How does the coating work?
The coating is made up of silver nanoparticles and DCOIT, which are biocides that are each very effective against gram-positive and gram-negative bacteria. This gives the coating an antimicrobial effect on many types of germs and kills bacteria. Dangerous germs include the Staphylococcus aureus bacterium which is often found in hospitals and nursing homes.
Does the function of the coating have to be restored on a regular basis?
We estimate that theoretically, surfaces that are not as frequently touched and cleaned on a daily basis can last up to ten years. This was also confirmed by various laboratory tests. Needless to say, some surfaces should be retreated sooner because the coating is attacked by acids or cleaning agents. The previous test setup offered full protection for more than 90 work days. In our study, fluorescence markers were integrated into the coating, which indicated whether the coating was still intact and effective during regular optical controls under UV light.
How do you check the effectiveness of the applied surface coating?
We studied a total of 2,880 discrete samples over a period of 90 days to determine whether there were any differences pertaining to germ count and the types of germs in the trauma bay with antimicrobial coating versus the trauma bay without an active agent in the coating. We take samples at regular intervals.
In our assumption, the overall germ load will be reduced thanks to the antimicrobial coating. What’s more, some extreme values, i.e., peak bacterial loads when a person with MRSA enters the environment, for example, could be contained. That being said, we won’t be able to start our evaluation of the complete data collection until March.