Pain
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We assessed pain characteristics and sensory profiles of a large and extensively phenotyped cohort of patients with polyneuropathies (PNPs) and small fiber neuropathy (SFN) using quantitative sensory testing (QST). Our aim was to detect potentially discriminative QST profiles of patient subgroups determined by pain, etiology, or skin innervation. We prospectively recruited 350 patients with painful and painless PNPs and with SFN at 1 neuromuscular center. ⋯ In healthy controls, skin innervation positively correlated with sensory thresholds, whereas this correlation was lost in patients with PNP and SFN. Quantitative sensory testing did not distinguish between painful and painless neuropathies regarding small fiber function, but revealed higher mechanical pain (P < 0.01) and detection thresholds (P < 0.05) and lower mechanical pain sensitivity in the group of patients with painful neuropathies. Etiological neuropathy subgroups were not distinguished by QST.
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Low back pain (LBP) is associated with both axial discomfort and radiating leg pain. Although intervertebral discs are suspected as the source of pain in some individuals, the relationship between disc degeneration and back pain remains controversial. The goals of this study were to investigate the long-term impact of L4/L5 disc puncture on disc degeneration and the subsequent emergence, persistence, and underlying mechanisms of axial and radiating LBP in mice. ⋯ Radiating pain then reemerged 9 to 12 months after injury in half the animals and correlated with increased dorsal innervation and reduced disc height at these late time points. In summary, a single-level disc injury is sufficient to induce prolonged disc degeneration and delayed axial and radiating pain. This model will be useful to investigate underlying mechanisms and potential therapeutic strategies for discogenic LBP.