Prextrolin® is highly active micro conjugated molecule which binds phosphates in DNA irreversibly and structural proteins of the cell reversibly. This selective binding capacity of Prextrolin® highlights the tissue and cell details, provides the cytological parameters for diagnosis.

Prextrolin® is not only a new product itself, but chemical synthesis processes have also very important innovative steps. Nanobiomed Inc. used own patented nanomaterial-based purification method for isolation and specification of the metallo-organic molecules of Prextrolin®. This molecule is a product of simplified and chemical semi-synthesis method and designed by a retro synthetics analytic approach following the homogenization and optimization of different complexes and molecules to maintain the specific staining characteristics.

The chemical structure of the Prextrolin® was registered by American Chemical Society with CAS Number: 1834534-73-4


Every single-day approximately 3 million diagnostic slides are being stained by natural dyes only for pathology surgical sections for microscopic evaluation. Per gram unit costs of these dyes are gradually increase due to the reason that the raw material resource is mostly tropical forests.

Because the industrial production and medical application costs of Prextrolin® are much lower, the costs of cytological diagnosis and screening for cancer will be cheaper and widespread.

Prextrolin® acts as a "targeted biological marker", revealing detailed cellular diagnostic parameters in histopathologic examinations within diseases. So it is expected that new screening and treatment protocols will be developed for common diseases and cancer.

Prextrolin® can be used also in immunohistochemistry, immunofluorescence-labeled tissue sections, colorimetric biochemical tests and tissue microarrays techniques.


The source of the raw industrial material of Prextrolin® is Papaver rhoeas easily grown in nature. Agricultural production of this source is much easier and eco-friendly.

Regarding its local contribution -to world’s staggering climatic/ecology balance- Prextrolin® will be preserving the regional rainforest from a targetted deforestation (the lands of Logwood trees)

The indirect effects of Prextrolin® counts as much as its direct effects on environment sustainability. Industrial dye processing technologies using the toxic chemicals for textile or food coloring are resulted in unrepairable detrimental effects on human health and environment during production and consumption stages as well as due to the industrial waste products.

In contrast to other petrochemical dye products, as a pure natural dye source, no toxic effects of Prextrolin® itself or its industrial waste and residues.


In the isolation process of Prextrolin® molecule along with the discoveries of different and new biochemical markers that will be used to diagnose a variety of diseases and for industrial applications.

Prextrolin® and accompanying molecular products from new sources are desperately in demand among other industries such as: drug – vitamin synthesis, textile dyeing, food coloring, screen technologies (OLED displays), sensor production, biocidal substance production, cosmetics, and printing as well as used for histopathologic diagnosis of cancer.