Abstract
BackgroundIn the collagen-induced arthritis (CIA) mouse model, inflammation readouts are usually quantified using operator-dependent clinical scoring systems, and no systematic relationship with functional deficits has been detected. In this study, we extensively quantified sensory and motor deficits in CIA mice during natural disease progression and therapeutic treatment. Then, we used these data to build a scale to predict functional deficits on the basis of the classical clinical score.MethodsUsing the CIA mouse model, we longitudinally screened multiple approaches to assess locomotion (open field test, Catwalk™), sensitivity (Von Frey, Hargreaves, static weight-bearing tests), and inflammation (skin temperature), and identified the most accurate tests to correlate sensory and motor deficits with disease severity, measured by clinical score. We then used these tests to characterize functional deficits in control (naïve and mice injected with complete Freund’s adjuvant) and CIA mice, either untreated or treated with methotrexate to prevent functional deficits. By mathematical approaches, we finally investigated the relationship between functional deficits and clinical score.ResultsWe found that the functional disability scores obtained with the open field, Catwalk™, Hargreaves, and skin temperature tests significantly correlated with the clinical score in CIA mice, either untreated or treated with methotrexate. Mathematical correlation showed that motor deficits, robustly characterized by two different tests, were twice more responsive than thermal sensitivity deficits.ConclusionWe propose the arthritis sensory and motor (ArthriSM) scale as a new theranostic tool to predict motor and sensory deficit based on the clinical score, in the experimental mouse model of CIA. This ArthriSM scale may facilitate the transfer of knowledge between preclinical and clinical studies.
Highlights
In the collagen-induced arthritis (CIA) mouse model, inflammation readouts are usually quantified using operator-dependent clinical scoring systems, and no systematic relationship with functional deficits has been detected
Clinical score and sensory and motor deficits in the CIA mouse model To investigate the relationship between functional disabilities and clinical score in arthritis, we first quantified inflammation, pain, and locomotor deficits in healthy and arthritic (CIA group) mice, and monitored disease progression using gold standard parameters
Using Hargreaves’ test, we observed that withdrawal latency was significantly reduced in CIA mice compared with naïve animals, from D42 onwards (Fig. 1b)
Summary
In the collagen-induced arthritis (CIA) mouse model, inflammation readouts are usually quantified using operator-dependent clinical scoring systems, and no systematic relationship with functional deficits has been detected. We extensively quantified sensory and motor deficits in CIA mice during natural disease progression and therapeutic treatment. We used these data to build a scale to predict functional deficits on the basis of the classical clinical score. No systematic and longitudinal study has been performed so far to precisely quantify sensory and motor deficits in mouse models of arthritis (under treatment or not) and to correlate them with the clinical score (i.e., the gold standard evaluation of arthritis severity)
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