Global ETD Search

421	Vaccin mot SARS-CoV-2 – en utvärdering av effektivitet och säkerhet av ledande vaccin : En Litteraturstudie / Vaccine against SARS-CoV-2 – an evaluation of effectivity and safety of the leading vaccines : A Literature Study Wrywood, Sean January 2021 (has links) Introduktion: Coronavirus är RNA-virus med ett lipidhölje som är täckt utav karaktäristiska spikprotein. De mest kända coronavirusvarianterna är SARS-CoV-1 som var aktiv mellan 2002-2004, MERS-CoV som har varit aktiv sedan 2012 och SARS-CoV-2 som har varit aktiv sedan 2019–tillsvidare. SARS-CoV-2 infektionen betecknades januari 30 2020 som en pandemi. Flera läkemedelsföretag har forcerat ??? till att framställa vaccin riktad mot SARS-CoV-2, “The United States Food and Drug Administration” (FDA) och “European Medicines Agency” (EMA) har nödgats att ge ut “Emergency Use Authorization (EUA) i hopp om att få kontroll på dess spridining. Syfte och mål: Syftet med arbetet är att undersöka säkerheten och effektiviteten hos de EMA-godkända vaccinerna riktade mot SARS-CoV-2. Metod: Studierna för vardera vaccin hittades och valdes ut genom World Health Organizations (WHO) “Draft landscape and tracker of COVID-19 candidate vaccines”. Totalt inkluderades åtta studier baserade på tio kliniska prövningar som undersökte säkerheten och effektiviteten hos de fyra ledande vaccinerna från Pfizer BioNTech, Moderna, AstraZeneca och Johnson & Johnson. Resultat: De fyra undersökta vaccinerna visade en god säkerhet utan grövre biverkningar. De vanligaste biverkningarna hos samtliga vaccin var lokal smärta, trötthet och huvudverk. Dessa biverkningar varade mellan en till två dagar efter vaccination och var till större del milda. Större skillnader kunde ses hos de olika vaccinernas effektivitet, Pfizer BioNTech och Modernas mRNA-vacciner visade på effektiviteter runt 95% medan AstraZeneca och Johnson & Johnsons adenovirus-vektor-vacciner visade på effektiviteter runt 66-70%. Diskussion: Inga större skillnader i säkerhet kunde ses mellan de undersökta vaccinerna. AstraZeneca använde ett influensa vaccin istället för isoton vattenlösning till deras kontrollgrupper. Detta kan ha haft en påverkan på placebo och resultaten från deras prövningar. En tydlig skillnad i effektivitet kunde ses mellan de olika vaccintyperna, vilket har ett stort inflytande på hur lätt man kan inducera flockimmunitet hos en befolkning. Eftersom flockimmunitet har en stor roll i både att bromsa spridningen men även i att förebygga förekomsten av nya virus varianter så bör endast mRNA vacciner rekomenderas om möjligt. / Introduction: Coronaviruses are RNA viruses with a lipid envelope that is covered by characteristic spike protein. The most well-known coronaviruses are SARS-CoV-1 which were active between 2002-2004, MERS-CoV which is active since 2012 and SARS-CoV-2 which is active since 2019. SARS-CoV-2 was designated a pandemic January 30, 2020. Several pharmaceutical companies have been rushing to produce vaccines targeting SARS-CoV-2, The United States Food and Drug Administration (FDA) and the European Medicines Agency (EMA) have had to issue Emergency Use Authorization (EUA) in the hope of gaining control of its spread. Objective: The purpose of this study is to investigate the safety and efficacy of the EMA-approved vaccines targeting SARS-CoV-2. Method: The studies for each vaccine were found and selected through the World Health Organizations' (WHO) "Draft landscape and tracker of COVID-19 candidate vaccines". A total of eight studies were included based on ten clinical trials examining the safety and efficacy of the four leading vaccines from Pfizer BioNTech, Moderna, AstraZeneca and Johnson & Johnson. Results: The four vaccines examined showed good safety without any serious side effects, the most common side effects with all vaccines were local pain, fatigue, and headache. These side effects lasted between one to two days after vaccination and were mostly mild. Larger differences could be seen in the efficacy of the different vaccines, with Pfizer BioNTech and Moderna's mRNA vaccines showing efficacies of around 95%. While AstraZeneca and Johnson & Johnson's adenovirus vector vaccines showed efficacies of around 66-70%. Discussion: No major differences in safety could be seen between the vaccines examined. AstraZeneca used an influenza vaccine instead of isotonic aqueous solution for their control groups, this may have had an impact on placebo and thus the results of their trials. A clear difference in efficacy could be seen between the different types of vaccines. This has a great influence on how easily one could induce herd immunity to a population. Herd immunity plays a major role in both slowing the spread but also in preventing the occurrence of new virus variants, therefore mRNA vaccines should be recommended if possible. SARS-CoV-2 Covid-19 Vaccin BNT162b2 mRNA-1273 AZD1222 ChAdOx nCoV-19 AD26.COV2.S Pfizer BioNTech Moderna AstraZeneca Johnson & Johnson Infectious Medicine Infektionsmedicin
422	Prevalence of Diabetes Mellitus and Its Associated Unfavorable Outcomes in Patients With Acute Respiratory Syndromes Due to Coronaviruses Infection: A Systematic Review and Meta-Analysis Pinedo-Torres, Isabel, Flores-Fernández, Magaly, Yovera-Aldana, Marlon, Gutierrez-Ortiz, Claudia, Zegarra-Lizana, Paolo, Intimayta-Escalante, Claudio, Moran-Mariños, Cristian, Alva-Diaz, Carlos, Pacheco-Barrios, Kevin 01 January 2020 (has links) Introduction: Only 3 types of coronavirus cause aggressive respiratory disease in humans (MERS-Cov, SARS-Cov-1, and SARS-Cov-2). It has been reported higher infection rates and severe manifestations (ICU admission, need for mechanical ventilation, and death) in patients with comorbidities such as diabetes mellitus (DM). For this reason, this study aimed to determine the prevalence of diabetes comorbidity and its associated unfavorable health outcomes in patients with acute respiratory syndromes for coronavirus disease according to virus types. Methods: Systematic review of literature in Pubmed/Medline, Scopus, Web of Science, Cochrane, and Scielo until April of 2020. We included cohort and cross-sectional studies with no restriction by language or geographical zone. The selection and extraction were undertaken by 2 reviewers, independently. The study quality was evaluated with Loney’s instrument and data were synthesized by random effects model meta-analysis. The heterogeneity was quantified using an I2 statistic. Funnel plot, Egger, and Begg tests were used to evaluate publication biases, and subgroups and sensitivity analyses were performed. Finally, we used the GRADE approach to assess the evidence certainty (PROSPERO: CRD42020178049). Results: We conducted the pooled analysis of 28 studies (n = 5960). The prevalence analysis according to virus type were 451.9 diabetes cases per 1000 infected patients (95% CI: 356.74-548.78; I2 = 89.71%) in MERS-Cov; 90.38 per 1000 (95% CI: 67.17-118.38) in SARS-Cov-1; and 100.42 per 1000 (95% CI: 77.85, 125.26 I2 = 67.94%) in SARS-Cov-2. The mortality rate were 36%, 6%, 10% and for MERS-Cov, SARS-Cov-1, and SARS-Cov-2, respectively. Due to the high risk of bias (75% of studies had very low quality), high heterogeneity (I2 higher than 60%), and publication bias (for MERS-Cov studies), we down rate the certainty to very low. Conclusion: The prevalence of DM in patients with acute respiratory syndrome due to coronaviruses is high, predominantly with MERS-Cov infection. The unfavorable health outcomes are frequent in this subset of patients. Well-powered and population-based studies are needed, including detailed DM clinical profile (such as glycemic control, DM complications, and treatment regimens), comorbidities, and SARS-Cov-2 evolution to reevaluate the worldwide prevalence of this comorbidity and to typify clinical phenotypes with differential risk within the subpopulation of DM patients. / Revisión por pares Coronavirus infections diabetes mellitus Prevalence SARS virus Acute respiratory tract disease Adverse outcome Article Comorbidity Coronavirus disease 2019
423	Seguridad de las vacunas contra la COVID-19 Chaparro Mérida, Nataniel Aldo, Samper, Dayany Moreno, Franco Lacato, Alex Omar 22 December 2021 (has links) El desarrollo y producción de vacunas seguras y eficaces contra la enfermedad por coronavirus 2019 (COVID- 19) ofrece la esperanza para el control de la pandemia actual. Los eventos adversos posteriores a la inmunización son respuestas indeseadas o acontecimientos involuntarios que siguen a la vacunación, y que deben ser cuidadosamente vigilados, ya que todas las vacunas, incluyendo las desarrolladas contra el SARSCoV- 2, requieren cumplir con los criterios de seguridad para su administración en humanos. Se recopiló la información de la base de datos de PubMed/Medline durante los meses de agosto de 2020 a noviembre de 2021. La mayoría de los eventos adversos identificados en los ensayos clínicos fueron leves o moderados; sin embargo, se identificaron eventos trombóticos asociados a algunas vacunas basadas en vectores virales contra la COVID-19 en estudios de seguimiento, aunque se requiere la conclusión de los distintos estudios en curso y vigilancia poscomercialización para determinar todos los posibles eventos adversos y de especial interés. General Medicine Vacuna Coronavirus SARS-CoV-2 Inmunogenicidad Eficacia Eventos adversos Ensayo Clínico Ensayo clínico en Fase III Pandemia
424	SARS-CoV-2 y su efecto a nivel de tejido renal: Una revisión narrativa / Effect of SARS-CoV-2 on kidney tissue: A narrative review Flores Gavino, Aldo Paul, Espinoza Anchaygua, Ricardo Daniel 19 March 2021 (has links) Se describe la evidencia actual del efecto del SARS-CoV-2 a nivel de tejido renal. Se realizó una revisión narrativa de los artículos publicados en SCOPUS y PUBMED hasta septiembre de 2020. Los resultados se dividieron en las siguientes secciones: evidencia del efecto directo del virus en el riñón, mecanismos de invasión celular, mecanismos de injuria celular y las potenciales implicaciones terapéuticas de estos hallazgos. El SARS-CoV-2 invade las células del túbulo proximal y los podocitos, a través del receptor ECA-2. La invasión y replicación viral podrían producir daño mediante un efecto citopático directo aunado a un daño mediado por la respuesta inmune. Debido a la expresión celular de ECA-2, se ha propuesto a los Inhibidores del Sistema Renina–Angiotensina–Aldosterona como un potencial tratamiento contra la COVID-19. Sin embargo, a la fecha, la evidencia no apoya su uso. / We describe evidence on SARS-CoV-2 effect on the kidney. We carried a narrative review of articles published in SCOPUS and PUBMED until September 2020. The results were divided into six topics: evidence of direct effect of virus on the kidney, mechanisms of cellular invasion, mechanisms of kidney injury, and potential therapeutic implications. SARS-Cov-2 gains access to proximal tubule cells and podocytes via ACE-2 receptors. Viral invasion and replication may induce kidney damage through a direct cytopathic effect and immune-mediated damage. Due to ACE-2 cellular expression, Renin–Angiotensin–Aldosterone System Inhibitors have been proposed as potential treatment for COVID-19. However, current evidence does not support its therapeutic use. / Trabajo de investigación Patología Fisiopatología Infecciones por Coronavirus Pathophysiology SARS-CoV-2 Acute Kidney Injury
425	Detection of SARS-CoV-2 antibodies in febrile patients from an endemic region of dengue and chikungunya in Peru Tarazona-Castro, Yordi, Troyes-Rivera, Lucinda, Martins-Luna, Johanna, Cabellos-Altamirano, Felipe, Aguilar-Luis, Miguel Angel, Carrillo-Ng, Hugo, Del Valle, Luis J., Kym, Sungmin, Miranda-Maravi, Sebastian, Silva-Caso, Wilmer, Levy-Blitchtein, Saul, del Valle-Mendoza, Juana 01 April 2022 (has links) Introduction The rapid expansion of the novel SARS-CoV-2 virus has raised serious public health concerns due to the possibility of misdiagnosis in regions where arboviral diseases are endemic. We performed the first study in northern Peru to describe the detection of SARSCoV-2 IgM antibodies in febrile patients with a suspected diagnosis of dengue and chikungunya fever. Materials and methods A consecutive cross-sectional study was performed in febrile patients attending primary healthcare centers from April 2020 through March 2021. Patients enrolled underwent serum sample collection for the molecular and serological detection of DENV and CHIKV. Also, serological detection of IgM antibodies against SARS-CoV-2 was performed. Results 464 patients were included during the study period, of which (40.51%) were positive for one pathogen, meanwhile (6.90%) presented co-infections between 2 or more pathogens. The majority of patients with monoinfections were positive for SARS-CoV-2 IgM with (73.40%), followed by DENV 18.09% and CHIKV (8.51%). The most frequent co-infection was DENV + SARS-CoV-2 with (65.63%), followed by DENV + CHIKV and DENV + CHIKV + SARSCoV-2, both with (12.50%). The presence of polyarthralgias in hands (43.75%, p<0.01) and feet (31.25%, p = 0.05) were more frequently reported in patients with CHIKV monoinfection. Also, conjunctivitis was more common in patients positive for SARS-CoV-2 IgM (11.45%, p<0.01). The rest of the symptoms were similar among all the study groups. Conclusion SARS-CoV-2 IgM antibodies were frequently detected in acute sera from febrile patients with a clinical suspicion of arboviral disease. The presence of polyarthralgias in hands and feet may be suggestive of CHIKV infection. These results reaffirm the need to consider SARS-CoV-2 infection as a main differential diagnosis of acute febrile illness in arboviruses endemic areas, as well as to consider co-infections between these pathogens. Copyright: / Revisión por pares Antibodies Arthralgia Chikungunya fever Chikungunya virus Coinfection COVID-19 Cross-Sectional studies Dengue Fever Humans Immunoglobulin M Peru SARS-CoV-2 Zika virus infection
426	Evaluation of the immunogenicity of SARS-CoV-2 B cell epitopes Hogander, Sofia January 2022 (has links) Background: The COVID-19 pandemic is caused by the SARS-CoV-2 virus, which enter the host cells through interactions between the receptor-binding domain (RBD) on the S-protein and the ACE-2 receptor on the host cell. A novel type of vaccine strategy is peptide vaccines, with great potential as a faster and more selective approach to conventional vaccine development. This study focuses on the possibility of generating an antibody response through synthetic peptides harboring B cell epitopes. Aim: This project aims to investigate the potential of immunogenic peptides to generate an antibody response when used as synthetically produced peptides. As proof-of-concept, the project studies the interactions between previously identified monoclonal antibodies with defined B cell epitopes and the corresponding peptide sequences. Method: The interactions are evaluated by different ELISA experiments. The candidate peptides are additionally investigated on their binding to polyclonal serum with established S reactive antibodies. Furthermore, the project includes synthesis of one peptide by solid phase peptide synthesis. Results: The ELISA experiments presented no interaction between the synthetic peptides and the monoclonal antibodies or human sera. Conclusion: The project fulfilled its aim to study the interaction between the B cell epitopes and the monoclonal antibodies. However, no binding was observed. Despite the many advantages in production and stability, development of B cell epitope vaccines come with many challenges. Future will entail if synthetic peptides harboring B cell epitopes can be used as vaccines, or if peptide vaccines will be a focus when a T cell response is to be induced. SARS-CoV-2 peptide vaccine B cell epitope ELISA solid phase peptide synthesis Immunology in the medical area Immunologi inom det medicinska området
427	The role of fatty acid synthase in viral replication Karthigeyan, Krithika Priyadarshini January 2021 (has links) No description available. Microbiology Virology Fatty acid synthase HIV-1 SARS-CoV-2 Influenza N-myristoylation fatty acylation IFITM3 HIV-1 Gag Fasnall
428	Fabrication of LSPR-Based Multiplexed and High-throughput Biosensor Platforms for Cancer and SARS-CoV-2 Diagnosis Adrianna Nichole Masterson (12406681) 12 April 2022 (has links) <p> </p> <p>Designing and developing a diagnostic technology that is capable of highly sensitive and specific, multiplexed, high-throughput, and quantitative biomarker assays for disease diagnosis and progression is of the upmost importance in modern medicine and patient care. Current diagnostic assays capable of multiplexed and high-throughput analysis include mass spectrometry, electrochemistry, polymerase chain reaction (PCR), and fluorescence-based techniques, however, these techniques suffer from a lack in sensitivity, false responses, or extensive sample processing that are detrimental to clinical diagnostics. To overcome these sensitivity challenges, the field of nanoplasmonics has become utilized when developing diagnostic assays. Plasmonic-based diagnostic tests utilize the unique optical, chemical, and physical property of nanoparticles to increase the sensitivity of the assay. In this dissertation, novel diagnostic platforms that utilize nanoparticles and their localized surface plasmon resonance (LSPR) property will be introduced. LSPR is an optical property in noble metallic nanoparticles that is referred to as the collective oscillation of free electrons upon light irradiation. It is highly dependent on the shape, size, and dielectric constant (refractive index) of the surrounding medium of the nanoparticle and LSPR sensing is based on a change in these properties. In this dissertation, the LSPR property is utilized to fabricate nanoplasmonic-based diagnostic platforms that are capable of multiplexed and high-throughput biomarker assays, with high sensitivity and specificity. The work presented in this dissertation is presented as six chapters, (1) Introduction. (2) Methods, (3) Fabrication of a LSPR-based multiplexed and high-throughput biosensor platform and its application in performing microRNA assays for the diagnosis of bladder cancer. In this chapter, the advancement of single-plex solid state LSPR-based biosensors into a multiplexed and high-throughput diagnostic biosensor platform is reported for the first time. The diagnostic biosensor platform is first fabricated utilizing different gold nanoparticles (spherical nanoparticles, nanorods, and triangular nanoprisms), and then with the gold triangular nanoprisms as the nanoparticle of choice, microRNA assays were performed. The developed biosensor platform is capable of assaying five different types of microRNAs simultaneously at an attomolar limit of detection. Additionally, five microRNA were assayed in 20-bladder cancer patient plasma samples. (4) Development/optimization of the biosensor platform presented in Chapter 3 for the detection of COVID-19 biomarkers. In this chapter, the biosensor platform utilized in Chapter 3 was designed to assay 10 different COVID-19 specific biomarkers from three classes (six viral nucleic acid gene sequences, two spike protein subunits, and two antibodies) with limit of detections in the attomolar range and with high specificity. The high-throughput capability of the biosensor platform was advanced, with the platform performing analysis of a single biomarker in 92 patient samples simultaneously. Additionally, the biomarker platform was utilized to assay all 10 biomarkers in a total of 80 COVID-19 patient samples. (5) Further optimization of the biosensor platform for the development of a highly specific antibody detection test for COVID-19. During the COVID-19 pandemic, knowledge was gained on the specificity of antibodies produced against COVID-19. In this chapter, that knowledge was applied towards the optimization of the biosensor platform presented in Chapter 4 in order to assay SARS-CoV-2 neutralizing antibody IgG. The optimization of the biosensor platform included the size of the gold triangular nanoprisms and the receptor molecule of choice. The biosensor platform assayed this highly specific COVID-19 IgG antibody with a limit of detection as low as 30.0 attomolar with high specificity and no cross reactivity. Additionally, as a proof of concept, the biosensor platform was utilized in a high-throughput format to assay SARS-CoV-2 IgG in a large cohort of 121 COVID-19 patient samples simultaneously. (6) Advancement of the biosensor platform from a 96-well plate to a 384-well plate and its application in assaying microRNA for early diagnosis of pancreatic cancer. In this chapter, the high-throughput capabilities of the biosensor platform presented in Chapters 3-5 was expanded by increasing the sensor amount in one platform from 92 to 359. The 384-well plate biosensor platform was designed, optimized, and utilized to perform microRNA assays for early-stage pancreatic cancer diagnosis. The optimization of the biosensor platform included the manipulation of LSPR-based parameters and the -ssDNA receptor molecule in order to obtain low limit of detections (high sensitivity). Additionally, the biosensor platform assayed two microRNA in a large cohort (n=110) of pancreatic cancer and chronic pancreatitis patient samples. </p> LSPR cancer nanoparticles COVID-19 SARS-CoV-2 biosensor multiplex assay high-throughput assay
429	Den förändrade användningen av allmänna platser under Covid-19-pandemin : En studie om hur samtida stadsutvecklingsprojekt fungerar i kristider / The changing use of public places during the Covid-19-pandemic : A study of contemporary development projects and how they operate in times of crisis Söderqvist, Alice, Billberg, Johanna January 2021 (has links) Det har gått över ett år sedan viruset Covid-19 klassificerades som en pandemi i världen. Händelsen har förändrat vårt sätt att leva, på ett sätt som vi inte hade en aning om innan. Restriktioner, rekommendationer och nya lagändringar har abrupt implementerats i samhället. Genom att stanna hemma från vardagliga aktiviteter som skola och jobb, liksom att begränsa antalet personer i sin närhet, skulle sociala möten minska och viruset därmed hämmas. Viruset finns dock fortfarande omkring oss och vi fortsätter att anpassa oss. Syftet med studien är att undersöka hur behovet av offentliga platser har förändrats under covid-19-pandemin och om dessa behov möts av stadsutformningen i Stockholm. Vidare undersöks om det är möjligt att skapa en tät stadsbebyggelse som främjar social hållbarhet och som fungerar i kristider. Stadsplaneringsideal förändras över tid och i detta nu ligger betoningen på mångfald, hållbarhet och stadsmässighet. Områdena Hammarby Sjöstad, Norra Djurgårdsstaden och Liljeholmskajen i Stockholm ligger till grund för undersökningen eftersom dessa är uppförda under samma tid och präglas av liknande stadsplaneringsideal. Metoden som har använts i studien utgörs av enkäter, en kvalitativ områdesanalys och intervjuer med boende i respektive område. Studien visar att varken de nationella rekommendationerna eller stadens egna visioner för utformning av nya stadsbyggnadsprojekt har beaktats någon högre grad i de undersökta områdena. Låg prioritering av grönområden och parker är ett exempel, ytor för barn är ett annat, vilket framkommer av de kvalitativa områdesanalyserna. Enkätresultatet från områdesundersökningen stöder tidigare studier som visar att människor använder rekreationsområden, som parker och grönområden, i större utsträckning under pandemin. Utbudet av service i närområdet verkar också spela en större roll under pandemin. En slutsats är att den upplevda tätheten bör prioriteras i stadsplaneringen för att skapa socialt hållbara stadsmiljöer. Genom att inkludera multifunktionalitet i formandet av allmänna platser tror vi att temporära samhällsförändringar och krav lättare kan mötas. / It has been over a year since the cov-sars-19 virus was categorised as a pandemic across the world. It has changed our way of living in a way we did not see coming. Restrictions, recommendations and laws were rapidly introduced in society. By staying home from everyday activities such as school and work, as well as reducing the amount of people one meets, gatherings would be reduced, and the virus could be fought. Yet, we are still trying to adapt. The aim of this study is to analyse the new needs of public spaces during the pandemic and whether the built environment in Stockholm meets those expectations. Further, it seeks to examine whether it is possible to create an urban agglomeration while focusing on a socially sustainable environment that would also be suitable during times of crisis. City planning changes over time and forms new ideals and principles. Currently, diversity, sustainability, and urbanity are important ways of thinking about city planning. Therefore, this study has focused on three areas in Stockholm: Hammarby Sjöstad, The Stockholm Royal Seaport, and Liljeholmskajen. Those areas are all the result of the same way of planning. The methods used in this study are questionnaires for each area, as well as a qualitative analysis and interviews. Despite the existence of national recommendations and visions for planning new urban areas, it appears that there is a difference in how they have been taken into consideration for the areas in this study. Between the areas, there is an obvious difference in the implementation of green areas, playgrounds, and parks, among other things. This observation emerges from the results of the questionnaires, as well as from the theory. A distinct pattern of much greater use by residents of recreational areas such as parks and other green spaces than before the pandemic can also be observed. This is a result of needing spaces in the city where distancing is possible. The neighborhood and its supply of services tends to play a bigger role during the pandemic. The study concludes that to be able to create socially sustainable environments, it is important to focus on the perceived density in city planning. By incorporating multifunctionality in the form of public spaces, we believe temporary changes and demands can more easily be met. Stadsplanering täthet urban design Covid-19-pandemin social hållbarhet kris barn i planeringen cov-sars-19 Other Social Sciences Annan samhällsvetenskap
430	Studies of broad-spectrum inhibitors against main protease of SARS-CoV-2 and other Coronaviruses Stanciu, Alexandra January 2023 (has links) Coronaviruses have caused three large outbreaks in the past century. The most recent one, also still ongoing, is represented by the SARS-CoV-2/Covid-19 pandemic. Efforts have been taken to develop efficient vaccines and antivirals and one of the major virus-based targets in drug development is represented by the main protease of these viruses. Main proteases are proteins (cysteine hydrolases) with high level of conservation among different coronaviruses and have an important role in the virus life cycle. Due to the need of developing broad-spectrum antivirals against Coronaviruses, this study aimed to set up a CPE-based assay for testing compounds against the main protease of human coronavirus 229E. An optimized TCID50 protocol was established by using MRC-5 cells, at a density of 1x104 cells/ml with a 3h incubation prior infection with a concentration of 10-1 of HCoV-229E. The cell viability was assessed through MTT assay. Using reference compounds, with previously demonstrated antiviral potency against the main protease of different coronaviruses (GC-376, Nirmatrelvir), the efficiency of the conceived assay was validated (GC-376 EC50 = 1.24 μM; Nirmatrelvir Ec50= 0.72 μM). Compound 19 was proved to also be active against the main protease of HCoV-229E (EC50 = 0.22 μM), and together with previous findings, it was concluded that this compound has a broad-spectrum activity. Newly developed compounds MP17 and MP19 were also demonstrated to be efficient against HCoV-229E. As a future perspective, further investigations of these compounds should take place for the identification of EC50 values. human coronavirus 229E SARS-CoV-2 main protease nirmatrelvir GC-376 compound 19 Infectious Medicine Infektionsmedicin Medical and Health Sciences Medicin och hälsovetenskap Microbiology Mikrobiologi

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