Pain
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The mechanism causing cold pain in humans is unresolved. Animal data suggest a nonredundant contribution to cold pain for transient receptor potential channels TRPM8 and TRPA1 for detection and voltage-gated sodium channels NaV1.7 and NaV1.8 for conduction at these temperatures. We established an intradermal injection-based cold pain model, which allows pharmacologically addressing molecular targets at the site of cooling. ⋯ Pain induced by 3°C intradermal fluid was not reduced to a relevant extent by any of the 4 antagonists alone or by the quadruple combination. However, the temperature threshold for cold pain appeared shifted by the inhibition of TRPA1, TRPM8, and NaV1.7 and to a lesser extent by NaV1.8 inhibition, 4-fold inhibition decreased the threshold by 5.8°C. Further mechanisms contributing to human cold pain need to be considered.
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Chronic pain is a pervasive, disabling, and understudied feature of multiple sclerosis (MS), a progressive demyelinating and neurodegenerative disease. Current focus on motor components of MS disability combined with difficulties assessing pain symptoms present a challenge for the evaluation and management of pain in MS, highlighting the need for novel methods of assessment of neural signatures of chronic pain in MS. We investigate chronic pain in MS using MS-related trigeminal neuralgia (MS-TN) as a model condition focusing on gray matter structures as predictors of chronic pain. ⋯ The ML classifier compared imaging metrics of patients with MS and MS-TN and distinguished between these conditions with 93.4% individual average testing accuracy. Structures within default-mode, somatomotor, salience, and visual networks (including hippocampus, primary somatosensory cortex, occipital cortex, and thalamic subnuclei) were identified as significant imaging predictors of trigeminal neuralgia pain. Our results emphasize the multifaceted nature of chronic pain and demonstrate the utility of imaging and ML in assessing and understanding MS-TN with greater objectivity.
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Transient receptor potential ankyrin 1 (TRPA1) is implicated in physiological and pathological nociceptive signaling, but the clinical benefit of TRPA1 antagonists in chronic pain is not clearly demonstrated. LY3526318 is an oral, potent, and selective novel TRPA1 antagonist. The Chronic Pain Master Protocol was used to evaluate the safety and efficacy of LY3526318 in 3 randomized, placebo-controlled, proof-of-concept studies in knee osteoarthritis pain (OA), chronic low back pain (CLBP), and diabetic peripheral neuropathic pain (DPNP). ⋯ LY3526318 showed a potential drug-induced hepatotoxic effect posing a risk for clinical development. No other safety signals were identified. LY3526318 showed potential for different responses among chronic pain indications and patient subpopulations, highlighting challenges in developing TRPA1 antagonists but supporting their value as a target in managing chronic pain.