Potential role of stem cells for neuropathic pain disorders
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hronic neuropathic pain is estimated to be on the rise, particularly with the expected increase in patients with diabetes within the US. Diabetic and nondiabetic patients were surveyed for sick days from
work due to neuropathic pain; approximately two-thirds of these patients were found to consistently be taking days from work, and only one-fifth of those were satisfied with their current therapy.8,24 Unlike nociceptive pain (tissueinjury induced), neuropathic pain is specific to injury of either the central or peripheral nervous system and can be a combination of both. For this reason, several diseases manifest with neuropathy including SCI, stroke, multiple sclerosis, diabetes, infectious related, nutrient deficient,
immune related, and oncological. Interestingly, adjuvant therapies for these disorders including chemotherapy and radiation therapy can also lead to chronic neuropathy. Treatments have largely depended on anticonvulsants and antidepressants because of their analgesic effects; however, the nature of neuropathic pain is its chronicity and as such often becomes recalcitrant to these pharmacological strategies. Intractable neuropathic pain has gained increasing awareness due to its prevalence and the technological advancements in surgical neuromodulation. Electrical stimulation via spinal cord, peripheral nerve, and deep brain targeting has begun to show some early efficacy.18 To date, chronic neuropathic pain is largely considered a heterogeneous pain syndrome that remains with limited efficacious treatment modalities. Also, there is no treatment strategy that is effective for pain management while promoting nervous system repair.