A New Licensed Quadrivalent Antileptospiral Canine Vaccine Prevents Mortality, Clinical Signs, Infection, Bacterial Excretion, Renal Carriage and Renal Lesions Caused by Australis Experimental Challenge.

Background: Australis is one of the most prevalent strains infecting dogs, leading, in natural conditions, to severe life-threatening cases.

Objective: The objective was to evaluate the onset and duration of immunity (OOI and DOI) induced by a new licensed quadrivalent antileptospiral vaccine (EURICAN L4) including four components (Canicola, Icterohaemorrhagiae, Grippotyphosa and Australis) against Australis. To this end, a severe Australis challenge model was developed, using a canine strain recently isolated from the field.

Isolation of Virulent Serogroup Australis Field Strains from Symptomatic Dogs for Canine Leptospiral Vaccine Development.

Leptospirosis is a widespread zoonosis caused by spirochaetes belonging to the pathogenic species of , which are classified into more than 25 serogroups and 250 serovars. Vaccination can prevent the disease in dogs but offers incomplete efficacy because of a lack of cross-protection between serogroups. The aim of this study was to validate a robust recruitment and sampling process, with the objectives of isolating and typing circulating pathogenic strains and then selecting those of proven virulence and pathogenicity for vaccine development.

Compatibility between a rabies vaccine and two canine combined vaccines against canine distemper, adenovirosis, parvovirosis, parainfluenza virus disease and leptospirosis, with or without canine coronavirus.

In many countries, vaccination programs still require dogs to be vaccinated against rabies in addition to Canine distemper virus (CDV), adenovirus (CAV), parvovirus (CPV), parainfluenza virus (CPiV), Leptospira (L) or Canine coronavirus (CCV= Cv). Few vaccines containing all these antigens are commercially available and, unless compatibility between the vaccines was demonstrated, concurrent administration of a DAPPi-L(Cv) vaccine and a vaccine against rabies should not be recommended. This may be of concern for practitioners who wish to vaccinate dogs with all components on the same day.

Quantitative Real-Time PCR Assays for the Detection of Pathogenic Species in Urine and Blood Samples in Canine Vaccine Clinical Studies: a Rapid Alternative to Classical Culture Methods.

Leptospirosis is a vaccine-preventable bacterial zoonotic disease caused by pathogenic Leptospira species. The efficacy of canine vaccines is assessed by challenging vaccinated and control dogs with virulent serovars of , followed by detection of in blood and urine. We assessed the consistency between results obtained for urine and blood samples from clinical studies with species-specific real-time quantitative PCR (qPCR) targeting the gene and those obtained with the reference culture method.

Successful Leptospira genotyping strategy on DNA extracted from canine biological samples.

Leptospirosis is an emerging worldwide zoonosis with a changing epidemiology responsible for an acute disease in humans and dogs. A better knowledge of the responsible bacterium Leptospira and in particular its various serovars and serogroups prevalence is essential for better diagnosis and prevention of the disease. The gold standard for leptospirosis diagnosis is the Microscopic Agglutination Test (MAT) but it requires long and fastidious laboratory work and sometimes results in controversial data.

Development of antibody ELISA specific of Leptospira interrogans serovar Grippotyphosa, Canicola, and Icterohaemorrhagiae to monitor vaccine immunogenicity.

The antibody response after primary vaccination and annual revaccination with a multivalent DAPPi-L vaccine was assessed respectively in SPF dogs and in client owned dogs against the Grippotyphosa (Lg), Canicola (Lc) and Icterohaemorrhagiae (Li) Leptospira serovars. To overcome limitations of the microscopic agglutination test (MAT), we developed serovar-specific and sensitive blocking ELISA assays. Serovar-specific antibodies against Lg, Lc and Li were detected in 100%, 45% and 91% of dogs, respectively, after the first dose of vaccine, and in 100% of dogs for all serovars after the second dose.

Multivariate analysis of the immune response to a vaccine as an alternative to the repetition of animal challenge studies for vaccines with demonstrated efficacy.

The assessment of vaccine combinations, or the evaluation of the impact of minor modifications of one component in well-established vaccines, requires animal challenges in the absence of previously validated correlates of protection. As an alternative, we propose conducting a multivariate analysis of the specific immune response to the vaccine. This approach is consistent with the principles of the 3Rs (Refinement, Reduction and Replacement) and avoids repeating efficacy studies based on infectious challenges in vivo.

Impact of plasmid supercoiling on the efficacy of a rabies DNA vaccine to protect cats.

As of today, most DNA vaccination trials have been performed with plasmid preparations highly enriched in supercoiled molecules (sc) and the importance of supercoiled versus open circular (oc) plasmid isoforms for vaccine immunogenicity has only received limited attention. This study demonstrated that a single rabies DNA vaccination fully protected cats against a lethal rabies challenge as early as 3 weeks post vaccination provided that the proportion of supercoiled isoform in the vaccinal solution is at least 48%. In contrast, vaccination with a plasmid containing only 20% of supercoiled molecules induced significant but only partial protection.