The hospital is famous for strict hygiene programs, but the infection obtained in these environments is still a problem. One key factor is the surface cleanliness and may have harmful bacteria. Poor health facilities in medical institutions can lead to serious health risks, including the spread of anti -multi -drug bacteria. Therefore, to ensure that the surface is effectively polluted, which is essential to prevent the infection of the hospital. In order to solve this problem, the effectiveness of the current purification technology is evaluated. The focus is on identifying the bacterial population that exists on the surface before and after disinfection, and evaluate the sensitivity of these bacteria to the two disinfectants.
Studies from the “Montag University” teaching hospital (UDMTH) show that surface purification has enhanced the hospital’s sanitary conditions and reduced the risk of infection related to healthcare. Title “Surface Purification Effectiveness of the University of Montgini: Monitoring of Biomedical Analysis Labs”, the project was from the University of the University Ion for universitive the Montagne the Montagne Th it project. Cameroon and BlandinepulchéRietAmatchokweyang of Cameroon and Cameroon have evaluated to evaluate the effectiveness of the corrupt scheme in the UDMTH biomedical analysis laboratory. These discoveries are published in the “Journal of Peer Review” Heliyon.
The decontamination process involves two steps: cleaning with the detergent “PAX lemon”, and then use Surfanios® or sodium hypochlorite for disinfection. Teams from Cameroon tried to determine the population population between cleaning, cleaning and disinfection, and disinfection, and evaluated the sensitivity of these bacteria to commonly used disinfection agents.
Before decontamination, a high bacterial load was recorded, staphylococcus Species dominate. Only the cleaning steps effectively reduce the load of these bacteria to the values below the detection level, and no bacteria are found on the target surface after the pollution is fully polluted. The team emphasized: “After cleaning the” PAX Lemon “with detergent, these high -bacterial loads on the surface were recorded before decontamination.”
The results show that almost all bacterial separation strains are susceptible to the effect of Surfanios® and sodium hypochlorite, which shows the effectiveness of the disinfectant. These authors pointed out: “In general, these findings indicate the effectiveness of the process of breeding the subject, and show that the Surfanios® or sodium hypochlorite is used for working surface hygiene.”
In terms of methodology, researchers use descriptive cross -section design. Sample involves a wet swab method. Use bacterial detection and enumeration to collect and analyze samples, and consider the adjustment of the adjusted glycotol. Considering the nature of surface materials and standard bacterial detection schemes, through macroscopic inspections, microscope examinations, microscope and various biochemical tests to identify And characterize bacterial separation strains. In addition, the adjustment of the bacterial sensitivity test of the disinfection agent was performed using the adjusted glycotol.
A comprehensive method emphasizes the importance of maintaining a strict purification plan in medical institutions. Related to resource availability and burden -related resource availability of sodium chloride, the team concluded that cleaning and disinfection with sodium chloride with the “PAX Lemon” of the detergent may be sufficient to meet the surface types that have received in their research.
Researchers provide further views for the advancement of research. They suggested that for environmental pollution or hygiene monitoring, recognition of the context of microbes’ biomarkers that can afford a limited environment of resources will be useful. According to their results and other results, they proposed staphylococcusEssence Similarly, it is consistent with the method and the results. Another view is to study the scheme using wet swab samples and bacterial culture methods to improve the bacterial detection threshold on the surface.
Youté and his colleagues believe that these findings are critical to improving the hospital’s hygiene habits, not only in UDMTH, but also in other medical institutions. The successful reduction of bacterial loads to the level that cannot be detected, emphasizing the effectiveness of the testing solution, which can be used as a model that trys to enhance its infection control measures.
Journal reference
Youtéod, Domngang Noch C, Tamatcho Kweyang BP, Kougang Eg and Fotsing Kwetche PR. “Monitoring at the University of Montani ‘Teaching Hospital: Monitoring in the Laboratory of Biomedical Analysis” Heliyon, 2024; 10 (4): E25647. Doi: https: //doi.org/10.1016/j.heliyon.2024.e25647
About the author
O’Neal Redorslyouté One of his research interests, the hospital’s sanitation and the means of monitoring of microorganisms in the hospital environment in a limited environment. The work introduced on the platform was one of his final master’s programs at the University of Montgini. Youté graduated from a master’s degree in medical biology in 2020 and specializes in microorganism. He is also interested in anti -bacterial resistance and infectious diseases. ([email protected])
Blandinepulchérichatcho KWeyang; I am a senior lecturer in the Department of Microbiology of the Department of Science. Doctoral degree in students in soil and environment. As researchers, the general theme of our work involves the identification of 1-environmental bacteria. This is the cause of infectious diseases. 2-The pervasive overview of these bacteria on conventional antibacterial drugs, and the symbol of 3-drug-resistant genes. Microbial ecological toxicology constitutes the second research area of the team ([email protected])
Esther Guladys Kougang; I have a master’s degree in medical microbiology and doctoral students. I am employed by Lanavet (LANAVET). I use molecular biology, serum, bacterial separation, and antibiotic resistance technology to participate in the hygiene in the medical environment, monitoring and diagnosis of animals and humans and animals; and the quality control of HPLC’s veterinary drug products and food. ([email protected])
PierrerenéAssociate Professor of Medical and Environmental Microbiology
The person in charge of the Microbiology Laboratory, researchers and institutional students a Health Innovation Club (SOHIC) leader
Bacterial, virus, hospital hygiene medicine, pharmacy, dental, veterinarian and laboratory scientist school lectures. Studies include hospitals, antibacterial resistance (AMR) of animal farms; food and water quality; hospital hygiene; alternative plants. ([email protected] /[email protected])
