Human painting with action of DECOMPOSITION of SARS-COV2 (COVID-19)
RESEARCH AND DEVELOPMENT
HUMAN
THE PHOTOCATALYTIC WASHABLE PAINT, ON WHICH THE FIRST STUDY WAS CONDUCTED TO DETECT THE INTERACTION AND INFLUENCE OF PHOTODEGRADATION MECHANISMS ON SARS-COV-2, THE PATHOGEN RESPONSIBLE FOR THE PANDEMIC COVID-19 PANDEMIC.
THE RESULTS OF THE RESEARCH, FOUND THAT THE ACTIVE INGREDIENT IN HUMAN, IS ABLE TO DENATURE THE SARS-COV-2 GENOME, ALREADY AT CONTACT TIMES OF THE ORDER OF MINUTES AND REMAINS CONSTANT OVER TIME.
This effect can already be seen at contact times in the order of minutes and remains constant over time.
Research project AIMED AT DETECTING THE INFLUENCE OF PHOTODEGRADATION MECHANISMS ON SARS-COV-2 in partnership with LabAnalysis HIGH QUALITY CONTROLS
*LabAnalysis is a laboratory certified by the MINISTRY OF HEALTH, by the FDA U.S. Food and Drug Administration, by DNV-GL, accredited by ACCREDIA, authorised by AIFA, by the MINISTRY OF HEALTH AND SOCIAL POLICIES, included in the list of research laboratories recognised by the MINISTRY OF SCIENTIFIC AND TECHNOLOGICAL RESEARCH and qualified by the MINISTRY OF HEALTH to perform analytical activities.
Purpose of the work and synthetic method
The stability of SARS-CoV-2 virus has been tested on surfaces treated with Human containing its active ingredient.
The approach implemented was to treat the surfaces by inoculating a known amount of virus (7.5×105 genomic copies), left incubated for different times (0, 1, 3 and 6 hours), then the residual virus was recovered by swab (in buffer containing PBS and 70% ethanol).
The samples were then processed to take the viral RNA and test it using Real-Time PCR, applying a commercial kit distributed by Generon, specific for the SARS-CoV-2 RdRp gene (COVID 19 (Gene RdRp) detection + Process control, PMB00C_M2). For each experimental point, the activity was performed in triplicate.
As a control, in parallel to the surface with "catalyst", a similar surface was tested for consistency and morphology, but without additive.
What can be inferred from the results of the research on UMANA's virucidal abilities?
The effectiveness of the active ingredient in Umana on decomposition of the virus SARS-COV-2 and this decomposition effect is already present at contact times of the order of minutes and remains constant over time.