I was at our local farm supply store the other day and saw a sign indicating they were out of chicken coops and trying to find more from different sources. I wonder if there’s a run on backyard chickens as people spend more time at home.  There are some positive aspects to that – and then… there’s Salmonella.

I’m not anti-backyard chicken. (In fact, if I wasn’t convinced they’d be coyote-food, and that Heather would kick me out of the house, I’d consider getting some myself.)

I’m anti-diarrhea and anti-preventable death. It’s clear that backyard chickens pose some risk to people. How much of that is non-preventable vs preventable with basic common sense and hygiene is a big question (and one we’re working on, but like so many other things has been stalled by COVID-19).

The CDC’s latest Investigation Notice of Outbreaks of Salmonella Infections Linked to Backyard Poultry (24-Jun-2020) highlights many of the concerns with this trendy practice, and need for better education of the public and management of the birds.

Here’s the really quick version of the report:

  • Since their May 2020 update, another (whopping) 368 Salmonella infections linked to backyard bird have been diagnosed in people. That brings the total diagnosed to 465 (meaning there were probably many thousand people truly infected).
  • 36% of those with available information were hospitalized, and one person died.
  • As is common, young kids appeared to bear the brunt of disease: 31% of cases were kids less than 5 years of age. That’s probably also a reflection of their higher likelihood of close contact with the birds (e.g. kissing them), inadequate supervision and inadequate hygiene (hand washing in particular).
  • Chickens came from a range of sources, such as farm stores, hatcheries and websites.

Risk reduction isn’t rocket science. It’s some basic management and hygiene practices, and some common sense.  (No, putting a diaper on a your chicken does not make letting it run around your kitchen a safe proposition, despite the availability of chicken diapers online).

  • Keep backyard poultry in the backyard – don’t let the birds roam the house.
  • Wash your hands after contact with poultry.
  • Look at where runoff can carry bacteria from manure in the pens (not a good place for a garden).
  • Don’t kiss poultry.
  • Wash your hands.
  • Supervise kids around poultry.
  • Wash your hands.
  • Handle eggs like commercially sourced eggs. (Your home-raised, all-natural, organic, antibiotic-free egg is as likely (or maybe more likely) to have something nasty on it as the eggs you buy in the store.)

Enjoy your chickens, but… wash your hands.

A horrific situation with a group of imported dogs from the Ukraine has once again focused attention on issues regarding canine importation. A Ukrainian Airlines plane arrived in Toronto last Saturday with over 500 French bulldog puppies on board, many of which were dead or dying upon arrival. At least 38 died. The incident is being investigated.  There are some indications that the puppies were crammed into crates and left outside in Kiev in 30C+ weather prior to loading. Cramming stressed puppies into small cages and compromising them before the flight by overheating them probably led to even more severe issues, particularly in a breed such as this that is more prone to respiratory complications.

Problems with canine importation aren’t new. You can use the W&G tag archive to find lots of posts (and some rants) under the tag “importation.” We’ve seen some important disease introductions into Canada (and other countries) from canine importation. Canine flu was a textbook example, but we’ve also seen Brucella canis widespread in puppy mills in Ontario (potentially originating from imported dogs from Ukraine), and various other smaller-scale outbreaks and infections.

Not surprisingly, there was a public outcry locally following this latest incident, and the tragedy even made the news overseas in the UK.

Will anything actually change in response to this incident?  The pessimist in me says no. The optimist in me says we might be reaching the tipping point at which there will finally be sufficient momentum to actually effect change.

Unfortunately, at the moment unscrupulous importers have little reason to stop. If you start with 500 dogs and 38 die, that’s still 462 dogs to sell for a few thousand dollars each, making this a multi-million dollar importation even with the losses and little chance of any significant penalty. Without stricter rules, and the ability to enforce them, animals will continue to be exploited like this for the profit.

The issues have been low on the government’s radar, even though we’ve known about them for years.  A quick Google search provides a string of news stories from recent years raising similar concerns. A few years ago a national working group was asked to scope out the issue in Canada and provide options/recommendations for what could be done to address them.  But there’s never been enough public pressure to convince governments to expend the time and political capital on a niche issue about which people often get worked up but from which they move on all too quickly.

Earlier this week, the Canadian Veterinary Medical Association (CVMA) released a position statement about this event, which also mentions some of the work they’ve been doing in this area.  More work will be done this summer which will hopefully give us additional data to help inform strategies for combating this problem going forward.

What can the average person do?

As long as people are willing to buy imported dogs, or dogs from large volume commercial breeders (i.e. puppy mills) that buy in cheap breeding stock from overseas, the problem isn’t going to go away.

If you are going to buy a dog (vs obtain one from a shelter or rescue), make sure you can meet the puppy’s parents (or at least the puppy’s dam, as the sire could be elsewhere by the time the puppy arrives). If you can’t see the parents, you are more likely to be dealing with a puppy mill dog. Puppy mill dogs can be found in lots of places – farms, Kijiji, pet stores and even households. I could get a litter of puppies from a puppy mill or broker this afternoon, and put an ad online for “home raised” puppies. You’d see a cute litter of (likely biohazardous) puppies being shown off by a nice family, not realizing they just came from a crappy mass production facility.

If you are going to get a dog from a rescue that brings in dogs from other countries, ask them about their practices and policies. A good rescue will scrutinize you, to make sure you’re an appropriate owner. At the same time, you should scrutinize the rescue to make sure they’re doing things right (including responsible sourcing, safe transport, appropriate health checks and infectious disease screening).

If you are importing a dog for personal reasons, do it safely. There are completely legitimate reasons why people import dogs, and there should be a mechanism to allow that. Talk to your veterinarian about the issues and preventive measures – veterinarians can use the CVMA canine importation checklist as a starting point. We’re working on some additional support materials now to help veterinarians and owners know what issues are present in different countries and recommended control measures.

I’m not sure lobbying the government does anything, but I guess it can’t hurt. They need to know that people care about this issue, not just every once in a while when a problem gets publicized, but all the time. I suspect there are enough people that would support change to get (federal) government interested, but it’s a silent majority.

Ultimately, we need government (in many countries, not just Canada) to take action, to enact real change, enforce rules, use the powers that they have to improve things – and to help make sure it’s done right.  What are the odds the CBSA can actually properly process a surprise arrival of 500 dogs at Canada’s largest airport, on top of with everything else they need to do (including monitoring for other illegal activities like drug smuggling and human trafficking, just to name a couple), likely with little training on the animal side of things, and no quarantine facilities? Pretty low, would be my guess.

It’s not all about rules and enforcement. We need a “stick” to control the bad actors, but we need carrots to help encourage others to do the right thing. Thousands of dogs come into Canada for good reasons, coordinated by well-meaning people or groups. Many of them create unnecessary risk to the imported dogs, local dogs and public health because of bad practices. They need education and support, which is part of what we’re working on. Hopefully we’ll have some more useful materials in the near future, but in the interim, the dog-importing, dog-owning, dog-buying and general dog-loving public can all play a role in mitigating this problem.

Things have been relatively quiet on the animal/COVID front for the past week or so (and that’s good).  We’ll likely continue to see sporadic cases in pets that get infected from their owners. Hopefully, all of those cases will stop with the pet and there will be no further transmission to other people or animals (including wildlife and community cats, which would perhaps be the most conerning).

I suspect the next big wave of information regarding SARS-CoV-2 in companion animals will be when serological (antibody) testing starts to give us an idea of how often human-to-pet transmission has occurred over the course of the pandemic. Most of the limited testing to date has focused on testing samples from animals for the virus itself, which lets us know if the subject is actively infected.  Unfortunately, that type of testing is hampered by the fact that we have to identify actively infected households and then find a way to collect samples during the fairly short window when the pet might be infected, so we’re going to underestimate transmission that way. Combining those kinds of studies with antibody testing is important, as serology can be done more easily after-the-fact because the antibodies remain in the bloodstream much longer than the virus itself hangs around in an individual.

More about mink and SARS-CoV-2

This virus seems to really like mink. In addition to outbreaks of SARS-CoV-2 on multiple Dutch mink farms, SARS-CoV-2 has now been identified on a mink farm in Denmark as well. These outbreaks all appear to start off with mink getting infected by people, but the mink can then spread it amongst themselves and in rare instances even spread the virus back to people. The fact that stray cats on mink farms have been infected as well is concerning, and is yet another reason we want to prevent that initial human-to-animal transmission. We want to keep this a strictly human issue, so that it’s easier to control.


It seems like I’ve spent a lot of my time over the last few months doing webinars, which I guess is not surprising since I’ve actually done a large number them. I did one earlier with week for MightyVet alongside Dr. Mike Lappin (a great veterinary infectious  disease veterinarian from Colorado) and Dr. Chris Woods (an MD from Duke who’s a leader in the “human” side of one health).  It’s had 130,000 views so far so hopefully that means it’s useful.  Click the following link to access the webinar on the MightyVet Facebook page: “Ask an Expert: Confronting COVID-19 myths“.

As we move forward in the COVID-19 era, a lot of things need to be done differently. We’ve written a lot about procedures in veterinary clinics to maximize distancing and protection while minimizing the impact on patient care. Many ancillary issues have also come up, including limiting or managing people other than clients going into vet clinics. One such group of people is industry reps (e.g. from pharma and pet food companies) who normally visit clinics on a regular basis to discuss clinic supply needs, product questions, new products, etc.  The Canadian Animal Health Institute has developed recommendations for companies in order to provide guidance to their employees who typically do these kinds of site visits. It’s also relevant for veterinarians to review, so they understand what to expect. As I discussed yesterday on our CVMA national veterinary COVID-19 weekly townhall webinar, the guidelines are voluntary, but they help set reasonable expectations for everyone. Clinics can set their own bar higher, if they want, and individual companies can do the same. However, these guidelines outline the core issues and minimum expectations, to help protect industry personnel and clinic staff.  Click on the links below for the summary or complete set of guidelines.

CAHI COVID-19 Industry Guidance (Jun-2020) – Summary of Recommendations

CAHI COVID-19 Industry Guidance (Jun-2020)

A non-COVID post for a change.

Well, not completely, I guess. COVID is an example of what can happen when a new disease emerges and spreads. There are lots of new diseases lurking out there, mainly in wildlife. Some threaten humans. Some threaten animals. Some do both. Anytime we move ourselves into new environments or move animals from those environments into proximity with us, we create risk. The more we move ourselves and animals, the greater the risk.

We’re working on a few projects involving importation of dogs, in part because of the infectious diseases these animals bring with them. It’s pretty easy to import dogs into many countries (and especially into Canada). Most regulatory hurdles relate to movement of food animals and restricted wildlife, with limited consideration of issues related to dogs.

Importation rules for the US are pretty lax too, but some measures have been taken to tighten them up a bit in recent years. One was banning importation of dogs from Egypt because of rabies concerns (and issues with falsified vaccination certificates).

Now, there’s new proposed legislation in the US.  The “Healthy Dog Importation Act” (H.R. 6921) has been introduced to by Congressman (and veterinarian) Dr. Ralph Abraham. He states, “In light of the current health issues our country faces, it is important that we don’t import infectious diseases from animals that could have a devastating impact on food supply and our health as Americans. The Healthy Dog Importation Act is a common sense public health measure, and as a veterinarian, I’m proud to introduce this bill alongside Congressman Yoho and Congressman Schrader.

The proposed legislation doesn’t include anything too dramatic that I can see, but would turn some recommendations into requirements and add some logical restrictions:

  • All imported dogs must be permanently identified (e.g. microchip), healthy and vaccinated, with certification of vaccination by a licensed vet. It’s not clear what those requirements are as it states “all necessary vaccinations and demonstrated negative test results required by the Secretary” so presumably the actual vaccination requirements would be sorted out later and could vary.
  • Importation of dogs for “transfer” is restricted, i.e. dogs that are sold or otherwise transferred (adopted) after arrival. Dogs imported for resale/transfer must be at least 6 months of age and must be accompanied by a USDA import permit (which means no importation of puppies younger than this for resale/transfer). There is an exception made for Hawaii (not sure why…), where it would be legal to import puppies as long as they don’t leave the state for resale before 6 months of age. Hawaii’s other state importation rules would still apply.
  • There are also exceptions for research dogs and dogs that enter the US for veterinary care.  Dogs regularly cross between Canada and the US for veterinary care, particularly for specialty care when the closest referral hospital might be on the other side of the border.
  • Breaching these rules could result in quarantine, return or forfeiture of the dogs, and importers can be on the hook for any required healthcare costs.
  • The new act would also “streamline federal oversight, ensuring documentation and import permits are shared electronically between APHIS, CDC, and Customs and Border Patrol, while clarifying APHIS’ key enforcement authority.” If this results in better data about canine importation, that would be great, since the lack of reliable information hampers risk assessments and the ability to follow up on disease introductions.

The legislation outlines the framework, and the details would come later.  I have no idea what the odds are of it being passed before this session ends, but it’s good to see this on the US legislative agenda.

The Public Health Agency of Canada (PHAC) has announced an outbreak of E. coli O157 infections in people linked to Carnivora brand raw pet food, and Health Canada has issued a recall of a number of Carnivora products due to potential contamination with E. coli O157. Illnesses have been reported in four individuals in total, from British Columbia, Alberta and Manitoba.  All affected individuals had exposure to Carnivora brand pet foods, and two were hospitalized due to their illness.  The concern is that the majority of infections might be overlooked, as commonly occurs in such outbreak. The outbreak once again highlights the importance of querying animal contact and contact with high risk (raw) pet foods when foodborne diseases are investigated. While people were presumably not eating the pet food, there is the potential for cross-contamination of human food when handling raw pet food, as well as potential for exposure to pathogens through things like contact with pet food bowls and pet feces.

The main concern with raw pet food tends to be Salmonella; however, E. coli O157 is another significant concern because of the  potential severity of disease. A death was reported in a UK a couple years ago from exposure to E. coli O157 from contaminated pet food.

People who have had contact with the recalled food should be aware of the risk. The odds of a problem are low in most cases and there’s nothing to do if everyone’s healthy. However, it’s critical that healthcare providers be informed of potential exposure to E. coli O157 if someone gets sick (e.g. diarrhea). That’s particularly important for this bug because use of antibiotics (not usually needed for people with diarrhea, though they’re over-prescribed anyway) is a major risk factor for inducing hemolytic-uremic syndrome (HUS), a potentially fatal complication of infection with E. coli O157.

While most dogs and cats that eat raw diets are fine, and most owners don’t get sick, it’s clear that feeding raw diet or raw animal-based treats (e.g. pig ears) is associated with risks to the pet and any human contacts. I’d rather people not feed raw diets to their pets, particularly when the pet or household members are very young, elderly, pregnant or have compromised immune systems. If none of those risk factors are present and someone wants to feed a raw diet, I’d still rather they didn’t, but there are some things that can reduce the risks, as outlined on the Worms & Germs infosheet on raw diets available on our Resources – Pets page.

Oh, and don’t go to the company’s website for accurate information about risk and risk mitigation. They bury some good prevention recommendations in a pile of often out-of-context dialogue to try to deflect any concerns and the typical raw diet misinformation. Some other raw pet food companies are up front about the risks and prevention measures – I have a lot more confidence in companies like that.

Lots of things you can get at a convenience store aren’t great for your health, but I wouldn’t have thought we’d have to add rabies to the list of concerns.

Public health officials in Niagara Falls, NY, are trying to track down nine baby raccoons that were handed out by someone outside a 7-Eleven store. Rabies is the big concern, raccoons being an important rabies reservoir species in this area. However, the list of potential diseases that could be transmitted by these raccoons is longer than that, with leptospirosis and the raccoon roundworm (Baylisascaris procyonis) being two other important issues.

As of the last report I saw, seven of the nine (too bad there weren’t eleven… that would have been funnier to report) baby raccoons had been recovered.

The list of reasons that handing out (or accepting) baby raccoons is bad is long, but to name just a few:

  • Wildlife belong in the wild.
  • Often, “rescued” baby wildlife are actually animals that were perfectly fine and temporarily left alone by their parents. Baby wildlife rescued by the public rarely survive and make it back to the wild.
  • Possession of wildlife is illegal in many areas, including New York state. Only licensed wildlife rehabilitators can posses wildlife, so that they are cared for properly and, when possible, re-introduced to the wild.
  • Baby raccoons are cute. However, they grow up to be large, curious and destructive adult raccoons that often end up being abandoned – but then they think they belong with people which makes them even bigger nuisances.
  • Baby raccoons rescued by members of the general public are often handled a lot in the process, leading to a lot of potential rabies exposures.
  • Wildlife belong in the wild.

More information about rabies (as well as leptospirosis) can be found on the Worms & Germs Resources – Pets page.

Here’s a bit of an odd-and-ends post covering some common questions I’ve been getting about COVID-19 and infection control in veterinary clinics. As always, answers are based on little or no evidence, but on principles of infection control, and they may change as we learn more and as this pandemic continues to evolve.

Would it be safe to let one client per pet into our building, if they have to wear a mask and use hand sanitizer on entry?  And only letting a client in that has to see a veterinarian.  Not to buy merchandise.

“Safe” is subjective and a moving target. Realistically, we’re looking at gradations of risk. There’s always some, and the closer and more prolonged the contact, the greater the risk. Having a client in the clinic is riskier than having them outside, undoubtedly. If they come into the clinic, the measures described (especially mask use) can help minimize that risk. There’s no way to say how much risk is present because we still have limited data, and where you are would be a major factor, based on the local epidemiology of the virus (which also changes). In some places, community disease activity is very low, so the odds of any single person who comes into your clinic being infected are exceptionally low. That’s not true everywhere, though.

Ultimately, our goal is to keep people out of clinics as the default. If there’s a solid reason for them to come in, then the risk goes up, but that can be mitigated through minimizing the closeness and duration of contact, wearing masks and good hygiene. It comes down to the cost-benefit… how important it is for the client to be in the building vs the risk you (and all the staff) are willing to take (and the ability to make sure preventive measures get done).

That’s a bit of a non-answer but there isn’t really a yes/no response to a question like that, unfortunately.

Some people recommend to use a coffee filter or towel sheet with reusable masks. What do you think about that and if it’s a good idea, is it okay to use in surgery and how many hours does it last?

For surgery, I’d rather use a proper surgical mask, if you have access to them. Their performance is more predictable, and surgery is a higher risk environment. If you’re low on surgical masks, then a cloth mask is a tolerable backup (although I’d be a bit wary of using a cloth mask for a surgical procedure involving an implant). I haven’t seen anything that indicates those extra filters in masks do much. I assume they don’t make anything worse (unless they make it harder to breathe or are so resistant to airflow that they direct more unfiltered air out the sides of the mask), but I don’t recommend them over regular cloth masks.

What should we do about dental procedures on small animals? (I’ve had dozens of variations of this question.)

Cat dentals are the big question, and a lot of the uncertainly relates to a lack of understanding of the prevalence of SARS-CoV-2 in cats, particularly cats from households that are not flagged as high-risk based on querying the owner’s health status. Risk also varies geographically, since the risk from cats directly parallels the risk of people being infected in the same region. In many areas, the odds of a cat from a purportedly healthy household being infected are probably exceptionally low. However, we don’t have enough data to say much more, and as disease activity varies, the risk will vary. We’re trying to answer some of those questions with PCR-based surveillance as well as an upcoming seroprevalence study. In the interim, there’s a realistic “life has to go on” component, since we will be dealing with this virus for a long time.

For now, a key step is screening the owners for current or recent respiratory disease. It’s not a guarantee, but restricting these procedures to pets from healthy owners should help drop the risk a lot. Beyond that, it’s mainly PPE. Aerosol generation is an inherent issue with dentistry, but exposure can still be minimized with appropriate PPE, cleaning and disinfection and other basic infection control practices. I think we can look to human dentistry here, since they are dealing with even greater risks.  Below is a table from an Ontario guidelines document. In this table, “positive” and “negative” refer to syndromic screening, the same as we would do for owners of animals coming to a veterinary clinic. They recommend N95 respirators for aerosol generating procedures (AGPs), regardless of screening status, presumably based on the risk of asymptomatic shedding in the general population. However, they give the option of surgical masks for lower risk patients and procedures. Our risk as veterinarians is presumably lower than theirs, so the decision of whether to wear an N95 plus eye protection vs a surgical mask plus eye protection may come down to mask availability, understanding of COVID-19 activity in the area, and risk aversion. The key is to wear A mask of some kind, and to wear eye protection as well (the latter in particular is not consistently done in veterinary medicine).

If N95 masks are used, they would only be required for those in close proximity to the AGP.  It’s debatable whether technicians and anethesiologists would need this level of protection (vs a surgical mask), especially when surgical masks are considered tolerable for AGPs in low-risk human patients. People coming in and out of the dental suite (which should be minimized in any case), or who are farther from the patient’s mouth would be much lower risk for exposure.

Cleaning and disinfection of areas potentially contaminated by aerosols is also important.  People generally do a good job on disinfecting tables and countertops, but don’t think about the other areas or surfaces that get contaminated by aerosols, like the anesthetic machine for example. That also highlights the need for a good OR/dental suite environment with limited open storage. We don’t want aerosols contaminating things that people will use for subsequent procedures (e.g. gauze sponges, suture packs), so if an AGP is being performed, it’s best to make sure that the area is as barren as possible.

With some basic practices like that, the risk of SARS-CoV-2 transmission related to doing a cat dental is probably much greater from the transfer of the animal to/from the owner, than from the cat during the procedure itself. That’s why we need to focus on physical distancing from owners as much as possible.

I’ve had countless questions about the potential for scent detection dogs to be useful for COVID-19 surveillance. It’s an interesting idea, but it’s dependent on COVID-19-infected people producing some volatile compound detectable by the dogs than uninfected people do not.  (The virus itself is not likely to have a detectable odour.)

A recent pre-print paper on bioRxiv provides a rambling description of a pilot study about the potential for dogs to sniff out COVID-19 in people based on their armpit sweat.  This one can probably be filed under the “not likely to ever be published in a journal, but an interesting story” category.  (It may also be another paper in the “let’s get something online first, who cares about the depth and editing” category. Sixty-one authors is a bit extreme too, but I digress.) As I’ve said before, pre-prints can be useful, but there has to be at least a modicum of effort…

Anyway, they collected armpit sweat samples from people with COVID-19 and patients without signs of COVID.

They used 18 dogs that had been trained for explosive detection, search and rescue and colon cancer detection, but their table also lists an arson detection dog.  Further, they say that “We did not decide to work with drug detection dogs as there is always a possibility that COVID-19 positive or negative people use prohibited substances that would let catabolites be excreted by the axillary sweat.” And yet, their table lists a drug detection dog.

After training, the dogs were tested to see if they could differentiate sweat samples from COVID-19 patients in scent boxes, from the samples from the non-infected patients.

  • Three of the 18 dogs flunked out of COVID-19 detection school as they were “unable to adapt to an olfactive search on a line of sample”.
  • Eight others were removed because they were “late in their testing period due to this necessary basic “retraining”. I’m not really sure what that means. I guess they weren’t completely kicked out of school but had to repeat the year, and no one wanted to wait to rush out the pre-print.

The authors say that left 8 dogs whose results they used for the analysis; however, my math says that 18-3-8=7, not 8.

Numbers aside, results were interesting, as the remaining dogs seemed to have fairly high detection rates (84-100%).

It’s hard to say what this means and whether it’s relevant. I guess it means that there’s potential for some dogs, but you have to find the right dogs, and train them.  The authors make a fair point that they were looking at effective dogs, not whether it worked in the whole dog population.

Is this of any use?

It’s hard to say. They tested samples from people with overt COVID-19 disease, and that’s likely not very relevant. If someone has signs of COVID-19, we want to treat them like they have COVID-19 at least until they are definitely tested, regardless of what the dog thinks. Where this would be more useful is for detecting asymptomatically infected people, in which case the dog might provide an early warning of infection. The downside is that it requires a dog and a person to be in close proximity to the patient being screened. Dogs are low (but not no) risk for picking up SARS-CoV-2, but there’s also reasonable concern about handlers. The practical nature of this is also questionable. The study mentions that armpit sweat is “easy and safe to collect”, but if the “test” relies on people taking samples of their own armpit sweat, it’s no longer a quick, easy detection method. It’s more appealing if the dog can, for example, be used to screen people coming into a building or workplace.

The authors have a few excuses for some of the false negative results, which seem to be a bit of a stretch, or indicate potential issues applying this to a real world situation (e.g. distraction by a “too zealous television team”). Some other discussion points are a bit hard to follow. They attributed false positives to two male dogs and a young woman that “had been sampled during her fertile period”… they’d better sort that problem out since that’s a reasonably common subset of the population.  The paper’s discussion devolves considerably from there: “In Shakespeare’s day, a woman in her fertile period used to hold a peeled apple under her arm until the fruit became saturated with her armpit scent ; then she presented this “love apple” to her lover to inhale in order to provoke his sexual excitation. Pheromones are defined as substances produced by on animal which conveys information to other individuals by olfactory means. And in such a situation androsterone and molecules like benzoate derivates, excreted in axillary sweat, enhance sexual attraction by men toward women near the end of follicular phase of the menstrual cycle when fertility is at highest.”

Overall, it’s an interesting pilot study that shows more study might be warranted. In particular, it’s important to figure out whether dogs can be good detectors of COVID-19 infected people in situations like busy, high risk places in the community.  Criticisms aside, it would be really cool to have a dog hanging out at the entrance of busy places, picking out infected people, to help curb further spread of SARS-CoV-2 in the community.