The Ohio State University Corporate Engagement Office

Back to All Technologies

Novel Neorickettsia Isolate - Dai17

Veterinary Medicine
Companion Animal Vaccines/Preventative Treatments
College
College of Veterinary Medicine
Researchers
Rikihisa, Yasuko
Licensing Manager
Dahlman, Jason "Jay"
(614)292-7945
dahlman.3@osu.edu

T2023-248

The Need

Potomac horse fever (PHF) poses a significant threat to equine health, presenting as a severe and often fatal febrile diarrheal disease. Current understanding identifies Neorickettsia risticii as the sole causative agent, associated with digenean trematodes. However, recent research reveals a new Neorickettsia species, Neorickettsia finleia sp. nov., isolated from PCR-negative horses in eastern Ontario, Canada. This discovery underscores the need for enhanced diagnostic tools and therapeutic interventions to combat PHF effectively.

The Technology

Neorickettsia finleia sp. nov. represents a groundbreaking advancement in the understanding and management of PHF. Through cell culture isolation, gene sequencing, and experimental inoculation, researchers have characterized this novel bacterium. Notably, it exhibits distinct genetic markers and pathogenic properties, enabling precise differentiation from known Neorickettsia strains. Whole-genome sequencing further illuminates unique features, facilitating targeted diagnostics and therapeutic strategies for PHF mitigation.

Commercial Applications

  • Enhanced laboratory diagnosis of PHF
  • Development of targeted vaccines against Neorickettsia finleia sp. nov.
  • Improved environmental risk assessment for PHF transmission
  • Advancements in understanding PHF pathogenesis and Neorickettsia biology
  • Potential applications in equine health monitoring and management

Benefits/Advantages

  • Accurate identification of Neorickettsia finleia sp. nov., enabling tailored treatment regimens
  • Enhanced efficacy of PHF vaccines through targeted antigen selection
  • Precise risk assessment for equine populations, supporting proactive disease prevention measures
  • Deeper insights into PHF pathogenesis and Neorickettsia biology, facilitating future research and therapeutic innovations
  • Potential for broader applications in veterinary medicine and infectious disease management