Pain
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Resting blood pressure (BP) is inversely related to pain sensitivity in individuals free of chronic pain, reflecting homeostatic interactions between cardiovascular and pain modulatory systems. Several laboratory studies indicate that BP-related hypoalgesia is diminished in chronic pain patients, suggesting dysfunction in these interacting systems. Separate epidemiological findings reveal elevated hypertension prevalence in the chronic pain population. ⋯ Presence of chronic pain was associated with significantly increased odds of comorbid hypertension (P<.001). Within the chronic pain group, higher chronic pain intensity was a significant predictor of positive hypertension status beyond the effects of traditional demographic risk factors (P<.05). Results are consistent with the hypothesis that increased hypertension risk in the chronic pain population might be linked in part to chronic pain-related dysfunction in interacting cardiovascular-pain modulatory systems.
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It is known that interleukin-17 (IL-17) is associated with autoimmune disorders and that peripheral IL-17 plays a role in arthritis and neuropathic pain. The present study investigated the possibility of spinal cell expression of IL-17 during inflammatory pain and possible IL-17 involvement in such pain. Hyperalgesia was induced by injecting complete Freund adjuvant (CFA, 0.08mL, 40μg Mycobacterium tuberculosis) into one hind paw of the rat. ⋯ Spinal cords were removed for IL-17 immunostaining, double immunostaining of IL-17/cell markers and IL-17 receptor A (IL-17RA)/NR1, for Western blot testing of IL-17, p-NR1, IL-17RA, and GFAP, for in situ IL-17RA hybridization, and for real time polymerase chain reaction of IL-17RA. The data reveal that IL-17 is up-regulated in activated and nonactivated astrocytes; that IL-17RA is localized in NR1-immunoreactive neurons and up-regulated; and that IL-17 antibody at 2μg/rat significantly increased PWL (P<.05) and decreased p-NR1 and IL-17RA compared to control in CFA- and IL-17-injected rats. The results suggest that spinal IL-17 is produced by astrocytes and enhances p-NR1 to facilitate pain.
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Methods for investigating human pain have been developed over the last 100years. Typically, researchers focus on people with clinical pain, or on healthy participants undergoing laboratory-controlled pain-induction techniques focussed mostly on exogenously generated skin nociception. Less commonly investigated are acute pain experiences that emerge naturally. ⋯ Headache and menstrual pain appear to be most effectively researched in their naturally occurring form, whereas muscle and dental pain may be more easily induced. Upper respiratory tract infection and abdominal pain provide further challenges for researchers. Summary guidance is offered, and directions for methods development outlined.