Incidence and sero-surveillance of feline viruses in Korean cats residing in Gyeonggi-do

Incidences of major feline viral diseases provide basic information for preventing viral disease in cats. Despite the growing interest in feline viral diseases, sero-surveillances have been lacking. In this study, we analyzed the diagnoses of feline viral diseases and conducted a sero surveillance of feline panleukopenia virus (FPV), feline calicivirus (FCV), feline herpesvirus-1 (FHV-1), and feline infectious peritonitis virus (FIPV) in Korean cats. Of the 204 confirmed cases since 2015, the numbers of diagnoses for FPV, FIPV, FCV, feline influenza virus, and FHV-1 were 156, 32, 12, 3, and 1 case, respectively. In total, 200 sera, collected between 2019 and 2021, were screened for the presence of antibodies against FPV, 2 FCVs, FHV-1, and FIPV using a hemagglutination inhibition test and a virus-neutralizing assay (VNA). The overall seropositive rates in cats tested for FPV, the 2 FCVs, FHV-1, and FIPV were 92.5%. 42.0%, 37.0%, 52.0%, and 14.0%, respectively. A low correlation (r = 0.466) was detected between the VNA titers of 2 FCV strains. The highest incidence and seropositive rate of FPV reveal that FPV is circulating in Korean cats. The low r-value between 2 FCVs suggests that a new feline vaccine containing the 2 kinds of FCVs is required.

Preparation and identification of broad-spectrum monoclonal antibodies against N protein of avian infectious bronchitis virus

[Objective] To prepare broad-spectrum monoclonal antibody against N protein of avian infectious bronchitis virus (IBV), so as to lay a foundation for identifying conservative domain epitope of N protein and establish a universal IBV detection method. [Method] N protein of GX-YL5, a representative strain of IBV dominant serotype in Guangxi, was expressed in prokaryote. BALB/c mice were immunized with the purified protein. After the serum titer of the immunized mice reached 104 or more, the splenocytes were fused with SP2/0 myeloma cells. After screening by indirect ELISA, monoclonal antibody was prepared by ascites-induced method. Western blotting, IFA and indirect ELISA were used to identify the titer, subtype, reaction specificity and cross-reaction spectrum. And the prepared monoclonal antibody was used for immunohistochemical detection. And the prepared monoclonal antibody was used to detect the IBV in the trachea and kidney tissues of SPF chickens artificially infected with 4 representative IBV variants (GX-N130048, GX-N160421, GX-QZ171023 and GX-QZ170728). [Result] The prepared monoclonal antibody N2D5 had a titer greater than 217 and its subtype was IgG2b. The Western blotting and IFA results showed that the monoclonal antibody N2D5 only reacted with IBV, and were negative with Newcastle disease virus (NDV), infectious laryngotracheitis virus (ILTV), avian metapneumovirus (aMPV), infectious bursal disease virus (IBDV), avian leukosis virus (ALV) and Marek's disease virus (MDV). Monoclonal antibody N2D5 reacted with many genotypes in China and all 7 serotypes of IBV currently prevalent in Guangxi, including commonly used standard strains, vaccine strains and field strains. Immunohistochemistry showed that the virus signals could be detected in the trachea and kidney tissues of SPF chickens at different time after artificial infection of 3 representative IBV strains from chicken and 1 isolated strain from duck, which further proved its broad spectrum. [Conclusion] The monoclonal antibody N2D5 of IBV prepared based on hybridoma technology belongs to the IgG2b subtype. It has the characteristics of high specificity, wide response spectrum and strong binding ability with IBV. It can be used as a specific diagnostic antibody for clinical diagnosis of IBV and the study of virus distribution.

Truncated expression of S1 protein of Feline infectious peritonitis virus and preparation of its monoclonal antibody

In order to develop monoclonal antibody against Feline infectious peritonitis virus (FIPV) S1 protein, the truncated S1 protein (rS1) was expressed through Escherichia coli and subsequently purified. Then BALB/c mice were immunized with purified rSl. Three hybridoma cell strains, named 2D7,3D8 and 5G1, stably secreting antibodies against rSl were obtained by cell fusion and indirect ELISA screening. The identification of antibody subtype showed that antibody subtypes of 2D7,5G1 and 3d8 strains were IgG2a,IgG2a and IgGl,respectively. And the light chain of those three hybridoma cell strains was Kappa. Result of karyotype identification of hybridoma cells showed that the chromosome numbers of those three hybridoma cells were about 102,101 and 103, which was belonged to the karyotype of hybridoma. The titer of ascites antibody for indirect ELISA was 1 : 204 800, and monoclonal antibodies were purified. Moreover, all of 2D7,3D8 and 5G1 could react with rS1 by Western-blot and FIPV in cells by IFA. These data suggest that three monoclonal antibodies against rSl with good activities were ideal materials in the study of early diagnosis of FIPV and the biological function of FIPV in the future.

Differentiating infectious from non-infectious respiratory disease in the cat and dog

This paper describes the clinical signs and use of differential laboratory diagnostic techniques (computed tomography, cytology, histopathology, antigen/antibody detection and polymerase chain reaction) for infectious (viral, bacterial, fungal and parasitic) and non-infectious (inflammatory/immune mediated, neoplastic, cardiac, malformation, foreign body, smoke inhalation, aspiration of caustic material, non-cardiogenic, pulmonary oedema, traumativ, pneumothorax, pulmonary contusions and idiopathic) causes of respiratory diseases in cats and dogs in Ontario, Canada.

Effectiveness of rapid immunochromatographic tests to the detection of feline Coronavirus

Feline coronavirus (FCoV) belongs among pathogens with common occurrence in the cats population in the whole world. FCoV is ubiquitous in environments with a higher concentration of cats, e.g. in shelters, multicat households and kennels. FCoV primarily attacks the digestive feline tract, replicates in its cells and is excreted in the feces to surroundings of permanently or transiently infected cats. The aim of the study was the detection of FCoV in the feces of newly admitted cats to the shelter by the qPCR method and by means of commercial rapid immunochromatographic (antigen) tests from three different producers. For each of the antigen tests, sensitivity and specifity were determined by comparison with the qPCR analysis result. Out of 70 examined fecal samples, viral RNA was by the qPCR analysis identified in 44 samples (62.9%). Neither the age nor the gender of cats played a significant role in the viral excretion. Found sensitivity of the antigen tests was at a low (< 35%;tests A and C) to a satisfactory level (> 50%, test B). The number of viral particles in the samples determined by the qPCR method did not correlate significantly with the result of the antigen tests. The results of this study suggest that the use of rapid antigen tests for routine screening of FCoV shedding in feline shelters is limited due to the high rate of false-negative results.

Q Fever Severe Pericarditis With Cardiac Tamponade: A Case Report.

Q fever can present in acute or chronic form with a wide range of clinical symptoms and presentations. Here we report severe pericarditis with cardiac tamponade due to a chronic Coxiella burnetii (C. burnetii) infection. Our report emphasizes and justifies the importance of serological testing for chronic Q fever in patients with unexplained pericarditis, particularly in areas where C. burnetii is endemic.

First description of congenital toxoplasmosis after maternal coinfection with Toxoplasma gondii and severe acute respiratory syndrome coronavirus 2: a case report.

BACKGROUND: Congenital toxoplasmosis can be associated with serious clinical consequences from fetus to adulthood. Hence, early detection is required to minimize severe sequelae through appropriate therapy. We describe the first case of a congenital toxoplasmosis after maternal coinfection with Toxoplasma gondii and severe acute respiratory syndrome coronavirus 2 and the challenging serological diagnosis of the disease in this context. CASE PRESENTATION: A Caucasian boy was born at 27 weeks 2 days of gestation by cesarean section due to maternal COVID-19-related respiratory failure. Postpartum serological screening of the mother revealed a previously unrecognized active Toxoplasma gondii infection. The premature child initially tested negative for anti- Toxoplasma gondii immunoglobulin A and M antibodies 1, 2 and 4 weeks after birth, whereas immunoglobulin G antibodies were only weakly positive with no evidence of child-specific production. Neither neurological nor ophthalmological abnormalities were detected. Approximately 3 months after birth, serological testing indicated a congenital toxoplasmosis by presence of immunoglobulin A and M, in combination with a child-specific immunoglobulin G synthesis. Additionally, cerebrospinal fluid was tested positive for Toxoplasma gondii DNA. Although no clinical manifestations of congenital toxoplasmosis were detected, an antiparasitic therapy was initiated to minimize the risk of late sequelae. There were no hints for a transplacental transmission of severe acute respiratory syndrome coronavirus 2. CONCLUSION: This case raises the awareness of possible coinfections with the risk of transplacental transmission in cases of maternal coronavirus disease 2019. The report emphasizes the need for screening vulnerable patients for toxoplasmosis in general and especially in the context of pregnancy. It becomes evident that prematurity can complicate the serological diagnosis of congenital toxoplasmosis due to a delayed antibody response. Repeated testing is recommended to carefully monitor children at risk and especially those with a history of preterm birth.

Electrochemical Immunosensors Based on Zinc Oxide Nanorods for Detection of Antibodies Against SARS-CoV-2 Spike Protein in Convalescent and Vaccinated Individuals

Even after over 2 years of the COVID-19 pandemic, research on rapid, inexpensive, and accurate tests remains essential for controlling and avoiding the global spread of SARS-CoV-2 across the planet during a potential reappearance in future global waves or regional outbreaks. Assessment of serological responses for COVID-19 can be beneficial for population-level surveillance purposes, supporting the development of novel vaccines and evaluating the efficacy of different immunization programs. This can be especially relevant for broadly used inactivated whole virus vaccines, such as CoronaVac, which produced lower titers of neutralizing antibodies. and showed lower efficacy for specific groups such as the elderly and immunocompromised. We developed an impedimetric biosensor based on the immobilization of SARS-CoV-2 recombinant trimeric spike protein (S protein) on zinc oxide nanorod (ZnONR)-modified fluorine-doped tin oxide substrates for COVID-19 serology testing. Due to electrostatic interactions, the negatively charged S protein was immobilized via physical adsorption. The electrochemical response of the immunosensor was measured at each modification step and characterized by scanning electron microscopy and electrochemical techniques. We successfully evaluated the applicability of the modified ZnONR electrodes using serum samples from COVID-19 convalescent individuals, CoronaVac-vaccinated with or without positive results for SARS-CoV-2 infection, and pre-pandemic samples from healthy volunteers as controls. ELISA for IgG anti-SARS-CoV-2 spike protein was performed for comparison, and ELISA for IgG anti-RBDs of seasonal coronavirus (HCoVs) was used to test the specificity of immunosensor detection. No cross-reactivity with HCoVs was detected using the ZnONR immunosensor, and more interestingly, the sensor presented higher sensitivity when compared to negative ELISA results. The results demonstrate that the ZnONRs/spike-modified electrode displayed sensitive results for convalescents and vaccinated samples and shows excellent potential as a tool for the population's assessment and monitoring of seroconversion and seroprevalence.

Testing for SARS-COV-2: Molecular and Serological Diagnosis

The coronavirus 2 (SARS-CoV-2) epidemics and accompanying illness (COVID-19) have reached global proportions, putting additional strain on healthcare systems to contain and manage COVID-19. To curb the spread of virus, improvements in diagnosis is needed along with mass screening of a large proportion of population. Search for viral RNA in upper and lower respiratory airways using RT-PCR methods are on-going which will be used to make a molecular diagnosis of SARS-CoV-2 infection and illness. Serological testing for viral antibodies could aid healthcare personnel in supporting COVID-19 diagnosis and follow-up, as well as population screening. First step is to collect the specimen as early as patient come. Site of collection of swabs should be anatomically appropriate for accurate result of test. Main diagnostic test is molecular test that is RTPCR in initial stage whereas supportive test is serological test. CoV-2 is made up of single-strand ribonucleic acid (ssRNA) along with a positive sense strand which is enveloped. Patients with comorbid diseases such as diabetes, cancer, hypertension, malnutrition, old age, children, and pregnancy have severe infection and a high mortality rate. Most appropriate and frequently used test for diagnosing COVID-19 is RTPCR. It makes use of TaqMan fluorogenic probe-based chemistry and Taq DNA polymerase's 5'-nuclease activity. Early discovery, diagnosis, isolation, and treatment are the most efficient methods for prevention and control of COVID-19. Both clinical and preclinical knowledge is important for fighting COVID-19 like pathology, microbiology and other detection techniques required for molecular diagnosis and improving ability of early diagnosis.

Establishment of ELISA for detecting porcine epidemic diarrhea virus specific SIgA in mucus

The aim of this study is to establish an indirect ELISA technique for detecting the SIgA antibody against porcine epidemic diarrhea virus (PEDV) to evaluate its mucosal immunity. Firstly, the S1D gene (534-789 aa) of PEDV was cloned into the pET-28a(+) vector, and induced in Escherichia coli BL21 (DE3) by IPTG, the product of which was in the form of inclusion bodies. According to Western-blot, the target protein S1D with antigenic activity was 32 ku in molecular weight and could be well detected. Then, the S1D protein was denatured by 8 mol/L urea, purified and gradient as the coating antigen to establish an indirect ELISA for detecting the PEDV specific SIgA antibody in nasal or oral mucus by optimizing conditions. And the optimal antigen coating concentration of ELISA was 2 micro g mL, the working concentrations of nasal mucus was 1:1 and the optimal blocking solution was 50 g/L skimmed milk, while the working concentrations and optimal blocking solution were 1:2 and 30 g/L BSA in oral mucus, the working concentrations of the enzyme-labeled antibody was 1:2 000 in nasal and oral mucus. Finally, 84 samples of oral and nasal mucus from immunized pigs were detected by S1D of ELISA, and the coincidence rate could reach 95.2% compared with purified PEDV of ELISA. In conclusion, the indirect ELISA established in this study provided a quick, simple, sensitive, and specific method to detect PEDV specific SigA for evaluating the level of PEDV mucosal immunity.

Establishment and preliminary application of an indirect ELISA based on S1 protein of porcine epidemic diarrhea virus

The recombinant expression plasmid pIRES-S1 was constructed according to the gene sequence of PEDV S1 in NCBI (GenBank:JQ517274). The plasmid pIRES-S1 was transfected into ST cells by electrotransfer. After G418 pressurization screening, western-blot detection and suspension domestication, a stable transduction cell pool expressing S1 protein was obtained. The results of Western-blot showed that S1 protein have good reactivity. An indirect ELISA was established by using S1 protein as coating antigen, and the ELISA was used to detect PEDV clinical serum and PEDV negative serum of imported breeder pigs. Take the serum neutralization test as the standard, the results showed that the sensitivity of the ELISA was 96.3% and the specificity was 97.7%.It was significantly consistent with the serum neutralization test (kappa value=0.882, P < 0.05). The ELISA was used to detect the tracking serum of PEDV back-feeding pigs. The results showed that it could accurately evaluate the growth and decline of PEDV Ig G antibody level in infected pigs. Our results suggested that the ELISA based on S1 protein established in this study has high sensitivity and specificity. It could be used to detect PEDV antibody in clinical serum samples and provide an effective basis for immune evaluation of PEDV in pigs.

Preparation of monoclonal antibody against N protein of Porcine epidemic diarrhea virus and establishment of indirect immuno-fluorescence assay

Objective: To prepare monoclonal antibodies against porcine epidemic diarrhea virus (PEDV) N protein, and develop an indirect immuno-fluorescence assay method used for detecting PEDV. Method: The expressed recombinantly PEDV N protein was used as an immunogen and 8-week-old female BALB/c mice were immunized. Then their spleen cells with high antibody titer were isolated and fused with SP2/0 cells. The hybridoma cell lines secreting monoclonal antibodies against PEDV N protein were screened. In Vero cells infected with PEDV, monoclonal antibody of anti-PEDV N protein was used as the primary antibody and FITC-goat-anti-mouse IgG was used as the secondary antibody to develop indirect immuno-fluorescence assay method used for detecting PEDV. Result: The prepared hybridoma cell lines could stably secrete anti-PEDV N protein antibodies, ELISA antibody titer in cell supernatant was above 1:3 200, and in mouse ascites above 1:1 000 000. While monoclonal antibodies were applied in established indirect immuno-fluorescence assay, the optimal conditions were that cells were fixed with 80% () acetone at -20 degrees C for 30 min;The primary antibody was diluted 1 000 times by PBS buffer solution and incubated at 4 degrees C overnight;The secondary antibody was diluted 100 times by PBS buffer solution and incubated at 37 degrees C for 1 h. Transmissible gastroenteritis virus (TGEV), classical swine fever virus (CSFV), porcine reproductive and respiratory syndrome virus (PRRSV), porcine reproductive virus (PRV), porcine enteric a corone virus (PEAV), porcine rotavirus (PoRV) and PEDV were detected by established indirect immuno-fluorescence assay method, only PEDV showed positive, all the else viruses showed negative.

Middle East Respiratory Syndrome (MERS) in an adult dromedary camel: short communication

MERS-CoV was isolated from nasal swabs for 10 days from an adult female camel which displayed clear nasal discharge from both nostrils. When MERS-CoV ELISA antibodies appeared in the camel's blood, the virus was no longer present in its nasal cavities.

Evaluation of immunochromatographic point-of-care tests for the detection of calf diarrhoea pathogens in faecal samples

We have evaluated the diagnostic performance of immunochromatographic point-of-care tests (POCT) for the detection of rotavirus, coronavirus, Escherichia (E.) coli F5, Cryptosporidium (C.) parvum, Clostridium (Cl.) perfringens and Giardia (G.) intestinalis in fresh and thawed faecal samples from calves aged up to six months with diarrhoea. We performed POCTs to detect rotavirus, coronavirus, E. coli F5, C. parvum, Cl. perfringens and G. intestinalis on fresh samples in a field study and re-evaluated the performance for C. parvum, Cl. perfringens and G. intestinalis using thawed samples. We calculated the performance based on the results of the reference methods, which were RT-qPCR for the detection of rota- and coronavirus and bacteriological culturing and PCR to detect E. coli F5 and Cl. perfringens a and ss2 toxins. C. parvum was detected by phase-contrast microscopy and G. intestinalis by immunofluorescence microscopy. We collected 177 faecal samples from diarrhoeic calves. We found good performance for the POCT targeting rotavirus (sensitivity (SE)=92.9%;specificity (SP)=95.6%) and C. parvum (SE=63.3%;SP=96.2%). For E. coli F5, the number of true positive samples (n=1) was too low to evaluate the performance. The POCT to detect coronavirus gave a poor performance (SE=3.3%;SP=96.6%) and the POCT to detect Cl. perfringens a moderate performance (SE=52.8%;SP=78.2%). G. intestinalis POCT showed a higher sensitivity to immunofluorescence microscopy in thawed than in fresh faecal samples (SE=43.9% versus SE=29.2%). There are substantial differences in diagnostic performance between the commercially available immunochromatographic POCTs. Still, POCT can make a valuable contribution to the diagnosis and prevention of calf diarrhoea.

Electrochemical Immunosensors Based on Zinc Oxide Nanorods for Detection of Antibodies Against SARS-CoV-2 Spike Protein in Convalescent and Vaccinated Individuals.

Even after over 2 years of the COVID-19 pandemic, research on rapid, inexpensive, and accurate tests remains essential for controlling and avoiding the global spread of SARS-CoV-2 across the planet during a potential reappearance in future global waves or regional outbreaks. Assessment of serological responses for COVID-19 can be beneficial for population-level surveillance purposes, supporting the development of novel vaccines and evaluating the efficacy of different immunization programs. This can be especially relevant for broadly used inactivated whole virus vaccines, such as CoronaVac, which produced lower titers of neutralizing antibodies. and showed lower efficacy for specific groups such as the elderly and immunocompromised. We developed an impedimetric biosensor based on the immobilization of SARS-CoV-2 recombinant trimeric spike protein (S protein) on zinc oxide nanorod (ZnONR)-modified fluorine-doped tin oxide substrates for COVID-19 serology testing. Due to electrostatic interactions, the negatively charged S protein was immobilized via physical adsorption. The electrochemical response of the immunosensor was measured at each modification step and characterized by scanning electron microscopy and electrochemical techniques. We successfully evaluated the applicability of the modified ZnONR electrodes using serum samples from COVID-19 convalescent individuals, CoronaVac-vaccinated with or without positive results for SARS-CoV-2 infection, and pre-pandemic samples from healthy volunteers as controls. ELISA for IgG anti-SARS-CoV-2 spike protein was performed for comparison, and ELISA for IgG anti-RBDs of seasonal coronavirus (HCoVs) was used to test the specificity of immunosensor detection. No cross-reactivity with HCoVs was detected using the ZnONR immunosensor, and more interestingly, the sensor presented higher sensitivity when compared to negative ELISA results. The results demonstrate that the ZnONRs/spike-modified electrode displayed sensitive results for convalescents and vaccinated samples and shows excellent potential as a tool for the population's assessment and monitoring of seroconversion and seroprevalence.

Development and application of N-protein blocking ELISA for detecting porcine epidemic diarrhea virus antibodies

The purpose of this study is to establish a blocking ELISA antibodies detection method for porcine epidemic diarrhea virus (PEDV). The purified N protein was used as the coating antigen, and the ELISA reaction conditions were optimized by the chess rboard titration. A blocking ELISA method for detecting PEDV antibodies was established, and its specificity, sensitivity and repeatability tests were carried out. One hundred and forty clinical serum samples were tested, and the results were compared with commercially IDvet PEDV indirect ELISA antibodies detection kit. The results showed that the best antigen coating concentration was 625 ng.mL-1, and the best dilution ratio of serum was 1:1;The best dilution of the HRP-conjugated antibody working solution was 1:5 000;There was no cross-reaction with healthy pig serum and the positive sera of common pig disease pathogens, such as classical swine fever virus (CSFV), porcine reproductive and respiratory syndrome virus (PRRSV), porcine circovirus type 2 (PCV2), and transmissible gastroenteritis virus (TGEV). The sensitivity of PEDV positive serum was 1:16, which was equivalent to that of IDvet ELISA kit (titer 1:32). The coefficient of variation of within-run and between-run repeatability test is less than 10%, so it showed that the blocking ELISA established in this study had good repeatability and stability;the kappa value of detected 140 clinical porcine serum using this method was 0.87 when compared with IDvet ELISA. The above results indicated that the established blocking ELISA method for detecting PEDV antibodies in this study could be applied to the prevention and control of PEDV, epidemiological investigation and the monitoring of antibody levels after vaccine immunization.

Screening of B-cell epitope of porcine epidemic diarrhea virus S2 gene and preparation and identification of its monoclonal antibody

[Objective] To identify the B-cell epitope peptide of porcine epidemic diarrhea virus (PEDV) S2 gene by combinative use of bioinformatics software and monoclonal antibody technology. [Method] The B-cell epitope of PEDV S2 gene was screened using CLC Sequence viewer 6.8 software and IEDB online database, and the obtained epitope peptide was synthesized artificially. Female BALB/c mice were immunized with the conjugate of epitope peptide and keyhole hemocyanin (KLH) as antigen. Mice with higher antibody titers were identified by ELISA assay and then received an additional immunization. The spleen of the mice was taken 3 days post immunization to prepare the splenocyte suspension for cell fusion. The cells were grown on HAT selective medium to screen for effective hybridoma cells. The positive clones screened by ELISA assay were then used for expanding culture. Positive hybridoma cells were intraperitoneally injected to mice and ascites were collected. ELISA assay was used to determine the antibody titers in mice ascites and in the supernatants of monoclonal cell strains. The cells with the highest antibody titers was used as cell strain for subsequent use. [Result] The selected B-cell epitope peptide sequence was MQYVYTPTYYML Following immunization with the peptide antigen, the serum antibody titer before cell fusion reached 1:2 000. The ELISA assay of ascites from BALB/c mice and the supernatants from monoclonal cell strain cultures demostrated that the antibody liter reached 1:4 000. [Conclusion] The B-ell epitope of PEDV S2 gene was identified, which may be helpful for the vector construction of a epitope based peptide vaccine against PEDV.

Electrochemical Determination of Interaction between SARS-CoV-2 Spike Protein and Specific Antibodies.

The serologic diagnosis of coronavirus disease 2019 (COVID-19) and the evaluation of vaccination effectiveness are identified by the presence of antibodies specific to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). In this paper, we present the electrochemical-based biosensing technique for the detection of antibodies specific to the SARS-CoV-2 proteins. Recombinant SARS-CoV-2 spike proteins (rSpike) were immobilised on the surface of a gold electrode modified by a self-assembled monolayer (SAM). This modified electrode was used as a sensitive element for the detection of polyclonal mouse antibodies against the rSpike (anti-rSpike). Electrochemical impedance spectroscopy (EIS) was used to observe the formation of immunocomplexes while cyclic voltammetry (CV) was used for additional analysis of the surface modifications. It was revealed that the impedimetric method and the elaborate experimental conditions are appropriate for the further development of electrochemical biosensors for the serological diagnosis of COVID-19 and/or the confirmation of successful vaccination against SARS-CoV-2.

Seroprevalence of SARS-CoV-2 on health professionals via Bayesian estimation: a Brazilian case study before and after vaccines.

The increasing number of COVID-19 infections brought by the current pandemic has encouraged the scientific community to analyze the seroprevalence in populations to support health policies. In this context, accurate estimations of SARS-CoV-2 antibodies based on antibody tests metrics (e.g., specificity and sensitivity) and the study of population characteristics are essential. Here, we propose a Bayesian analysis using IgA and IgG antibody levels through multiple scenarios regarding data availability from different information sources to estimate the seroprevalence of health professionals in a Northeastern Brazilian city: no data available, data only related to the test performance, data from other regions. The study population comprises 432 subjects with more than 620 collections analyzed via IgA/IgG ELISA tests. We conducted the study in pre- and post-vaccination campaigns started in Brazil. We discuss the importance of aggregating available data from various sources to create informative prior knowledge. Considering prior information from the USA and Europe, the pre-vaccine seroprevalence means are 8.04% and 10.09% for IgG and 7.40% and 9.11% for IgA. For the post-vaccination campaign and considering local informative prior, the median is 84.83% for IgG, which confirms a sharp increase in the seroprevalence after vaccination. Additionally, stratification considering differences in sex, age (younger than 30 years, between 30 and 49 years, and older than 49 years), and presence of comorbidities are provided for all scenarios.