule has at least one antagonist site to each of the 5 corrosive and irritative reactions (acid, basic, oxidation, reduction, chelation). The sites’ energy action mechanism in the solvent’s rinsing is indirect, in order to stop the solvatation’s effects. This is the mild hypertonicity of Diphoterine® that locks the solvent flow.
Diphoterine® stops the action of corrosive and irritant products
Since the beginning of the rinsing, the aggressive site of the corrosive or irritant is attracted by the antagonistic site of Diphoterine® and finish to be linked. This binding stops the effects of the aggressive agent.
Diphoterine® rapidly removes the aggressive agent
The binding between Diphoterine® and the aggressive agent increases the removal by sweeping effect. The removal of the pathogenic compound is facilitated by its hypertonicity.
Diphoterine® stops the burn’s evolution
The neutralization of the effects of the aggressive agent and its rapid elimination, remove the essential components of the noxious chemical reaction. In the lack of a combustible, the burn’s evolution is immediately stopped.
Diphoterine® reduces the secondary consequences of chemical accidents
The fast removal of the chemical compound from the skin or the eye enables Diphoterine® to stop the burn rapidly and reduces the consequences such as secondary care and after-effects. The light hypertonicity of Diphoterine® enables the osmotic pressure control to return as fast as possible to a physiological level.
Diphoterine® stops the effects of the chemical aggressor and removes it rapidly. Thanks to its combined amphoteric, chelating and hypertonic properties, Diphoterine® provides an optimal decontamination solution.
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