ABSTRACT
At present, the filtration of virus and other small particles in the air by meltblown cloth produced by electret treatment mainly depends on its electrostatic adsorption mechanism. However, because the surface charge of melt blown fabric can not be maintained for a long time, it can not maintain high efficiency filtration for a long time. Therefore, there is no guarantee for the medical staffs to not be infected by COVID-19. Therefore, it is necessary to improve the mechanical filtration efficiency of melt blown fabric in the situation of an electric charge loss. In this paper, nylon 6 (PA6) nanofibers were electrospun on melt blown cloth by electrospinning technology, and a sandwich material with melt blown cloth as surface layer and PA6 nanofibers as middle layer was made by hot- pressing technology;the surface morphology, thermal and mechanical properties of the sandwich material were characterized, and its filtration performance was tested. The experimental results show that the surface integrity of the sandwich material is high, and the diameter of nanofibers can reach about 67 nm;without the electret treatment, the filtration efficiency of the sandwich material for particles in an size of 0.2 μm is more than 95%,while the filtration efficiency of non-woven fabric is zero;the filtration resistance of the material is about 284 Pa, which is suitable for personal protection. © 2023 Chengdu University of Science and Technology. All rights reserved.
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Aim: People with type 1 or type 2 diabetes have a higher hospital admission rate following Covid-19 infection. This study aims to determine the degree to which the results of a previous study in Greater Manchester (GM) could be replicated in national-level data for England. Method(s): We focussed on the univariable regression analysis, which shows the association between admission and Covid-19 infection in people with diabetes. Modelling was conducted using logistic regression on data from the Covid-IMPACT database. Odds ratios were compared descriptively with the previous study. Result(s): In people with type 2 diabetes, factors associated with an increased risk of hospitalisation similar to the previous study were: older age, male sex, higher social deprivation, higher body mass index (BMI), higher cholesterol, lower eGFR, taking an ACE-inhibitor/ ARB, not taking metformin, and having asthma or hypertension. Patients with COPD, and those taking aspirin or clopidogrel also had increased risk, but the national data showed a greater risk (GM COPD odds ratio 1.89 [1.63-2.19] vs national 2.34 [2.28-2.40] / aspirin 1.49 [1.34-1.66] vs 1.66 [1.63-1.70] / clopidogrel 1.71 [1.47-1.98] vs 1.99 [1.94-2.04]). Similar results were observed in patients with type 1 diabetes. However, due to the increase in sample size, many factors which were previously not statistically significant have become significant, such as in type 2 diabetes BMI, low HDL-cholesterol. Conclusion(s): We have successfully replicated the methods, results and conclusions of our previous study in relation to factors associated with increased risk of hospital admission in diabetes individuals. Regional databases are suitable for large cohort studies, and in this instance produced similar results to a national database, validating our previous findings.
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Preventive vaccination against SARS-CoV-2 infection is currently receiving close attention in the Russian Federation. Improving public confidence in immunisation with new vaccines largely depends on a guarantee of the absence of side effects caused by contamination. A high risk of contamination is inherent to biological products, including coronavirus prevention vaccines, due to their properties and the nature of raw materials used. This risk adds to the need for using effective contaminant detection approaches. The aim of the study was to evaluate the possibility to improve sterility testing of preventive vaccines against SARS-CoV-2 infection. This article presents an analysis of the procedures proposed by pharmaceutical developers for sterility testing of ten Russian vaccines approved in the country for COVID-19 prevention. The authors considered specific characteristics of these vaccines, including their physical and chemical properties, the presence of antimicrobial components, and other critical factors affecting the correctness of the experimental setup. The results suggest that it is possible to improve sterility testing. According to the authors, the main directions for its improvement are the proposal to develop an alternative procedure based on compendial method 2 (OFS.1.2.4.0003.15, Ph. Rus. XIV), as well as the use of a universal culture medium. If used for refining the established procedures and developing new ones, the authors' recommendations will improve the reliability and applicability of sterility testing during both manufacturing and pre-approval regulatory assessment of updated coronavirus vaccines for subsequent release to the market. The proposed approaches can be applied to testing other medicinal products for sterility.Copyright © 2023 National Electronic-Information Consortium (NEICON). All rights reserved.
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Nanofibers are a type of nanomaterial with a diameter ranging from ten to a few hundred nanometers with a high surface-to-volume ratio and porosity. They can build a network of high-porosity material with excellent connectivity within the pores, making them a preferred option for numerous applications. This review explores nanofibers from the synthesis techniques to fabricate nanofibers, with an emphasis on the technological applications of nanofibers like water and air filtration, photovoltaics, batteries and fuel cells, gas sensing, photocatalysis, and biomedical applications like wound dressing and drug delivery. The nanofiber production market has an expected compound annual growth rate (CAGR) of 6% and should reach around 26 million US $ in 2026. The limitations and potential opportunities for large-scale applications of nano-fibrous membranes are also discussed. We expect this review could provide enriched information to better understand Electrospun Polymer Nanofiber Technology and recent advances in this field. © 2023 Bentham Science Publishers.
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The novel coronavirus disease 2019 (COVID-19) is caused by the severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2).Mortality attributable to COVID-19 remains considerably high, with case fatality rates as high as 8-11%. Early medical intervention in patients who are seriously and critically ill with COVID-19 reduces fatal outcomes. Thus, there is an urgent need to identify biomarkers that could help clinicians determine which patients with SARS-CoV-2 infection are at a higher risk of developing the most adverse outcomes, which include intensive care unit (ICU) admission, invasive ventilation, and death. In COVID-19 patients experiencing the most severe form of the disease, tests of liver function are frequently abnormal and liver enzymes are found to be elevated. For this reason, we examine the most promising liver biomarkers for COVID-19 prognosis in an effort to help clinicians predict the risk of ARDS, ICU admission, and death at hospital admission. In patients meeting hospitalization criteria for COVID-19, serum albumin < 36 g/L is an independent risk factor for ICU admission, with an AUC of 0.989, whereas lactate dehydrogenase (LDH) values > 365 U/L accurately predict death with an AUC of 0.943.The clinical scores COVID-GRAM and SOFA that include measures of liver function such as albumin, LDH, and total bilirubin are also good predictors of pneumonia development, ICU admission, and death, with AUC values ranging from 0.88 to 0.978.Thus, serum albumin and LDH, together with clinical risk scores such as COVID-GRAM and SOFA, are the most accurate biomarkers in the prognosis of COVID-19.Copyright © 2021 Sociedad Medica del Hospital General de Mexico. Published by Permanyer.
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Background & Aim: Gene therapies has become recognized for its remarkable clinical benefits in a variety of medical applications, in particular recent approval of an Ad vector-based COVID-19 vaccines have attracted recent global attention. Here, we present key considerations for GMP compliant process development for Coxsackie virus type B3 (CVB3), an oncolytic virus designed for clinical trial in triple-negative breast cancer. Methods, Results & Conclusion(s): CVB3 is a non-enveloped, linear single-strand RNA virus with a size of approximately 27-33 um in diameter. From the initial type using the zonal rotor centrifuge to the advanced type using the tangential flow filtration system and ion chromatograph, we considered the points of the design concept in constructing the manufacturing process. The final design system is constructed as a closed and single-use manufacturing system in which all processes from upstream large-scale cell culture to downstream target purification and concentration steps. In brief, HEK293 cell suspension extended in 3L serum-free medium infected with CVB3, up to 3.6 times 10 to 7 of TCID50 /mL before going to downstream steps, made total 150 mL of final products as 8.43 times 10 to 7 of TCID50/mL concentration. Although further quality control challenges remain that is removal of product-related impurities such as human cellular proteins and residual DNA/RNA to increase virus purity, this concept is effectively applicable even for other types of viruses as GMP manufacturing processes, and would be also important for technology transfer to future commercial production.Copyright © 2023 International Society for Cell & Gene Therapy
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Emerging infectious diseases that we are witnessing in the modern age are among the leading public health concerns. They most often occur in the form of epidemics or pandemics, and they have not been sufficiently researched. Owing to the current coronavirus disease 2019 (COVID-19) pandemic, the World Health Organization has published various recommendations to prevent the spread of this communicable disease, including a recommendation to wear protective facial masks. Therefore, this study aimed to determine the filtration effectiveness of bacteria, yeasts, and molds on three different commonly and commercially available masks used in children's educational institutions. In addition, the bacterial content of indoor air bioaerosols was identified. The genera Staphylococcus and Micrococcus were dominant in all samples, whereas bacteria of the genera Bacillus, Acinetobacter, and Corynebacterium were identified at a significantly smaller number. Bacterial, yeast, and mold filtering effectiveness increased from the single-layer cloth mask, which proved to be the least effective, to the surgical mask, to the filtering facepiece type 2 (FFP2) mask. Furthermore, surveys are needed to study the effectiveness of protective measures.
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Air-borne pollutants in particulate matter (PM) form, produced either physically during industrial processes or certain biological routes, have posed a great threat to human health. Particularly during the current COVID-19 pandemic, effective filtration of the virus is an urgent matter worldwide. In this review, we first introduce some fundamentals about PM, including its source and classification, filtration mechanisms, and evaluation parameters. Advanced filtration materials and their functions are then summarized, among which polymers and MOFs are discussed in detail together with their antibacterial performance. The discussion on the application is divided into end-of-pipe treatment and source control. Finally, we conclude this review with our prospective view on future research in this area. (c) 2022 Institute of Process Engineering, Chinese Academy of Sciences. Publishing services by Elsevier B.V. on behalf of KeAi Communications Co., Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
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Background/Objectives: SARS-CoV2 causes the COVID-19 disease, capable of producing a severe acute respiratory syndrome. Several clinical variables and genetic variants have been related to a worse prognosis. The aim of this study is to measure if difference in the gene expression are associated with COVID-19 severity. Method(s): We performed RNA-seq Transcriptome in RNA extracted from lymphoblastoid cell line in 20 patients who require hospitalization (10 from the intensive care unit) in a GeneStudio S5 Plus Sequencer (Ion Torrent Technology). FASTQ files were obtained and trimmed using BBtools, BBduk for cutting, filtering and masking the data, and Dedupe for the elimination of duplicates. Mapping and counting matrix was done in bash using the Salmon program. Differential expression analysis and subsequent functional enrichment was performed using Rstudio (DESeq2, ClusterProfiler, GO and KEGG). Result(s): We observed that 2042 differentially expressed genes (1996 overexpressed, LFC>0 and 406 underexpressed, LFC<0) were obtained between patients who require hospitalization versus those in the intensive care unit. We found some genes previously SARS-CoV-2 associated (PGLYRP1, HDAC9 and FUT4). Furthermore, genes involved in the activity of the immune system and in inflammatory processes showed significant differences between cohorts (ABCF1 (LFC = -25.14, padj = 1.05e-13), ABHD16A (LFC = 25.00, padj = 1.05e-13) and IER3 (LFC = -24.45, padj = 2.43e-13)). Conclusion(s): We described differential expression in genes of the immune system and inflammatory processes that might be have a role in the risk of develop severe symptoms of COVID-19, including admission in the intensive care unit. This results should be validated by additional functional studies.
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Objective: To examine whether established patient-reported outcome measures are suitable for capturing the impact of ARPKD in children and their families. Method(s): We assessed 44 children with ARPKD (40 families) with respect to patients' health-related quality of life ((hr- QOL) using PedsQLTM ESRD module) and mental health (strength and difficulties questionnaire (SDQ)) as well as family and caregiver burden (Impact on family score (IFS) und Ulm inventory of parental caregiver QOL (ULQIE)) and compared them to published data and 36 healthy control children matched for age and time. Result(s): Patients were aged 9.5 +/- 5.9 years (vs. controls 8.8 +/- 5.0, p = ns) and 21 (48%) were female (vs. 19 controls (53%), p = ns). Mean eGFR was 81 ml/min*1.73m2 (range 4 - 165);7 received dialysis and 11 had functioning kidney transplants (KTX, 2 combined with liver transplants). Eight patients had developmental delay secondary to medical complications, while chronic illness was an exclusion criterion for healthy controls. 61 caregivers of affected children had same gender-distribution (61% vs. 60% mothers) and age (both 42 +/- 7 years) and number of dependent children (1.8 +/- 0.9 vs. 2.0 +/- 0.8) as 57 caregivers of healthy children. The mean proxy reported PedsQL Total score was 77.5 +/- 10.6 (range 59 - 96). It correlated significantly to eGFR (r = 0.5, p < 0.01, (also within the subpopulations pre- and post-KTX)). Parents reported greater mental health problems in affected than in control children with a higher SDQ total score mainly due to higher scores in the hyperactivity and peerinteraction subscales. ULQIE revealed that parents of affected children had significantly lower levels of physical functioning, self-fulfillment and general QOL, but despite higher emotional burden scores they indicated similar satisfaction with family life. Impact on family scores were in a similar range to those of children with moderate to severe disabilities. Conclusion(s): The good spread of PedsQLTM ESRD-scores and their correlation to renal function indicates that it captures significant aspects of ARPKD, however, it may need further adjustment to include liver complications. All four chosen instruments revealed significant impact of ARPKD on hrQOL and mental health of affected children as well as family life and parental wellbeing in comparison to healthy controls. More problems with peer-interactions may also be due to more stringent shielding of chronically ill children from social contacts during the COVID pandemic compared to healthy children.
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BackgroundAlthough renal involvement is an rare extra-articular involvement in patients with ankylosing spondylitis (AS), medications and accopamyning comorbidities may adversly affect renal functions [1].ObjectivesTo determine the frequency and impact of CKD in patients with AS using biologic disease modyfying anti-rheumatic drugs (bDMARDs).MethodsBetween 2005 and November 2021, 3207 patients diagnosed with AS according to the modified New York criteria were enrolled in the Hacettepe University biological database (HUR-BIO). The 2012 Kidney Disease: Improving Global Outcomes (KDIGO) guideline was used for the definition of CKD to evaluate the renal function of patients. Glomerular filtration rate (GFR) was calculated with the MDRD (modified Modification of Diet in Renal Disease) formula, taking into account the creatinine value, age and gender parameters of the patients [2]. CKD was detected in 39 (1,2%) patients. Age-sex matched 41 non-CKD AS patients were selected as the control group. Demographic and clinical characteristics and mortality rates of AS patients with and without CKD were compared.ResultsOf 39 AS-CKD patients, 25 (64.1%) had CKD before the initation of bDMARD and and 14 (35.8%) developed CKD during follow-up after treatment was started. Patients with AS-CKD had longer duration of symptoms and disease (Table 1). Comorbidities such as hypertension, coronary artery disease and amyloidosis were more prevalent in patients with AS-CKD. At a median follow-up of 2.48(0.1-20.1) years, mortality was observed in 11(28.2%) patients in the AS-CKD group, while no mortality was observed in the age-sex matched AS-nonCKD group (p<0.001, Figure 1). The mortality rate in patients with AS-CKD was 12.6 per 1000 patient-years, and 4 (10.2%) of deaths were during the COVID-19 pandemia.Figure 1.Table 1.AS-CKD group (n=39)AS-nonCKD group (n=41)PTotal AS patients, (n=3207)Age, mean(SD), years68.2 (12.0)58.8(12.6)-47.9±(11.2)Male, n(%)27 (69.2)27(65.9)-1716(53.5)53.1)Symptom duration, years median (min-max)20 (5-42)11(2-30)0.0110(1-44)Disease duration, years median (min-max)14,5(5-42)7(1-29)0.046(1-37)HLA-B27 positivity, n(%)13(33.3)12(29.2)0.5826/2014(41.0)Uveitis, n(%)6/354/360.2339/2946(11.5)Inflammatory bowel disease, n(%)4/353/360.4135/2946(4.58)Smoking, ever, n(%)22/34 (64.7)20/36(55.5)0.31781/2942(60.5)BMI (kg/m2), mean(SD)28 (6.08)28.2(5.01)0.828.1(5.5)Amiloidosis, n(%)14/36(38.9)1(2.4)<0.00133/2949(1.11)Comotbidities n(%)• Diabetes Mellitus,7/34(20.6)4/36(11.1)0.2199/2949(6.7)• Hypertension27/34(79.4)9/36(25)<0.001442/2949(14.9)• CAD8/21(38.1)1/25(4)0.005110/1882(5.8)• COPD5/21(23.8)0/240.004117/1774(6.59)CRP, med(min-max)1.6(0.4-12.4)1.77(0.1-23.6)0.81.07(0.1-45)• at the initiation of bDMARDs, at the last visit,0.7(0.16-14)0.55(0.1-7.5)0.30.5(0.1-14)ESR, med(min-max)• at the initiation of bDMARDs,48(12-140)30(2-96)0.119(1-140)• at the last visit, med(min-max)25(3-93)15(2-70)0.113(1-110)BASDAI, mean (SD)• At the initiation of bDMARDs4.5(±2.1) 5.46(±2.07) 0.5 5.7(±2.04) • At the last vizit3.94(±2.35)2.95(±2.33)0.093.69(±2.5)CAD: Coronary artery disease, COPD: Chronic Obstructive pulmonary disease, BMI: Body mass index, BASDAI: Bath AS Disease Activity IndexConclusionBoth comorbid disease burden and mortality seem to be increased in patients with AS-CKD. Increased mortality was more pronounced during the COVID-19 pandemia.References[1]Coşkun, B.N., et al., Anti-TNF treatment in ankylosing spondylitis patients with chronic kidney disease: Is it effective and safe? Eur J Rheumatol, 2022. 9(2): p. 68-74.[2]Stevens, P.E. and A. Levin, Evaluation and management of chronic kidney disease: synopsis of the kidney disease: improving global outcomes 2012 clinical practice guideline. Ann Intern Med, 2013. 158(11): p. 825-30.Acknowledgements:NIL.Disclosure of InterestsNone Declared.
ABSTRACT
Monitoring of the proportion of immune individuals and the effectiveness of vaccination in a population involves evaluation of several important parameters, including the level of virus-neutralising antibodies. In order to combat the COVID-19 pandemic, it is essential to develop approaches to detecting SARS-CoV-2 neutralising antibodies by safe, simple and rapid methods that do not require live viruses. To develop a test system for enzyme-linked immunosorbent assay (ELISA) that detects potential neutralising antibodies, it is necessary to obtain a highly purified recombinant receptor-binding domain (RBD) of the spike (S) protein with high avidity for specific antibodies. The aim of the study was to obtain and characterise a SARSCoV-2 S-protein RBD homodimer and a recombinant RBD-expressing cell line, as well as to create an ELISA system for detecting potential neutralising antibodies. Material(s) and Method(s): the genetic construct was designed in silico. To generate a stable producer cell line, the authors transfected CHO-S cells, subjected them to antibiotic pressure, and selected the optimal clone. To isolate monomeric and homodimeric RBD forms, the authors purified the recombinant RBD by chromatographic methods. Further, they analysed the activity of the RBD forms by Western blotting, bio-layer interferometry, and indirect ELISA. The analysis involved monoclonal antibodies GamXRH19, GamP2C5, and h6g3, as well as serum samples from volunteers vaccinated with Gam-COVID-Vac (Sputnik V) and unvaccinated ones. Result(s): the authors produced the CHO-S cell line for stable expression of the recombinant SARS-CoV-2 S-protein RBD. The study demonstrated the recombinant RBD's ability to homodimerise after fed-batch cultivation of the cell line for more than 7 days due to the presence of unpaired cysteines. The purified recombinant RBD yield from culture broth was 30-50 mg/L. Monomeric and homodimeric RBD forms were separated using gel-filtration chromatography and characterised by their ability to interact with specific monoclonal antibodies, as well as with serum samples from vaccinated volunteers. The homodimeric recombinant RBD showed increased avidity for both monoclonal and immune sera antibodies. Conclusion(s): the homodimeric recombinant RBD may be more preferable for the analysis of levels of antibodies to the receptor-binding domain of the SARS-CoV-2 S protein.Copyright © 2023 Authors. All rights reserved.
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Determination of the filtration efficiency (even to nanosize) of several textiles was carried out during emergency time at the beginning of the COVID-19 pandemic lockdown in order to perform a fast screening of materials candidate for facial masks. At this purpose, a double strategy was adopted in Milan: scanning electron microscopy investigation and a classical filtration test of ambient aerosol. The latter was used in order to mimic as much as possible the capability to filter ambient aerosol that might contain COVID-19. The two methods were compared to investigate their capability to identify only textiles characterized by a filtration efficiency higher than 90% (thus candidate for facial mask production). Results showed filtration efficiency above 90% for promising candidate textiles as well as poor filtration capabilities (below 60%) of other textiles, enabling a fast screening of the materials from different Italian factories.
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While nonwoven fabrics have existed for several decades, their usage in personal protective equipment (PPE) has been met with a rapid surge of demands, in part due to the recent COVID-19 pandemic. This review aims to critically examine the current state of nonwoven PPE fabrics by exploring (i) the material constituents and processing steps to produce fibers and bond them, and (ii) how each fabric layer is integrated into a textile, and how the assembled textiles are used as PPE. Firstly, filament fibers are manufactured via dry, wet, and polymer-laid fiber spinning methods. Then the fibers are bonded via chemical, thermal, and mechanical means. Emergent nonwoven processes such as electrospinning and centrifugal spinning to produce unique ultrafine nanofibers are discussed. Nonwoven PPE applications are categorized as filters, medical usage, and protective garments. The role of each nonwoven layer, its role, and textile integration are discussed. Finally, the challenges stemming from the single-use nature of nonwoven PPEs are discussed, especially in the context of growing concerns over sustainability. Then, emerging solutions to address sustainability issues with material and processing innovations are explored.
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Public health departments such as CDC and California Department of Public Health (CA-DPH) advise HEPA-purifiers to limit transmission of SARS-CoV-2 indoor spaces. CA-DPH recommends air exchanges per hour (ACH) of 4-6 air for rooms with marginal ventilation and 6-12 in classrooms often necessitating multiple HEPA-purifiers per room, unaffordable in under-resourced community settings. Pressure to seek cheap, rapid air filtration resulted in proliferation of lower-cost, Do-It-Yourself (DIY) air purifiers whose performance is not well characterized compared to HEPA-purifiers. Primary metrics are clean air delivery rate (CADR), noise generated (dBA), and affordability ($$). CADR measurement often requires hard-to-replicate laboratory experiments with generated aerosols. We use simplified, low-cost measurement tools of ambient aerosols enabling scalable evaluation of aerosol filtration efficiencies (0.3 to 10 µm), estimated CADR, and noise generation to compare 3 HEPA-purifiers and 9 DIY purifier designs. DIY purifiers consist of one or two box fans coupled to single MERV 13-16 filters (1â³-5â³ thick) or quad filters in a cube. Accounting for reduced filtration efficiency of MERV 13-16 filters (versus HEPA) at the most penetrating particle size of 0.3 µm, estimated CADR of DIY purifiers using 2â³ (67%), 4â³ (66%), and 5â³ (85%) filters at lowest fan speed was 293 cfm ($35), 322 cfm ($58), and 405 cfm ($120) comparable to best-in-class, low-noise generating HEPA-purifier running at maximum speed with at 282 cfm ($549). Quad filter designs, popularly known Corsi-Rosenthal boxes, achieved gains in estimated CADR below 80% over single filter designs, less than the 100% gain by adding a second DIY purifier. Replacing one of the four filters with a second fan resulted in gains of 125%-150% in estimated CADR. Tested DIY alternatives using lower-efficiency, single filters compare favorably to tested HEPA-purifiers in estimated CADR, noise generated at five to ten times lower cost, enabling cheap, rapid aerosol removal indoors.
Subject(s)
Air Filters , Air Pollution, Indoor , COVID-19 , Aerosols , Air Pollution, Indoor/analysis , Air Pollution, Indoor/prevention & control , COVID-19/prevention & control , Dust , Humans , Pandemics/prevention & control , SARS-CoV-2ABSTRACT
Intro: It is hypothesized that metagenomics could contribute to the effective sentinel surveillance of emerging infections to identify plausible cause of respiratory symptoms in the population. Method(s): This study forms part of a longitudinal household cohort study involving the collection of respiratory symptoms and vaccination history in Hong Kong. As a pilot, selected households were provided with swab collection kit for collecting nasopharyngeal and throat samples when there was an influenza-like illness (ILI) during a 4-month presumptive period of the year's winter influenza season. Sequence-Independent Single Primer Amplification (SISPA) and nanopore metagenomic sequencing were performed. After basecalling, demultiplexing, and quality filtering, taxonomic classification was done. Unclassified and host reads were removed and only taxon with over 0.1% abundance were included in the analysis. Finding(s): Between December 2021 and April 2022, of 101 collection kits delivered, 36 (36%) participants returned the samples. Two (6%) had previous COVID-19 diagnosis and almost all (97%) received at least one dose of COVID-19 vaccination. Metagenomics sequencing was performed on 13 samples collected from participants when ILI was present. Of the 1,592,219 reads obtained, 5308 taxa were identified and 136 had over 0.1% abundance, including 128 bacteria, 6 fungi, and 1 virus, which was a bacteriophage. The five most abundant genera of bacteria included Neisseria (19%), Streptococcus (10%), Haemophilus (9%), Veillonella (3%), and Rothia (3%). Haemophilus parainfluenzae was the most abundant species with 97,542 (6%) reads, followed by Neisseria meningitides (5%). Other bacteria identified included Rothia mucilaginosa, Acinetobacter baumannii, Lautropia mirabilis, Veillonella atypica, Streptococcus salivarius, and Streptococcus pneumonia. Inter-participant abundance profile was significantly different (p<0.001). Conclusion(s): The absence of viral infections identified echoed the extremely low proportion (3/21986, or 0.01%) of respiratory specimens testing positive for influenza virus by the government laboratory during the same period. The metagenomic profile could be useful for identifying the likely ILI-causing pathogen.Copyright © 2023
ABSTRACT
Interleukin-6 (IL-6) plays a key role in the pathogenesis of COVID-19, which determines the indications for the therapeutic use of its antagonists. However, data on their effectiveness and optimal timing of appointment are contradictory. The question of the possibility of their use in patients with impaired kidney function has not been studied. The aim of the study is to evaluate the efficacy and safety of the use of monoclonal antibodies to IL-6 receptors in COVID-19 in patients with chronic kidney disease (CKD) of stages 2-5 (predialysis) who do not need renal replacement therapy. Material and methods. A clinical retrospective uncontrolled single-center study included 45 patients (60% of men) with CKD stages 2-5 aged 22-95 years (median - 58 years) hospitalized with predominantly severe uncritical COVID-19 infection. Treatment of COVID-19 was carried out in accordance with the Interim guidelines for the prevention and treatment of new coronavirus infection of the Ministry of Health of Russian Federation. Results. The majority of patients (n=36;73.3%) had CKD stage 3b-5, CKD stage 2 was in 7 (15.5%) and stage 3a - in 5 (11.1%) patients. The median serum creatinine level (Cr) was 164 [131;292] mumol/l, glomerular filtration rate (GFR) was 30 [13;49] ml/min/1.73 m2, CRP 67.5 [37.2;106.75] mg/l. The introduction of monoclonal antibody to IL-6 receptors led to a decrease in the activity of the infectious process (CRP 1.55 [0.33;4.15] mg/l, p<0.001), regression of pneumonia, which did not require mechanical ventilation and hospitalization in the intensive care unit. According to the decision of the medical commission, patients were injected with monoclonal antibodies to IL-6 receptors: tocilizumab (n=36;80%), levilimab (n=2;4.4%), combined therapy with two drugs (n=7;15.5%). Therapy with IL-6 antagonists did not have a negative effect on kidney function. The levels of Cr decreased on average from 224.3+/-145.2 mmol/l at admission to 160+/-92.55 mmol/l at discharge (p<0.001), GFR increased from 32.6+/-20.9 ml/min/1.73 m2 at admission to 53+/-31.7 ml/min/1.73 m2 at discharge (p<0.001). In the majority of patients (n=36, 80%) GFR has risen, and only in 9 (20%) cases it remained approximately at the same low level. No serious adverse events have been reported with the use of IL-6 antagonists, as well as concomitant infectious complications. No deaths have been reported. The median length of stay in bed was 14 [10;19] days. Conclusion. The results of the study allow us to state that in patients with CKD, monoclonal antibodies to IL-6 receptors have a good safety profile and can be successfully used in moderate and severe forms of COVID-19, regardless of the state of kidney function.Copyright © 2022 by the authors.
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Monitoring of the proportion of immune individuals and the effectiveness of vaccination in a population involves evaluation of several important parameters, including the level of virus-neutralising antibodies. In order to combat the COVID-19 pandemic, it is essential to develop approaches to detecting SARS-CoV-2 neutralising antibodies by safe, simple and rapid methods that do not require live viruses. To develop a test system for enzyme-linked immunosorbent assay (ELISA) that detects potential neutralising antibodies, it is necessary to obtain a highly purified recombinant receptor-binding domain (RBD) of the spike (S) protein with high avidity for specific antibodies. The aim of the study was to obtain and characterise a SARSCoV-2 S-protein RBD homodimer and a recombinant RBD-expressing cell line, as well as to create an ELISA system for detecting potential neutralising antibodies. Material(s) and Method(s): the genetic construct was designed in silico. To generate a stable producer cell line, the authors transfected CHO-S cells, subjected them to antibiotic pressure, and selected the optimal clone. To isolate monomeric and homodimeric RBD forms, the authors purified the recombinant RBD by chromatographic methods. Further, they analysed the activity of the RBD forms by Western blotting, bio-layer interferometry, and indirect ELISA. The analysis involved monoclonal antibodies GamXRH19, GamP2C5, and h6g3, as well as serum samples from volunteers vaccinated with Gam-COVID-Vac (Sputnik V) and unvaccinated ones. Result(s): the authors produced the CHO-S cell line for stable expression of the recombinant SARS-CoV-2 S-protein RBD. The study demonstrated the recombinant RBD's ability to homodimerise after fed-batch cultivation of the cell line for more than 7 days due to the presence of unpaired cysteines. The purified recombinant RBD yield from culture broth was 30-50 mg/L. Monomeric and homodimeric RBD forms were separated using gel-filtration chromatography and characterised by their ability to interact with specific monoclonal antibodies, as well as with serum samples from vaccinated volunteers. The homodimeric recombinant RBD showed increased avidity for both monoclonal and immune sera antibodies. Conclusion(s): the homodimeric recombinant RBD may be more preferable for the analysis of levels of antibodies to the receptor-binding domain of the SARS-CoV-2 S protein.Copyright © 2023 Authors. All rights reserved.