Effective Decontamination Research Articles

Beyond traditional methods: Exploring strippable gel based on deep eutectic solvent for efficient radioactive surface decontamination

AbstractThis study introduces a technique for decontaminating radioactive surfaces by employing a gel, herein termed as radiation decontamination gel with eutectic liquids (RADGEL), composed of a deep eutectic solvent and polyvinyl alcohol, with the goal of enabling reuse of the surface post‐decontamination. The decontamination effectiveness of RADGEL underwent thorough evaluation through trials conducted on different simulated surfaces, achieving decontamination efficiency up to 99.9% for alpha as well as gamma radionuclides. The various parameters influencing decontamination factors such as amount of complexing agent used, polymer film thickness, nature, and magnitude of radioactivity, as well as surface characteristics of substrates to be decontaminated were optimized. Additionally excellent mechanical strength of RADGEL, affirms its potential as practically efficient, cost‐effective, and safe option for surface decontamination. The Fourier‐transform infrared spectroscopy (FTIR) and scanning electron microscopy (SEM) analysis suggest RADGELs capability for both physical and chemical interactions with contaminants, thus highlighting its comprehensive decontamination efficacy. The outcomes of this study carry substantial implications for the decontamination of surfaces contaminated with various types of radionuclides.

Effect of combined electrolyzed reduced water and slightly acidic electrolyzed water spraying on the control of Salmonella, eggshell quality, and shelf life of eggs during storage

Slightly acidic electrolyzed water (SAEW) is a safe and effective disinfectant, but its sterilizing efficiency is compromised by organic matter on the egg surface. Electrolyzed reduced water (ERW) is a harmless cleaner with a decontamination effect on a variety of surfaces and can be used to remove organic matter. This study assesses the effectiveness of a combination of ERW and SAEW in eliminating Salmonella and manure mixture from egg surfaces, as well as its impact on egg quality during storage. The results show that ERW (74.14%) was more effective than deionized water (DW, 64.69%) and SAEW (70.20%) (P < 0.05) in removing manure from egg surfaces. The damage to the cuticle of eggshell treated with ERW for 28 s was similar to that of DW (P > 0.05) and less than that of SAEW (P < 0.05). Spraying ERW for 10 s followed by SAEW for 18 s (ERW + SAEW) completely removed Salmonella from the egg surface, with no bacteria detected in the residual wash solution. Additionally, ERW + SAEW demonstrated superior preservation of egg quality during storage at 25℃ than the control and ERW single treatment (P < 0.05). Moreover, ERW + SAEW resulted in less weight loss compared to SAEW single treatment (P < 0.05). In conclusion, the sequential use of ERW and SAEW appears to be a promising approach for sterilizing eggs. It not only removes organic matter and Salmonella from the egg surface but also improves the preservation quality of the egg at 25 ℃.

First observation of edge impurity behavior with n = 1 RMP application in EAST L-mode plasma

High-Z impurity accumulation suppression and mitigation in core plasma is frequently observed in EAST edge localized mode mitigation experiments by using resonant magnetic perturbations (RMP) coils. To study the individual effects of the RMP field on impurity transport, based on high-performance extreme ultraviolet impurity spectroscopic diagnostics, the effect of the n = 1 (n is the toroidal mode number) RMP field on the behavior of intrinsic impurity ions at the plasma edge, e.g. He+, Li2+, C2+–C5+, O5+, Fe8+, Fe15+, Fe17+, Fe22+, Cu17+, Mo12+, Mo13+ and W27+, is analyzed for the first time in L-mode discharges. Based on the evaluation of the location of these impurity ions, it is found that with the increase in RMP current (I RMP), an impurity screening layer inside the last closed flux surface is formed, e.g. at ρ = 0.74–0.96, which is also the region that the RMP field affects. Outside this screening layer, the impurity ion flux of He+, Li2+, C2+, C3+, O5+, Fe8+, Mo12+ and Mo13+ ions increases gradually, while inside this screening layer, the impurity ion flux of C4+, C5+, Cu17+, W27+, Fe15+, Fe17+ and Fe22+ ions decreases gradually. When I RMP is higher than a threshold value, RMP field penetration occurs, accompanied with m/n = 2/1 mode locking, and the position of this screening layer moves to the plasma core region, i.e. ρ = 0.66–0.76, close to the q = 2 surface, and the opposite behavior of the impurity ion flux at two sides of the screening layer is strengthened dramatically. As a result, significant decontamination effects in the plasma core region, indicated by the factor of ((Γ Imp Z+)w/o–(Γ Imp Z+))/(Γ Imp Z+)w/o (where (Γ Imp Z+)/(Γ Imp Z+)w/o denotes the impurity ion flux ratio with and without RMP), is observed, i.e. 30%–60% for heavy impurity (Fe, Cu, Mo, W), and ∼27% for light impurity of C. In addition, the analysis of the decontamination effects of C and Fe impurities under four different RMP phase configurations shows that it may be related to the strength of the response of the plasma to RMP. These results enhance the understanding of impurity accumulation suppression by the n = 1 RMP field and demonstrate a candidate approach using RMP coils for W control in magnetic confinement devices.

Microbial fuel cells with polychlorinated biphenyls contaminated soil as electrolyte: energy performance and decontamination potential in presence of compost

The electrical performance of Terrestrial Microbial Fuel Cells (TMFCs) with soil as the electrolyte was tested with two concentrations (150 or 250 ng/g soil) of PCBs (Polychlorinated biphenlys) and compost (3 % w/w) in an experiment lasting 60–80 days. Energy output levels were recorded daily by varying the external resistance for detecting the best operating conditions. PCB concentrations and microbiological analyses (total microbial abundance and activity) were performed at the start and end of the experiment. The highest power generation (207 ± 80 mW/m2 at 112.5 Ω) was recorded in the presence of compost with the lowest PCB concentration, when compared to TMFCs without compost (1.5 ± 0.2 mW/m2 at 300.8 Ω). The results demonstrated that the power generation was correlated with a lower internal resistance and a higher microbial activity. Moreover, chemical results indicated a possible threshold of PCB concentration for the concurrently electricity production and PCB degradation. In fact, PCB removal was obtained only in the cells with high PCB concentration, achieving a reduction of 21 % and 16 % with and without compost, respectively. The microbiological results showed that an additional organic carbon source (methanol or compost) promoted microbial activity and abundance. A positive correlation was found between microbial activity and TMFC electrical output only in the case of PCB low concentration, in the presence of compost. No previous studies addressed the performance of TMFCs with different levels of PCBs in terms of soil decontamination and electricity production. Although a longer experiment is needed, considering PCB persistence in soils, this experiment provided useful information and a new insight on the TMFC effectiveness for soil decontamination and electricity production. The results presented here support considerations about soil resilience through microbial communities and orient further research on contaminant degradation by TMFCs.

Selective decontamination of the digestive tract in a burns unit reduces the incidence of hospital-acquired infections: A retrospective before-and-after cohort study

ObjectiveTo evaluate the effect of selective decontamination of the digestive tract (SDD) on hospital-acquired infections (HAIs) in patients with acute burn injury requiring admission to a Burns Unit (BU). DesignRetrospective before-and-after cohort study, between January 2017 and June 2023. SDD was implemented in March 2019, dividing patients into two groups. SettingFour-bed BU, in a referral University Hospital in Spain. PatientsAll the patients admitted during the study period were eligible for analysis. Patients who died or were discharged within 48hours of admission, and patients with an estimated survival less than 10% not considered for full escalation of therapy were excluded. InterventionSDD comprised the administration of a 4-day course of an intravenous antibiotic, and an oral suspension and oral topical paste of non-absorbable antibiotics during the stay in the BU. Main variable of interestIncidence of HAIs during the stay in the BU. Secondary outcomes: incidence of specific types of infections by site (bacteremia, pneumonia, skin and soft tissue infection) and microorganism (Gram-positive, Gram-negative, fungi), and safety endpoints. ResultsWe analyzed 72 patients: 27 did not receive SDD, and 45 received SDD. The number of patients who developed HAIs were 21 (77.8%) and 21 (46.7%) in the non-SDD and the SDD groups, respectively (p=0.009). The number of hospital-acquired infectious episodes were 2.52 (1.21–3.82) and 1.13 (0.54–1.73), respectively (p=0.029). ConclusionsSDD was associated with a reduced incidence of bacterial HAIs and a decrease in the number of infectious episodes per patient.

A eficácia do tratamento endodôntico na redução da contaminação e análise microbiológica do conteúdo intrarradicular

The pulp in its normal state is free from contamination and performs both nutritive and sensory functions. However, when affected by aggressive agents such as caries, it triggers an infectious process that can lead to necrosis. Thus, endodontic intervention becomes necessary for disinfection and reduction of contamination, considering that pathogenic microbiota is directly related to pulpal and periradicular pathologies. In this regard, due to the anatomical variations of the root canal system, the mechanical action of files alone is not sufficient to achieve effective decontamination. Therefore, the use of auxiliary chemical substances such as 2% chlorhexidine gel and 17% EDTA is required. In view of this, the aim of this study was to demonstrate the reduction of contamination in the root canal system after endodontic treatment of tooth number 12, through laboratory and radiographic analyses, as well as to identify various bacterial groups by performing microbiological tests such as Gram staining, 3% KOH, and Catalase tests. The results showed that in addition to a reduction in contamination following endodontic therapy, the presence of gram-negative, gram-positive, and catalase-positive bacteria was observed.

Electrolytic Surface Decontamination in the Reconstructive Therapy of Peri-Implantitis: Single-Center Outcomes of a Randomized Controlled Trial.

Surface decontamination in the reconstructive therapy of peri-implantitis is of paramount importance to achieve favorable outcomes. The objective of this single-center study derived from a large multicenter clinical trial was to compare the electrolytic method (EM) used as an adjunct to mechanical decontamination, to hydrogen peroxide (HP) also used as an adjunct to mechanical decontamination, in the reconstructive therapy of peri-implantitis. At 12-month (T2) follow-up, 19 patients (Nimplants= 23) completed the study. None of the tested modalities demonstrated superiority in terms of the assessed clinical parameters. Only mucosal recession showed higher stability in the EM group. Alike, radiographic marginal bone level gain and defect angle changes at T2 did not differ between the evaluated strategies. Notably, disease resolution was ∼16% higher in the EM; however, differences did not reach statistical significance. Additionally, it was demonstrated that pocket depth and intra-bony component depth at baseline were predictors of disease resolution. In conclusion, the EM combined with mechanical instrumentation results in a safe and effective surface decontamination modality in the reconstructive therapy of peri-implantitis. This strategy resulted in ∼91% disease resolution rate.

Modern approaches to restoring vaginal microbiocenosis

The article presents literary data on the morphology and types of vaginal lactobacilli, pathological changes in the vaginal environment, as well as modern possibilities of restoring the vaginal microflora of a woman’s organism. Certain regularities regarding the connection of bacterial vaginosis with intestinal dysbiosis have been observed, which indicates a single dysbiotic process in the organism with a dominant manifestation either in the sexual or digestive system.A review of scientific publications of recent years shows the significant influence of intestinal dysbiosis, infectious and inflammatory diseases of the stomach and intestines, as well as the oral use of antibacterial drugs on the quantitative and qualitative composition of the vaginal microflora in women. It was found that an increased number of opportunistic microorganisms (85%) and a decreased number of lactobacilli and bifidobacteria (less than 70%) in the intestine are associated with a rise in the content of opportunistic microorganisms in the vaginal biota in women with infectious and inflammatory diseases of the reproductive system. This is explained by the ability of saprophytes and opportunistic microorganisms to penetrate into the reproductive organs of women by increasing the permeability of the mucous membrane of the intestinal wall, as well as into the vascular bed, which can be observed, for example, on the background of antibiotic use. The antibiotic use in a number of cases leads to a closed circle, when the need for antibacterial therapy to eliminate one infection leads to a deepening of dysbiosis and an increased number of other pathogens.Numerous studies have demonstrated the effectiveness of selective decontamination (selective elimination of pathogens) in combination with a probiotic, prebiotic or synbiotic to restore vaginal microbiocenosis.Our experience of using an oral synbiotic (1 capsule contains 5 billion colony-forming units of Lactobacillus plantarum lyophilizate pcs. 8Р-AZ, Lactobacillus fermentum pcs. 90Т-С4 and prebiotic inulin, once a day 30 minutes before meal for 7–10 days) in a complex therapy of bacterial vaginosis in non-pregnant women of reproductive age indicates faster elimination of systemic dysbiosis and restoration of normal intravaginal flora. Thus, regression of complaintsand normalization of objective data was determined on average for 2.9 days versus 4.7 days in women who were not administered the drug.The obtained data show that a systemic synbiotic containing a lyophilized microbial mass of probiotic lactobacteria, products of their metabolism and inulin (prebiotic) creates an additional effect in restoring normal biocenosis and the immune mechanism of ensuring colonization resistance of the body’s mucous membranes.

A study on the effect of laser decontamination by beam overlap rate of crud formed on aluminum alloy

The corrosion products formed on the internal surfaces of the primary system are the major factor that generates radioactive contaminants such as oxide films and cruds during decommissioning, causing radiation exposure to workers. Thus, decontamination of nuclear facility surfaces is crucial to ensure the safe completion of decommissioning work. This study applied laser decontamination, which enables precise work while minimizing the deformation of the material surface through the control of process parameters, and investigated the characteristics of the decontaminated area. Specimens coated with Ni-ferrite on an aluminum alloy (A6061) substrate were fabricated and used in this experiment. Laser decontamination was performed using a low-power Q’switching fiber laser while varying the laser beam overlap rate and number of scans. The results of laser decontamination differed by the process parameters and material characteristics. It is determined that high decontamination efficiency can be achieved if appropriate conditions are applied.

Evaluation of an Automated Wall-mounted Far Ultraviolet-C Light Technology for Continuous or Intermittent Decontamination of Candida auris on Surfaces.

Technologies that provides safe and effective decontamination of surfaces and equipment between episodes of manual cleaning could be an important advance in efforts to prevent transmission of the emerging fungal pathogen Candida auris. We tested the efficacy of a novel wall-mounted far ultraviolet-C (UV-C) light technology that delivers far UV-C, when people are not detected within the field of illumination, against C. auris isolates from clades I, II, III, and IV using a quantitative disk carrier test method. In an equipment room, we examined the efficacy of the technology in reducing an isolate of C. auris from clade IV inoculated on multiple sites on portable devices. The far UV-C technology reduced isolates from all 4 clades of C. auris by >3 log10 colony-forming units (CFU) aſter an 8-hour exposure on steel disks. For the clade IV isolate, similar reductions were achieved on glass and plastic carriers. In the equipment room, the technology reduced C. auris inoculated on multiple sites on portable equipment by >2 log10 CFU in 4 hours. The far UV-C technology could be useful for decontamination of surfaces and equipment between episodes of manual cleaning. Additional studies are needed to evaluate the use of the technology in clinical settings.

Ultraviolet-C (UV-C) Effectiveness for Bacterial Decontamination in The Hospital Setting: A Systematic Review

Introduction: Bacteria are the most common agent reported to cause hospital-acquired infection (HAI) and nurses play a key role in achieving optimal decontamination. Ultraviolet-C (UV-C) is a promising candidate to reduce the bacteria infection burden. Therefore, this review aims to explore the UV-C application and its effectiveness in reducing bacteria contamination on various objects that can act as sources of HAI transmission. Methods: Searches were conducted on the PubMed, ScienceDirect, Scopus, and Cumulative Index to Nursing and Allied Health Literature databases. The inclusion criteria were randomized clinical trials, and non-randomized clinical intervention studies, written in English and published between January 2018 and March 2023. The search strategy used a population (P), intervention (I), comparator (C), and outcome (O) approach. Results: A total of 21 eligible studies were included in this review with four being related to decontaminating medical devices, two to personal equipment, nine to communication devices, and the remaining six to the environment. The exposure to UV-C radiation varies ranging from 24 s to 24 h (continuously) and it reduced the level of bacteria even up to 100%. Meanwhile, previously the objects were detected to be contaminated with pathogenic and resistant bacteria. Conclusion: UV-C exposure can be effectively used to decontaminate various objects in hospitals. However, special consideration should be given to semi-critical devices due to contact with mucosal tissue. Further studies are needed regarding the application of doses and duration of UV-C exposure to eliminate bacteria completely.

Toward Decontamination in Coastal Regions: Groundwater Quality, Fluoride, Nitrate, and Human Health Risk Assessments within Multi-Aquifer Al-Hassa, Saudi Arabia

Contamination in coastal regions attributed to fluoride and nitrate cannot be disregarded, given the substantial environmental and public health issues they present worldwide. For effective decontamination, it is pivotal to identify regional pollution hotspots. This comprehensive study was performed to assess the spatial as well as indexical water quality, identify contamination sources, hotspots, and evaluate associated health risks pertaining to nitrate and fluoride in the Al-Hassa region, KSA. The physicochemical results revealed a pervasive pollution of the overall groundwater. The dominant water type was Na-Cl, indicating saltwater intrusion and reverse ion exchange impact. Spatiotemporal variations in physicochemical properties suggest diverse hydrochemical mechanisms, with geogenic factors primarily influencing groundwater chemistry. The groundwater pollution index varied between 0.8426 and 4.7172, classifying samples as moderately to very highly polluted. Similarly, the synthetic pollution index (in the range of 0.5021–4.0715) revealed that none of the samples had excellent water quality, with various degrees of pollution categories. Nitrate health quotient (HQ) values indicated chronic human health risks ranging from low to severe, with infants being the most vulnerable. Household use of nitrate-rich groundwater for showering and cleaning did not pose significant health risks. Fluoride HQ decreased with age, and children faced the highest risk of fluorosis. The hazard index (HI) yielded moderate- to high-risk values. Nitrate risks were 1.21 times higher than fluoride risks, as per average HI assessment. All samples fell into the vulnerable category based on the total hazard index (THI), with 88.89% classified as very high risk. This research provides valuable insights into groundwater quality, guiding water authorities, inhabitants, and researchers in identifying safe water sources, vulnerable regions, and human populations. The results highlight the need for appropriate treatment techniques and long-term coastal groundwater management plans.

Clinical experience of using a high-intensity erbium laser for the treatment of chronic wounds

Chronic wounds are a common surgical pathology. Some types of laser radiation allow for eff ective debridement of wounds and stimulation of healing processes. High-intensity erbium laser can comprehensively aff ect tissues in all phases of the wound process, leading to accelerated healing of chronic wounds. The aim of the study was to evaluate the eff ectiveness of using high-intensity erbium laser for treating patients with chronic wounds of various origins compared to traditional treatment. Material and methods: An analysis of the treatment of 144 patients with chronic wounds was conducted in two groups. In the 1st group (n = 71), a high-intensity erbium laser and dressings with water-soluble ointments were used. In the 2nd group (n = 73), standard surgical treatment with similar dressings was performed. Results were evaluated using visual assessment of wound defects, planimetry, bacteriological and cytological studies, assessment of procedure tolerability, and pain intensity before and after treatment. Results: рatients in the 1st group showed signs of healing signifi cantly earlier and more frequently achieved complete epithelialization of wounds. Laser treatment contributed to more effective decontamination of wound defects, and signs of tissue regeneration were more frequently observed in cytological images. Patients tolerated erbium laser treatment better than surgical treatment, although pain intensity after treatment did not differ between groups. Conclusion: The study confi rmed the effectiveness of using high-intensity erbium laser for treating chronic wounds. This method can be recommended for use in surgical practice alongside other technical and pharmacological tools.

Innovative methods for determination of 90Sr and 137Cs in soil samples based on effective radiochemical separation and beta-counting

– Innovative methods were developed for direct 90Sr and 137Cs determination in soils by radiochemical separation and β-counting. Studies focused on: (1) the suitability of PEG to remove silica by coating, (2) the decontamination effect of Cs from 40K, (3) iron elimination with Microthene-TOA column instead of oxalate complex, and (4) the effective separation of Y and Sr from Pb by a Microthene-TOA column which made the direct 90Sr determination possible in less time with just one resin-column. The methods were validated by analysing the IAEA reference materials, showing good agreement with the recommended values. The methods were used to determine 90Sr and 137Cs in 21 soil samples. The obtained 90Sr concentrations in the soils were in the range of 0.46–2.95 Bq kg−1, while 137Cs 1.24–35.5 Bq kg−1. The yields of yttrium and caesium were 73.4 ± 8.0% and 79.0 ± 9.1%, respectively.

Meta-analysis of the effects of gamma irradiation on chicken meat and meat product quality.

Irradiation is one of the most effective microbial decontamination treatments for eliminating foodborne pathogens and enhancing chicken meat safety. The effect of gamma irradiation on the overall quality of chicken meat and its products must be observed to provide a comprehensive explanation to the public. This meta-analysis examined the effects of gamma irradiation on the oxidation parameters, microbial activity, physicochemical characteristics, sensory parameters, and nutrient quality of chicken meat and meat products. We conducted a literature search using various search engines (Scopus®, PubMed®, and Google Scholar®) with "irradiation," "gamma," "chicken," and "meat" as keywords. Gamma irradiation treatment was set as a fixed effect, and the difference between experiments was set as a random effect. This study used a mixed-model methodology. After evaluation, we selected 43 articles (86 studies) for inclusion in the database. Gamma irradiation significantly increased (p < 0.01) thiobarbituric acid-reactive substance levels on days 0, 7, and 14 of storage. Gamma irradiation reduced total aerobic bacteria, coliforms, Salmonella, yeast, and mold activity (p < 0.01). According to our meta-analysis, 21.75 kGy was the best dose for reducing total aerobic bacteria. On day 0, gamma irradiation did not affect the color parameters (L*, a*, b*). However, a significant difference (p < 0.01) was noted for a* and b* parameters between the control and irradiation treatments at 7 and 14 days. Although irradiation treatment was less consistent in sensory parameters, overall acceptability decreased on days 0, 7, and 14 after storage (p < 0.05). Regarding nutrient composition, gamma irradiation reduced moisture content and free fatty acid (FFA) content (p < 0.05). Although irradiation significantly reduces the microbial population, it increases the oxidation of chicken meat and its products. Irradiation decreases FFA content and overall acceptability, but it does not affect flavor, tenderness, juiciness, or cooking loss. Gamma irradiation positively reduces the microbial activity in chicken meat and its products but increases the oxidation parameters. Although gamma irradiation does not alter the flavor, tenderness, juiciness, or cooking loss, gamma irradiation can reduce the FFA content and overall acceptability.

Efficacy of common decontamination techniques used in eye care facilities in Ghana

PurposeTo evaluate the efficacy of common methods used in the decontamination of non-critical and semi-critical ophthalmic equipment in Ghana. DesignThis study was conducted in two phases. First, a descriptive cross-sectional study was carried out, followed by a microbiological study MethodsQuestionnaires were distributed online to eye care practitioners. The common decontamination procedures identified from the online questionnaires were used in decontaminating the surfaces of the ophthalmic instruments. Swabs were taken from the instruments both before and immediately after decontamination (within the first 30s), as well as at 10-minute intervals up to 40 minutes after decontamination. The swabs were cultured on nutrient agar for 24 hours at 37 °C, and the contamination levels were estimated. ResultsThe most commonly used disinfection technique in the selected eye clinics in Ghana was the use of Methylated spirit (34 %), and the least, Iso-alcohol swabs (1 %). All the decontamination methods were efficacious in the reduction of contamination levels on the surfaces of ophthalmic instruments. Hand sanitiser, Parazone (sodium hypochlorite), Autoclave, and UV showed highly effective decontamination activity compared to Methylated spirit, Hydrogen peroxide, and Isopropyl alcohol. There was a significant reduction in contamination for each of the time points (p < 0.001), except for 40 minutes after decontamination (p = 0.063ns), when compared to the contamination level before decontamination. ConclusionIn Ghana, commonly used decontamination methods are effective in reducing levels of contamination of ophthalmic instruments, with their recontamination rates comparable to the use of autoclaves and UV germicidal irradiation.

A renewable biological adsorbent fabricated Trichoderma viride composite spheres filled with spent Phellinus igniarius substrate exhibiting effective decontamination phosphate from water at wide range pH

Effectively recovering local waste and utilizing it as adsorbents to absorb phosphate is crucial for resource utilization and mitigating water eutrophication. In this study, we successfully prepared SPS-Trichoderma viride spheres adsorbent (SPS-T.viride) using spent Phellinus igniarius substrate (SPS) at 25 °C and pH = 6. The maximum surface area of SPS (185.22 m2/g) SPS-T.viride obtained the highest P adsorption (126.65 mg P/g) at a dosing ratio of 30 g/L, which was 4–9 times higher than the adsorption capacity of other mycobacterial materials, which was caused by synergistic interactions between chemical and physical processes in the adsorption mechanism of phosphates. Remarkably, SPS-T.viride composite spheres demonstrate notable adsorption efficiency across diverse pollutants, particularly showing selective affinity for anionic pollutants. The practical applicability of SPS-T.viride composite spheres was assessed using real sewage samples, achieving an impressive removal rate of over 80 % under dynamic flow conditions. This approach highlights the potential of biosorbents in addressing environmental challenges while achieving sustainability and renewability.

Fighting fire and fumes: risk awareness and protective practices among Western Australian firefighters

Background In Western Australia, the issue of bushfires (wildfires) poses a persistent health risk to both volunteer and career forestry firefighters, populations that have been historically understudied. Aims This descriptive qualitative study aimed to examine firefighters’ level of understanding concerning hazardous exposures, their Personal Protective Equipment (PPE) protocols and their decontamination practices. Methods Guided by the socioecological model, 23 semi-structured interviews were conducted with firefighters representing both volunteer and forestry sectors. Key results Results indicate a gap in knowledge regarding the health risks associated with bushfire-generated smoke and contaminants among volunteer firefighters. Forestry firefighters, conversely, showed a greater awareness of these risks. Social dynamics, such as peer pressure, were identified as historical deterrents to PPE use, although recent trends indicate positive change. Forestry firefighters also highlighted systemic shortcomings, including inadequate provision of respiratory protection and lack of decontamination facilities for cleaning themselves and their PPE. Conclusion This study underscores the critical need for educational initiatives to address these gaps in understanding, along with organisational reforms to promote a culture encouraging PPE use and to provide essential resources for effective decontamination. Implications This research emphasises that a multi-level approach is essential for safeguarding the health of firefighters in bushfire-prone environments.

Effective skin decontamination with RSDL® (reactive skin decontamination lotion kit) following dermal exposure to a Novichok class nerve agent

In recent years, various poisoning incidents have been reported, involving the alleged use of the so-called Novichok agents, resulting in their addition to the Schedule I list of the Organisation for the Prohibition of Chemical Warfare (OPCW). As the physicochemical properties of these agents are different from the ‘classical’ nerve agents, such as VX, research is needed to evaluate whether and to what extent existing countermeasures are effective. Here, we evaluated the therapeutic potential of RSDL® (Reactive Skin Decontamination Lotion Kit) for the neutralization of percutaneous toxicity caused by Novichok agents, both in vitro and in vivo. Experiments showed the three selected Novichok agents (A230, A232, A234) could be degraded by RSDL lotion, but at a different rate. The half-life of A234, in the presence of an excess of RSDL lotion, was 36 min, as compared to A230 (<5 min) and A232 (18 min). Following dermal exposure of guinea pigs to A234, application of the RSDL kit was highly effective in preventing intoxication, even when applied up until 30 min following exposure. Delayed use of the RSDL kit until the appearance of clinical signs of intoxication (3–4 h) was not able to prevent intoxication progression and deaths. This study determines RSDL decontamination as an effective treatment strategy for dermal exposure to the Novichok agent A234 and underscores the importance of early, forward use of skin decontamination, as rapidly as possible.

Modeling of low-temperature plasma inhibition and mechanism of Aspergillus flavus on corn kernels surface

ABSTRACT This study was conducted to optimize a process of low-temperature plasma treatment for the decontamination of Aspergillus flavus (A. flavus) on corn kernels. Impacts of plasma-treated time (30, 60, 90 s), plasma-treated power (300, 400, 500 W), and vacuum degree (85, 90, 95 Pa) on the decontamination effect in this process were explored. The optimal conditions included vacuum degree at 90 Pa, plasma treating time of 90 s, and plasma treating power of 500 W, under which the A. flavus spores was 4.03 log (cfu/g). Plasma treatment triggered antioxidative defense system, broke cell structures, and dispersed cell contents. A large number of free radicals act on lipids and proteins, and malondialdehyde (MDA) accumulate in large quantities, further leading to damage to cell structures.