
This post is going to be long a long one, as treatment of Brucella canis infection in dogs is a complicated, and there are a lot of important associated issues to mention. TL;DR – I’m not a fan of the hard line “thou shalt euthanize or lock away a dog with B. canis.” I want to prevent disease spread, but we also need to consider the bigger picture and keep things in perspective and the proper context.
To treat or not to treat? That is the question. In some areas, it’s recommended to euthanize dogs that test positive for B. canis, or to strictly isolate them from other dogs and people. This approach is based mostly on what’s been recommended historically out of an abundance of caution (because a long time ago “someone” said we should do it this way) and unsubstantiated fear, rather than hard evidence of risk. Nonetheless, there are some valid issues to discuss.
Personally, I have no problem treating infected dogs if the owner is aware of the potential risks and all the unknowns. Apart from outbreaks and surveillance testing, I get involved with probably about ten new B. canis cases a year. Considering I deal mainly with weird infectious disease situations, that indicates it’s a fairly uncommon occurrence (or at least uncommonly diagnosed), but it’s common enough that we need to have a plan for handling these cases.
It’s hard to know how common B. canis infection really is in the general dog population. Studies of specific populations like dogs in shelters have reported highly variable results, with some reporting over 50% of dogs affected. I suspect that the prevalence in in the general dog population is probably less than 1%, but 1% of millions of dogs is still a lot of infected dogs.
- Dogs from shelters, imported dogs and dogs from questionable breeding facilities tend to be higher risk. We did a study of B. canis in commercial dog breeding kennels in Ontario in 2019 and 127/1080 (11.8%) of dogs were infected. That was a biased population, as it included some kennels where there were known reproductive issues or potential for exposure to other infected kennels, but it’s still relevant. We found over 100 infected breeding dogs, having tested only a subset of the breeding dogs in that area.
So, we have to assume there were (and probably still are) hundreds of infected dogs out there being bred. That means there’s presumably lots of human exposure, among breeding kennel owners and staff, and among those who adopt dogs from them. Yet, human infections are very rare and most infectious disease physicians I have talked to have not seen one.
Infection in dogs can cause diseases such as diskospondylitis (which causes back and neck pain) but most infected dogs have no signs of disease and probably never will. That’s good for the dog, but it means we can’t tell who’s likely infected just by looking for signs of illness.
The actual risk to people from exposure to a dog with B. canis is low. There’s presumably a fraction of human infections that go undiagnosed or get misdiagnosed, but even so the number of human infections is likely really low. It’s also treatable in people. Based on a recent scoping review of B. canis cases in humans (Weese & Weese 2025), the literature is quite sparse. We found reports of infections in only 68 people, and 20% of cases with a known origin were lab-acquired, not from dogs. Signs of disease in these cases were variable; while illness can be severe, fever, malaise, fatigue and chills were most common, and no mortalities were reported. Contact with breeding dogs, especially contact with fetuses or fluids after a dog had aborted from B. canis infection, was an important source of exposure. Since then, there was a case report about an infection in a veterinarian in the UK, presented at the 2026 ESCMID Global conference. The likely source in that case was contact with imported breeding dogs. The veterinarian developed forearm blisters, severe back pain, joint pain, and then fever, headache, chest pain, rash and conjunctivitis, but was eventually diagnosed and successfully treated.
I’m definitely not dismissing the risk of disease from B. canis. I don’t want it and don’t want anyone else to get it either. I want to prevent infections in people and dogs. But using an extremely strict approach might not be all that helpful, and could potentially be detrimental if it discourages testing (more on this below).
Risk of disease and transmission varies depending on the type of dog. Consideration of the type of dog involved is important, but often gets overlooked. The highest risk is contact with female dogs that have recently aborted, fetuses and fluids from an abortion, and newborns and maternal fluids/tissues from infected dogs after giving birth to live puppies. This situation doesn’t apply to most households. The risks from most other dogs are likely low, but they aren’t zero; transmission from a sexually immature dog has been reported (once, from a puppy). Contact with urine is probably next on the list of risky fluids, but it’s still probably low risk overall. Theoretically blood and saliva could pose a transmission risk, but those are likely even lower risk.
Another way we can try to assess the dog-to-human transmission risk is to look at the dog-to-dog transmission risk. I’ve been involved in quite a few cases where someone who already owned one or more dogs adopted a new dog that was subsequently found to be infected with B. canis. Almost always, the new dog was already spayed/neutered, or this was done shortly after adoption before the infection was identified. We have often tested the other dogs in the household in these situations and I don’t think we’ve ever found a positive housemate dog, even after the animals have lived together for years in some cases. That doesn’t mean there’s no risk of transmission, but it provides further support for the limited risk in normal household situations.
When in comes to treatment of B. canis in dogs, there are actually two components to consider: treatment of disease versus elimination of the bacterium.
In dogs that actually get sick from the infection, we usually get a good clinical response to antimicrobial therapy. Certain infections, like diskospondylitis, may take a long time to respond, but they usually do eventually.
Because B. canis is adapted to live in dogs, total eradication of the bacterium is tougher; it requires even longer term antimicrobial therapy, and it’s hard to know if/when the B. canis has been eliminated. Typically, I recommend monitoring dogs on treatment serologically, which measures the amount of antibodies against B. canis in the bloodstream. I aim to treat until the dog has no detectable antibodies anymore (seronegative), realizing that that’s likely over-treating, because the antibodies take a while to disappear even after the infection is gone, but unfortunately it’s the only readily available monitoring tool we have. I anticipate at least 3 months of antimicrobial therapy to start, but it usually takes longer than this. Most of the recurrences that I have seen have been in dogs treated with only a month or two of antimicrobials without any serological monitoring. Unfortunately we don’t have great data on overall response to this treatment regimen, since not many dogs are treated and treatment and monitoring are variable. In my anecdotal experience, most dogs will eventually become seronegative and stay seronegative (assuming they don’t get re-exposed), but I still can’t guarantee complete eradication of the bacterium, so the infection could still recrudesce.
So B. canis is widely distributed in dogs and uncommonly causes disease. It probably doesn’t crack the top 10 list of zoonotic disease risks from dogs. So is it really that big a deal? I still wouldn’t dismiss the risk, because even though B. canis infection in people is rare and treatable, it’s still something we want to prevent. The other issue, though, and the one that prompted this post, is the variability in response to an infected dog, which is sometimes euthanasia – and that’s a very big deal.
- The question shouldn’t be “does a B. canis infected dog pose a risk of B. canis transmission to people?” because the answer to that is obviously “yes, but a very low risk.”
- The better questions are “Does a dog with B. canis pose a significantly greater overall health risk to people than any random dog?” or perhaps even more importantly “Does a dog with B. canis that has been diagnosed and is being properly managed pose a significantly greater overall health risk to people than any random dog?” I would argue that the overall health risk to people from a well-managed infected dog is almost identical to that of any other random dog that may or may not be infected, but is not being managed for it. The risk may even be lower in a managed dog because we know the dog is getting regular veterinary care, so other potential problems can be flagged.
We often get tunnel vision on one risk, while ignoring other greater risks. Every dog is harbouring multiple bacteria that can cause serious disease in people under the right circumstances. We don’t have any “zero risk” dogs, we have higher and lower risk dogs, people and situations, but anyone can get a zoonotic infection from any dog. More people die every year from Capnocytophaga canimorsus infection from dogs (a bacterium that’s present in the mouth of pretty much every dog) than have probably ever died from B. canis infection Pasteurella (which is also present in the mouth of most dogs and cats) causes many more infections than B. canis ever will. I could write a few pages on pathogen threats that are much more common than B. canis. That doesn’t mean B. canis isn’t important, but we should think about the big picture and the logic (or lack thereof) of an approach as drastic as euthanasia or long term isolation.
More testing of dogs for B. canis would be useful. Ideally, we’d test all dogs that came from a kennel of unknown B. canis status, so we could understand and mitigate the risk of spread. However, harsh draconian consequences disincentivize testing:
- “Cute puppy. Since we’re not sure about where he came from, we should test him for Brucella canis. But if he’s positive, we’ll have to euthanize him.” How many vets want to make that offer? How many owners would actually agree to testing knowing that?
Disincentivizing testing means we get fewer dogs tested, so we treat fewer infected dogs, and we know less about the infection itself and response to treatment.
At the same time, differential application of severe measures is illogical and ineffective. I have a hard time buying into really strict responses to a known infection, while there’s a much larger number of unknown infections that are simply ignored. It doesn’t make sense to euthanized the dog that responsibly gets tested, while all the other infected dogs and their owners are allowed to simply remain blissfully unaware. If the risk from the known-infected dog can be manged (spay/neuter and treatment), it’s going to be much less than the risk from all those other unknown positives.
So, what’s a veterinarian to do when a dog tests positive for B. canis?
The first step is talking to the dog owner. They need to understand the situation and the options. If they decide to treat, that will involve months of medication and periodic repeated testing. That can get expensive, so they have to be willing to commit. They can’t just give a few days or a few weeks of antibiotics and hope for the best.
If not already done, the dog needs to be spayed or neutered. That will greatly drop the transmission risk to people, and prevents breeding-associated infections, which is the main dog-to-dog route of transmission.
The owner needs to realize the limitations of treatment. We can never guarantee that B. canis has been eradicated from the dog, because the bacterium is notorious for laying dormant in tissues and sometimes infection will recrudesce after treatment. With spaying/neutering, the right antimicrobials, adequate treatment duration and recheck monitoring, the risk of recurrence is probably low, and the transmission risk from a spayed/neutered dog with an early recurrence that is detected through routine testing is probably very low. Yes, there are a lot of probablys here, but that’s the nature of a lot of understudied infectious disease issues.
Treatment is not the right thing to do in every situation. If the owner can’t commit to proper management or has particular concerns about B. canis, rehoming the dog may be a better option. Some rescues will take infected dogs, treat them, and find homes for them with people who understand the situation and risks, which is great. Those are niche rescues and niche adopters, but I think it’s perfectly appropriate, for all the reasons above.
If I suddenly found out that my dog Ozzie was B. canis-positive, I wouldn’t consider euthanizing him. He’s neutered, he’d be treated and he’d be monitored. The risk to my family from B. canis would be exceptionally low, we’d be willing to accept that risk (just like we accept many other risks from owning a dog and cats). Not everyone does risk math the same, and if someone didn’t want to keep a positive dog, I wouldn’t consider that inappropriate at all. You have to do what works best for your scenario.
What I don’t want to see is unnecessary broad draconian measures and loss of family pets for limited benefit in terms of disease prevention. There’s no right or wrong, but a blanket “you have to get rid of the dog” is the wrong approach to me.











