Association of Postoperative Serum Lactate Levels with Acute Kidney Injury in Mexican Patients Undergoing Cardiac Surgery.

Acute kidney injury (AKI) is a highly prevalent and a critical complication of cardiac surgery (CS). Serum lactate (sLac) levels have consistently shown an association with morbimortality after CS. We performed a cross-sectional study including 264 adult patients that had a cardiac surgery between January and December 2020. Logistic regression analysis was performed to determine factors associated with AKI development. We measured the postoperative levels of sLac for all participants immediately after CS (T0) and at 4 h (T4) after the surgical intervention. A linear regression model was used to identify the factors influencing both sLac metrics. We identified four risk predictors of AKI; one was preoperative (atrial fibrillation), one intraoperative (cardiopulmonary bypass time), and two were postoperative (length of hospital stay and postoperative sLac). T0 and T4 sLac levels were higher among CS-AKI patients than in Non-CS-AKI patients. Postoperative sLac levels were significant independent predictors of CSA-AKI, and sLac levels are influenced by length of hospital stay, the number of transfused packed red blood cells, and the use of furosemide in CS-AKI patients. These findings may facilitate the earlier identification of patients susceptible to AKI after CS.

Neurological Manifestations and Complications of the Central Nervous System as Risk Factors and Predictors of Mortality in Patients Hospitalized with COVID-19: A Cohort Study.

The aim of this study was to analyze the risk factors and predictors of mortality in a retrospective cohort of patients with coronavirus disease (COVID-19) who presented central nervous system (CNS) manifestations and complications when admitted to hospital. Patients hospitalized from 2020 to 2022 were selected. Demographic variables; history of neurological, cardiological and pulmonary manifestations; comorbidities; prognostic severity scales; and laboratory tests were included. Univariate and adjusted analyses were performed to determine risk factors and predictors of mortality. A forest plot diagram was used to show the strength of the associated risk factors. The cohort included 991 patients; at admission, 463 patients presented CNS damage and of these, 96 hospitalized patients presented de novo CNS manifestations and complications. We estimate a general mortality of 43.7% (433/991) and 77.1% (74/96), for hospitalized patients with de novo CNS manifestations and complications, respectively. The following were identified as risks for the development of hospital CNS manifestations and complications when in hospital: an age of ≥64 years, a history of neurological disease, de novo deep vein thrombosis, D-dimer ≥ 1000 ng/dL, a SOFA ≥ 5, and a CORADS 6. In a multivariable analysis, the mortality predictors were an age of ≥64 years, a SOFA ≥ 5, D-dimer ≥ 1000 ng/mL and hospital CNS manifestations and complications when admitted to hospital. Old age, being hospitalized in critical condition, and having CNS manifestations and complications in hospital are predictors of mortality in hospitalized patients with COVID-19.

Commercial Vaccines and Vaccination Strategies Against Infectious Laryngotracheitis: What We Have Learned and Knowledge Gaps That Remain.

Infectious laryngotracheitis (ILT) is an upper respiratory disease of chickens, pheasants, and peafowl caused by the alphaherpesvirus Gallid alpha herpesvirus 1 (GaHV-1), commonly known as infectious laryngotracheitis virus. ILT is an acute respiratory disease characterized by clinical signs of conjunctivitis, nasal discharge, dyspnea, and lethargy. In severe forms of the disease, hemorrhagic tracheitis together with gasping, coughing, and expectoration of bloody mucus are common. The morbidity and mortality rates of the disease vary depending on the virulence of the strain circulating, the level of virus circulating in the field, and the presence of other respiratory infections. Since the identification of the disease in the 1920s, ILT continues to affect the poultry industry negatively across the globe. The disease is primarily controlled by a combination of biosecurity and vaccination. The first commercial vaccines, introduced in the late 1950s and early 1960s, were the chicken embryo origin live attenuated vaccines. The tissue culture origin vaccine was introduced in late 1970s. Recombinant viral vector ILT vaccines were first introduced in the United States in the 2000s, and now they are being used worldwide, alone or in combination with live attenuated vaccines. This review article provides a synopsis of what we have learned about vaccines and vaccination strategies used around the world and addresses knowledge gaps about the virus and host interactions that remain unknown.

Estudio recapitulativo. Vacunas comerciales y estrategias de vacunación contra la laringotraqueitis infecciosa: lo que se ha aprendido y los vacíos de conocimiento que persisten La laringotraqueítis infecciosa (ILT, por sus siglas en inglés) es una enfermedad del tracto respiratorio superior de pollos, faisanes y pavos reales, causada por el alfaherpesvirus herpesvirus del pollo 1 (GaHV-1), conocido comúnmente como virus de la laringotraqueitis infecciosa. La laringotraqueitis infecciosa es una enfermedad respiratoria aguda caracterizada por signos clínicos de conjuntivitis, secreción nasal, disnea y letargo. En las formas severas de la enfermedad, son comunes la traqueítis hemorrágica junto con jadeo, tos y expectoración de moco con sangre. Las tasas de morbilidad y mortalidad de la enfermedad varían según la virulencia de la cepa que está circulando, el nivel de virus que circula en el campo y la presencia de otras infecciones respiratorias. Desde la identificación de la enfermedad en la década de los 1920's, la laringotraqueitis infecciosa continúa afectando negativamente a la industria avícola en todo el mundo. La enfermedad se controla principalmente mediante una combinación de bioseguridad y vacunación. Las primeras vacunas comerciales introducidas a fines de los años cincuenta y principios de los sesenta, fueron las vacunas atenuadas vivas con origen en embrión de pollo. La vacuna con origen en cultivo de células se introdujo a fines de los años 70 en los Estados Unidos. Las vacunas contra la laringotraqueitis infecciosa desarrolladas con vectores virales recombinantes se introdujeron por primera vez en los Estados Unidos en la década de 2000's y ahora se están utilizando en todo el mundo, solas o en combinación con vacunas atenuadas vivas. Este artículo recapitulativo proporciona una sinopsis de lo que se ha aprendido sobre las vacunas contra la laringotraqueitis infecciosa, las estrategias de vacunación utilizadas en todo el mundo y aborda los vacíos en el conocimiento sobre el virus y las interacciones con el huésped que siguen siendo desconocidas.

Long-term protection against a virulent field isolate of infectious laryngotracheitis virus induced by inactivated, recombinant, and modified live virus vaccines in commercial layers.

Infectious laryngotracheitis (ILT) is an acute respiratory disease of chickens controlled through vaccination with live-modified attenuated vaccines, the chicken embryo origin (CEO) vaccines and the tissue-culture origin (TCO) vaccines. Recently, novel recombinant vaccines have been developed using herpesvirus of turkey (HVT) and fowl pox virus (FPV) as vectors to express ILTV immunogens for protection against ILT. The objective of this study was to assess the protection efficacy against ILT induced by recombinants, live-modified attenuated, and inactivated virus vaccines when administered alone or in combination. Commercial layer pullets were vaccinated with one or more vaccines and challenged at 35 (35 WCH) or 74 weeks of age (74 WCH). Protection was assessed by scoring clinical signs; and by determining the challenge viral load in the trachea at five days post-challenge. The FPV-LT vaccinated birds were not protected when challenged at 35 weeks; the HVT-LT and TCO vaccines in combination provided protection similar to that observed in chickens vaccinated with either HVT-LT or TCO vaccines when challenged at 35 weeks, whereas protection induced by vaccination with HVT-LT followed by TCO was superior in the 74 WCH group compared with the 35 WCH group. Birds given the inactivated ILT vaccine had fewer clinical signs and/or lower viral replication at 74 WCH when combined with TCO or HVT-LT, but not when given alone. Finally, the CEO-vaccinated birds had top protection as indicated by reduction of clinical signs and viral replication when challenged at 35 weeks (74 weeks not done). These results suggest that certain vaccine combinations may be successful to produce long-term protection up to 74 weeks of age against ILT.

Consumo de edulcorantes no nutritivos: efectos a nivel celular y metabólico / Consumption of Non-nutritive Sweeteners: Cellular and Metabolic Effects

Resumen Antecedentes: la función principal de los edulcorantes no nutritivos es proveer al consumidor un producto dulce sin la carga calórica del azúcar. El consumo de edulcorantes no nutritivos se relaciona con alteraciones en el ADN, con apoptosis y con la síntesis de precursores de cáncer. Además, su consumo también se relaciona recientemente con un incremento de tejido adiposo. Objetivo: analizar el efecto de los edulcorantes no nutritivos a largo plazo, evaluando el riesgo de estos compuestos. Materiales y métodos: búsqueda en bases de datos, PubMed, SciELO y Redalyc, y análisis de bibliografía relacionada con efectos tóxicos y metabólicos del consumo de edulcorantes no nutritivos. Resultados: el consumo de estos edulcorantes presentó efectos citotóxicos en diferentes modelos de estudio. Parece existir una relación con el incremento en la síntesis de tejido adiposo, que provoca obesidad y enfermedades derivadas. Los edulcorantes sintéticos fueron los que presentaron más alteraciones citotóxicas, mientras que edulcorantes naturales, a excepción de los esteviósidos, no presentaron efectos adversos. Múltiples investigaciones explican el efecto del consumo de estos edulcorantes en el metabolismo y los efectos citotóxicos. Conclusiones: el tema de edulcorantes es controversial, por ello la información recopilada en esta revisión busca proporcionar un panorama que ayude a comprender la respuesta a nivel celular y metabólico sobre su consumo.

Abstract Background: The primary function of non-nutritive sweeteners is to provide the consumer with a sweet product without the caloric load of sugar. The consumption of non-nutritive sweeteners is related to alterations in DNA, apoptosis, and the synthesis of cancer precursors. Recently, its consumption has been related to an increase in adipose tissue. Objective: To analyze the effect of long-term consumption of these sweeteners and evaluate the risk of these related factors. Materials and Methods: Pubmed, Scielo and Redalyc database search and analysis of references related to toxic and metabolic effects of consumption of non-nutritrive sweeteners. Results: The consumption presents cytotoxic effects in different study models. There appears to be a relationship with an increase in synthesis of adipose tissue, which causes obesity and derived diseases. Synthetic sweeteners have the most cytotoxic alterations, whereas natural sweeteners, except steviosides, do not present adverse effects. Multiple investigations explain the impact of non-nutritive sweetener consumption on metabolism and related cytotoxic effects. Conclusion: The issue of sweeteners is controversial; therefore the information compiled in this review seeks to provide a panorama that helps understand the cellular and metabolic level responses of their consumption.

Study of dynamic of chicken infectious anaemia virus infection: which sample is more reliable for viral detection?

Chicken infectious anaemia virus (CIAV) is a widely distributed immunosuppressive agent. SPF flocks and eggs used for vaccine production and diagnostics must be CIAV-free. Detection of CIAV infection in SPF flocks involves primarily serology or other invasive methods. In order to evaluate different types of samples for rapid detection of CIAV infection, a trial was conducted in serologically negative broiler breeder pullets vaccinated with a commercial live-attenuated CIAV vaccine. Controls and vaccinated groups were sampled before and after vaccination. Invasive and non-invasive samples were used for CIAV DNA detection by real-time PCR. Seroconversion occurred at 14 days post-inoculation (DPI) in the vaccinated group, whereas CIAV genome was detected by qPCR at 7 DPI in both invasive and non-invasive samples. Only invasive samples remained qPCR positive for CIAV DNA by 21 DPI despite seroconversion of the chickens.

Cytokine gene transcription in the trachea, Harderian gland, and trigeminal ganglia of chickens inoculated with virulent infectious laryngotracheitis virus (ILTV) strain.

The objective of this study was to determine how cytokine transcription profiles correlate with patterns of infectious laryngotracheitis virus (ILTV) replication in the trachea, Harderian gland, and trigeminal ganglia during the early and late stages of infection after intratracheal inoculation. Viral genomes and transcripts were detected in the trachea and Harderian gland but not in trigeminal ganglia. The onset of viral replication in the trachea was detected at day one post-infection and peaked by day three post-infection. The peak of pro-inflammatory (CXCLi2, IL-1ß, IFN-γ) and anti-inflammatory (IL-13, IL-10) cytokine gene transcription, 5 days post-infection, coincided with the increased recruitment of inflammatory cells, extensive tissue damage, and limiting of virus replication in the trachea. In contrast, transcription of the IFN-ß gene in the trachea remained unaffected suggesting that ILTV infection blocks type I interferon responses. In the Harderian gland, the most evident transcription change was the early and transient upregulation of the IFN-γ gene at 1 day post-infection, which suggests that the Harderian gland is prepared to rapidly respond to ILTV infection. Overall, results from this study suggest that regulation of Th1 effector cells and macrophage activity by Th1/2 cytokines was pertinent to maintain a balanced immune response capable of providing an adequate Th1-mediated protective immunity, while sustaining some immune homeostasis in preparation for the regeneration of the tracheal mucosa.

Profiling of Egg Layer Flocks Affected with Focal Duodenal Necrosis Based on a Questionnaire Survey.

Focal duodenal necrosis (FDN) is an intestinal disease of egg-laying chickens, characterized by multifocal mucosal erosions in the duodenal loop and proximal jejunum. It is currently considered by the Association of Veterinarians in Egg Production and the United States Animal Health Association as one of the top five disease concerns of the table egg industry in the United States. Previous studies have associated this condition with Clostridium species. The purpose of this study was to investigate the epidemiologic characteristics of table egg layer flocks affected with FDN. An online questionnaire was distributed to commercial layer operations in different states in the United States. Layer farms that had diagnosed FDN within the past 12 mo were surveyed. The questionnaire had 45 questions about management, nutrition, housing, and methods for disease prevention and control. Thirty-seven surveys were sent and 21 were completed, which represents a response rate of 56.7%. The survey results showed the presence of FDN in five egg-layer genetic lines or breed crosses of different ages, with most cases reported between 30-39 wk of age. The pullets were cage-reared in all affected flocks and the majority of flocks in production were housed in traditional cages. Most of the FDN-affected flocks received more than 12 different feed formulations from pre-lay to 60 wk of age. Distiller's dried grain with solubles was a common ingredient added to the feed in the majority of affected flocks, and all flocks were provided with limestone as a calcium source for egg production. Most surveys reported that coccidiosis and roundworm parasitism were not problems in affected flocks in production; however, pests such as flies and rodents were reported as problems in most affected flocks. Additionally, most affected farms never washed feeders, cages, and houses before disinfection, which may not be sufficient to prevent the persistency and transmission of the causative agent of FDN. In conclusion, several management practices that have been associated with enteric disease, including clostridial-associated enteritis, were described by the majority of FDN-affected flocks. Additional studies are needed to determine if management and health practices identified in this survey represent risk factors for FDN.

The route of inoculation dictates the replication patterns of the infectious laryngotracheitis virus (ILTV) pathogenic strain and chicken embryo origin (CEO) vaccine.

Infectious laryngotracheitis virus (ILTV) has a high proclivity to replicate in the larynx and trachea of chickens causing severe lesions. There is a lack of knowledge on the ability of ILTV to replicate in other respiratory associated tissues apart from in the trachea. The objective of this study was to investigate how tissues that first encounter the virus dictate further sites of viral replication during the lytic stage of infection. Replication patterns of the pathogenic strain 63140 and the chicken embryo origin (CEO) vaccine in the conjunctiva, the Harderian gland, nasal cavity and trachea were evaluated after ocular, oral, intranasal or intratracheal inoculation of specific pathogen-free chickens. Viral replication was assessed by detection of microscopic cytolytic lesions, detection of viral antigen and viral genome load. The route of viral entry greatly influenced virus replication of both strain 63140 and CEO vaccine in the conjunctiva and trachea, while replication in the nasal cavity was not affected. In the Harderian gland, independently of the route of viral entry, microscopic lesions characteristic of lytic replication were absent, whereas viral antigen and viral genomes for either virus were detected, suggesting that the Harderian gland may be a key site of antigen uptake. Findings from this study suggest that interactions of the virus with the epithelial-lymphoid tissues of the nasal cavity, conjunctiva and the Harderian gland dictate patterns of ILTV lytic replication.

Association of Beta2-Positive Clostridium perfringens Type A With Focal Duodenal Necrosis in Egg-Laying Chickens in the United States.

Focal duodenal necrosis (FDN) is a poorly understood intestinal disease of egg layers, and has been associated with drops in egg production and decreased egg weights. The etiology of this disease is still unknown, but the condition has been associated with Clostridium colinum and Clostridium perfringens. In order to investigate the etiology, duodenal samples were taken from hens with FDN. The hens originated from table egg layer farms in three states. The samples were examined by histopathology, bacteriology, and immunohistochemistry. Macroscopically, all samples contained focal to multifocal, variably sized, reddened or brownish gray areas of mucosal erosion. Histopathology revealed mild to severe heterophilic and lymphoplasmacytic enteritis with loss of enterocytes at the villous tips, luminal fibrinonecrotic exudate, and variable numbers of Gram-positive and Gram-negative rod-shaped bacteria within the lesions in 16/30 samples. Clostridium perfringens was isolated by anaerobic bacteriology from 4/13 samples that had characteristic microscopic lesions of FDN. Polymerase chain reaction (PCR) revealed that all four isolates were Type A C. perfringens, positive for beta2 gene and negative for necrotic enteritis toxin B and enterotoxin genes. PCR for Clostridium colinum applied to DNA extracted from frozen intestinal samples yielded negative results in 14/14 duodenal samples. Immunohistochemistry (IHC) for 7C. perfringens, alpha and beta2 toxins stained a few to numerous long rod-shaped bacteria present in the lesions. IHC for alpha and beta2 toxins also stained enterocytes at the villous tips, inflammatory cells in the lamina propria, as well as degenerated and sloughed enterocytes present within the luminal exudate. These findings suggest that C. perfringens may play a role in the development of FDN. Experimental challenge studies with these isolates still need to be performed in order to reproduce the disease and fulfill Koch's postulates.

Evaluation of the transcriptional status of host cytokines and viral genes in the trachea of vaccinated and non-vaccinated chickens after challenge with the infectious laryngotracheitis virus.

Infectious laryngotracheitis is a highly contagious disease of chickens responsible for significant economic losses for the poultry industry worldwide. The disease is caused by Gallid herpesvirus-1 (GaHV-1) commonly known as the infectious laryngotracheitis virus. Although characterized by their potential to regain virulence, chicken embryo origin (CEO) vaccines are the most effective vaccines against laryngotracheitis as they significantly reduce the replication of challenge virus in the trachea and conjunctiva. Knowledge on the nature of protective immunity elicited by CEO vaccines is very limited. Therefore, elucidating the origin of the immune responses elicited by CEO vaccination is relevant for development of safer control strategies. In this study the transcription levels of key host immune genes (IFN-γ, IFN-ß, IL-1ß, IL-6, IL-8, IL-18) and viral genes (ICP4, ICP27, UL46, UL49), as well as viral genome loads in trachea were quantified at 6 and 12 hours post-challenge of CEO vaccinated and non-vaccinated chickens. Immediately after challenge a significant increase in IFN-γ gene expression was followed by a significant reduction in viral replication. In contrast to the rapid induction of IFN-γ, expression of the pro-inflammatory cytokines (IL-1ß, IL-6, IL-8) and type I IFN ß was either slightly reduced or remained at basal levels. These suggest that the former cytokines may not play important roles during immediate early responses induced by ILTV challenge in either vaccinated or non-vaccinated chickens. Overall, these results suggest that the rapid expression of IFN-γ may induce pathways of antiviral responses necessary for blocking early virus replication.

Development, characterization and optimization of a new suspension chicken-induced pluripotent cell line for the production of Newcastle disease vaccine.

Traditionally, substrates for production of viral poultry vaccines have been embryonated eggs or adherent primary cell cultures. The difficulties and cost involved in scaling up these substrates in cases of increased demand have been a limitation for vaccine production. Here, we assess the ability of a newly developed chicken-induced pluripotent cell line, BA3, to support replication and growth of Newcastle disease virus (NDV) LaSota vaccine strain. The characteristics and growth profile of the cells were also investigated. BA3 cells could grow in suspension in different media to a high density of up to 7.0 × 10(6) cells/mL and showed rapid proliferation with doubling time of 21 h. Upon infection, a high virus titer of 1.02 × 10(8) EID50/mL was obtained at 24 h post infection using a multiplicity of infection (MOI) of 5. In addition, the cell line was shown to be free of endogenous and exogenous Avian Leukosis viruses, Reticuloendotheliosis virus, Fowl Adenovirus, Marek's disease virus, and several Mycoplasma species. In conclusion, BA3 cell line is potentially an excellent candidate for vaccine production due to its highly desirable industrially friendly characteristics of growing to high cell density and capability of growth in serum free medium.

Infection of Broilers with Two Virulent Strains of Infectious Laryngotracheitis Virus: Criteria for Evaluation of Experimental Infections.

Infectious laryngotracheitis (ILT) is a highly contagious disease of chickens and is responsible for significant economic losses in the poultry industry worldwide; it is caused by Gallid herpesvirus-1 (GaHV-1), commonly known as infectious laryngotracheitis virus (ILTV). Experimental evaluation of ILTV strains is fundamental to identify changes in virulence that can contribute to the severity and spread of outbreaks and consequently influence the efficacy of vaccination. Several criteria had been utilized to determine the degree of virulence associated with ILTV strains. The objectives of this study were to compare the levels of virulence of the standard United States Department of Agriculture (USDA) challenge strain with a contemporary outbreak-related strain (63140) and to evaluate the efficacy of individual criteria to identify changes in virulence. Broilers were inoculated with increasing infectious doses of each strain. The criteria utilized to evaluate virulence were clinical signs of the disease, mortality, microscopic tracheal lesions, trachea genome viral loads, and antibody titers. Clinical signs scores were a useful parameter to define the peak of clinical disease but did not reveal differences in virulence between strains. Similarly, trachea microscopic lesion scores or levels of serum antibody titers were parameters that did not reveal obvious differences in virulence between strains. However, mortalities and increased viral genome loads in trachea of chickens inoculated with lower (log10 1 to 2) infectious doses clearly differentiated 63140 as a more-virulent ILTV strain. This study provides the framework to compare the virulence level of emerging ILTV isolates to the now-characterized USDA and 63140 strains.

Complete genome sequence of an american avian leukosis virus subgroup j isolate that causes hemangiomas and myeloid leukosis.

We report the complete genome sequence of avian leukosis virus subgroup J (ALV-J) isolate PDRC-59831, which causes myeloid leukosis and hemangiomas in chickens. This is an American ALV-J isolate, which was found in a 38-week-old broiler breeder chicken on a farm in Georgia in 2007.

The MET gene is a common integration target in avian leukosis virus subgroup J-induced chicken hemangiomas.

UNLABELLED: Avian leukosis virus subgroup J (ALV-J) is a simple retrovirus that can cause hemangiomas and myeloid tumors in chickens and is currently a major economic problem in Asia. Here we characterize ALV-J strain PDRC-59831, a newly studied U.S. isolate of ALV-J. Five-day-old chicken embryos were infected with this virus, and the chickens developed myeloid leukosis and hemangiomas within 2 months after hatching. To investigate the mechanism of pathogenesis, we employed high-throughput sequencing to analyze proviral integration sites in these tumors. We found expanded clones with integrations in the MET gene in two of the five hemangiomas studied. This integration locus was not seen in previous work characterizing ALV-J-induced myeloid leukosis. MET is a known proto-oncogene that acts through a diverse set of signaling pathways and is involved in many neoplasms. We show that tumors harboring MET integrations exhibit strong overexpression of MET mRNA. IMPORTANCE: These data suggest that ALV-J induces oncogenesis by insertional mutagenesis, and integrations in the MET oncogene can drive the overexpression of MET and contribute to the development of hemangiomas.

Mucosal lesions and mortality associated with the use of a ferric sulfate poultry litter amendment product.

Within hours of chick delivery, acute mortality and mucosal lesions were reported on 2 northeast Georgia broiler farms that had applied a ferric sulfate litter amendment product. Histological evaluation of the larynx, tongue, and surrounding stroma revealed multifocal areas of necrosis or degeneration of the oral mucosa, acute focal necrotizing cellulitis, and the presence of a brown-black pigmented material adhered to affected epithelial and mucosal surfaces. Multifocal to diffuse ventricular koilin degeneration and acute hemorrhage was also demonstrated in association with pigmented adherent material on affected surfaces. Perls iron stain revealed that adherent material on affected tissues was strongly positive for iron. An experiment was designed to reproduce clinical signs, lesions, and mortality using the same litter amendment product. The ferric sulfate litter amendment was confirmed as the causative agent.

Avian oncogenesis induced by lymphoproliferative disease virus: a neglected or emerging retroviral pathogen?

Lymphoproliferative disease virus (LPDV) is an exogenous oncogenic retrovirus that induces lymphoid tumors in some galliform species of birds. Historically, outbreaks of LPDV have been reported from Europe and Israel. Although the virus has previously never been detected in North America, herein we describe the widespread distribution, genetic diversity, pathogenesis, and evolution of LPDV in the United States. Characterization of the provirus genome of the index LPDV case from North America demonstrated an 88% nucleotide identity to the Israeli prototype strain. Although phylogenetic analysis indicated that the majority of viruses fell into a single North American lineage, a small subset of viruses from South Carolina were most closely related to the Israeli prototype. These results suggest that LPDV was transferred between continents to initiate outbreaks of disease. However, the direction (New World to Old World or vice versa), mechanism, and time frame of the transcontinental spread currently remain unknown.

In ovo vaccination of commercial broilers with a glycoprotein J gene-deleted strain of infectious laryngotracheitis virus.

Conventional live attenuated vaccines have been used as the main tool worldwide for the control of infectious laryngotracheitis. However, their suboptimal attenuation combined with poor mass administration practices allowed chicken embryo origin vaccine-derived isolates to circulate in the field, regain virulence, and be the cause of continuous outbreaks of the disease. Previous studies indicated that stable attenuation of infectious laryngotracheitis virus (ILTV) can be achieved by the deletion of individual viral genes that are not essential for viral replication in vitro. One of these genes is the glycoprotein J (gJ) gene. Its deletion provided significant attenuation to virulent ILTV strains from Europe and the United States. The objective of this study was to construct an attenuated gJ-deleted ILTV strain and evaluate its safety and efficacy for in ovo (IO) administration of commercial broilers. A novel gJ-deleted virus (N(delta)gJ) was constructed, and a 10(3) median tissue culture infective dose administered at 18 days of embryo age was considered safe because it did not affect hatchability or survivability of chickens during the first week posthatch. Broilers vaccinated IO and IO + eye drop at 14 days of age presented a significant reduction in clinical signs and reduction of virus loads after challenge, as compared with the nonvaccinated challenged group of chickens. Therefore, this study presents initial proof that the N(delta)gJ strain is a potential ILTV live-attenuated vaccine candidate suitable for IO vaccination of commercial broilers.

Optimization of a duplex real-time PCR method for relative quantitation of infectious laryngotracheitis virus.

Infectious laryngotracheitis is a highly contagious respiratory disease of chickens controlled by biosecurity and vaccination with live attenuated or recombinant vaccines. Infectious laryngotracheitis virus (ILTV) infections are characterized by a peak of viral replication in the trachea followed by a steady decrease in replication that results in the establishment of latency. Estimation of viral load is an important tool to determine the stage of ILTV infection. Here, a multiplex real-time PCR was optimized for the quantification of ILTV genomes. Quantification of viral genomes was based on the amplification of the ILTV UL44 gene, and sample variability was normalized using the chicken (Gallusgallus domesticus) alpha2-collagen gene as an endogenous control in a duplex reaction.

Protection induced by commercially available live-attenuated and recombinant viral vector vaccines against infectious laryngotracheitis virus in broiler chickens.

Viral vector vaccines using fowl poxvirus (FPV) and herpesvirus of turkey (HVT) as vectors and carrying infectious laryngotracheitis virus (ILTV) genes are commercially available to the poultry industry in the USA. Different sectors of the broiler industry have used these vaccines in ovo or subcutaneously, achieving variable results. The objective of the present study was to determine the efficacy of protection induced by viral vector vaccines as compared with live-attenuated ILTV vaccines. The HVT-LT vaccine was more effective than the FPV-LT vaccine in mitigating the disease and reducing levels of challenge virus when applied in ovo or subcutaneously, particularly when the challenge was performed at 57 days rather than 35 days of age. While the FPV-LT vaccine mitigated clinical signs more effectively when administered subcutaneously than in ovo, it did not reduce the concentration of challenge virus in the trachea by either application route. Detection of antibodies against ILTV glycoproteins expressed by the viral vectors was a useful criterion to assess the immunogenicity of the vectors. The presence of glycoprotein I antibodies detected pre-challenge and post challenge in chickens vaccinated with HVT-LT indicated that the vaccine induced a robust antibody response, which was paralleled by significant reduction of clinical signs. The chicken embryo origin vaccine provided optimal protection by significantly mitigating the disease and reducing the challenge virus in chickens vaccinated via eye drop. The viral vector vaccines, applied in ovo and subcutaneously, provided partial protection, reducing to some degree clinical signs, and challenge VIRUS replication in the trachea.