Pain pathogenesis in rheumatoid arthritis -- what have we learned from animal models
E. Krock, A. Jurczak, C.I. Svensson

TL;DR
This paper reviews how animal models have advanced understanding of rheumatoid arthritis pain mechanisms beyond inflammation, highlighting potential targets for more effective treatments and personalized therapy strategies.
Contribution
It synthesizes recent findings from preclinical rodent models to elucidate RA-associated pain mechanisms and advocates for bedside-to-bench research approaches.
Findings
Animal models reveal non-inflammatory pain pathways in RA.
Preclinical research identifies modifiable pain mechanisms.
Models suggest tailored treatments for specific patient subgroups.
Abstract
Rheumatoid arthritis (RA) is a systemic autoimmune disease characterized by joint inflammation and joint pain. Much of RA treatment is focused on suppressing inflammation, with the idea being that if inflammation is controlled other symptoms, such as pain, will disappear. However, pain is the most common complaint of RA patients, is often still present following the resolution of inflammation, and can develop prior to the onset of inflammation. Thus, further research is needed to better understand RA-associated pain mechanisms. A number of preclinical rodent models commonly used in rheumatology research have been developed based on bedside-to-bench and reverse translational approaches. These models include collagen-induced arthritis, antigen-induced arthritis, streptococcal cell wall-induced arthritis, collagen antibody-induced arthritis, serum transfer from K/BxN transgenic mice and…
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