Pain
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Interleukin-6 trans-signaling and pathological low back pain in patients with Paget disease of bone.
The interleukin (IL)-6 biological system plays a key role in the pathogenesis of Paget disease (PD) of bone and pathological bone pain. Bone pain, particularly in the lower back region, is the most frequent symptom in patients with PD. This case-control study aimed to evaluate the relationship between the IL-6 system and low back pain (LBP) in patients with PD. ⋯ Paget disease remission, 6 months after treatment, is associated with LBP improvement. This phenomenon is associated with reduced sIL-6R levels and increased sgp130 levels in patients with PD with LBP at the baseline. Considering the biological properties of IL-6, sIL-6R, and sgp130, the results of the study suggest that the perception of LBP in patients with PD could be linked to an enhanced transmission of IL-6 signal in the specialized neural system activated by nociceptors.
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Despite increasing rates of prescription opioid (PO) misuse in adults 50 years of age and older, little research has investigated such misuse in this population. This work aimed to examine sources of misused opioid medication in adults 50 years and older, with comparisons to younger groups. Data were from the 2009 to 2014 National Survey on Drug Use and Health surveys. ⋯ Across those 50 years and older, use of purchases, physician, or multiple sources were associated with elevated POUD symptom prevalence. Older adults, particularly those 65 years and older, use a different pattern of PO sources than adolescents or younger adults, and those using physician sources have elevated POUD symptoms. Physicians are a key avenue for older adults to obtain opioids for misuse, highlighting the potential role of clinicians in limiting such misuse.
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Peripheral nerve injury causes maladaptive plasticity in the central nervous system and induces chronic pain. In addition to the injured limb, abnormal pain sensation can appear in the limb contralateral to the injury, called mirror image pain. Because synaptic remodeling in the primary somatosensory cortex (S1) has critical roles in the induction of chronic pain, cortical reorganization in the S1 ipsilateral to the injured limb may also accompany mirror image pain. ⋯ When local inhibitory circuits were blocked, astrocyte-dependent spine plasticity and allodynia were revealed. Thus, we propose that cortical astrocytes prime the induction of spine plasticity and mirror image pain after peripheral nerve injury. Moreover, this result suggests that cortical synaptic rewiring could be sufficient to cause allodynia on the uninjured periphery.
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One specific behavior can be synergistically modulated by different neural pathways. Medial septal (MS) cholinergic system innervates widespread cortical and subcortical regions and participates in pain modulation, but the underlying neural pathways are not fully understood. This study examined the contribution of MS cholinergic neurons and 2 neural pathways: MS-rostral anterior cingulate cortex (rACC) and MS-ventral hippocampal CA1 (vCA1), in modulating perceptual and affective pain behaviors in a mouse model of chronic inflammatory pain. ⋯ By contrast, chemogenetic activation of MS cholinergic neurons also produced analgesia, but by rescuing hypofunctional pyramidal neurons in vCA1. These results clearly demonstrate that the MS cholinergic system differentially modulates chronic inflammatory pain through MS-rACC or MS-vCA1 pathways. More significantly, our research provides evidence for a novel paradigm of neural circuit modulation: MS cholinergic inhibition and activation induce similar analgesia but through distinct neural pathways.
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Clinical evidence indicates that cognitive impairment is a common comorbid condition of chronic pain. However, the cellular basis for chronic pain-mediated cognitive impairment remains unclear. We report here that rats exhibited memory deficits after spared nerve injury (SNI). ⋯ Intracerebroventricular infusion of nocodazole, an MT destabilizer, ameliorated memory deficits in rats with SNI-induced nociceptive behavior. Expression of HDAC6, an α-tubulin deacetylase, was reduced in the hippocampus in rats with cognitive impairment. These findings indicate that peripheral nerve injury (eg, SNI) affects the MT dynamic equilibrium, which is critical to neuronal structure and synaptic plasticity.