Detection of bovine viral diarrhea virus (BVDV) using reverse transcription polymerase chain reaction assay

Congenital Cataracts and Microphakia with Retinal Dysplasia and Optic Nerve Hypoplasia in a Calf

Case Description. A two-month-old, female, Aberdeen-Angus calf was presented for congenital cataracts and blindness in both eyes (OU). The dam had a reported history of visual defects (not specified) and had produced other affected calves (per owner history). Ophthalmic examination revealed mature bilateral cataracts, attenuation of the iridic granules, persistent pupillary membranes, and dyscoric pupils. Additionally, the calf had a poor body condition, prognathism, dome-shaped head, excessive nasal drainage, limb contracture, and fever. Histopathology of both eyes revealed lenticular degeneration (congenital cataracts), retinal dysplasia, and optic nerve hypoplasia. BVDV IHC detected antigen within only the left eye (OS), consisting of intrahistiocytic and endothelial immunoreactivity within the ciliary body, iris, and choroid. No BVDV immunoreactivity could be detected in the right eye (OD). This case highlights the unique ocular changes present in in utero BVDV infection of cattle with a different immunohistochemical staining profile than previously described.

The Protein/Peptide Direct Virus Inactivation During Chromatographic Process: Developing Approaches

Virus clearance is required for pharmaceutical preparations derived from animal or human sources such as blood products, vaccines, recombinant proteins produced in mammalian cell lines, etc. High cost and substantial protein losses during virus inactivation are significant problems for protein/peptide manufacturing. The goal of this project was to develop a method to perform virus inactivation in a course of protein chromatographic purification. Another goal was to show that the chromatographic adsorbent can serve as reliable "sieva" for mechanical washing away of infecting viruses. Using chromatographic, photometric, IFA, and RT-PCR approaches, it was discovered that high temperature-depending dynamic capacity of adsorbent allowed to perform a virus inactivation directly in a chromatographic column by solvent/detergent treatment. The peptide/protein biological activity was completely preserved. Using this new approach enveloped and nonenveloped viruses were effectively removed protein preparation. In addition, it was shown that RT-PCR method demonstrates more precise and reproducible results and robust properties for assessment of virus reduction than virus titer followed by infectivity studies. Presented method allowed to obtain the factor of virus concentration decrease (FVD) values that were higher than those provided by known technologies and was sufficient for a full inactivation of viruses. The method is recommended to use in pharmaceutical industry.

Factors affecting sensitivity and specificity of pooled-sample testing for diagnosis of low prevalence infections

Testing of pooled samples has been proposed as a low-cost alternative for diagnostic screening and surveillance for infectious agents in situations where the prevalence of infection is low and most samples can be expected to test negative. The present study extends our previous work in pooled-sample testing (PST) to evaluate effects of the following factors on the overall PST sensitivity (SE(k)) and specificity (SP(k)): dilution (pool size), cross-contamination, and cross-reaction. A probabilistic model, in conjunction with Monte Carlo simulations, was used to calculate SE(k) and SP(k), as applied to detection of bovine viral diarrhea virus (BVDV) persistently infected (PI) animals using RT-PCR. For an average prevalence of BVDV PI of 0.01 and viremia in each animal between 10(2) and 10(7)virusparticles/mL, the pool size associated with the lowest number of tests, and lowest cost, corresponded to eight samples/pool. However, the least-cost pool size (lowest number of tests) was associated with a SE(k) of 0.90 (0.75-1), which corresponded to a decrease of 0.04, relative to the assay sensitivity for a single sample. The SP(k) for the same pool size, considering the effect of detection of BVDV acutely infected animals and cross-contamination as source of false positive results, was 0.90 (0.85-0.95). The effect of a hypothetical cross-reacting agent was to markedly decrease SP(k), especially as the prevalence of the cross-reacting agent increased. For a pool size of eight samples and a prevalence of the cross-reacting agent of 0.3, SP(k) ranged from 0.67 to 0.86, depending on the probability that the assay would detect the cross-reacting agent. The methods presented offer a means of evaluating and understanding the various factors that can influence overall accuracy of PST procedures.