Pain
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Randomized Controlled Trial
New procedure of high-frequency repetitive transcranial magnetic stimulation for central neuropathic pain: a placebo-controlled randomized cross-over study.
Repetitive transcranial magnetic stimulation (rTMS) is a procedure increasingly used to treat patients with central neuropathic pain, but its efficacy is still under debate. Patients with medically refractory chronic central neuropathic pain were included in 2 randomized phases (active/sham), separated by a wash-out period of 8 weeks. Each phase consisted of 4 consecutive rTMS sessions and a final evaluation session, all separated from one another by 3 weeks. ⋯ No difference was observed for quality of life or analgesic drug consumption. Seventeen patients (47%) were identified as responders, but no significant interaction was found between clinical and technical factors considered here and the analgesic response. These results provide strong evidence that 3 weeks spaced high-frequency rTMS of M1 results in a sustained analgesic effect and support the clinical interest of this stimulation paradigm to treat refractory chronic pain.
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High-frequency stimulation (HFS) of the sciatic nerve has been reported to produce long-term potentiation (LTP) and long-lasting pain hypersensitivity in rats. However, the central underlying mechanism remains unclear. Nicotinamide adenine dinucleotide phosphate (NADPH) oxidase (NOX) belongs to a group of electron-transporting transmembrane enzymes that produce reactive oxygen species (ROS). ⋯ Spinal application of ROS scavenger, Phenyl-N-tert-butylnitrone (PBN), depressed the already established spinal LTP. Spinal application of H2O2, one ROS, induced LTP and bilateral mechanical allodynia, increased the frequency and amplitude of spontaneous excitatory postsynaptic currents in laminar II neurons, and phosphorylated GluN2B and p65 in the dorsal horn. This study provided electrophysiological and behavioral evidence that NOX2-derived ROS in the spinal cord contributed to persistent mirror-image pain by enhancing the synaptic transmission, which was mediated by increasing presynaptic glutamate release and activation of NMDA receptor and NF-κB in the spinal dorsal horn.
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Although ethnic differences in pain perception are well documented, the underlying mechanism for these outcomes has not been established. µ-opioid receptor (MOR) function might contribute to this disparity, given that MORs play a key role in pain sensitivity and modulation. However, no study has characterized ethnic differences in MOR physiology. This study sought to address this knowledge gap by examining differences in µ-selective agonist binding potential (BPND; [C]-Carfentanil) between 27 non-Hispanic black (NHB) and 27 demographically similar, non-Hispanic white participants. ⋯ Results suggest that NHB individuals might have generally greater unoccupied MOR density than non-Hispanic white peers. Findings have implications for physiological differences underlying ethnicity-related pain disparities. If replicated, these results further emphasize the need for tailored treatments in historically underserved populations.
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Despite significant efforts, the opioid crisis remains a pressing health concern affecting adolescents. The primary aim of this study was to describe recent sociodemographic shifts in the opioid epidemic. We examined whether rates of opioid use, including opioid misuse and opioid use disorder among 12 to 17 year olds in the United States, differ according to sociodemographic factors, physical and mental health, and substance use characteristics using data from the 2015 and 2016 National Survey on Drug Use and Health. ⋯ However, odds for substance use was greatest among adolescents who reported reasons other than pain relief for opioid misuse. National Survey on Drug Use and Health self-report data suggest recent shifts in opioid misuse with minority adolescents appearing to be at increased risk of opioid misuse compared with white adolescents. Relief of physical pain is the most common motivation for opioid misuse.
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Selective targeting of sodium channel subtypes Nav1.7, Nav1.8, and Nav1.9, preferentially expressed by peripheral nociceptors, represents a unique opportunity to develop analgesics devoid of central side effects. Several compounds that target Nav1.7 and Nav1.8 with different degrees of selectivity have been developed and are currently being tested in clinical trials for multiple pain indications. Among these chemicals, benzothiazole-like compounds emerged as potent sodium channel blockers. ⋯ Pain reduction in mice occurs at doses consistent with those adopted in clinical trials. The present findings confirm the relevance of selective targeting of peripheral Nav1.8 channels to pain therapy. In light of the excellent tolerability of dexpramipexole in humans, our results support its translational potential for treatment of pain.