ABOUT ABSORBATOX®

Absorbatox® is an internationally patented non-systemic medical device (potentiated mineral), it’s mode of action is the molecular sieving of unwanted cations or ions.

Absorbatox® when given orally, is normally encapsulated in a hard gel capsule or used externally as a topical application. The aim of the product is to remove unwanted chemicals and microbes. This is enabled via ion-exchange, and ab- and adsorption, creating a balance within gastrointestinal tract (GIT) positively affecting the entire body. The device only works through the GIT and never enters the blood system and is excreted normally 8 to 12 hours later.
This mode of action is usually referred to as a “Super-Mop”.

The Natural Technology of the Future.

Absorbatox® is based on a manipulated and potentiated, specific type of clinoptilite naturally occurring in the Zeolite family, however, this specialized type is only found in one single mineral deposit world-wide. These molecules have a well-defined, microporous, crystalline structure, which carry an excessive negative charge, usually compensated for by cations. It can also be manipulated to carry an excessive positive charge which makes ion-exchange possible. Clinical studies and trials have shown that Absorbatox® can absorb a wide range of compounds detrimental to human and animal health such as heavy metals, histamines and toxins, which are then fully excreted by the body having been bound by the specific manipulated Absorbatox®.

The unique properties of Absorbatox® are derived firstly from the only known source of this mineral which, unlike others, is free of heavy metals and other impurities and secondly, from an internationally patented process which stably enhances it’s cation exchange capacity (CEC) up to 5 times more than what is achieved in nature and increases it’s Moh hardness. These properties of Absorbatox® allow it to adsorb interchangeably unwanted substances for elimination via the gastrointestinal tract or by binding to these when applied topically on skin or wound surfaces.