Background
In Uganda, data regarding rabies outbreaks are acquired through passive surveillance. However, this surveillance system is associated with challenges such as limited case reporting and logistical gaps, leading to reduced sample submission for the positive diagnostic to the national reference veterinary laboratory. Although the dog is a main transmitter of rabies virus in low- and medium-income countries, wildlife reservoirs (e.g., mongoose, jackals, foxes) can potentially spread the virus to livestock and human populations in Uganda. The present study aims to evaluate rabies virus circulation in livestock, domestic dogs, and wild carnivores, and to identify the distribution of positive cases following rabies outbreaks from 2015-2022 in Uganda.
Methods
Seventy-three (73) brain specimens from suspected rabies cases in livestock, domestic animals, and wild carnivores from different districts of Uganda were submitted to the National Animal Disease Diagnostics and Epidemiology Center for testing and analysis. Samples were subjected to two tests: the rapid rabies antigen detection test and the direct fluorescent antibody test, which is the gold standard for rabies diagnosis.
Results
Out of 73 samples, 50 tested positive (68.5%). Dogs were the species displaying the globally highest positivity (42%), followed by cattle (24%), goats (20%), and wild carnivores (10%). Of the 21 dogs tested, 15 were stray dogs (30%). Most of the cases were found in the Busia district (14%), followed by Arua district (10%) and Mukono district (10%). Our data demonstrated that the rabies virus is actively circulating in domestic and wild animal populations in several regions of Uganda and remains a high risk to human and animal health.
Conclusions
The correlation found between the number of samples submitted and the number of positive results shows the accuracy (more than one in two cases) of the diagnosis of suspected rabies in the animals sampled.
Robust and widely implementable One Health surveillance systems are required to detect and control the spread of zoonotic infectious diseases. Encouragement of the concerned actors to use efficient diagnostic technology coupled with a rapid field response is needed to improve the surveillance of deadly zoonosis such as rabies.