Benefits of steam disinfection in a medical environment
The surfaces encountered in the medical environment are very varied and constitute reservoirs that can transmit bacteria, viruses or fungi to patients.
The Water Vapour disinfectant Properties Make steam disinfection in a medical environment, the most common sterilization process in this area. Steam, as a source of heat, has many effects on the viability of microorganisms (denaturing of proteins, destructuring of nucleic acids, destabilization of walls and cell membranes ...) and its spectrum of activity is very Wide. In addition, microorganisms will not develop resistance mechanisms Because this method does not involve any chemical molecules.
Steam disinfection in the medical environment is therefore an attractive solution, as unlike conventional chemicals, This process has no toxicity and would prevent the use of detergent or disinfectant Using the naturally degreased quality of hot water, the mechanical effect of vapor ejection pressure and the disinfectant effect of heat (Miller, 2009).
Steam disinfection in a medical environment: recommendations
C-CLIN Sud Ouest (2006) recommends steam disinfection in a medical environment In its guide to the maintenance of the operating blocks, specifying that this technique allows better management of areas difficult to access. Other authors advocate The Vapour disinfection in a medical environment for the cleaning and disinfection of complex surfaces with many crevices in ambulances of SAMU and firefighters.
IBL Specifik offers steam cleaning equipment for the hospital environment. These devices use dry steam at high temperatures (160-180 ° C) and under high pressure (5-7 bars). The steam jet will help to remove the dirt and destroy the germs present thanks to the high heat generated under high-pressure.
|VAPBIO|| 7 bars-180 ° C-Stainless steel frame-suction|
Southwest CCLIN. Recommendations for maintenance of operating blocks, August 2006
Efficiency and limits of steam cleaners in hospitals, pathology biology, May 2009, O. Meunier, C. Marshall, A. Schwebel.