Epidemiological Review of Francisella Tularensis: A Case Study in the Complications of Dual Diagnoses

INTRODUCTION: Tularemia is a rare but potentially fatal disease that develops in numerous wild and domestic animals, including lagomorphs, rodents, cats, and humans. Francisella tularensis bacterium, the causative agent of tularemia, was identified by veterinary personnel at Fort Riley, Kansas during a routine post-mortum evaluation of a domestic feline. However, before formal diagnosis was confirmed, the sample was sent and prepared for rabies testing at the Department of Defense (DoD) U.S. Army Public Health Command Central (PHC-C), Food Analysis and Diagnostic Laboratory (FADL). This case report provides insight on how veterinarian staff and laboratory personnel can clinically manage esoteric, unexplained, or post-mortum examinations. The epidemiologic characteristics of tularemia, F. tularensis as an organism of military interest, potential laboratory management of F. tularensis, and clinical findings on a case of feline tularemia are discussed. It further raises questions as to whether or not dead animals should be treated as sentinels and be pre-screened for select agents, especially in instances of dual diagnoses. METHODS: A necropsy was performed on the cat by the Fort Riley veterinarian, DNA extraction and PCR analyses were conducted by FADL microbiologists, histology and immunohistology analyses were conducted by the Kansas State Veterinary Diagnostic Laboratory, and feline tissue and blood were sent to the U.S. Army Medical Research Institute of Infectious Diseases (USAMRIID) for confirmatory testing and strain identification of tularemia. RESULTS: Tularemia was identified in the spleen of the cat by the Fort Riley veterinarian and during the histological sampling of the spleen by the Kansas State Veterinary Diagnostic Laboratory. A specific subsequent real-time polymerase chain reaction (RT-PCR) in vitro diagnostic detection of target DNA sequences of F. tularensis was conducted by the FADL microbiologists using a Joint Biological Agent Identification and Diagnostic System (JBAIDS) Tularemia Detection Kit to detect a presumptive qualitative result to detect tularemia in feline and blood samples. USAMRIID also performed RT-PCR and identified genomic DNA from F. tularensis Type A, (SPL15.013.02), thus confirming the FADL’s initial presumptive result of F. tularensis. USAMRIID attempted to culture F. tularensis from three samples (swab, feline tissue, and transfer pipette tip), but no growth consistent with F. tularensis was observed on the cysteine heart agar with sheep blood and antibiotics (CHAB) and chocolate (CHOC) plates. DISCUSSIONS: Our case study of a dual diagnosis of presumptive F. tularensis and possible rabies exposure transmission from a pet cat to its owner provides insight on how veterinarian staff and laboratory personnel can clinically manage esoteric, unexplained, or post-mortum examinations. Our case study also demonstrates the obligation for cooperation between animal health, human health, and public health professionals in the management of zoonotic diseases.