Thomas P. Brown

Fumonisin Mycotoxicosis in Broilers: Performance and Pathology

Fusarium moniliforme culture material containing fumonisin B1 at 300 mg/kg was incorporated into a broiler starter ration and fed ad libitum to 1-day-old broiler chicks for 2 weeks in two experiments. Clinical features of the disease produced included diarrhea, a 19% reduction in body weight, a 30% increase in relative liver weight, and a worsening of feed conversion by 20 points at 2 weeks of age. Histologically, chicks fed fumonisin had multifocal hepatic necrosis, biliary hyperplasia, muscle necrosis, intestinal goblet-cell hyperplasia, and rickets. Simultaneous feeding of 0.5% aluminosilicate had no effect on the clinical disease or lesions. The clinical disease and lesions induced mimicked those of a viral enteritis.

Fumonisin Toxicity in Turkey Poults

The effects of dietary fumonisin B, were evaluated in young turkey poults. The experimental design consisted of 3 treatments, with 24 female turkey poults allotted randomly per treatment. Day-old poults were fed diets containing 0 mg (feed control), 100 mg, and 200 mg fumonisin B1/kg feed for 21 days. Body weight gains and efficiency of feed conversion decreased linearly with increasing dietary fumonisin. Liver, kidney, and pancreas weights increased linearly with increasing dietary fumonisin, and spleen and heart weights decreased. Serum aspartate aminotransferase levels increased with increasing dietary fumonisin, and serum cholesterol, alkaline phosphatase, mean cell volume, and mean cell hemoglobin all decreased. Biliary hyperplasia, hypertrophy of Kupffers cells, thymic cortical atrophy, and moderate widening of the proliferating and degenerating hypertrophied zones of tibial physes were present in poults fed diets containing fumonisin B1. Results indicate that fumonisin B1, from Fusarium moniliforme culture material, is toxic in young poults, and the poult appears to be more sensitive to fumonisin than the broiler chick.

MOLECULAR TYPING OF AVIAN ESCHERICHIA COLI ISOLATES BY RANDOM AMPLIFICATION OF POLYMORPHIC DNA

Escherichia coli is a common inhabitant of the gastrointestinal tract of most animals. Like most pathogenic E. coli, avian isolates cannot be distinguished biochemically from the normal commensals inhabiting the gastrointestinal tract of birds. Using a molecular approach, we were able to identify genetic differences among avian E. coli isolates by restriction fragment length polymorphism (RFLP) and random amplification of polymorphic DNA (RAPD) by the polymerase chain reaction (PCR). Several different RFLPs were observed among avian E. coli isolates using DNA probes for 16S ribosomal RNA genes (rrn) and insertion sequence elements (IS2). We were also able to observe differences in DNA banding patterns generated by RAPD analysis. Similarities and differences among avian E. coli were discernible using RFLPs and RAPD analysis, whereas conventional bacteriological methods failed to differentiate these isolates. Based on RAPD patterns, avian E. coli appear to be genetically diverse. Of 16 different RAPD types (RT) encountered, 84% of E. coli fell into seven major RTs. One RT was present in clinical isolates but absent from the commensals isolated in this study. Many of these different E. coli RTs were not geographically restricted to northern Georgia but were also observed in other southern states in the United States. Resistance to various antibiotics was randomly associated with different E. coli RTs. Sarafloxacin resistance was present among different E. coli RTs, suggesting that antibiotic usage is not selecting for a clonal population in avian E. coli. RAPD provides a rapid and powerful tool to study the epidemiology of avian E. coli.

Chicken Embryo Lethality Assay for Determining the Virulence of Avian Escherichia coli Isolates

Multiple isolates of Escherichia coli from clinical cases of colibacillosis and E. coli from the intestinal tracts of normal broilers at slaughter were assayed by the embryo lethality test to determine their virulence. The assay was repeated five times in order to establish reproducibility and determine the statistical parameters of the test. This study showed that the inoculation of approximately 100 colony-forming units in the allantoic cavity of 12-day-old embryos discriminated between virulent and avirulent E. coli isolates. Gross lesions included cranial and skin hemorrhages in addition to encephalomalacia in embryos inoculated with virulent isolates. Abnormalities were observed by microscopic examination of the heart, brain, and liver in embryos inoculated with virulent isolates. Analysis of data indicated that the length of the test should be 4 days. In the virulent group, day 2 postinoculation had the most significant death patterns. Sample size calculations indicated that 11 embryos are sufficient for the assay. On the basis of death rates, isolates considered to be avirulent had an embryo death rate of <10%, moderately or secondary pathogens had a 10%-29% death rate, and virulent isolates had a death rate of >29%. An important aspect of this assay is the accessibility of good-quality fertile embryonated eggs.

Attenuation, Safety, and Efficacy of an Infectious Bronchitis Virus GA98 Serotype Vaccine

Abstract In 1998, novel strains of infectious bronchitis virus (IBV) were identified in chickens from the southeastern United States and classified as a new serotype designated Georgia 98 (GA98). Because of the widespread nature of the GA98 virus in the southeastern United States and the lack of adequate protection with the DE072 vaccine, we developed a specific vaccine for the GA98 serotype. The GA98/0470/98 isolate of IBV was passaged in embryonating chicken eggs 70 times, and attenuation of the virus was determined in specific-pathogen-free chicks. Pass 70 of the GA98/0470/98 strain of IBV when given at 1 day of age by coarse spray and at 14 days of age in the drinking water at 1 × 104.5 50% embryo infectious dose/bird protected against the homologous GA98 challenge as well as provided good protection against the DE072-type virus. In addition, the vaccine was shown to be adequately attenuated and safe at a 10× dosage.

Polymerase Chain Reaction and a Biotin-Labeled DNA Probe for Detection of Infectious Bronchitis Virus in Chickens

Polymerase chain reaction (PCR) and a biotin-labeled DNA probe were used to amplify and detect the genome of infectious bronchitis virus (IBV) from tracheal swabs taken from chickens that were experimentally inoculated with the IBV Beaudette, Arkansas, and Gray strains. The viral genome was successfully detected by PCR and confirmed by dot-hybridization assay using a biotin-labeled DNA probe on days 1, 3, 9, and 14 after exposure. Direct electron microscopy (EM) analysis was used to compare the ability of the two tests to detect IBV from the same tracheal swab samples. The EM analysis did not detect IBV in four of eight necropsy groups that were positive using PCR and the biotin-labeled DNA probe. Although histopathological lesions were observed in the tracheas, no clinical signs or specific antibody response were observed in the birds. The virus was also detected in the allantoic fluid of embryonating chicken eggs that had been inoculated with field samples suspected to be IBV. The field samples were passed four to six times in embryonating eggs, and 10 of 17 samples were positive using PCR and the biotin-labeled probe.

Mild Infectious Laryngotracheitis in Broilers in the Southeast

Abstract During 2001, a mild infectious laryngotracheitis virus (ILTV) infection occurred in broiler flocks in the southeastern United States. Clinical signs included mild tracheitis, swollen sinuses, and conjunctivitis, with no increased mortality and minimal serologic response. Infrequent intranuclear inclusion bodies with or without syncytial cell formation were observed in eyelid, trachea, and larynx and in the chorioallantoic membrane of infected embryos. Immunohistochemistry and a nested infectious laryngotracheitis polymerase chain reaction (ILT PCR) were utilized to confirm the presence of ILTV nucleic acid in fixed tissues. In addition, 2-wk-old specific-pathogen-free (SPF) birds inoculated with field material exhibited the mild signs observed in broilers in the field. Tracheal swabs and tissues taken from these SPF birds were also positive by nested ILT PCR. Restriction fragment length polymorphism analysis of ILT PCR products indicated that ILT virus associated with mild respiratory disease in the Southeast is related to the chicken embryo origin vaccine type strains.

Detection of Infectious Laryngotracheitis Virus in Formalin-Fixed, Paraffin-Embedded Tissues by Nested Polymerase Chain Reaction

SUMMARY. Infectious laryngotracheitis virus (ILTV) is routinely diagnosed by histopathologic examination of trachea, eyelid, and lung tissues. Lesions consistent with infectious laryngotracheitis (ILT) infection include syncytial cell formation with intranuclear inclusion bodies. These changes are present during the acute phase of infection. To increase the sensitivity of detecting ILT, a nested polymerase chain reaction (PCR) was developed for detection of ILTV DNA. Nested PCR assay was specific for the amplification of ILTV DNA and did not amplify a variety of other avian pathogens. To further validate the ability of this assay to detect ILT, nested PCR was performed in formalin-fixed, paraffin-embedded tissues from 35 cases of respiratory disease. Of the 35 cases, 12 were considered ILT suspects on the basis of initial clinical observation. Eleven of the 12 ILT-suspect cases were diagnosed as ILT, and the remaining 24 were diagnosed as nonspecific tracheitis (NST) by histopathologic examination. Histopathologically positive samples were confirmed by direct fluorescent antibody test and virus isolation. Of the 11 ILT-positive cases, 10 were positive by nested PCR. In addition, ILTV DNA was detected in 7 of the 24 samples diagnosed as NST upon histopathologic examination. Therefore, by nested PCR, ILTV DNA was detected in tissues independently of the presence of syncytial cells, intranuclear inclusions, or both. ILT nested PCR is a specific and sensitive assay capable of detecting ILT at different stages of infection and can be utilized in combination with histopathological examination to accelerate the diagnosis of ILT infection.

Acute Hemorrhagic Enterocolitis in Ratites: Isolation of Eastern Equine Encephalomyelitis Virus and Reproduction of the Disease in Ostriches and Turkey Poults

Two emus died with acute hemorrhagic enterocolitis. Eastern equine encephalomyelitis (EEE) virus was isolated in Vero cells from non-pooled samples of brain and intestine. Enterocolitis with splenic and hepatic necrosis was reproduced by intramuscular or oral inoculation of this isolate in two ostriches and three turkey poults.

Comparison and verification of quantitative competitive reverse transcription polymerase chain reaction (QC-RT-PCR) and real time RT-PCR for avian leukosis virus subgroup J

Avian leukosis virus subgroup J (ALV-J) infections cause significant economic losses because of increased mortality, tumor production, decreased production, and cost for eradication. Current quantification methods for ALV-J expressed by TCID(50) are difficult to determine because of the lack of cytopathic effect in cell cultures and non-specificity of currently available antigen-capture ELISA tests. In this study, a one-tube fluorescent probe based real time RT-PCR method was developed for quantification of ALV-J and compared with available quantification methods. Cell lysates with different TCID(50)s determined by cell culture and antigen capture ELISA (ag-ELISA) were used for one-tube real time RT-PCR using fluorogenic probe and quantitative competitive RT-PCR (QC-RT-PCR). The results of QC-RT-PCR and real time RT-PCR were highly correlated to the TCID(50)s determined by conventional culture methods. They were also very specific, sensitive, easy to perform, reproducible, and rapid compared with conventional methods. These RT-PCR based quantification methods of ALV-J viral RNA will be useful for virological and pathogenesis studies.