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CDC researchers have developed a real-time PCR assay for the detection of Neisseria meningitidis sodC within clinical specimens. The ability to detect all strains of N. meningitidis, regardless of individual serogroup, is the central innovation of this technology. Further, the assay is sensitive enough to detect even the very limited sample sizes of N. meningitidis that would typically be found in clinical specimens. This technology avoids potentially catastrophic false-negative results associated with current N.

CDC researchers developed a more efficient method of assessing rabies vaccine potency using an antigen-capture electrochemiluminescent (ECL) assay. This assay utilizes SULFO-NHS-Ester labeled murine monoclonal antibodies to quantify glycoprotein concentration, which is an indicator of vaccine potency. Currently, the potency of rabies vaccines is determined by the effective-dose (ED50) mouse study evaluation method, which is more than 50 years old.

CDC researchers developed a real-time PCR assay targeting insertion sequence (IS481) and pertussis toxin subunit 1 (ptxS1) of Bordetella pertussis. This real-time nucleic acid assay offers rapid, sensitive, and quantitative results. The employed primers have been validated through extensive diagnostic testing of 41 Bordetella and 64 non-Bordetella clinical isolates. This technology can be used to diagnose and distinguish B. pertussis, B. parapertussis and B.

CDC scientists have developed a real-time PCR assay for diagnosing pneumococcal disease using amplification of the bacterial gene encoding pneumococcal surface adhesin A (PsaA). Pneumococcal isolation and identification is often complicated by 1) antimicrobial suppression of growth in culture and 2) contamination by normal flora alpha-streptococci. Further, pneumococcal detection by culture and serological methods can be time-consuming, relatively expensive, laborious and, ultimately, indeterminate.

CDC researchers have developed recombinant lyssaviruses that can be used for the development of an improved, broad-spectrum vaccine against several rabies genotypes. Lyssaviruses are single-stranded RNA viruses that cause rabies and rabies-like diseases in mammals. Currently, there are commercially available vaccines that are considered to be effective against infections from a single viral phylogroup; however, these vaccines confer little or no protection against viruses outside of the phylogroup.

This invention describes materials and methods of detecting novel influenza virus in a sample. As highlighted by the recent H1N1 pandemic strain, influenza viruses are constantly evolving and novel reassortments can quickly spread around the world.

The CDC developed a real-time reverse transcription polymerase chain reaction (RT-PCR) Taqman assay and an RT-semi nested PCR (RT-snPCR) assay for the detection of parechoviruses. Similar to enteroviruses, parechoviruses are responsible for gastrointestinal, respiratory and central nervous system infections. All tests target conserved regions in the 5'-nontranslated region (5-'NTR) of the parechovirus genome and share forward and reverse primers. The Taqman probe and RTsnPCR nested primer target the same conserved site but vary in length.

In order to address a global need for rapid, cost-effective, sensitive, and specific assays for many pathogens, CDC scientists have developed a broad-use, multiplexed RT-PCR assay. This comprehensive assay covers numerous pathogens that are common causes of infection in neonates and also important to food-safety.

CDC researchers have developed a single-tube, real-time PCR assay for the simultaneous detection of three bacterial respiratory pathogens (Mycoplasma pneumoniae, Chlamydiophila pneumoniae and Legionella spp.). The assay has an internal control testing for presence of human DNA. This four-plex real-time PCR assay could potentially become a routine screening test for patients with respiratory illness. Ninety four clinical specimens (in a 96-well format) can be tested at once. This assay is non-invasive, rapid and cost-effective.

This invention relates to a recombinant, attenuated rabies vaccine that is also capable of inhibiting reproductive fertility. An Evelyn-Rokitnicki-Abelseth (ERA) rabies vaccine backbone, combined with a reproductive-specific protein, such as gonadotropin-releasing hormone (GnRH) or the sperm-binding zona-pellucida-glycoprotein-3 (ZP3) receptor, allows reduction in both rabies transmission and uncontrolled reproduction in stray animals. The ERA rabies vaccine backbone has previously shown strong efficacy in animal studies.