The results of this study have demonstrated that radiographically visible OA is very common in young dogs, and approximately 60% of dogs with rOA had cOA with at least mild pain (23.6% of dogs overall) in one or more joints and 40% had cOA with at least moderate pain in one or more joints (16.3% of dogs overall). In dogs with cOA, based on answers to standard OA questionnaires, owners identified the presence of clinical signs relatively infrequently (one third of dogs) and few dogs were medically treated.
No other work has explored the prevalence of radiographic OA and associated pain in young dogs. There are also relatively few studies that have evaluated the prevalence of OA in dogs of any age. Two previous studies showed that the estimated annual period prevalence of appendicular joint OA and associated clinical signs was 2.5% in the UK and 6.1% in the US in dogs of any age attending primary-care practices3,5. In the study performed in UK,3 electronic patient record data from veterinary patients were reviewed to identify potential OA cases within a one-year sampling time frame from Jan 1st 2013 to Dec 31st 2013. Overall, 455,557 dogs (median age of 4.1 years) were included in the study and 16,437 candidate OA cases were identified. Of these, 6102 were reviewed in detail and 4196 dogs (2.5%) were confirmed as OA cases (newly diagnosed as OA or showed continuation of treatment for pre-existing diagnosis during the study period). Although there is no detailed description in the report from the largest general veterinary practice in the US, medical records from the more than 2.5 million dogs they cared for in 2018 were reviewed and the prevalence of clinical OA was calculated (6.1%)5. In another similar study,4 electronic patient record data were collected on 148,741 dogs attending primary attending primary care veterinary practices, and 3884 dogs (median age of 4.8 years) were randomly selected to investigate the prevalence of disorders. The study sampling frame was from Sep 1st 2009 to Mar 31st 2013. The authors reported that the prevalence of degenerative joint disease was 6.6% in dogs, however, the study did not use as tight a case definition as the aforementioned OA prevalence study in UK. The data in the literature vary greatly with respect to how many dogs are diagnosed with clinical OA but are generally surprisingly low when one considers that OA and OA-pain increase with age, and our data suggest that ~ 16% of young dogs are already displaying moderate pain or greater in at least 1 joint with rOA.
In this study, the total radiographic OA score increased with age. The slope of the trendline is not steep, but the score appears to increase mainly due to the presence of multiple joints being affected in addition to worsening of the actual OA scores (hip/elbow dysplasia). Although species are different, the trendline is not dissimilar to that seen in younger cats8. In the cat study, the slope of the trendline became steeper over time. We acknowledge that we do not know what the total OA scores would be in older dogs with OA, however, we anticipate a similar increase in OA burden over time (see supplemental file 9).
Our data indicate a high prevalence of rOA in young dogs, and particularly in the elbow and hip, supporting the assertion that OA is primarily driven by developmental disease in dogs. However, we did not review medical records to ascertain whether the affected joints had been diagnosed with developmental joint disease. In our study, the most commonly affected joints were elbow, hip, tarsus, and stifle. This is similar to previous findings in older dogs except for the tarsus1,2. It is unclear why the tarsus was not identified as a site of OA in Johnson’s study, but the population they evaluated was selected from cases sent to a teaching hospital, which might have had some selection bias.
Although the sample size of toy/small breed dogs was small, it appears that rOA is less common in toy/small dogs and also that the hip joint is the most commonly affected site in smaller breeds.
Currently, clinical OA (OA with associated joint pain) in dogs is diagnosed at a much later timepoint with more than 50% of diagnosed dogs aged from 8 to 13 years9. Indeed, previous work has reported that median age at first diagnosis of OA was 10.5 years in dogs attending UK primary care veterinary practices (the median age of the overall denominator population was 4.1 years)3. The high prevalence of disease supports the approach of actively screening younger dogs with the goal to intervene earlier and decrease the impact of OA and OA-associated pain over the dogs’ lifespan. Such a proactive approach has been suggested10, but has not been assessed – that is, it is not known if early intervention of some sort (e.g. strict weight management, regular low impact activity) decreases the impact of OA later in life.
In the present study, in dogs with clinical OA, owners reported (based on their answers captured via the LOAD instrument) the presence of clinical signs relatively infrequently - only one third of owners of dogs with detectable OA-pain according to the authors’ evaluations. Interestingly, regardless of cut-offs, owners did not appear to notice any signs of OA pain in dogs between 9 months and 28 months (across this age range, 7 dogs had OA-pain detected on examination). There are several potential explanations for this, that are not mutually exclusive: Firstly, these younger dogs may not be displaying signs of OA-pain in the home environment (they are truly functioning well). Secondly, owners may not be recognizing the signs of OA-pain. The signs of joint pain in younger dogs do appear, clinically, to be different to that of older dogs, with an emphasis on adaptations of function rather than impaired function which is more obvious in older dogs. For example, young dogs with hip OA and pain may still be able to go on walks without tiring, still able to go up and down stairs, and still able to play, while older dogs with hip OA and pain may show obvious impairment in performing these activities. Additionally, many of the dogs were bilaterally affected, and it may be that owners are more likely to recognize clinical signs if only a single limb is affected rather than bilateral joints. Our data suggest that more joints become affected with age, and if multiple joints are affected, clinical signs may be more noticeable for owners as the impact of OA-pain becomes high. Lastly, the questionnaires used, (LOAD) and potentially other CROMs (e.g., CBPI) may not be ideal for the assessment of signs of OA-pain in younger dogs. Attempts to measure OA-pain in young dogs using CROMs may be fundamentally flawed because these instruments were developed in older dog populations. Indeed, the LOAD was developed using dogs of mean ages 7.9 years and the CBPI was developed using the dogs with > 5 years11,12. That said, in this study the use of LOAD identified one third of the cOA cases, suggesting that the proactive use of LOAD or other CROMs can still flag a good proportion of young dogs with cOA, act as a starting point for conversation and facilitate the education of owners about OA. To date, there has been no comprehensive description or investigation of the behavioral signs of OA-pain in young dogs, and no attempts to develop an owner questionnaire specifically for this younger population of dogs.
Previous studies have suggested that once OA is recognized, it is perceived by both veterinarians and owners as important enough for significant clinical care, often involving long term prescription analgesics and multiple additional treatment interventions, frequent clinic visits and relatively high levels of referral13. Indeed, eighty-five percent of OA cases were reported to be managed with at least one clinical modality (medical or surgical treatments) following osteoarthritis diagnosis (median age of 10.5 years) and the majority of them remained on medical management3. Medical management is likely to be less complex earlier in the course of the disease. Earlier, effective treatment of OA-pain may better control joint pain and the longer-term negative impacts of joint pain on other dimensions such as behavioral characteristics, affective states and muscle strength14. However, our study showed that only a very few dogs received medical management even after clinical OA was diagnosed or in cases where owners recognized the presence of clinical signs. This likely highlights the difference in clinical signs associated with OA between younger dogs and older dogs, and possibly differences in attitudes of both veterinarians and pet owners. For example, owners may be reluctant to treat their dogs if function is not obviously impaired. However, we did not investigate the reasons for this, and this is an important area for future research.
A significant difference was observed between dogs with OA and without OA in age, body weight, and BCS in the present study. The prevalence of rOA was increased with age and bodyweight with these two factors being independently associated with rOA in this study. A recent review paper summarized the risk factors for canine appendicular OA as: genetics, breed, conformation, age, sex/neuter status, and body weight15. As shown in Table 1, we did not find any significant impact of sex or breed on the radiographic OA. This may be because we had relatively small sample size and with a large wide variety of different breeds represented the effect of breed could not be looked at in detail. The majority of dogs enrolled in the study were neutered and so the effect of sex hormones could not be evaluated. Early de-sexing has been suggested to be a risk factor for joint disease, albeit with variable influence across breeds16. We were not able to collect accurate data on the time of de-sexing to be able to look at that as a factor in OA status.
An important limitation of our study is that clinical OA (cOA) was defined based on subjective criteria (veterinarian examination), and therefore the results may be different if the study was repeated by different investigators. There is currently no ‘gold standard’ for diagnosing or scoring severity of OA-pain in dogs, and work needs to be performed to look at the reproducibility of the sorts of subjective assessments we used. Additionally, the criteria for determining owner-observed signs of OA (LOAD) were based on criteria developed in older dogs with OA pain, thus, this may not be relevant to signs of OA in young dogs. Additional limitations of this study were that it was performed in a single practice and single geographic area, and therefore, the client and breed spectrum may not be representative of the general public/dog population in the US. For example, German shepherds make up 7% of the US dog population, but only accounted for 3% of our study population.
This study provides the foundation for increasing awareness of OA among veterinarians and dog owners with the potential to lead to earlier intervention and mitigation of the impacts of OA-pain later in life.