Articles: neuropathic-pain.
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Nerve injury is associated with microvascular disturbance; however, the role of the vascular system has not been well characterized in the context of neuropathic pain. Furthermore, ischemia is thought to play a role in a number of neuropathic pain conditions, and yet the role of hypoxia has also not been characterized in neuropathic pain conditions. In this study, we observed the presence of persistent endoneurial hypoxia in a mouse model of traumatic peripheral nerve injury, causing painful mononeuropathy. ⋯ Physiological antagonism of hypoxia with hyperbaric oxygen alleviated mechanical allodynia in nerve-injured animals. These results suggest that hypoxia and the Na(+)/K(+) ATPase ion transporter may be a novel mechanistic target for the treatment of neuropathic pain. In addition, the findings support the possibility of using hypoxia activated pro-drugs to localize treatments for neuropathic pain and nerve injury to injured nerves.
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Low-voltage-activated (T-type) calcium channels are important regulators of the transmission of nociceptive information in the primary afferent pathway and finding ligands that modulate these channels is a key focus of the drug discovery field. Recently, we characterized a set of novel compounds with mixed cannabinoid receptor/T-type channel blocking activity and examined their analgesic effects in animal models of pain. Here, we have built on these previous findings and synthesized a new series of small organic compounds. ⋯ Compound 9 was efficacious in mediating analgesia in mouse models of acute inflammatory pain and in reducing tactile allodynia in the partial nerve ligation model. This compound was shown to be ineffective in Cav3.2 T-type calcium channel null mice at therapeutically relevant concentrations, and it caused no significant motor deficits in open field tests. Taken together, our data reveal a novel class of compounds whose physiological and therapeutic actions are mediated through block of Cav3.2 calcium channels.
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The analgesic properties of antidepressants are often used in the treatment of neuropathy; however their influence on glial cells in maintaining neuropathic pain is unknown. Our studies examined the neuropathic pain-relieving properties after intraperitoneal injection of amitriptyline, doxepin, milnacipran, venlafaxine and fluoxetine 7 days after sciatic nerve injury (CCI) in rats and its influence on microglia/macrophages (IBA-1) and astroglia (GFAP) activation in the spinal cord and dorsal root ganglia (DRG) using Western blot. All tested antidepressants significantly reduced CCI-induced allodynia but hyperalgesia was only antagonised by fluoxetine, doxepine and venlafaxine. ⋯ No changes in the GFAP level in both structures were observed after any of listed above antidepressants administration. Chronic minocycline treatment enhanced amitriptyline and milnacipran, but did not fluoxetine analgesia under neuropathic pain in rats. Our results suggest that nerve injury-induced pain is related with the activation of microglia, which is diminished by fluoxetine treatment in the neuropathic pain model.
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Pain is a common and highly debilitating complication for cancer patients significantly compromising their quality of life. Cancer-induced bone pain involves a complex interplay of multiple mechanisms including both inflammatory and neuropathic processes and also some unique changes. Strong opioids are a mainstay of treatments but side effects are problematic and can compromise optimal pain control. Tapentadol is a novel dual-action drug, both stimulating inhibitory μ-opioid receptors (MOR) and mediating noradrenaline reuptake inhibition (NRI) leading to activation of the inhibitory α-2 adrenoceptor. It has been demonstrated to treat effectively both acute and chronic pain. We here demonstrate the efficacy in a model of cancer-induced bone pain. ⋯ These findings add to the mechanistic understanding of cancer-induced bone pain and support the sparse clinical data indicating a possible use of the drug as a therapeutic alternative for cancer patients with metastatic pain complication.
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Biological psychiatry · Feb 2015
The anterior cingulate cortex is a critical hub for pain-induced depression.
Besides chronic stress, chronic pain is a prevalent determinant for depression. Changes induced in specific brain regions by sustained pain may alter the processing of affective information, thus resulting in anxiodepressive disorders. Here, we compared the role of the anterior cingulate cortex (ACC) and the posterior insular cortex in the anxiodepressive, sensory, and affective aspects of chronic pain. ⋯ Our results show that, at cortical level, the sensory component of chronic pain remains functionally segregated from its affective and anxiodepressive components. Spontaneous tonic pain and evoked allodynia can be experimentally dissociated. Furthermore, the ACC appears as a critical hub for mood disorders, including for the anxiodepressive consequences of chronic pain, and thus constitutes an important target for divulging the underlying mechanism.