Isolation of porcine circovirus 3 using primary porcine bone marrow-derived cells.

Porcine circovirus 3 (PCV3) was first reported in the United States in 2016; this virus is considered to be involved in diverse pathologies, such as multisystem inflammation, porcine dermatitis and nephropathy syndrome, and reproductive disorders. However, successful isolation of PCV3 using cultured cells has been rare. In this study, we aimed to isolate PCV3 using primary porcine bone marrow-derived cells. Mononuclear cells were isolated from the femur bones of clinically healthy pigs. These primary cells were cultured for 6-10 days post-seeding and infected with PCV3-containing tissue homogenates. The cells were cultured for up to 37 days, and the culture medium was changed every 3-4 days. The growth curve of PCV3 in porcine bone marrow cells revealed a decline in growth during the first 10 days post-infection, followed by an increase leading to > 1010 genomic copies/mL of the cell culture supernatant; moreover, the virus was capable of passaging. The indirect fluorescent antibody assay for PCV3 infection revealed the presence of PCV3 capsid protein in the cytoplasm and nuclei of infected cells. Bone marrow cells were passaged for more than 20 generations (over 5 months), and PCV3 persistently infected the cells. PCV3-infected bone marrow cells expressed mesenchymal markers. These results reflect that primary porcine bone marrow-derived mesenchymal cells are permissive to PCV3 and continuously replicate a high copy number of the PCV3 genome. These findings regarding the high replication rate of PCV3 in bone marrow-derived mesenchymal cells could enhance our understanding of PCV3 pathogenicity.

Epizootic Hemorrhagic Disease Virus Titration.

The titration of viruses onto susceptible cell lines is an important virological technique used to quantify infectious viral titers. It forms an integral component of epizootic hemorrhagic disease virus (EHDV) research, including estimating infectivity, calculating multiplicity of infection, and confirming virus propagation in cell culture. However, the ability to quantify infectious EHDV is also critical for disease control, particularly in the event of an outbreak. Routine EHD diagnostics do not accurately quantify infectious virus, which would allow accurate prediction of the onward transmission risk, but instead are typically more qualitative in nature (e.g., virus isolation) or only quantify viral genome copies (e.g., real-time PCR) which often remain detectable long after infectious virus is cleared from the host.Infectious EHDV titers are typically quantified through the detection of visible cytopathic effect (CPE) in the monolayer of susceptible mammalian cell cultures. However, not all susceptible cell lines demonstrate visible CPE upon EHDV infection, including cell lines such as KC cells, which are derived from the EHDV biological insect vector, Culicoides sonorensis. This chapter presents a comprehensive method for the titration of EHDV-positive samples onto relevant, susceptible mammalian (Vero) and insect (KC) cell lines and describes alternative methods that can be used to visualize EHDV infection, by CPE or immunofluorescent labeling of viral proteins, to enable the calculation of infectious EHDV titers.

Virus Isolation of Epizootic Hemorrhagic Disease Virus in Cell Culture.

Virus isolation is used to assist in the diagnosis and confirmation of viral infections. Successful isolation of a virus is highly dependent upon the quality of starting material. Here we describe the preparation and isolation of epizootic hemorrhagic disease virus (EHDV) from blood and tissue samples in tissue culture flasks (TCFs) through the inoculation of susceptible cell lines including Vero, BHK, and KC cells.

Innovations in cell culture-based influenza vaccine manufacturing - from static cultures to high cell density cultivations.

Influenza remains a serious global health concern, causing significant morbidity and mortality each year. Vaccination is crucial to mitigate its impact, but requires rapid and efficient manufacturing strategies to handle timing and supply. Traditionally relying on egg-based production, the field has witnessed a paradigm shift toward cell culture-based methods offering enhanced flexibility, scalability, and process safety. This review provides a concise overview of available cell substrates and technological advancements. We summarize crucial steps toward process intensification - from roller bottle production to dynamic cultures on carriers and from suspension cultures in batch mode to high cell density perfusion using various cell retention devices. Moreover, we compare single-use and conventional systems and address challenges including defective interfering particles. Taken together, we describe the current state-of-the-art in cell culture-based influenza virus production to sustainably meet vaccine demands, guarantee a timely supply, and keep up with the challenges of seasonal epidemics and global pandemics.

Association of Symptoms and Viral Culture Positivity for SARS-CoV-2-Tennessee, April-July 2020.

BACKGROUND: Understanding how symptoms are associated with SARS-CoV-2 culture positivity is important for isolation and transmission control guidelines. METHODS: Individuals acutely infected with SARS-CoV-2 in Tennessee and their household contacts were recruited into a prospective study. All participants self-collected nasal swabs daily for 14 days and completed symptom diaries from the day of illness onset through day 14 postenrollment. Nasal specimens were tested for SARS-CoV-2 using RT-qPCR. Positive specimens with cycle threshold values < 40 were sent to the Centers for Disease Control and Prevention (CDC) for viral culture. First, we modeled the association between symptoms and the risk of culture positivity using an age-adjusted generalized additive model (GAM) accounting for repeated measurements within participants and a symptom-day spline. Next, we investigated how timing of symptom resolution was associated with the timing of culture resolution. RESULTS: In a GAM restricted to follow-up days after symptoms began, the odds of a specimen being culture positive was significantly increased on days when wheezing, loss of taste or smell, runny nose, nasal congestion, sore throat, fever, or any symptom were reported. For all symptoms except sore throat, it was more common for participants to have culture resolution before symptom resolution than for culture to resolve after or on the same day as symptom resolution. CONCLUSIONS: Overall, symptomatic individuals were more likely to be SARS-CoV-2 viral culture positive. For most symptoms, culture positivity was more likely to end before symptoms resolved. However, a proportion of individuals remained culture positive after symptom resolved, across all symptoms.

Guidelines for In Vitro Production and Quantification of Rift Valley Fever Virus.

Rift Valley fever virus (RVFV) is an arthropod-borne virus (arbovirus) responsible for a severe zoonotic disease affecting a wide range of domestic and wild ruminants as well as humans. RVFV is endemic in many African countries and has also caused outbreaks in Madagascar and Arabian Peninsula. With regard to its wide geographical distribution, its potential to emerge in a new area, and its capability to trigger major health and economic crisis, it is essential to study and better understand several aspects of its life cycle and, in particular, its interactions with mammalian hosts and arthropod vectors. To do so, it is key for researchers to be able to amplify in vitro viral strains isolated from the field and determine accurately the viral titers of RVFV stocks. In this chapter, we present protocols that can be easily implemented to produce and titrate RVFV stocks in your laboratory.

Development of an HSV-1 production process involving serum-reduced culturing and bead-to-bead transfer.

Herpes simplex virus type 1 (HSV-1) plays an important role in the field of gene therapy and viral vaccines, especially as an oncolytic virus. However, the mass production of HSV-1 viral vectors remains a challenge in the industry. In this study, a microcarrier-mediated serum-reduced medium culture was used to improve the bioprocess of HSV-1 production and increase HSV-1 yields. The composition of the culture media, which included a basal medium, serum concentration, and glutamine additive, was optimized. The process was successfully conducted in a 1 L bioreactor, and virus production was threefold greater than that of conventional processes with a 10% serum medium. The bead-to-bead transfer process was also developed to further increase scalability. In spinner flasks, the detachment rate increased from 49.4 to 80.6% when combined agitation was performed during digestion; the overall recovery proportion increased from 37.9 to 71.1% after the operational steps were optimized. Specifically, microcarrier loss was reduced during aspiration and transfer, and microcarriers and detached cells were separated with filters. Comparable cell growth was achieved with the baseline process using 2D culture as the inoculum by exchanging the subculture medium. To increase virus production after bead-to-bead transfer, critical parameters, including shear stress during digestion, TrypLE and EDTA concentrations in the subculture, and the CCI, were identified from 47 parameters via correlation analysis and principal component analysis. The optimized bead-to-bead transfer process achieved an average of 90.4% overall recovery and comparable virus production compared to that of the baseline process. This study is the first to report the optimization of HSV-1 production in Vero cells cultured on microcarriers in serum-reduced medium after bead-to-bead transfer. KEY POINTS: • An HSV-1 production process was developed that involves culturing in serum-reduced medium, and this process achieved threefold greater virus production than that of traditional processes. • An indirect bead-to-bead transfer process was developed with over 90% recovery yield in bioreactors. • HSV-1 production after bead-to-bead transfer was optimized and was comparable to that achieved with 2D culture as inoculum.

Optimization of the replication of hepatitis E virus genotype 3 in vitro.

AIMS: Hepatitis E virus (HEV) is responsible for ∼20 million human infections worldwide every year. The genotypes HEV-3 and HEV-4 are zoonotic and are responsible for most of the autochthonous HEV cases in high-income countries. There are several cell culture systems that allow for propagation of different HEV genotypes in vitro. One of these systems uses human lung carcinoma cells (A549), and was further optimized for propagation of HEV-3 47832c strain. In this study, we investigated the effect of different media supplements as well as microRNA-122 (miR-122) on improving the replication of HEV-3 47832c in A549 cells. METHODS AND RESULTS: We observed that supplementation of maintenance media with 5% fetal bovine serum was sufficient for efficient replication of HEV-3, and verified the positive effect of media supplementation with Amphotericin B, MgCl2, and dimethyl sulfoxide on replication of HEV-3. We have also demonstrated that adding miR-122 mimics to the culture media does not have any significant effect on the replication of HEV-3 47832c. CONCLUSIONS: Herein, we detected over a 6-fold increase in HEV-3 replication in A549/D3 cells by adding all three supplements: Amphotericin B, MgCl2, and dimethyl sulfoxide to the culture media, while demonstrating that miR-122 might not play a key role in replication of HEV-3 47832c.

T84 Monolayer Cell Cultures Support Productive HBoV and HSV-1 Replication and Enable In Vitro Co-Infection Studies.

Based on several clinical observations it was hypothesized that herpesviruses may influence the replication of human bocaviruses, the second known parvoviruses that have been confirmed as human pathogens. While several cell lines support the growth of HSV-1, HBoV-1 was exclusively cultivated on air-liquid interface cultures, the latter being a rather complicated, slow, and low throughput system. One of the cell lines are T84 cells, which are derived from the lung metastasis of a colorectal tumor. In this study, we provide evidence that T84 also supports HBoV replication when cultivated as monolayers, while simultaneously being permissive for HSV-1. The cell culture model thus would enable co-infection studies of both viruses and is worth being optimized for high throughput studies with HBoV-1. Additionally, the study provides evidence for a supporting effect of HSV-1 on the replication and packaging of HBoV-1 progeny DNA into DNase-resistant viral particles.

A Single-Step Method for Harvesting Influenza Viral Particles from MDCK Cell Culture Supernatant with High Yield and Effective Impurity Removal.

Influenza vaccines, which are recommended by the World Health Organization (WHO), are the most effective preventive measure against influenza virus infection. Madin-Darby canine kidney (MDCK) cell culture is an emerging technology used to produce influenza vaccines. One challenge when purifying influenza vaccines using this cell culture system is to efficiently remove impurities, especially host cell double-stranded DNA (dsDNA) and host cell proteins (HCPs), for safety assurance. In this study, we optimized ion-exchange chromatography methods to harvest influenza viruses from an MDCK cell culture broth, the first step in influenza vaccine purification. Bind/elute was chosen as the mode of operation for simplicity. The anion-exchange Q chromatography method was able to efficiently remove dsDNA and HCPs, but the recovery rate for influenza viruses was low. However, the cation-exchange SP process was able to simultaneously achieve high dsDNA and HCP removal and high influenza virus recovery. For the SP process to work, the clarified cell culture broth needed to be diluted to reduce its ionic strength, and the optimal dilution rate was determined to be 1:2 with purified water. The SP process yielded a virus recovery rate exceeding 90%, as measured using a hemagglutination units (HAUs) assay, with removal efficiencies over 97% for HCPs and over 99% for dsDNA. Furthermore, the general applicability of the SP chromatography method was demonstrated with seven strains of influenza viruses recommended for seasonal influenza vaccine production, including H1N1, H3N2, B (Victoria), and B (Yamagata) strains, indicating that the SP process could be utilized as a platform process. The SP process developed in this study showed four advantages: (1) simple operation, (2) a high recovery rate for influenza viruses, (3) a high removal rate for major impurities, and (4) general applicability.

In Vitro Modeling of Feline Morbillivirus Infections Using Primary Feline Kidney Cells.

Domestic cats are the natural host of feline morbilliviruses (FeMV). Although other species can also be infected (such as dogs and opossums), no laboratory animal infection model is established so far. In vitro models for studying the molecular pathogenesis are therefore needed. For this purpose, propagation and titration of FeMV are key techniques. Unlike other morbilliviruses, such as canine distemper virus (CDV) or measles virus (MV), FeMV is a slow growing virus in cell culture and is difficult to titrate using classical plaque techniques. Here we describe methods for the efficient isolation of FeMV from natural sources (e.g., urine), the propagation of viral stocks, and their titration. In addition, we establish the generation of a three-dimensional infection model mimicking the feline tubular epithelium.

Generation of stable suspension producer cell lines for serum-free lentivirus production.

The production of lentiviral vectors (LVs) pseudotyped with the vesicular stomatitis virus envelope glycoprotein (VSV-G) is limited by the associated cytotoxicity of the envelope and by the production methods used, such as transient transfection of adherent cell lines. In this study, we established stable suspension producer cell lines for scalable and serum-free LV production derived from two stable, inducible packaging cell lines, named GPRG and GPRTG. The established polyclonal producer cell lines produce self-inactivating (SIN) LVs carrying a WAS-T2A-GFP construct at an average infectious titer of up to 4.64 × 107 TU mL-1 in a semi-perfusion process in a shake flask and can be generated in less than two months. The derived monoclonal cell lines are functionally stable in continuous culture and produce an average infectious titer of up to 9.38 × 107 TU mL-1 in a semi-perfusion shake flask process. The producer clones are able to maintain a productivity of >1 × 107 TU mL-1 day-1 for up to 29 consecutive days in a non-optimized 5 L stirred-tank bioreactor perfusion process, representing a major milestone in the field of LV manufacturing. As the producer cell lines are based on an inducible Tet-off expression system, the established process allows LV production in the absence of inducers such as antibiotics. The purified LVs efficiently transduce human CD34+ cells, reducing the LV quantities required for gene and cell therapy applications.

Establishment of a new equine embryo brain primary cell culture with long-term expansion.

Primary cell cultures derived from human embryo lung play a crucial role in virology by aiding virus propagation and vaccine development. These cultures exhibit a notable ability to undergo multiple subcultures, often reaching up to 70 passages. However, finding alternative primary cell cultures with similar longevity and usefulness is challenging. In this study, we introduce a novel primary culture cells derived from equine embryo brain (FEB), which cells exhibited remarkable long-term cultivation potential. The FEB was established and maintained using Sumitomo Nerve-Cell Culture System Comparison studies were conducted with fetal equine kidney cell line (FEK-Tc13) to assess growth rates and subculture longevity. Immunological characterization was performed using neuronal markers to confirm the neural nature of FEB cells. Viral growth assessments were conducted using equine herpesviruses (EHV-1 and EHV-4) to evaluate infectivity and cytopathic effects in FEB cells. PCR analysis and real-time PCR assays were employed to detect viral genomic DNA and transcription activity of EHVs in infected FEB cells. FEB cells demonstrated faster growth rates compared to fetal equine kidney cell line (FEK-Tc13 cells) and exhibited sustained subculture capability exceeding 50 passages. Immunostaining confirmed the glial identity of FEB cells. Both equine herpesviruses 1 and 4 EHV-1 and EHV-4 viruses efficiently replicated in FEB cells, resulting in clear cytopathic effects. PCR analysis detected genomic DNA of EHVs in infected FEB cells, indicating successful viral infection. The establishment of FEB cells with extended subculture capability highlights their potential utility as a model system for studying neural cell biology and viral infections.

SARS-CoV-2 live virus culture and sample freeze-thaw stability.

The effect of freeze-thaw on SARS-CoV-2 viral viability is not well established. We isolated virus from 31 split clinical samples cultured fresh or after a 7- or 17/18-day freeze. We found that freeze-thaw did not significantly affect viral culture isolation. Therefore, frozen samples may be used to assess SARS-CoV-2 infectiousness.

Multivariate data analysis on multisensor measurement for inline process monitoring of adenovirus production in HEK293 cells.

In the era of Biopharma 4.0, process digitalization fundamentally requires accurate and timely monitoring of critical process parameters (CPPs) and quality attributes. Bioreactor systems are equipped with a variety of sensors to ensure process robustness and product quality. However, during the biphasic production of viral vectors or replication-competent viruses for gene and cell therapies and vaccination, current monitoring techniques relying on a single working sensor can be affected by the physiological state change of the cells due to infection/transduction/transfection step required to initiate production. To address this limitation, a multisensor (MS) monitoring system, which includes dual-wavelength fluorescence spectroscopy, dielectric signals, and a set of CPPs, such as oxygen uptake rate and pH control outputs, was employed to monitor the upstream process of adenovirus production in HEK293 cells in bioreactor. This system successfully identified characteristic responses to infection by comparing variations in these signals, and the correlation between signals and target critical variables was analyzed mechanistically and statistically. The predictive performance of several target CPPs using different multivariate data analysis (MVDA) methods on data from a single sensor/source or fused from multiple sensors were compared. An MS regression model can accurately predict viable cell density with a relative root mean squared error (rRMSE) as low as 8.3% regardless of the changes occurring over the infection phase. This is a significant improvement over the 12% rRMSE achieved with models based on a single source. The MS models also provide the best predictions for glucose, glutamine, lactate, and ammonium. These results demonstrate the potential of using MVDA on MS systems as a real-time monitoring approach for biphasic bioproduction processes. Yet, models based solely on the multiplicity and timing of infection outperformed both single-sensor and MS models, emphasizing the need for a deeper mechanistic understanding in virus production prediction.

Potential to grow carp oedema virus (genogroup I) in monolayers of carp-derived primary cells with further implication in cell analysis.

Carp oedema virus (CEV) has distinct molecularly identified genogroups of viral mutations, denoted as I, IIa, and IIb. Failure to propagate CEV in vitro limits studies towards understanding its interactions with host cells. Here, virus isolates belonging to genogroup I collected during natural outbreaks in the Czech Republic were employed for routine CEV cultivation in monolayers of carp-derived primary cells, common carp brain (CCB) cells, and epithelioma papulosum cyprinid (EPC) cells. Induction of cytopathic effects (CPEs) was observed and recorded in affected cells. Cell survival rate was evaluated under serial dilutions of the CEV inoculum. Virus cell entry was quantified and visualized by qPCR and transmission electron microscopy, respectively. Study findings indicate primary gills epithelia likely present the most suitable matrix for CEV growth in vitro. Cells of the head kidney and spleen facilitate virus entry with microscopically confirmed CPEs and the presence of cytoplasmic pleomorphic virus particles. Cells of the trunk kidney and gonads are unlikely to permit virus cell entry and CPEs development. Although CEV cultivation in cell lines was inconclusive, EPC cells were CEV permissible. Monolayers of carp-derived primary cells show promise for CEV cultivation that could enable elaborate study of mechanisms underlying cellular binding and responses.

Repercusión de los dispositivos móviles en la atención de enfermería a usuarios en estado crítico / Repercussion of mobile devices on nursing care for users in critical state

Introducción: actualmente en los hospitales de México, especialmente en las áreas de cuidados críticos, se ha incrementado el uso de dispositivos móviles de comunicación, repercutiendo en el cuidado del paciente; esto pudiera representar no solamente un distractor, sino una fuente portadora de gérmenes. Objetivo: evaluar la repercusión de los dispositivos móviles en la atención de enfermería a usuarios en estado crítico. Métodos: estudio descriptivo, trasversal; donde fueron medidos los tiempos de interrupción del cuidado de enfermería en el uso de dispositivos móviles de comunicación; se describió la exposición de estos artefactos con los equipos biomédicos por medio de una guía observacional, además se tomó muestra de los dispositivos móviles para su cultivo en agar nutritivo. Resultados: el 75,00 por ciento de los enfermeros estudiados hacían uso de los dispositivos móviles dentro de su jornada laboral; el 68,00 por ciento hizo uso de algún dispositivo móvil mientras realizaba alguna actividad con el paciente; el 64,00 por ciento tenía contacto con equipo biomédico; el 100,00 por ciento no se lavaba las manos antes y después de usarlos; en el 100,00 por ciento de las muestras tomadas y cultivadas hubo crecimiento Unidades Formadoras de Colonias a las 48 horas. Conclusiones: los dispositivos móviles son distractores, adictivos y cuentan con carga bacteriológica, esto afecta en la atención directa al paciente, su uso aún no está regulado; por esta razón sería importante considerar limitar el uso en las unidades de cuidados críticos, esto ayudara a brindar una mejor atención viéndose reflejado en la seguridad del paciente(AU)

Introduction: In Mexico hospitals today, especially in critical care areas, the use of mobile devices of communication has increased, which has had a repercussion on the care for the patient; this could represent not only a distracting aspect, but a germ-bearing source. Objective: Assess the repercussion of mobile devices on nursing care for user in critical state. Methods: cross-sectional, descriptive study in which we measured the interruption times for nursing care in the use of mobile devices of communication; we described the exposition of this artifacts with biomedical equipment by means of an observational guide, we also took sample of mobile devices for their culture in a nutrient agar. Results: 75.00 percentof the studied nurses used mobile devices within their working day; 68.00 percent used any mobile device while doing any activity with the patient; 64.00 percent had contact with biomedical equipment; 100.00 percent did not wash their hands before or after using them; in the 100.00 percent of the samples taken and cultured there were colonies growing after 48 hours. Conclusions: Mobile devices are distracting, addictive and have bacteriologic charge, which affects the direct care for the patient, their use is not regulated; therefore, it would be important to consider limiting their use in critical care units, which will help provide better attention reflected on the patient's safety(AU)

Agentes bacterianos en la sepsis neonatal. cuidados intensivos neonatales, Hospital Mario Catarino Rivas / Bacterial agents in neonatal sepsis. Neonatal Intensive Care unit Mario Catarino Rivas National Hospital

Antecedentes: Las infecciones nosocomiales son aquellas que se adquieren y se mani estan luego de 48 horas de hospitalización Objetivo: Determinar los gérmenes aislados por cultivos de los recién nacidos diagnosticados como sepsis nosocomial en la unidad de cuidados intensivos neonatales (UCIN), Hospital Nacio- nal Mario Catarino Rivas (HNMCR), en los meses de julio a septiembre del 2015. Pacientes y métodos: Estudio transversal, de los 443 pacientes ingresados a UCIN, 221 neonatos que desarrollaron infección posterior a 48 horas de internamiento. La información se obtuvo del expediente clínico y se procesó en el software estadístico Epi Info 3.02 Resulta- dos: De los cultivos obtenidos; (165) 75% resultaron positivos para algún germen especí- co. Los gérmenes aislados fueron; Pseudomo- na spp 71 (43%) y Pseudomona aeruginosa 58 (35%), haciendo un total de 78% de sepsis nosocomial por Pseudomona. Conclusión: La sepsis intrahospitalaria es un problema frecuente en UCIN, por lo tanto es necesario el cumplimiento de las normas de vigilancia y control de este tipo de infecciones...(AU)

Tuberculosis pleural: Utilidad de la reacción en cadena de la polimerasa en muestras de tejido / Pleural tuberculosis: use of the polymerase chain reaction in tissue samples

El diagnóstico etiológico del derrame pleural tuberculoso, es difícil. La clínica y los ensayos paraclínicos suelen ser inespecíficos. El objetivo de este trabajo fue evaluar la sensibilidad y especificidad de la reacción en cadena de la polimerasa en tejido pleural para el diagnóstico de tuberculosis en comparación con el cultivo e histopatología, en pacientes con derrame pleural que ingresaron al servicio de Medicina Interna del Hospital “Dr. Domingo Luciani”, Caracas, Venezuela, entre abril de 2005 y agosto de 2006. Se estudiaron 52 pacientes, M/F (30 (57,7 por ciento)/22 (42,3 por ciento), con una edad promedio de 39 años. El valor de sospecha clínica fue del 69,2 por ciento. El cultivo resultó positivo en 6 casos (11,5 por ciento) y se identificaron lesiones granulomatosas tuberculoides en 40,4 por ciento. La reacción en cadena de la polimerasa mostró una sensibilidad del 50 por ciento y especificidad del 61 por ciento. Se concluyó que es una prueba eficaz para el diagnóstico de tuberculosis pleural

The diagnosis of tuberculous pleural effusion is difficult. The clinical trials and paraclinical essays are often nonspecific. The aim of this study was to evaluate the sensitivity and specificity of the polymerase chain reaction in pleural tissue for the diagnosis of tuberculosis in comparison with the culture and histopathological studies in patients with pleural effusion admited to the service of Internal Medicine Hospital Dr. Domingo Luciani, Caracas, Venezuela, between April 2005 and August 2006. We studied 52 patients, M/F (30 (57.7 percent)/22 (42.3 percent), with an average age of 39 years. The value of clinical suspicion was 69.2 percent. The culture was positive in 6 cases (11.5 percent) and tuberculoides granulomatous lesions were identified in 40.4 percent. Polymerase chain reaction showed a sensitivity of 50 percent and specificity of 61 percent. It was concluded that it is an effective test for the diagnosis of pleural tuberculosis

In vitro amplification of BVDV field strains isolated in Argentina: effect of cell line and culture conditions / Amplificación in vitro de cepas de campo de virus de la diarrea viral bovina (VDVB) aisladas en Argentina: efecto de la línea celular y las condicioes de cultivo

The aim of this work was to study the in vitro amplification of BVDV (Pestivirus, Flaviridae) field isolates from Argentina in MDBK, BoTur and BHK-21 continuous cell lines. Field isolates 99/134 (mucosal disease), 00/693 (mucosal disease), 04P7016 (respiratory disease) and 04/89 (mucosal disease), genotype 1b, were used and compared with the Singer and NADL reference strains, genotype 1a. Additionally, cell lines derived from explants of bovine testis (RD- 420), bovine uterus (NCL-1) and porcine kidney (PKZ) were tested as alternative substrates for BVDV propagation in vitro. The effect of cell line, harvest time and infection protocol was evaluated. The viral titers observed depended on the virus and harvest time but not on the infection protocol. We found that MDBK and BoTur cell lines were susceptible to the infection whereas BHK-21 and PKZ were not. NADL viral titers, 00/693 and 04/89, increased from 24 to 48 h p.i. in BoTur cells and then reached a plateau, whereas those of 99/134 and 04P7016 remained constant between 24 and 72 h p.i. BVDV Singer, on the other hand, presented a maximum titer at 24 h p.i. and then decreased. BVDV-NADL titers increased in MDBK and NCL-1 but not in RD-420 between 24 and 48 h p.i., and then decreased at 72 h p.i. These facts lead us to conclude that neither the subgenotypes (1a, 1b) nor the clinical symptoms of the animal from the virus had been isolated seem to affect the virus cell line kinetics of viral replication in vitro. On the other hand, the most homogenous behavior, the most similar replication curves, and highest titers observed in MDBK and NCL-1 seem to indicate that these lines are generally more susceptible to BVDV replication.

Se estudió la interacción de aislamientos de campo de Argentina del VDVB (Pestivirus, Flaviridae) en las líneas celulares continuas MDBK, BoTur y BHK-21. Se utilizaron los virus de campo genotipo 1b, 99/134, 00/693 (casos compatibles con enfermedad de las mucosas) y 04P7016 (cuadro respiratorio) y las cepas de referencia genotipo 1a Singer y NADL. Además se evaluó la interacción de VDVB-NADL con las líneas celulares experimentales de bovino RD-420 y NCL-1 y de riñón porcino (PKZ). Se usaron 2 protocolos de infección. Los títulos virales observados dependieron del virus y del tiempo de infección y no así del modo de infección. Mientras que MDBK y BoTur resultaron susceptibles a la infección, BHK-21 y PKZ no lo fueron. Los virus NADL, 00/693 y 04/89 incrementaron su título entre las 24 y las 48 h p.i. en BoTur para mantenerlo posteriormente; los virus 99/134 y 04P7016 no presentaron variaciones y la cepa Singer presentó título máximo a las 24 h p.i para luego descender. La cinética del virus NADL en las células MDBK, RD-420 y NCL-1 tuvo un incremento de título para MDBK y NCL-1 entre las 24 y 48 h p.i que descendió a las 72 h p.i. La interacción virus-línea celular no estaría relacionada con el sub-genotipo del virus (1a o 1b), ni con el cuadro clínico; las células MDBK y NCL-1 serían más susceptibles a la replicación del VDVB.