Racism in Veterinary Medicine

This post is a bit outside the usual topics I discuss on this blog, and I have no doubt I will get angry responses and admonitions to “stay in my lane.” But at a time when America is, once again, being forced to confront our long-standing failure to deal effectively with racial inequities built into our society and institutions, I feel an obligation to address the reality that veterinary medicine is very much a part of this problem. 

The facts are relatively straightforward: Over 95% of veterinarians are white in a country where about 80% of the workforce is white. Imagining this is an accident rather than the result of systemic racism is naive or disingenuous. Acknowledging an injustice is critical to rectifying it, and we cannot shy away from clearly and directly describing an unjust reality if we seriously hope to change it. Veterinary medicine is quite possibly the whitest profession in America, and this is like any problem in that we won’t be able to fix it if we don’t acknowledge it.

A common first reaction when a group of mostly white people is asked to consider the issue of racism within their community is defensiveness. There is a misconception that racism is limited to explicitly bigoted and discriminatory behavior by individuals who openly dislike people of color, and since few of us fit that caricature, it is easy to dismiss our own role in perpetuating racial inequities. However, racism is typically more insidious and systemic than this. It is not a problem of a few “bad apples” but a feature of how the barrel is built and maintained. 

As an example, AAVMC data shows that the proportion of white applicants to veterinary colleges in 2016 (78.1%) was roughly the same and the proportion of white students in those colleges (78.3%). This suggests that explicit racial discrimination in admissions is not a major barrier to recruiting underserved groups into the veterinary profession. This is encouraging both because such discrimination would reflect poorly on the profession and because it would be a clear violation of federal law.

However, despite this, the representation of individuals from some underrepresented groups in both the applicant pool and as students in veterinary colleges is still dramatically lower than the proportion of the population identifying as members of these groups. For example, African Americans make up about 17% of the U.S. population but only 4.4% of applicants and 2.5% of veterinary students. The situation is actually worse than it sounds because about 70% of black veterinarians are educated at one school: Tuskegee University College of Veterinary Medicine, a historically black college. The underrepresentation of African Americans in veterinary medicine has persisted despite discussion about it and efforts to remedy it going back to the 1970s, and it is evident that there are strong and pervasive systemic factors behind this.

There have been some successes in addressing discrimination in veterinary medicine. Historically underrepresented groups have increased as a proportion of the student population. 

Women, in particular, have gone from a small minority to a large minority in veterinary schools, and they are now a majority in the profession and beginning to achieve parity in some areas, such as leadership roles at veterinary schools, though there are still disparities in pay and other indicators of equity.

We have actually reached a point where the overrepresentation of women in some areas of veterinary medicine is problematic. Contrary to a common assumption, diversity is not inherently a concept intended to exclude white people or men, and true diversity in the profession requires a better balance than currently exists in the gender representation among veterinarians. 

However, it is important to remember that the historic underrepresentation of women in the field was the result of both individual and systemic discrimination, and the influx of women into the profession can be seen, at least partially, as evidence of effective strategies for combatting this. The underrepresentation of men in veterinary schools today, on the other hand, seems unlikely to represent the same kind of discrimination since it is implausible that a group still in a position of privilege and power in most areas of American society would somehow be excluded by deliberate or systemic discrimination in one small domain like veterinary medicine. 

There are likely complex factors involved in the decline in male applicants to veterinary schools, and many of these may involve the ways in which the profession is portrayed and perceived in the culture as well as economic factors. For example, as veterinary medicine has shifted from a focus on food and working animals to companion animals, it may be seen more as a caring or nurturing profession which cultural stereotypes classify as more appropriate for women (women are also overrepresented in pediatrics and nursing, for example). Veterinary medicine is also among the lowest-paid of the medical professions, and men may be more likely to pursue higher-paying jobs (female-dominated professions in general tend to pay less than male-dominated occupations). The growing scarcity of male role models, at least in companion animal medicine, may also be a contributing factor.

The issue of gender representation is relevant to the subject of racism in veterinary medicine both as an example of how historic discrimination can be overcome and also how complex and indirect the factors influencing the recruitment of different groups into the profession can be. The underrepresentation of African Americans in veterinary medicine, for example, is sometimes written off as a lack of interest. This narrative suggests that black people aren’t as interested in animals as white folks and so are less likely to want to be veterinarians. The issue of cultural differences in attitudes towards animals is a real and complex one, but as a facile way of denying racism as a cause for underrepresentation of African Americans in veterinary medicine, it is not convincing.

For one thing, this doesn’t explain the consistent underrepresentation of other minority groups, such as the Latinx community. The idea that multiple historically marginalized groups all just happen to not be interested in veterinary medicine is not plausible. More likely, the paucity of applicants from underrepresented groups is related to a lack of examples and role models from those communities that make the profession seem welcoming and possible for them, the disadvantages such groups face in terms of education quality and opportunity well before veterinary school, the rising cost of a veterinary medical education, and a constellation of other factors. Such factors have certainly been demonstrated to be associated with underrepresentation of African Americans, for example, in other professions, and addressing these barriers has improved diversity in these cases.

Clearly, we have a lot of work to do as a profession if we are committed to real diversity. White people must take an active part in this work, leveraging our power and privilege no support equity and improve opportunities for those who have been, and still are denied then. We must remember that diversity is not a zero-sum game in which one group must “lose” for others to succeed. No one, least of all people of color, is suggesting lowering standards or implementing some sort of active “reverse discrimination” against white people. The goal is to ensure that everyone has a chance to explore and fulfil their potential, and that barriers to this which apply disproportionally to historically marginalized groups are removed. Diversity ultimately benefits the profession and all of us in it.

As a relatively old, white, male veterinarian, I can acknowledge the injustice that has favored those like me without feeling that the effort and struggles I endured to get where I am are being invalidated. I may be good at my job, and I may have earned my place through hard work. But many people who are just as talented, just as hardworking, and who have even greater obstacles before them are as deserving but have been denied the opportunities I have had. There is no question that being white has been an advantage in my journey. It does not diminish me to acknowledge this, but it does engender a responsibility to contribute to a more just future.


Navigating Diversity and Inclusion in Veterinary Medicine; 2013, edited by Lisa M. Greenhill, Kauline Cipriani Davis, Patricia M. Lowrie and Sandra F. Amass

Minority Student Perceptions of the Veterinary Profession: Factors Influencing Choices of Health Careers; 2008, by Dr. Evan M. Morse (thesis)

Unity Through Diversity; 2006, Final Report of the AVMA Task Force on Diversity

Cultural Competence in Veterinary Practice. V.Kiefer, K. Grogan, J. Chatfield, J. Glaesemann, W. Hill, B. Hollowell, J. Johnson, D. Kratt, R. Stinson, and K. Urday. JAVMA. 2013 243:3, 326-328 

A Business Case for Diversity and Inclusion: Why it is Important for Veterinarians to Embrace our Changing Communities.  L Kornegay. JAVMA. May, 2011.

Cultural Competence Education; Association of American Medical Colleges.  2005

The Attitudes of Minority Junior High and High School Students toward Veterinary Medicine. A. Asare. J Vet Med Educ.  2007 34(2): 47-50.

Tying Art and Science to Reality for Recruiting Minorities to Veterinary Medicine. PM Lowrie. J Vet Med Educ. 2009 36(4):382-387.

Racial, Cultural, and Ethnic Diversity within US Veterinary Colleges. Greenhill, LM, PD Nelson, and RG Elmore. J Vet Med Educ. 34(2): 74-78.  2007

Posted in General | 16 Comments

Evidence-based Veterinary Medicine in the Real World

Vets and vet students often get the idea that evidence-based veterinary medicine (EBVM) is a purely academic thing or isn’t practice in general practice. As a GP firmly committed to this approach, I like to debunk those myths whenever possible.

I recently spoke to the senior veterinary students at my alma mater, the University of Pennsylvania School of Veterinary Medicine about EBVM in practice, and gave some examples (including how EBVM has helped our practice in responding to COVID-19). Here are the slides for these presentations.

Posted in Presentations, Lectures, Publications & Interviews | 5 Comments

Our Veterinary Hospital Experience with the COVID-19 Pandemic

This an article I wrote for Veterinary Practice News about our hospital experience with the COVID-19 pandemic. Every veterinary clinic and hospital will have their own unique experience of this time, but I suspect much of this will look familiar to others in the profession and to pet owners. One element of the experience that is relevant to my work here on SkeptVet is the importance of a critical, flexible, evidence-based approach, which has helped us tremendously in dealing with the unprecedented challenge.

From the trenches: How life has changed since COVID-19 came into our lives: What veterinary medicine is like at Californina’s ground zero

The hospital is quiet as I walk in at the start of my shift. The usual bustle of clients, staff, and animals has been replaced by empty hallways and only a few masked doctors and nurses going about their work quietly, careful to keep their distance from each other. I stop at the screening table and start my day by taking my temperature. It is under 100.4 F, and I have no cough or other respiratory symptoms, which means I can work today.

I set down my belongings at my desk and go to change my clothes. I wear scrubs every day now, and I have a pair of dedicated work shoes that stay at the hospital. I also have a collection of beautiful cloth face masks sewn by one of our employees—I wear a clean one every day.

At the end of my shift, all of my work clothes go into the laundry. When I get home, everything I took to work stays in the garage. I pass quickly through the house and take a shower before I greet my family. I am especially mindful to keep my distance from my elderly mother, who lives with us, and to handle neither her dishes nor her medications. My wife does that now, since she has been working from home and hasn’t mingled with people outside the house for the last month. This is the new routine of our lives, one familiar to countless others since the arrival of COVID-19.

Operating in California’s ground zero
I have worked at the same practice for 16 years. We are an unusual hospital; an independent general practice with 30 veterinarians and more than 150 other staff, open 24 hours a day seven days a week. Because we are located in Silicon Valley, an affluent area in Santa Clara County, Calif., we able to offer services not always found in first-opinion practices, such as orthopedic surgery, in-house ultrasound, cancer therapy, and advanced emergency and intensive care. Our location, however, also means we are in the center of California’s novel coronavirus outbreak. COVID-19 has changed not only my morning routine, but nearly every aspect of the work and lives of our practice, staff, and clients.

Santa Clara identified the first case of COVID-19 in the county (and the ninth in the U.S.) in early February. A sentinel surveillance study in early March confirmed community spread was already occurring, and the county began instituting social distancing measures on March 11. Initially, these involved closure of some public businesses and recommendations for people to avoid large gatherings. By March 16, Santa Clara and surrounding counties had issued shelter-in-place orders, essentially banning people from leaving home except for specified essential activities. On March 30, further restrictions were added and the shelter order was extended into May.

This rapidly expanding public health crisis and frequent changes in restrictions on public activity has presented a tremendous challenge to our hospital. We see hundreds of patients and have dozens of doctors and nurses in the building every day. We also operate on an open hospital model, meaning clients can stay with their pets for nearly every aspect of their care, from being present for outpatient procedures, to watching surgeries, to sitting with hospitalized patients as long as they choose during daytime hours. While this model is unfamiliar and startling to many in the veterinary profession, it has been an intrinsic component to our practice culture for decades. Having clients present throughout the hospital is something we, and our clients, have come to expect.

Doing things differently
The coronavirus outbreak and the public health directives aimed at combating it have forced us to reevaluate our models for patient care, client service, and personnel management; our financial structures and processes; and even our role in the larger public health landscape. Such a comprehensive reevaluation of every aspect of our work, conducted rapidly and in an ever-changing environment, has been challenging, even painful. However, it is also an opportunity to take stock of who we are as health-care providers and as a business, and to grow stronger as a result.

In addition to seeing patients, part of my job in my practice is to drive and support continuing improvement in the quality of care we provide, and to help maintain staff and patient safety. I am the designated evidence-based medicine nag, responsible for translating scientific research into useful tools and actions we can take to better care for our patients. This includes training new veterinarians; developing protocols and guidance documents; conducting clinical audits and evaluating patient outcomes; and many other quality-improvement activities.

One particular project that has proven timely was my effort last August to promote more effective hand hygiene throughout the hospital. I expanded the accessibility of hand sanitizer, put up posters throughout the hospital illustrating proper handwashing technique, and of course nagged everyone to wash their hands. Lately, some staff members have jokingly suggested I may have gone a bit overboard in trying to make my point.

Of course, despite my efforts to support a culture of proactive, science-based medicine, we could not realistically have been fully prepared for what the coronavirus pandemic has required of our practice. However, this culture has proven useful in making the many adjustments necessitated by the virus in the face of limited evidence and great uncertainty. We already had a system for identifying reliable sources of information and translating imperfect science into clinical practices. Our doctors, staff, and management were long accustomed to incorporating scientific data into their daily activities and to adjusting their work routines based on changes in the available evidence. The habits of flexible, pragmatic evidence-based medicine have served us well.

The specific changes we have made in how we handle clients and patients, how we protect staff, and how we have adjusted our business to cope with the legal and economic realities of the pandemic may or may not be useful to other practices in other contexts. However, they illustrate how the methods and habits of evidence-based medicine can help a veterinary practice respond to an unexpected and unfamiliar crisis.

Applying evidence-based medicine
We began our response to the pandemic by developing and collecting policy documents in one central location. With a rapidly changing environment, and frequent adjustments to policies and procedures, it was crucial the most current protocols be readily available to everyone on staff. Protocols were developed by a group representing all the teams within the practice, including doctors, technicians, and management. Input was sought from as many people as practicable, which frequently helped to identify oversights and errors, as well as to generate the widest possible array of ideas and options.

Although veterinary practices are considered essential services in our region, and therefore allowed to operate despite the restrictions of public health orders, we realized early we would need to limit our work to urgent and emergent cases, and to defer most elective and well-pet services to reduce traffic through the hospital and exposure risk to staff and clients. We developed a triage tool to help staff decide which services qualified as essential and which would need to be deferred. This was similar to the tools developed by the British Small Animal Veterinary Association (BSAVA) and other veterinary organizations.

Our initial strategy for reducing exposure risk was to screen both staff and clients for relevant clinical symptoms and for fever. Though this strategy is imperfect, it has been utilized and found helpful for identifying COVID-19 cases in some circumstances. We also set up social distancing guidelines within the hospital.

However, we quickly realized these measures were insufficient, and we made the difficult decision to ban all clients from the hospital, apart from exceptional circumstances such as euthanasia and critical acute emergencies. Clients now wait in their cars, and nurses in appropriate personal protective equipment (PPE) triage pets outside and then bring them into the hospital. All subsequent communication with clients is by telephone until the pet is returned to them outside.

This has been especially difficult for us, and for our clients, as it conflicts with our culture as an open hospital. Being separated from a sick pet is an unfamiliar experience and an added stress for clients who, like all of us, are already dealing with the impact of the pandemic in their personal lives. Most clients have been understanding of our goals in protecting them and our staff, but in the short-term, this has been one of the most uncomfortable consequences of the outbreak. The long-term effects on our culture and relationships with the community are a source of concern for all of us.

Watching out for one another
Having restricted client access to the facility, the greatest risk to our own health became each other. It is often impractical to maintain effective physical distancing when working together treating patients. In response to this risk, we have continued screening staff for symptoms and fever, and we have done what we can to keep people apart in the workplace. The extra hand sanitizer I ordered in September and the handwashing protocols I posted have turned out to be quite useful! We have also had many lively discussions about the use of masks as a tool for reducing the risk of coronavirus transmission within the hospital.

The evidence concerning the value of masks in reducing spread of respiratory viruses is limited and contradictory (e.g. 123). It seems unlikely they protect the wearer from exposure, and they can actually increase risk if improperly used. However, wearing masks may reduce the risk of an infected person from spreading the virus, particularly since asymptomatic shedding apparently occurs commonly. It is also important to remember PPE is in short supply, and the risk and needs faced by human health-care providers are much greater than ours.

Early in the outbreak, our hospital donated a substantial portion of our masks, gowns, and gloves to a local hospital, as well as offered our ventilator for use in human patients through a database set up by the American College of Veterinary Emergency and Critical Care (ACVECC). Our remaining PPE is under lock-and-key, to be used only when strictly necessary.

Ultimately, the mask debate was settled for us by a directive from public health officials recommending the use of cloth masks in addition to physical distancing methods in businesses still operating. We are fortunate to have several employees with handicraft skills who have been making beautiful and functional cloth masks for our staff and their families. These employees have had plenty of time for such projects, as another necessary response to the pandemic has been to reduce staff in the hospital and to decrease payroll expenses.

The limitation of cases to urgent and emergent care has dramatically reduced revenue at our hospital. Veterinary small animal medicine is an unusual hybrid, being both a health-care industry and also, in many cases, a small business enterprise. Large-scale corporate ownership and consolidation of veterinary practices is certainly widespread and growing. However, the average small animal practice in the U.S. employs only two veterinarians and three to five veterinary technicians (2019 AVMA economic report). Though my practice is unusually large, we are still a much smaller business than most human health-care providers.

The drop in revenue, as well as the need to reduce the risk of coronavirus spread between employees, has necessitated dramatic cutbacks in staffing at our hospital. These reductions have involved unpaid leave, furlough, and various mechanisms dictated by the financial and regulatory environment in which we operate. Most doctors, myself included, now work one week and are furloughed for one week. Other staff members are limited in the number of shifts they can work in a month. So far, we have managed to avoid laying off any employees, but the threat to our livelihood adds to the stress imposed by the risk to our health.

Overcoming disruption
As in veterinary practices around the world, our employees are struggling to face not only restrictions on their movement and activities, cancellation of planned events, closure of schools and loss of childcare, and other disruptions in their personal lives, but also a loss of income and of the security and purpose of their jobs, which for many are as much a vocation as an occupation.

Like many in the developed world facing isolation and uncertainty due to the pandemic, the role of virtual communication in our lives and businesses has expanded greatly. We have a dedicated private Facebook community for staff that has provided great support for many of us during the days we cannot work. We are, in some ways, closer than ever since we are learning more about each other’s homes and hobbies, partners and pets through this virtual community.

We are also making use of online communication tools as a hospital. In April 2019, we began offering video visits for clients. These have been a useful way of triaging patients and managing minor health problems that do not necessarily require an office visit. As a result, we had a reliable system and experienced telemedicine staff in place when the pandemic began. Since the outbreak began, the U.S. Food and Drug Administration (FDA) has relaxed requirements for a veterinarian-client-patient relationship to facilitate such use of telemedicine tools. We now have two full-time telemedicine doctors, and this has proven an excellent means of maintaining contact with clients and preserving revenue, while reducing hospital visits and exposure risk to employees and pet owners.

Since the beginning of the pandemic, our clients and staff have had questions about the risk of infection to our patients and the potential for pets to spread the virus to humans. Despite the enormous, unprecedented scientific research effort targeting COVID-19, there is surprisingly little evidence to help answer these questions.

Very few studies have specifically evaluated the susceptibility of companion animals to SARS-CoV-2 or the risk for transmission from dogs and cats to their owners or veterinary personnel. Individual case reports and limited research evidence suggest dogs are very resistant to infection and illness (456). Cats and ferrets appear to be more susceptible, but the risk of transmission to humans is still considered low (6789). There is essentially no research evaluating the potential for pets to act as fomites or mechanical vectors for COVID-19 (10).

We have developed guidelines in our hospital for handling pets from known COVID-19-positive households, both those with or without symptoms, and there are a number of such guidelines available from veterinary organizations (11). However, all of these are based on extremely limited evidence, and it will be some time before we fully understand what risk, if any, pets may pose to veterinary professionals or the public. This is an example of the common, but necessary challenge of practicing evidence-based medicine when data is sparse. The key is to be aware of the evidence that exists and its limitations, to take pragmatic and proportional action based on what the research says, and to be flexible and prepared to change our practices as the evidence develops.

There is reason to believe all the effort and sacrifices we have made as a hospital, as well as that of government agencies, businesses, and individuals in our area, have been effective. Though Santa Clara County was one of the first centers of community spread of SARS-CoV-2 in the U.S., cases have not grown as fast here as in some other places, and the health-care system has so far been able to cope well with the number of COVID-19 patients (1213). We appear to be “flattening the curve,” a rather dry and abstract phrase that represents a meaningful reduction in human suffering.

As a hospital, we have been fortunate to not yet have any known cases of COVID-19 among our staff. However, the reality is that it is only a matter of time before someone we know is infected, or falls ill, or perhaps even dies as a result of this disease. The mitigation measures we have taken and have been imposed throughout our area and around the world are not sustainable in the long term. With a highly virulent virus spreading through a completely naïve population, no proven effective treatment, and a vaccine well over a year away by some estimates, the disruption this disease has brought to our hospital and our lives will persist and evolve for a long time to come.

However, we have also learned a great deal about our capabilities as individuals and as an organization. We have been reminded of the value of creating an adaptive, science-based practice culture and of the habits and methods of evidence-based medicine. We have learned from the ways in which we were prepared to cope with this unexpected crisis, and from the ways in which we weren’t. COVID-19 has reminded us of the essential nature of veterinary medicine, not only in companion animal health and food safety, but in human health as well. It would be difficult to find a more dramatic validation of the One Health concept than our current situation.

The months ahead, perhaps even years, will continue to be challenging because of this virus, but we have tools and knowledge not available during the last century that have allowed us to respond more quickly and effectively, and this has made a very real difference in the lives of millions of people. We can and should do better in the future at preventing, predicting, and responding to such public health threats, and with the lessons learned now, I have no doubt we will. My hope is that as a hospital community and as a profession, we will emerge from this crisis stronger, smarter, and better equipped to face such challenges in the future.

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John Oliver Nails Coronavirus BS!

John Oliver has often taken on anti-vaccine nonsense and pseudoscience of various kinds. His latest show provides a great takedown of some of the burgeoning myths and misinformation about SARS-CoV2 and COVID-19.

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Platelet Rich Plasma (PRP) for Pets- Does It Work?

A reader recently asked me to take another look at a product for producing and administering platelet rich plasma (PRP). This is a subject I haven’t covered since 2013, when I wrote about a small study looking at the use of PRP for arthritis in dogs. Since that time, there has been a huge increase in the amount of laboratory and human-focused research into the use of platelets as a form of “regenerative medicine.” Much like stem cells, which I have written about more often, PRP is used to treat a wide range of conditions, such as arthritis, connective tissue injuries, wounds, and many others. Like stem cell therapies, there is a plausible rationale for PRP and some encouraging pre-clinical research, but the marketing and use of both approaches have outpaced the clinical research by quite a bit.

The basic principle is that platelets, and other components of blood, contain growth factors, compounds that reduce inflammation, and a host of other agents that could be useful in managing pain and in promoting healing. Studies looking at PRP and some of these components certainly find evidence of physiologic activity that might, in principle, be beneficial to patients. Anyone who has followed this blog or read my book, however, will know that such laboratory studies frequently fail to accurately predict what will happen in the real world of the clinic. Living patients are much more complex and varied than tissue in a test tube, and studies in rats or human cell culture don’t always reflect what happens in living dogs and cats.

The actual clinical research on PRP in veterinary species is sparse and not robust. The best evidence is in horses, and here is the conclusion of a systematic review of some of this research (for treatment of musculoskeletal lesions):

Most experimental studies revealed positive effects of PRP. Although the majority of equine clinical studies yielded positive results, the human clinical trials’ results failed to corroborate these findings. In both species, beneficial results were more frequently observed in studies with a high risk of bias. The use of PRP in musculoskeletal lesions, although safe and promising, has still not shown strong evidence in clinical scenarios.

There are a handful of clinical studies in dogs:

  • Prostatic cysts– This was an uncontrolled study. Ten dogs had their cysts injected with PRP, and eventually they all resolved, but there was no comparison with other treatment or no treatment, so the significance of this in uncertain.
  • Corneal ulcers– This was a randomized, controlled trial adding PRP to conventional therapy for uncomplicated corneal ulcers. No difference was seen in healing between the groups.
  • Supraspinatus tendinopathy-Another uncontrolled study in which ten dogs were treated and some got better while others didn’t. No real conclusion can be drawn from this.
  • Wound healing– This was a small study using three dogs. Eight small (6mm) wounds were created on each dog, and some were treated with PRP while others were not. The authors reported faster healing in the PRP-treated wounds, but there was no blinding, and the assessment of the wounds was subjective, so risk of bias is high.
  • Skin flaps-Another lab study in beagles. Here skin flaps were created on both sides of several dogs, one treated with PRPR and the other not. Some measures of wound healing differed between the treatments and others did not, though the difference in survival of the flaps was pretty large. Again, no blinding was involved, so the risk of bias is high.
  • Bone healing-Some more poor beagles had bone screws placed and some were treated with PRP while others were not. No difference in bone healing was seen.
  • Bone Healing-This time, dogs had a defect surgically created in their radius and then fixed in place, and healing was compared between dogs treated with PRP or untreated. There was a difference in bone healing between the groups, and again some controls for bias were missing. Other lab studies in animals looking at bone healing have found some evidence of benefits, but the conclusions are tentative due to the paucity of studies.

 Overall, the research in dogs is promising but limited, and the most recent review concludes:

The growing development and use of PRP preparations in wound healing and tissue repair in people will require the development of new randomized controlled studies with large sample sizes to establish therapeutic efficacy.

Unsurprisingly, there is even less research on PRP in cats, and no conclusions at all can be drawn about the effectiveness of PRP in this species.

As usual, when the veterinary research is limited, we turn to studies in humans to see whether a therapy is likely to be helpful. While the quantity and quality of human research is inevitably higher than that in dogs and cats, the results cannot reliably be assumed to apply to other species, so such studies can only suggest, not prove the potential benefits of PRP in veterinary patients.

The human clinical trial research is vast, with almost 300 systematic reviews currently listed on Pubmed. The conclusions of these reviews are varied, with some claiming proven benefits while others suggest more research is needed for reliable conclusions or that PRP is not helpful for the condition being evaluated. And many of these reviews apply to conditions that are not relevant to veterinary species. 

I have collected below a sample of the more recent systematic reviews in conditions that might be a target for PRP therapy in veterinary species. This is not an exhaustive list, merely a sample illustrating the variety of conclusions reached about the meaning of the human clinical trial literature. 

Bottom Line

PRP is a plausible therapy, and there is reason to believe it could be helpful for veterinary patients with arthritis, connective tissue and muscle injuries, wounds, and other conditions. However, the clinical trial in humans is encouraging but not consistently positive, and there is very little clinical research in veterinary species. Much of the veterinary research consists of small studies with significant methodological limitations, which means we cannot confidently conclude what conditions, if any, might benefit from treatment with PRP.

As with many veterinary therapies that are insufficiently tested, PRP involves a variety of commercial products which vary in ways which might be significant for their effectiveness but which haven’t been specifically tested in most, if any, of the conditions for which they are marketed.

Few significant signs of harm have been seen in the preliminary PRP research, so risks are likely small, though our confidence in this conclusion must also be limited by the absence of strong research evidence.

Systematic Reviews of Clinical Trials in Humans

Regardless of the positive results obtained in several studies, it is important to take into consideration that many of the referred studies were not randomized and/or blinded controlled trials[11,88,114] and therefore should be regarded with caution. In fact, in a recent meta-analysis, from 10 manuscripts selected for the study, presented high risk of bias [117]. The high heterogeneity among studies is another critical limitation of PRP [118]. In addition, many of these studies suggest that autologous PRP is a safe treatment; however, the potentially negative effects of PRP were not fully investigated at this point.

Acute Muscle Injury
The promising biological rationale, the positive preclinical findings, and the successful early clinical experience of PRP injections are not confirmed by the recent high-level RCTs. Therefore any benefit in terms of pain, function, return to sport, and recurrence using PRP injections for the treatment of acute muscle injuries is not supported. Due to the bias in the studies, the heterogeneity of the findings, and the limited sample size, the evidence should be considered to be of low or very low quality.

TMJ Osteoarthritis-
There is slight evidence for the potential benefits of intra-articular injections of PRP in patients with TMJ-OA. However, a standardized protocol for PRP preparation and application needs to be established.

The results of this meta-analysis, which documents the very marginal effectiveness of PRP compared to controls, does not support the use of PRP as conservative treatment in orthopaedics.

Knee osteoarthritis-
Intra-articular PRP injections probably are more efficacious in the treatment of knee OA in terms of pain relief and self-reported function improvement at 3, 6 and 12 months follow-up, compared with other injections, including saline placebo, HA, ozone, and corticosteroids.

Knee osteoarthritis-
In patients with symptomatic knee OA, PRP injection results in significant clinical improvements up to 12 months post injection. Clinical outcomes and WOMAC scores are significantly better after PRP versus HA at 3 to 12 months post injection. There is limited evidence for comparing leukocyte-rich versus leukocyte-poor PRP or PRP versus steroids in this study.

Rotator Cuff Injury-
The results of this meta-analysis do not support the use of platelet-rich plasma/platelet-rich fibrin matrix in patients with rotator cuff injuries.

Knee osteoarthritis-
On the basis of the current evidence, PRP injections reduced pain more effectively than did placebo injections in OA of the knee (level of evidence: limited due to a high risk of bias). This significant effect on pain was also seen when PRP injections were compared with hyaluronic acid injections (level of evidence: moderate due to a generally high risk of bias). Additionally, function improved significantly more when PRP injections were compared with controls (limited to moderate evidence). More large randomised studies of good quality and low risk of bias are needed to test whether PRP injections should be a routine part of management of patients with OA of the knee.

Lateral epicondylitis and rotator cuff injuries-
This review shows that PRP may reduce pain associated with lateral epicondylitis and rotator cuff injuries.

Knee OA-
PRP intra-articular injection of the knee may be an effective alternative treatment for knee OA, especially in patients with mild knee OA. Although some studies suggested that the effect of PRP was no better than HA, we found that it was no worse. A large, multicenter, randomized trial is needed to further assess the efficacy of PRP treatment for patients with knee OA.

Hip OA-
Literature to date concludes that intra-articular platelet-rich plasma injections of the hip, performed under ultrasound guidance to treat hip osteoarthritis, are well tolerated and potentially efficacious in delivering long-term and clinically significant pain reduction and functional improvement in patients with hip osteoarthritis. Larger future trials including a placebo group are required to further evaluate these promising results. Level of evidence: Level I, a systematic review of level I studies.

Knee OA-
This systematic review demonstrated no long-term statistically significant improvement in patient validated outcomes and secondary outcomes both in patients with knee OA or following TKA for OA. However PRP has been shown to have short to medium-term benefits in pain control after TKA and activities of daily living in patients with OA.

There is good evidence to support the use of a single injection of LR-PRP under ultrasound guidance in tendinopathy. Both the preparation and intratendinous injection technique of PRP appear to be of great clinical significance.

OA Pain-
Although the results of the included studies showed that arthrocentesis or arthroscopy with PRP or PRGF, saline, or HA injections all reduced pain and increased mouth opening, the evidence was of very low quality. Further studies are needed to confirm these preliminary results showing that PRP or PRGF with arthrocentesis or arthroscopy significantly improved pain but did not increase MMO compared with findings in the control or HA groups.

Knee OA-
IA-PRP is a viable treatment for knee OA and has the potential to lead to symptomatic relief for up to 12 months. There appears to be an increased risk of local adverse reactions after multiple PRP injections. IA-PRP offers better symptomatic relief to patients with early knee degenerative changes, and its use should be considered in patients with knee OA.

Lateral Epicondylitis-
The current best available evidence suggests that CSI improves functional outcomes and pain relief in the short term, while AB and PRP are the most effective treatments in the intermediate term.

Degenerative joint disease-
The analysis showed an increasing number of published studies over time. Preclinical evidence supports the use of PRP injections that might promote a favourable environment for joint tissues healing. Only a few high-quality clinical trials have been published, which showed a clinical improvement limited over time and mainly documented in younger patients not affected by advanced knee degeneration.

Achilles tendinopathy-
The main finding of this study was the paucity of high-level literature regarding the application of PRP in the management of patellar and Achilles tendinopathy. However, the clinical data currently available, although not univocal, suggest considering PRP as a therapeutic option for recalcitrant patellar and Achilles tendinopathies.

Muscle Strain-
Evidence from the current literature, although limited, suggests that the use of PRP may result in an earlier return to sport among patients with acute grade I or II muscle strains without significantly increasing the risk of reinjury at 6 months of follow-up. However, no difference in time to return to sport was revealed when specifically evaluating those with a grade I or II hamstring muscle strain.

Rotator Cuff-
The currently limited available evidence on PRP for nonoperative treatment of chronic rotator cuff disease suggests that in the short term, PRP injections may not be beneficial. When directly compared with exercise therapy, PRP does not result in superior functional outcomes, pain scores, or range of motion. However, interpretation of this literature is confounded by the lack of reporting of the cytology and characteristics of PRP.

After knee replacement-
Current meta-analysis indicates that PRP is associated with increasing the ROM after TKA in short term and long term. What’s more, PRP can also decrease the WOMAC score and pain intensity without increasing the occurrence of infection.

Patellar tendinopathy-
Platelet-rich plasma is a safe and promising therapy in the treatment of recalcitrant PT. However, its superiority over other treatments such as physical therapy remains unproven. Further RCTs are required to determine the relative effectiveness of the many available treatments for PT and to determine the subgroups of patients who stand to gain the most from the use of these therapies.

Lateral epicondylitis-
Corticosteroid injections provide rapid therapeutic effect in the short-term with recurrence of symptoms afterwards, compared to the relatively slower but longer-term effect of platelet-rich plasma.

Lateral epicondylitis-
Local corticosteroid injections demonstrated favorable outcomes compared with those of local PRP treatments for lateral elbow epicondylitis during the short-term follow-up period (4 weeks and 8 weeks post-treatment). Otherwise, at the long-term follow-up (24 weeks post-treatment), PRP injections had improved pain and function more effectively than corticosteroid injections.

Knee OA-
PRP intra-articular injections of the knee may be an effective alternative treatment for knee OA. However, current studies are at best inconclusive regarding the efficacy of the PRP treatment. A large, multicenter randomized trial study is needed to further assess the efficacy of PRP treatment for patients with knee OA.

Knee OA-
In short-term outcomes (?1 year), PRP injection has improved functional outcomes (WOMAC total scores, IKDC score and EQ-VAS) when compared to HA and placebo, but has no statistically significant difference in adverse events when compared to HA and placebo. This study suggests that PRP injection is more efficacious than HA injection and placebo in reducing symptoms and improving function and quality of life. It has the potential to be the treatment of choice in patients with mild-to-moderate OA of the knee who have not responded to conventional treatment.

Epicondylitis, Plantar fasciitis-
The use of PRP yields statistically and clinically better improvement in long-term pain than does CS in the treatment of EE. The use of PRP yields statistically and clinically better long-term functional improvement than that of CS in the treatment of PF.

Although the results of this review show promise for the use of PRP in chronic tendinopathy, the analysis highlighted the need for more controlled clinical trials comparing PRP with placebo.

Hamstring injury-
Meta-analysis showed superior efficacy for rehabilitation exercises. PRP injection had no effect on acute hamstring injury. Limited evidence was found that agility and trunk stabilisation may reduce re-injury rates. The limitations identified in the majority of RCTs should improve the design of new hamstring RCTs.

This meta-analysis demonstrated that PRP injection provided adjuvant efficacy to arthrocentesis or arthroscopy in pain reduction for temporomandibular joint osteoarthritis in the long term. Furthermore, PRP injection significantly reduced pain better compared with HA injection, saline injection, or no injection.

Knee OA-
The results of this systematic review and meta-analysis suggest that PRP is superior to HA for symptomatic knee pain at 6 and 12 months. ACP appears to be clearly superior over HA for pain at both 6 and 12 months. There were no advantages of PRP over HA for clinical outcomes at both 6 and 12 months.

Posted in Science-Based Veterinary Medicine | 2 Comments

Assisi Calmer Canine-What’s the Evidence for PEMF Treatment of Separation Anxiety?

I haver written about pulsed-electromagnetic field devices (PEMF) a couple of times before (12). In my most recent review, I concluded:

Despite the fact that there has been interest in the potential medical applications of electricity for over 150 years, and serious scientific research investigating PEMF has been going on for over 50 years, there is surprisingly little robust evidence showing meaningful clinical benefits…PEMF devices are widely used, and this creates the impression that they have been solidly validated, but the reality is more ambiguous…There are very few clinical trials of PEMF in [veterinary] patients. The studies that have been published have not found consistent and convincing evidence of clinically meaningful benefits…The marketing claims of PEMF manufacturers and the excitement of proponents far exceed the strength of the available scientific evidence.

Unfortunately, the lack of evidence is seldom a barrier to aggressive marketing of therapies in veterinary medicine, and this is certainly true for PEMF. What is perhaps more frustrating, is that companies often support or produce small studies with significant limitations as evidence to promote particular uses. These studies are rarely followed, as they should be, by larger, better trials that could be used to justify actual clinical use. 

This certainly appears to be the case for the most well-known veterinary PEMF device, the Assissi Loop. Rather than following up the tentative studies I reviewed for pain, the company has decided to generate yet more weak evidence to justify marketing their device for yet another indication, this time separation anxiety. Their marketing materials are a classic example of claims that go far beyond anything justified by the actual scientific evidence:

The solution” is bad enough, but there had better be some pretty solid clinical research to justify “returns the anxious brain to a more balanced emotional state with long-lasting effects” and “proven to work alone without other treatments or training!” I can’t wait to see the large, robust, long-term clinical trial that shows the Assissi Loop is ready to replace all other separation anxiety therapies and vanquish the disease for ever! So where is it? What? There is no such study?

To call what the company offers as evidence for these dramatic claims underwhelming would be a dramatic understatement. An open-label study lasting six weeks in nine dogs. That’s it! No placebo control, no blinding, no peer-reviewed publication (only a conference report), and a lead investigator who also happens to be the Chief Business Officer of the company selling the product. A pilot trial like this is laden with uncontrolled bias and error, and while it might be enough to justify a real controlled study, it is not even close to sufficient evidence to support the wild marketing claims made for the product. 

I would be thrilled to see a treatment with no detectable adverse effects that could improve or even cure separation anxiety in the vast majority of dogs with 15 minutes of treatment twice a day for six weeks. That would be a miracle, and I would be glad to see it. However, the evidence threshold for miracles in medicine is pretty high, and this study isn’t even close to that threshold. It seems to me inappropriate to make such dramatic promises based on such thin evidence, and it would be more useful for companies such as this to put their resources into supporting rigorous, independent testing of existing claims rather than looking for new markets to create with still more small, limited “pilot” trials.

Posted in General | 7 Comments

New Delaware Rabies Law Undermines the Safety of Pets and the Public

Over the years, one of the most common subjects I have discussed on this blog is vaccination, including their risks and benefits and how pet owners can evaluate them to decide which vaccines are appropriate to give their pets. This is a far more complicated subject than many opponents of vaccination claim. 

It is clear that vaccines, like any medical therapy, can cause harm. However, the evidence for specific types of harm is often poor, and the anxiety about vaccination is often based on fear, not real scientific evidence of real risks. Claims that vaccines cause autoimmune disease (12 or behavioral problems, anxieties about “toxins” such as mercury in vaccines, claims that lower “doses” of vaccines are safer than standard volumes (12), and the value of antibody titers as substitutes for vaccination are all subjects I’ve addressed here. There are few simple, absolute answers, but it is clear that the benefits of vaccination almost always outweigh the risks. However, the anti-vaccine movement is alive and well in veterinary medicine, and vaccine opponents have been all too effective at taking the reasonable concerns pet owners may have about vaccine safety and turning them into unreasonable fear.

In human medicine, we have seen the serious consequences of this fear. Vaccine-preventable diseases are making a comeback, and children are being harmed and killed by illnesses they should never have been allowed to contract. The World Health Organization has listed vaccine hesitancy as one of the top ten public health threats we face. One major element to the growing public health threat of vaccine refusal has been the use of exemptions from vaccine requirements for children attending public schools. While there are uncommon medical reasons to avoid vaccinating some children, exemptions based on the religious or personal belief of parents have reduced vaccine coverage and placed all children at greater risk, those who cannot or will not be vaccinated and even those who are, since vaccine protection is excellent but never perfect. 

In California, non-medical exemptions were prohibited by law in an effort to better protect public health. Unfortunately, anti-vaccine activists were able to undermine the law by seeking exemptions from deluded or unscrupulous physicianswilling to grant exemptions without legitimate medical and scientific foundations. This loophole had to be addressed in additional legislation giving the state health department authority to review medical exemptions when an excessive number of them are issued by an individual doctor or if a specific school has an excessively low vaccine compliance rate. This is an imperfect solution, but the original law has improved vaccination rates in the state, and it is likely the new measures will be somewhat helpful in reducing the risk posed by individual anti-vaccine activists.

In veterinary medicine, most vaccinations are not legally required for most pets. Vaccination rates are lower, and the occurrence of vaccine-preventable disease are consequently higher, than they should be, but the law considers pets to be property, so there is no real movement to require vaccination even if it is clearly in the best interests of the animals. The exception to this is immunization against rabies, which is often required at the state or local level in pets (almost always in dogs, and sometimes in cats and ferrets) because of the risk infected animals present to humans. 

Rabies is almost always fatal, and tens of thousands of people worldwide are killed by it every year. Most of these are exposed by domestic dogs. This is rare in the developed world because of long-standing and successful vaccination campaigns, so many people do not adequately appreciate the danger of reduced vaccine coverage. 

Medical exemptions to rabies vaccination are sometimes sought for pets with a history of adverse reactions to rabies vaccine, with conditions that might be exacerbated by vaccination such as autoimmune disease, and of course for many illegitimate reasons such as age or simply the owner’s perception that the vaccine is unsafe or not necessary. Local government often has discretion as to whether to grant such exemptions, and the process and criteria are variable and inconsistent. Anti-vaccine advocates have long wanted to reduce vaccination against rabies (and other diseases), and for the first time a state-level law has been passed which would facilitate this.

The state legislature in Delaware has passed a law allowing veterinarians to exempt individual dogs, cats, and ferrets from rabies vaccine requirements. This law is, unfortunately, a blank check to anti-vaccine vets that contains no protections against the kind of abuse and deception that has plagued efforts to improve compliance with vaccine mandates in humans. The law states:

Exemption from vaccination against rabies may be permitted if a licensed veterinarian has examined the animal and based on the veterinarian’s professional judgment, has certified in writing that at the time, vaccination would endanger the animal’s health because of its infirmity, disability, illness, or other medical considerations.

This allows complete personal discretion on the part of the veterinarian to determine whether or not a pet should be vaccinated without regard to any legitimate scientific standards. Plenty of alternative medicine vets have completely unscientific beliefs about the risks of vaccines, and these doctors will be able to exempt any pet from vaccination based solely on these beliefs. And if clients demand exemptions for reasons that are not scientifically valid, vets will undoubtedly feel pressured to grant them. There are no rules or constraints they can use as justification for denying illegitimate requests.

The law also makes reference to rabies titer testing. It has been argued that since a high rabies titer likely indicates protective immunity in most pets (some challenge testing has been done for this disease), titers could be used in lieu of vaccination in some cases. This is a reasonable argument, and if clear requirements for running and interpreting antibody titers were made, they might be an appropriate alternative to vaccination on a fixed schedule. However, this law does not address any of these issues and merely states that titers can be done, presumably however the individual veterinarian wants.

A titer test, in the case of these medical exemptions, may be administered to assist in determining the need for the vaccination.

This is entirely meaningless since it does not require a titer or define how titers should be measured or used to determine immune status. The complete lack of any input on this law by informed scientific experts in the subject is clear here. 

The law is titled “Maggie’s Pet Vaccine Protection Act.” The name refers to a pet whose owner believes her dog died from adverse effects of vaccination. This anecdote is tragic, but it does not demonstrate the owner’s belief to be true. The medical expertise behind the act comes from Dr. John Robb, an anti-vaccine zealot who has been at war against vaccination and much of the veterinary profession for years. Dr. Robb is an example of the kind of veterinarian who will use this new law to reduce the protection against rabies that vaccination provide both pets and humans based only on his own passionate but completely unscientific beliefs about vaccines. 

Reasonable changes to vaccination laws based on sound science are totally appropriate. It may be that titers are an effective substitute for vaccination in some cases. However, ill-considered and sloppy laws like this driven by passionate misconceptions about vaccines can only endanger pets and humans. This law is not in the best interests of companion animals or public health, and it is sad that the true danger of such antivaccine activism and laws such as this will only be clear once pets and people start dying of rabies in the U.S. as they do in places where vaccination is not available of common.

Posted in Law, Regulation, and Politics, Vaccines | 25 Comments

Snake Oil Tumexal and Purveyor Jonathan Nyce Finally Face the Law

Over the years, I have written about many quack medical products for veterinary patients, and about many veterinarians and others who sell or use these products with impunity despite laws intended to protect pets and pet owners from ineffective or harmful snake oil. Unfortunately, these laws are weak and rarely enforced, and even when regulators take action, it doesn’t seem to deter illegal and fraudulent behavior. 

Dr. Gloria Dodd was sanctioned by the California Veterinary Medical Board and warned by the FDA, yet she continued her practices until the end of her life, and her business is still active. Dr. Andrew Jones was sanctioned by authorities and gave up his medical license, yet he thrives as an internet entrepreneur. Dr. Al Plechner had a long career providing dangerous treatment based on untested and unscientific ideas, and though at the end of his life was he being investigated by the veterinary medical board, others continue to promote his practices. The bogus supplement Renavast was banned by the FDA, yet continues to be made and sold in the U.S. under a new name.

The seemingly endless list of people and products that freely and repeatedly violate not only any reasonable scientific standard for a medical therapy but often specific laws intended to protect consumers from quack medicines, make it is easy to feel that the effort to promote science-based medicine is entirely futile. However, every once in a while, under the rarest and most extreme of circumstances, a little glimmer of hope shines through. Today, that glimmer comes from the U.S. Attorney’s Office for the Eastern District of Pennsylvania.

United States Attorney William M. McSwain announced that Jonathan Nyce, 70, of Collegeville, PA, was charged by Indictment with wire fraud and the interstate shipment of misbranded animal drugs. The charges arise from a years-long scheme to defraud pet owners of money by falsely claiming to sell canine cancer-curing drugs.

“The defendant’s alleged conduct here is shameful,” said U.S. Attorney McSwain. “As any dog owner will tell you – myself included – pets quickly become part of the family. And when they become sick, caring owners look for hope, often doing everything they can to keep their beloved pets alive and well. The defendant is charged with taking advantage of that nurturing instinct in the worst way possible by defrauding pet owners and giving them false hope that they might be able to save their dying pet. That is both cruel and illegal, and now the defendant will face the consequences.”

I wrote about Tumexal, and Mr. Nyce, back in 2014. While I chose to ignore the irrelevant salacious details of Mr. Nyce’s personal life, I pointed out that his claims about Tumexal included many of the classic warning signs of quackery, and that it was highly improbable that his claims were true or that his product was effective. A superficial evaluation of the product web site showed many reasons to reject it as snake oil out of hand, and a further investigation into the claims and Mr. Nyce’s background made it even clearer that the person and the product should not be trusted.

Despite this, the product website was active from 2013 to 2018, and tens of thousands of dollars were made selling this product to vulnerable pet owners. My satisfaction at seeing this fraud brought to an end is diminished somewhat by how long it took to accomplish and by all the similar fraud that seems to continue unimpeded by law enforcement. And I will be honest, I have concerns that ultimately Mr. Nyce will escape conviction or punishment and eventually return to selling snake oil through some exploitable weakness in the legal case against him.

According to the U.S. Attorney’s Office press release, “’American pet owners rely on the FDA to ensure their pets’ drugs are safe and effective,’ said Special Agent in Charge Mark McCormack, FDA Office of Criminal Investigations’ Metro Washington Field Office.  ‘We will continue to investigate and bring to justice those who ignore or attempt to circumvent the law.’”

I appreciate the sentiment, but I have doubts about the effectiveness of its execution.

Posted in Herbs and Supplements, Law, Regulation, and Politics | 2 Comments

Ketogenic Diets for Dogs and Cats

Nutritional therapies and dietary fads for humans often find their way into veterinary medicine. Sometimes, there is a plausible physiologic rationale or encouraging lab animal research to justify testing specific dietary interventions in dogs and cats, and such interventions may eventually demonstrate meaningful clinical benefits. Dietary interventions for renal disease and urolithiasis, for example, are supported by both pre-clinical and clinical trial data.

Unfortunately, it is common for dietary practices in humans to become popular in veterinary patients even when there is little real evidence to support them or when physiologic differences between humans and companion animals make extrapolations from human nutrition science unreliable. The popularity of grain-free dog foods, for example, is likely explained at least in part by a cultural obsession with the supposed dangers of gluten, despite a lack of evidence to support most of these fears. This now appears to have led to real harm for some dogs who have developed diet-associated cardiomyopathy on these foods.1

One of the many extreme diets for humans that is sometimes promoted as having health benefits for veterinary patient as well is the ketogenic diet. There are groups of activists and veterinarians claiming that ketogenic diets have dramatic benefits for dogs with cancer.2 There is also interest in the potential use of ketogenic diets for epileptic veterinary patients.3–5 In this article, I will briefly review the rationale and evidence for therapeutic use of ketogenic diets.

What is a ketogenic diet?

Ketosis is a physiologic state in which metabolism of carbohydrates is reduced and metabolism of fatty acids is increased, producing elevated levels of ketones, such as acetoacetate and ?-hydroxybutyrate (?OHB). Ketogenic diets are diets which induce a state of ketosis, and they are typically high in fat, low in carbohydrates, and calorie restricted. Ketosis is readily induced in humans by high-fat diets and even short periods of calorie restriction. 

Dogs metabolize ketones much more rapidly than humans. It is difficult to induce a state of ketosis with high-fat diets, and much more prolonged periods of caloric restriction are required. However, ketosis can be induced in dogs using dietary fats that are high in certain
medium-chain triglycerides (MCTs).6–8

How does it work?

There are many theories about how ketosis might have beneficial impacts of specific health problems. Ketogenic diets are obviously useful in weight loss because they are calorie restricted, but there is also some evidence that they may suppress appetite more than other kinds of low-calorie diets.9

Ketosis may be neuroprotective due to specific effects of ketones on neurons. There is some evidence that ketone bodies have direct anticonvulsant activity, and the alterations in neuronal metabolism and neurotransmitter function in ketosis may also be beneficial in some conditions. There are even hypotheses that the effect of ketosis on neurons may be mediated by changes in the gut microbiome induced by ketogenic diets. However, there is no clearly proven or widely accepted mechanism for the neuroprotective effects of ketones.10  

It has been known since the 1920s than many cancer cells rely preferentially on glycolysis for energy, which has led to speculation that ketosis may be beneficial in slowing cancer growth or metastasis.11

What is the evidence for benefits?

There have been extensive in vitro and animal model studies of ketogenic diets, predominantly intended to evaluate their utility in treating epilepsy and cancer. Such studies have, not surprisingly, shown variable results for different diets, indications, and specific animal models. Overall, however, there is reasonable evidence of this kind to suggest ketogenic diets could be useful in treatment of epilepsy, neurodegenerative disorders, and some cancers.10–12

The clinical trial literature in humans based on this preclinical work has been encouraging for some conditions, though it is rarely clear and conclusive. Systematic reviews of studies evaluating ketogenic diets as a therapy for refractory epilepsy in children do show evidence of efficacy in some patients.13–15 The most recent Cochrane review reports, “promising results for the use of [ketogenic diets] in epilepsy. However, the limited number of studies, small sample sizes and the limited studies in adults, resulted in a low to very low overall quality of evidence.”13 Unfortunately, despite some evidence of benefits in seizure control, long-term compliance with ketogenic dietary therapy is often very poor, due inconsistent efficacy and significant adverse effects.13,16

There is less evidence to support claims that ketogenic diets have meaningful benefits in human cancer patients. Though there are promising initial results in studies evaluating ketogenic diets for adjunctive treatment of malignant glioma, “because of the paucity of clinical data, the efficacy of [ketogenic diets] for improving survival and quality of life of glioma patients remains to be proven.”17 In terms of other cancers, “evidence supporting the effects of isocaloric ketogenic dietary regimes on tumor development and progression as well as reduction in side effects of cancer therapy is missing…more robust and consistent clinical evidence is necessary before [ketogenic diets] can be recommended for any single cancer diagnosis or as an adjunct therapy.”18

The evidence base is, as always, far more limited in veterinary patients. There are no published clinical studies evaluating therapeutic ketogenic diets in cats. There are a couple of studies evaluating diets high in MCTs in dogs. One study in dogs with epilepsy found that the test diet did induce higher levels of ?OHB than the control diet, however there was no difference in seizure frequency between the groups.4 In both the test and control groups, 30% of the dogs showed a >/= 50% decrease in seizure frequency, which is consistent with the results of other studies for dogs receiving placebo.4,19

In another study, there was a statistically significant difference in the seizure frequency between dogs eating an MCT-rich diet compared with a control diet, though the mean difference was 0.36 seizures per month, which may not be clinically meaningful. Other measures of seizure frequency also differed between the diets, but the effect seemed inconsistent among individuals. While 3 of 21 dogs had complete cessation of seizures and 7 of 21 had a >/= 50% reduction in seizure frequency, 6 of 21 actually had an increase in seizures on the test diet.5

One study has reported improvements in cognitive function testing for aged lab beagles on a ketogenic diet, but there are no studies evaluating impact on function or quality of life in dogs with naturally occurring cognitive dysfunction.20 There are also no published clinical trials evaluating ketogenic diets as treatments for cancer in dogs.

What are the risks?

In humans, long-term compliance with ketogenic diets is often poor due to a combination of lack of efficacy in some individuals, poor palatability, and adverse effects. Gastrointestinal symptoms, pancreatitis, nutritional deficiencies and deficiency diseases, cardiac disease, urolithiasis, and other adverse effects have been reported in humans on therapeutic ketogenic diets.13,16,18,21–24 The safety of these diets in veterinary patients is unclear due to a lack of relevant research evidence.

Bottom Line

Ketogenic diets have been shown to reduce seizures some human patients with epilepsy. There is preliminary evidence such diets may be beneficial in slowing progression of some kinds of cancer, but there are no clear or reliable clinical trial results demonstrating this. There are clear risks to ketogenic diets in humans that limit their use, and long-term compliance is very poor.

There is no compelling research evidence in dogs or cats showing a clinical benefit to ketogenic diets. Despite the dramatic anecdotal claims made by some proponents of these diets, there is currently insufficient evidence to support recommending therapeutic ketogenic diets in companion animals.


1.        Kaplan JL, Stern JA, Fascetti AJ, et al. Taurine deficiency and dilated cardiomyopathy in golden retrievers fed commercial diets. Loor JJ, ed. PLoS One. 2018;13(12):e0209112. doi:10.1371/journal.pone.0209112

2.        Nosek J. Could a Change in Diet Cure Your Dog’s Cancer? Mod Dog Mag. May 2019.

3.        Larsen JA, Owens TJ, Fascetti AJ. Nutritional management of idiopathic epilepsy in dogs. J Am Vet Med Assoc. 2014;245(5):504-508. doi:10.2460/javma.245.5.504

4.        Patterson E, Munana K, Kirk C, et al. Results of ketogenic food trial for dogs with idiopathic epilepsy. [abstract]. J Vet Intern Med. 2005;19:421.

5.        Law TH, Davies ESS, Pan Y, Zanghi B, Want E, Volk HA. A randomised trial of a medium-chain TAG diet as treatment for dogs with idiopathic epilepsy. Br J Nutr. 2015;114(9):1438-1447. doi:10.1017/S000711451500313X

6.        Weeth L. Ketogenic diets for dogs: Treend or Truth? In: VMX 2019 Veterinary Meeting and Expo. Orlando, FL; 2019.

7.        Pi-Sunyer FX. Starvation-Induced Ketosis: Reduction in Dogs Enriched with Odd-Carbon Fatty Acids. Exp Biol Med. 1974;145(3):786-789. doi:10.3181/00379727-145-37895

8.        Crandall LA. A comparison of ketosis in man and the dog. J Biol Chem. 1941;138:123-128. http://www.jbc.org/content/138/1/123.citation. Accessed November 15, 2019.

9.        Castellana M, Conte E, Cignarelli A, et al. Efficacy and safety of very low calorie ketogenic diet (VLCKD) in patients with overweight and obesity: A systematic review and meta-analysis. Rev Endocr Metab Disord. November 2019. doi:10.1007/s11154-019-09514-y

10.      D’Andrea Meira I, Romão TT, Pires do Prado HJ, Krüger LT, Pires MEP, da Conceição PO. Ketogenic Diet and Epilepsy: What We Know So Far. Front Neurosci. 2019;13:5. doi:10.3389/fnins.2019.00005

11.      Weber DD, Aminazdeh-Gohari S, Kofler B. Ketogenic diet in cancer therapy. Aging (Albany NY). 2018;10(2):164-165. doi:10.18632/aging.101382

12.      Khodadadi S, Sobhani N, Mirshekar S, et al. Tumor cells growth and survival time with the ketogenic diet in animal models: A systematic review. Int J Prev Med. 2017;8(1):35. doi:10.4103/2008-7802.207035

13.      Martin-McGill KJ, Jackson CF, Bresnahan R, Levy RG, Cooper PN. Ketogenic diets for drug-resistant epilepsy. Cochrane Database Syst Rev. 2018;11:CD001903. doi:10.1002/14651858.CD001903.pub4

14.      Martin K, Jackson CF, Levy RG, Cooper PN. Ketogenic diet and other dietary treatments for epilepsy. Cochrane Database Syst Rev. 2016;2:CD001903. doi:10.1002/14651858.CD001903.pub3

15.      Araya-Quintanilla F, Celis-Rosati A, Rodriguez-Leiva C, Silva-Navarro C, Silva-Pinto Y, Toro-Jeria B. [Effectiveness of a ketogenic diet in children with refractory epilepsy: a systematic review]. Rev Neurol. 2016;62(10):439-448. http://www.ncbi.nlm.nih.gov/pubmed/27149186. Accessed November 15, 2019.

16.      Cai Q-Y, Zhou Z-J, Luo R, et al. Safety and tolerability of the ketogenic diet used for the treatment of refractory childhood epilepsy: a systematic review of published prospective studies. World J Pediatr. 2017;13(6):528-536. doi:10.1007/s12519-017-0053-2

17.      Noorlag L, De Vos FY, Kok A, et al. Treatment of malignant gliomas with ketogenic or caloric restricted diets: A systematic review of preclinical and early clinical studies. Clin Nutr. 2019;38(5):1986-1994. doi:10.1016/j.clnu.2018.10.024

18.      Erickson N, Boscheri A, Linke B, Huebner J. Systematic review: isocaloric ketogenic dietary regimes for cancer patients. Med Oncol. 2017;34(5):72. doi:10.1007/s12032-017-0930-5

19.      Munana KR, Zhang D, Patterson EE. Placebo Effect in Canine Epilepsy Trials. J Vet Intern Med. 2010;24(1):166-170. doi:10.1111/j.1939-1676.2009.0407.x

20.      Pan Y, Larson B, Araujo JA, et al. Dietary supplementation with medium-chain TAG has long-lasting cognition-enhancing effects in aged dogs. Br J Nutr. 2010;103(12):1746-1754. doi:10.1017/S0007114510000097

21.      Bergqvist AC, Schall JI, Stallings VA, Zemel BS. Progressive bone mineral content loss in children with intractable epilepsy treated with the ketogenic diet. Am J Clin Nutr. 2008;88(6):1678-1684. doi:10.3945/ajcn.2008.26099

22.      Choi JN, Song JE, Shin J Il, Kim HD, Kim MJ, Lee JS. Renal stone associated with the ketogenic diet in a 5-year old girl with intractable epilepsy. Yonsei Med J. 2010;51(3):457-459. doi:10.3349/ymj.2010.51.3.457

23.      Willmott NS, Bryan RAE. Case report: scurvy in an epileptic child on a ketogenic diet with oral complications. Eur Arch Paediatr Dent. 2008;9(3):148-152. doi:10.1007/bf03262627

24.      Bank IM, Shemie SD, Rosenblatt B, Bernard C, Mackie AS. Sudden cardiac death in association with the ketogenic diet. Pediatr Neurol. 2008;39(6):429-431. doi:10.1016/j.pediatrneurol.2008.08.013

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Cone of Shame Podcast Interview- Placebos for Pets? The Truth about Alternative Medicine for Animals

Dr. Andy Roark and I had a great conversation about my book, Placebos for Pets? The Truth about Alternative Medicine for Animals, and all sorts of related subjects, from evidence-based medicine, to caregiver placebo effects, to acupuncture. Check it out!

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