An 8-year-old 5-kg (11-lb) spayed female Miniature Dachshund was examined as part of a routine wellness and vaccination program. On physical examination, the dog was quiet, alert, and responsive; however, a large mass was palpated in the caudal aspect of the dog's abdomen. Results of CBC and serum biochemical analyses indicated high RBC count (9.54 × 106 RBCs/uL; reference range, 5.39 × 106 to 8.7 × 106 RBCs/uL), Hct (59%; reference range, 38.3% to 56.5%), and hemoglobin concentration (21.6 g/dL; reference range, 13.4 to 20.7 g/dL) and low blood glucose concentration (62 mg/dL;
To evaluate rabies virus (RABV) characterization data obtained from animal specimens submitted to the US public health rabies surveillance system and propose a standardized approach to sample selection for RABV characterization that could enhance early detection of important rabies epizootic events in the United States.
United States public health rabies surveillance system data collected from January 1, 2010, through December 31, 2015.
Data were reviewed to identify RABV-positive specimens for which virus characterization would likely provide information regarding any of 4 overarching events (discovery of novel variants, translocation of RABV variants, host-shift events, and any unusual rabies-related event) that could substantially alter animal rabies epizootiology in the United States. These specimens were designated as specimens of epizootiological importance (SEIs). Estimates of the additional number of specimens that public health laboratories could expect to process each year if all SEIs underwent RABV characterization were calculated.
During the 6-year period, the mean annual number of SEIs was 855 (95% CI, 739 to 971); the mean number of SEIs that underwent virus characterization was 270 (95% CI, 187 to 353). Virus characterization of all SEIs would be expected to increase the public health laboratories’ test load by approximately 585 (95% CI, 543 to 625) specimens/y.
CONCLUSIONS AND CLINICAL RELEVANCE
Prioritization of RABV characterization of SEIs may improve early detection of rabies events associated with RABV host shifts, variant translocations, and importation. Characterization of SEIs may help refine wildlife rabies management practices. Each public health laboratory should evaluate testing of SEIs to ensure diagnostic laboratory capacity is not overstretched.