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"Disinfection and disinfectants"
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Disinfectants against SARS-CoV-2: A Review
by
Xiao, Shuqi
,
Yuan, Zhiming
,
Huang, Yi
in
Alcohol
,
Antimicrobial agents
,
chlorine-releasing agents
2022
The pandemic due to Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) has emerged as a serious global public health issue. Besides the high transmission rate from individual to individual, indirect transmission from inanimate objects or surfaces poses a more significant threat. Since the start of the outbreak, the importance of respiratory protection, social distancing, and chemical disinfection to prevent the spread of the virus has been the prime focus for infection control. Health regulatory organizations have produced guidelines for the formulation and application of chemical disinfectants to manufacturing industries and the public. On the other hand, extensive literature on the virucidal efficacy testing of microbicides for SARS-CoV-2 has been published over the past year and a half. This review summarizes the studies on the most common chemical disinfectants and their virucidal efficacy against SARS-CoV-2, including the type and concentration of the chemical disinfectant, the formulation, the presence of excipients, the exposure time, and other critical factors that determine the effectiveness of chemical disinfectants. In this review, we also critically appraise these disinfectants and conduct a discussion on the role they can play in the COVID-19 pandemic.
Journal Article
Dirt : the filthy reality of everyday life
'Dirt' reveals the fascinating world of filth that remains one of the very last taboos. Our major new exhibition takes a closer look at something that surrounds us but that we are often reluctant to confront. 'Dirt' travels across centuries and continents to explore our ambivalent relationship with dirt. Bringing together around 200 artefacts spanning visual art, documentary photography, cultural ephemera, scientific artefacts, film and literature, the exhibition uncovers a rich history of disgust and delight in the grimy truths and dirty secrets of our past, and points to the uncertain future of filth, which poses a significant risk to our health but is also vital to our existence. Following anthropologist Mary Douglas's observation that dirt is 'matter out of place', the exhibition introduces six very different places as a starting point for exploring attitudes towards dirt and cleanliness: a home in 17th-century Delft in Holland, a street in Victorian London, a hospital in Glasgow in the 1860s, a museum in Dresden in the early 20th century, a community in present day New Delhi and a New York landfill site in 2030. Highlights include paintings by Pieter de Hooch, the earliest sketches of bacteria, John Snow's 'ghost map' of cholera, beautifully crafted delftware, Joseph Lister's scientific paraphernalia and a wide range of contemporary art, from Igor Eskinja's dust carpet, Susan Collis's bejewelled broom and James Croak's dirt window, to video pieces by Bruce Nauman and Mierle Ukeles and a specially commissioned work by Serena Korda.
Chlorine dioxide flushing protocols for microbial reduction in dental chair units
by
Matschulat, Arndt
,
Uhlmann, Helmut
,
Kuczius, Thorsten
in
Bacteria
,
Biofilms
,
Biofilms - drug effects
2026
Dental chair unit (DCU) waterlines are often microbiologically contaminated. This poses infection risks for patients and dental staff if they are not regularly rinsed and disinfected. This clinical hygiene study evaluated chlorine dioxide (ClO₂) rinsing protocols for microbial and biofilm reduction in DCUs. Automated protocols were tested with varying ClO₂ concentrations and flushing frequencies. Flow cytometry and agar culturing were used to assess microbial load. Continuous low-dose rinsing (1.2 mg/L ClO₂) achieved sustainable microbial reduction (up to 2.51 log₁₀), whereas single high-dose shock disinfections (22.7 mg/L) resulted in transient reductions. ClO₂ was effective in biofilm removal, but its depletion during stagnation highlights the need for continuous application. ClO 2 seems to be a suitable disinfectant for removing both microbiological contamination and biofilms of DCUs; however, depletion effects of active ClO 2 were evident underlining the importance of a stable permanent ClO 2 application. Our results prove that permanent low-dose ClO 2 application of DCU waterlines is recommended for sustainable water disinfection. A high-concentrated shock disinfection on a periodically basis can be used for biofilm removal, which was demonstrated with experimentally grown biofilm of P. aeruginosa .
Journal Article
Effective and safe: Long-term aerosol disinfection of slightly acidic electrolyzed water causes no harm in rats
2026
Slightly acidic electrolyzed water (SAEW) has been shown to possess strong bactericidal and virucidal properties, making it a promising candidate for spatial disinfection. In this study, we rigorously evaluated the efficacy and safety of SAEW for aerosol disinfection under controlled conditions. Laser particle size distribution analysis confirmed uniform aerosolization. Additionally, analysis of chlorine concentration ensured stable disinfection conditions. Moreover, SAEW exhibited potent sterilization effects against the model organism Escherichia coli in both direct-contact and aerosol-disinfection experiments. Notably, long-term exposure assessments in rats revealed no adverse effects on body weight, food and water intake, and organ function and histology. Conclusively, these results indicate that SAEW is a highly effective and safe disinfectant for controlling airborne and droplet-mediated infections. In addition to preventing the spread of infectious diseases, including coronaviruses, SAEW is expected to be effectively utilized in the veterinary, agricultural, and food industries.
Journal Article
Embedded timing and alert device triggered by total dissolved solids (TDS) for monitoring disinfection duration in acidic electrolyzed oxidizing water
2026
To address the absence of a reliable timing and alerting tool for acidic electrolyzed oxidizing water (AEOW) disinfection of medical instruments in the Central Sterile Supply Department (CSSD), we developed an embedded timing and alert device triggered by total dissolved solids (TDS) sensing. Built around an Arduino development board, the device integrated a TDS sensor module, a rechargeable battery, and a wireless charging coil. Encapsulated with potting adhesive, it achieved an IP67 protection rating. It can identify the AEOW environment through TDS value detection to automatically start/stop timing, and is equipped with features including light alerts, data storage, and traceability. Medical instruments disinfected with AEOW in the CSSD of a hospital were selected as the test objects. Digital kitchen timers were used as the control group in September 2025, and TDS-triggered timers were adopted as the experimental group in October 2025. A comparative analysis was conducted on the disinfection timing execution rate and disinfection duration compliance rate between the two groups. The results demonstrated that the disinfection timing execution rate of 94.92% (655/690) and the disinfection duration compliance rate of 98.26% (678/690) in the experimental group were higher than those of 84.88% (713/840) and 93.69% (787/840) in the control group, with statistically significant differences (P < 0.001). Characterized by low cost and simple operation, the TDS-triggered timer provides a reliable, automated, and traceable timing solution for AEOW disinfection in CSSD. It also facilitates digital management of the disinfection process, and is expected to improve the quality of AEOW disinfection and enhance patient safety.
Journal Article
Disinfectants against African Swine Fever: An Updated Review
by
Iscaro, Carmen
,
Giammarioli, Monica
,
Feliziani, Francesco
in
African Swine Fever
,
antiviral properties
,
Asfarviridae
2022
African Swine Fever (ASF), a hemorrhagic disease with a high mortality rate in suids, is transmitted via direct and indirect contact with infectious animals and contaminated fomites, respectively. ASF reached Europe in 2014, affecting 14 of the 27 EU countries including, recently, the Italian peninsula. The fast and unprecedented spread of ASF in the EU has highlighted gaps in knowledge regarding transmission mechanisms. Fomites, such as contaminated clothing and footwear, farming tools, equipment and vehicles have been widely reported in the spread of ASF. The absence of available vaccines renders biosecurity measures, cleaning and disinfection procedures an essential control tool, to a greater degree than the others, for the prevention of primary and secondary introductions of ASF in pig farms. In this review, available data on the virucidal activity of chemical compounds as disinfectants against the ASF virus (ASFV) are summarized together with laboratory methods adopted to assess the virucidal activity.
Journal Article
Evaluation of electrostatic sprayers and foggers for the application of disinfectants in the era of SARS-CoV-2
by
Hook, David
,
Chamberlain, Timothy
,
Touati, Abderrahmane
in
Antiseptics
,
Control
,
Coronaviruses
2021
Although research has shown that the COVID-19 disease is most likely caused by airborne transmission of the SARS-CoV-2 virus, disinfection of potentially contaminated surfaces is also recommended to limit the spread of the disease. Use of electrostatic sprayers (ESS) and foggers to rapidly apply disinfectants over large areas or to complex surfaces has emerged with the COVID-19 pandemic. ESSs are designed to impart an electrostatic charge to the spray droplets with the goal of increasing deposition of the droplets onto surfaces, thereby promoting more efficient use of the disinfectant. The purpose of this research was to evaluate several spray parameters for different types of sprayers and foggers, as they relate to the application of disinfectants. Some of the parameters evaluated included the spray droplet size distribution, the electrostatic charge, the ability of the spray to wrap around objects, and the loss of disinfectant chemical active ingredient due to the spray process. The results show that most of the devices evaluated for droplet size distribution had an average volume median diameter ≥ 40 microns, and that four out of the six ESS tested for charge/mass produced sprays of at least 0.1 mC/kg. A minimal wrap-around effect of the spray deposition onto a cylindrical object was observed. The loss of disinfectant active ingredient to the air due to spraying was minimal for the two disinfectants tested, and concurrently, the active ingredient concentrations of the liquid disinfectants sprayed and collected 3 feet (1 meter) away from the spray nozzle do not decrease.
Journal Article
Boosting hypochlorite’s disinfection power through pH modulation
by
Aspholm, Marina
,
Malyshev, Dmitry
,
Sil, Timir Baran
in
Bacillus
,
Bacillus cereus - drug effects
,
Bacteria
2025
Purpose
Hypochlorite-based formulations are widely used for surface disinfection. However, the efficacy of hypochlorite against spore-forming bacteria varies significantly in the literature. Although neutral or low pH hypochlorite solutions are effective sporicides due to the formation of hypochlorous acid (HOCl), their optimal conditions and the specific role of pH in disinfection remain unclear. These conditions also increase the solution’s corrosiveness and compromise its shelf life. Therefore, further research is needed to identify the pH conditions that balance solution stability and effective hypochlorite-based spore disinfection.
Results
This study investigates the impact of neutral to alkaline pH on the sporicidal efficiency of hypochlorite against a pathogenic
Bacillus cereus
strain. We apply a 5,000 ppm hypochlorite formulation for 10-min across a pH range of 7.0-12.0, simulating common surface decontamination practices. Our results demonstrate that hypochlorite is largely ineffective at pH levels above 11.0, showing less than 1-log reduction in spore viability. However, there is a significant increase in sporicidal efficiency between pH 11.0 and 9.5, with a 4-log reduction in viability. This pH level corresponds to 2 - 55 ppm of the HOCl ionic form of hypochlorite. Further reduction in pH slightly improves the disinfection efficacy. However, the shelf life of hypochlorite solution decreases exponentially below pH 8.5. To explore the pH-dependent efficacy of hypochlorite, Raman spectroscopy and fluorescence imaging were used to investigate the biochemical mechanisms of spore decontamination. Results showed that lower pH enhances spore permeability and promotes calcium dipicolinic acid (CaDPA) release from the core.
Conclusion
Our results highlight the complex relationship between pH, sporicidal efficacy of hypochlorite, and its shelf life. While lower pH enhances the sporicidal efficiency, it compromises the solution’s shelf life. A pH of 9.5 offers a balance, significantly improving shelf life compared to previously suggested pH ranges 7.0-8.0 while maintaining effective spore inactivation. Our findings challenge the common practice of diluting sodium hypochlorite with water to a 5,000 ppm solution, as this highly alkaline solution (pH of 11.9), is insufficient for eliminating
B. cereus
spores, even after a 10-min exposure. These findings are critical for improving disinfection practices, highlighting the importance of optimizing sodium hypochlorite effectiveness through pH adjustments before application.
Journal Article
Effect of Chloramine Disinfection of Community Water System on Legionnaires’ Disease Outbreak, Minnesota, USA, 2024
2026
The Minnesota Department of Health identified an outbreak of Legionnaires' disease in a city in northern Minnesota, USA, in April 2023 that continued until chloramine disinfection of the community water system was implemented. Before chloramine disinfection was implemented, Legionella pneumophila was detected in 1 of 16 samples from the drinking water distribution system and in 5 of 10 premise plumbing samples using both cultivation-dependent (Legiolert) and cultivation-independent (digital PCR) assays in this independent investigation. Approximately 11 weeks after disinfection was implemented, all distribution system samples tested negative; however, 1 of 6 Legiolert-tested and 3 of 6 digital PCR-tested premise plumbing samples were positive. After 24 weeks of disinfection, all samples collected from the distribution system and premise plumbing tested negative. Our results show that a community water system supplied by groundwater supported substantial growth of L. pneumophila in premise plumbing and that chloramine disinfection halted the outbreak.
Journal Article