Abstract
Chronic pain is a hallmark of joint diseases and is often accompanied by negative affective symptoms such as low mood, anxiety and memory dysfunction. Whether these may be the results of the more obvious sensory and functional symptoms of joint pain is poorly understood and this likely contributes to the difficulty in adequately managing this condition. Here, we have used two mouse models to address this lack of knowledge. Using a model of ankle inflammation and a model of knee osteoarthritis, we found that these models of joint pain induced weight bearing deficits of different magnitude but relatively similar mechanical allodynia that lasted at least 3 months. However, the models were accompanied by very different affective outcomes, as only the model of knee osteoarthritis, that led to significant early changes in activity and sleep patterns, was accompanied by an increase in negative affective behaviors, including cognitive impairments and depressive-like behavior. The models also had different molecular profiles at both spinal and hippocampal levels. Importantly, the functional outcomes measured in the early stages of the disease stage strongly correlated with sensory and emotional profiles at 3 months, suggesting that early functional measures may be used as predictors of the long-term symptoms associated with persistent joint pain. In conclusion, the predictive value of early measures of functional impact of joint disease could prove useful in the clinics for adapted therapeutic approaches for the prevention of emotional comorbidities and better pain management for patients with joint pain.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Conflict of interest: The authors declare that there are no conflicts of interest.
Financial support: This work was supported by Versus Arthritis, UK, Research Award 21972.