Environmental awareness in society is changing household laundry habits, where the use of less bleach and lower temperatures during washing machine cycles is encouraged. In this context, disinfectants added to detergents have become an essential factor to compensate for these new habits and to prevent the transmission of bacteria, fungi and viruses in the house, as well as to control the level of odour-causing micro-organisms on clothes, writes the University of Barcelona in a press release.
These products must be evaluated according to standardised methods, but the current European regulations only apply to clinical settings and are restricted to the main wash cycle. Experts from the Biost3 Research Group, led by Antoni Monleón, lecturer in the Department of Genetics, Microbiology and Statistics of the UB, have statistically validated a new method for assessing the antimicrobial efficacy of detergents and textile additives in domestic environments. The results reveal the validity of the new protocol, which has been presented to the European Committee for Standardisation (CEN) requesting it to become the European standard.
“It is very difficult to make sure that a product works and that is a good disinfectant. We work with micro-organisms and the results of the efficacy evaluation can be very variable depending on the method, the washing machine, the temperature and so on. That is why it is very important to publish a standardised protocol at the European level so that manufacturers of household textile disinfectants can demonstrate the efficacy of their products with a methodology that is much closer to the real situation at home”, says Antoni Monleón, a member of the Research Group on Biostatistics and Bioinformatics (GRBIO) integrated in the Bioinformatics Barcelona Association (BIB).
International ring trial to simulate domestic washing conditions
In response to the gap in the EU standards, the consortium organised an international ring trial to evaluate the robustness of a new method specifically designed to test the efficacy of detergents against micro-organisms in a domestic environment. The seven participating laboratories were equipped with five laboratory-scale devices simulating domestic washing machines, in which seven parameters —including the removal of Escherichia coli or Staphylococcus aureus micro-organisms adhering to fabrics— were evaluated at different levels of active substance and at different temperatures.
“The evaluation of disinfectant efficacy in clothing is a complex process that involves many variables and the method must allow to control aspects such as temperature, contact time, or the mechanical and chemical effect separately, so that the reproducibility is more consistent”, notes Antoni Monleón.
Robust and reproducible method
This evaluation methodology not only simulates domestic laundry processes, but must be applicable as a standard procedure throughout the sector and, therefore, it must be a robust and reproducible method. “Robustness —says Antoni Monleón— refers to a statistical concept as a measure of the method’s ability not to be affected by small but deliberate variations in the experiment, such as using different washing machines or different temperatures”.
“On the other hand —the researcher continues— repeatability means that if you use the same method with the same procedure in another laboratory, you should get a similar result”.
The results of the research have shown that the method was robust to small variations in the experiment, so the repeatability of the experiment, and of the new method, was satisfactory.
Moreover, they created a new library —a programme that allows very fast calculations— in R language called Diagnobatch, which can be used in the industrial environment.
More realistic and cost-effective testing
The new method also reproduces domestic washing conditions more realistically compared to the current protocol, where antimicrobials are tested in industrial washing machines with markedly different characteristics. “Furthermore —says Monleón— previous studies indicate that a lab-scale device is not significantly different from a domestic washing machine, but has an important advantage in terms of reproducibility and repeatability.
This new methodology also improves capacity and costs over the current protocol, in which antimicrobial efficacy must be tested separately and only one micro-organism per washing machine test must be evaluated. “The new protocol allows up to 20 tests to be run simultaneously (depending on the lab-scale device) and all microorganisms are tested in the same test”, says the researcher.
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