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Routine monitoring and wastewater-based bio-surveillance represents a strong supporting tool for following and understanding SARS-CoV-2 endemicity or epidemic dynamics in society. The main objective of the research was a two-year qualitative and quantitative monitoring program of SARS-CoV-2 in sewage in a model urban agglomeration (the capital city), including the development of an algorithm for action in this area and a joint evaluation of procedures with a water and sewage company (public administration sector). To resolve problems, we continuously investigated inflows and outflows of four wastewater treatment plants and raw sewage of the whole catchment (including healthcare units, airport and military areas) within the Warsaw capital city for SARS-CoV-2, during two waves of COVID-19 in 2023 and 2024. The screening was performed by RT-qPCR (N1, N2, E probes) and NGS metagenomics analysis. The average cumulative load of the virus in sewage for the whole tested period was 3.5 × 10 genomic copies per litre. The highest load was found for wastewater inflows and the lowest one was found for housing estates and wastewater outflows. Higher viral concentrations in the wastewater than expected in medical records suggested a higher number of undiagnosed COVID-19 infections within the community. The obtained genotypes segregated within 11 clades (21I to 24 F), making '23 and '24 waves distinguishable. We consider our results and methodological approaches hold significant potential for public health, with particular emphasis on the needs of the Directive (EU) 2024/3019 of the European Parliament and of the Council.

Ticks from the Hyalomma genus have recently garnered public attention in countries in Northern and Central Europe, as they are transported by migratory birds and might have established stable populations due to climate warming. The main threat associated with Hyalomma ticks is their ability to transmit Crimean–Congo hemorrhagic fever virus (CCHFV), which can be fatal in up to 40% of cases. Here, we collected Hyalomma ticks from migratory birds during annual ringing actions in the spring seasons of 2023 and 2024. Four ticks were found on birds from the Acrocephalus genus and two on Hippolais icterina. The ticks were examined for the presence of Rickettsia spp., Babesia microti, Babesia divergens, Coxiella burnetii, Borreliella burgdorferi (s. l.), Anaplasma phagocytophilum, West Nile virus, and CCHF virus (CCHFV). The collected H. rufipes specimens were negative for tested pathogens, except for two ticks collected in 2024, which were positive for Rickettsia aeschlimannii. The data show that Hyalomma ticks are efficiently transported on birds preferring reedbeds or deciduous trees. The possibility of the occurrence of CCHF or rickettsiosis (induced by R. aeschlimannii) is currently assessed as low. Nevertheless, we have shown the transfer of Hyalomma ticks to Poland and indicated the need for careful future epidemiological monitoring of the presence of Hyalomma ticks.

Herpes simplex virus-1 (HSV-1) is a neurotropic virus that can infect the brain, and an uncontrolled infection can lead to severe encephalitis. NO can exert both antiviral as well as cytotoxic effects in the central nervous system (CNS) depending on its concentration and site of infection. In this study, we report that treatment of an intranasal murine HSV-1 infection with aminoguanidine (AMG) decreases both neuroinflammation and neurodegeneration markers, but its positive effect depends on the time of treatment. Specifically, early treatment with AMG impaired the activation of microglia/monocytes, leading to decreased virus-specific antiviral response and higher viral titers in the brain. However, AMG treatment during the peak of brain infection significantly improved antiviral response, reduced inflammation and improved general clinical score. We also found that treatment with AMG decreased beta amyloid levels during both primary and latent infections and protected from the accumulation of phosphorylated Tau protein during early infection. Our findings position inducible nitric oxide synthetase (iNOS) as a potential therapeutic target for mitigating virus-induced neuroinflammation and neurodegeneration.

Despite the vast amount of water on Earth, only a small percent is suitable for consumption, and these resources are diminishing. Moreover, water resources are unevenly distributed, leading to significant disparities in access to drinking water between countries and populations. Increasing consumption and the expanding human population necessitate the development of novel wastewater treatment technologies and the use of water treatment byproducts in other areas, such as fertilisers. However, water treatment sludge often cannot be used to enhance crop production due to the presence of parasite eggs, particularly from roundworms (Ascaridae family), which are resistant to environmental factors and can pose a threat for several years. Legislation prohibits the use of sludge containing parasite eggs as fertiliser. In some cases, water may not contain parasite eggs but larvae, which require different detection methods. Additionally, the presence of eggs does not necessarily indicate danger since they may lose infectivity due to prolonged storage or exposure to chemical compounds in the sewage. This paper reviews European Union regulations on wastewater treatment, the selected parasitic diseases related to the presence of parasites in wastewater, the spectrum of detection methods, and highlights differences in viability and invasiveness, which is intended to draw attention to the need to determine both biological properties of parasites.

Herpes simplex virus type 1 (HSV-1) causes recurrent infections of skin and mucosal tissues with high global prevalence. HSV-1 also invades the nervous system where it establishes a lifelong latency-making infection poorly treatable We previously showed that both tannic acid-modified silver and gold nanoparticles (TA-Ag/AuNPs) inhibit HSV-1 infection in vitro. We used an in vitro and in vivo model of HSV-1 infection to study how metal type, size and tannic acid modification of nanoparticles can influence development of the early innate response and the mounting of specific anti-HSV-1 response upon treatment of the nasal mucosa. We found that tannic acid is necessary for binding with HSV-1, with smaller sizes independent of the NPs composition, whereas for larger NPs, only TA-AgNPs can inhibit HSV-1 infection. Intranasal treatment of HSV-1 infection with TA-Ag/AuNPs results in lower viral titers and a better antiviral response, followed by increased IFN-α, CXCL9, and CXCL10 levels as well as infiltration of T cells and NK cells in the infected sites. We also found that the application of TA-NPs to the nasal cavities of infected mice induced infiltration of both monocytes and Langerhans cells (LCs), which lasted longer compared to the application of unmodified NPs. Furthermore, TA-NPs activated monocytes and microglia to produce antiviral cytokines and chemokines better than unmodified NPs, except for the large TA-AuNPs. Treatment of the mucosal tissues at the early stage of HSV-1 infection helps to modulate specific and effective antiviral immune response by attracting cytotoxic lymphocytes and inducing the production of antiviral cytokines and chemokines. Furthermore, tannic acid modification is helpful for the removal of nanoparticles from the respiratory tract, which increases the safety of nanoparticle applications to treat infections.