Eberhardt E, Namer B, Neureiter A, Körner J, Jørum E , et al.
Pain •
Spontaneous activity of peripheral sensory nerve fibers is one of the main drivers of neuropathic pain. It can be assessed in microneurography recordings of patients' C fibers and in patch-clamp recordings of dissociated dorsal root ganglia from humans and rodents. In microneurography of human C fibers, a distinct subgroup of neurons, the so-called mechano-insensitive (CMi) or sleeping nociceptors, shows spontaneous activity during neuropathic pain. It was shown before that sensory neurons from patient-derived induced pluripotent stem cells (iSNs) can be used to model this increased spontaneous activity in vitro, suggesting that a disease relevant cell type is generated with this approach. The origin of the spontaneous activity in human C fibers is not fully understood. Derived sensory neurons offer the unique possibility to study patient-derived, single-cell function, allowing for identification of potential mechanisms underlying spontaneous C-fiber activity. Here, we identify 4 distinct functional subtypes of iSNs from healthy donors and a patient suffering from the neuropathic pain syndrome inherited erythromelalgia using patch-clamp recordings. Similar to microneurography recordings from the same patient, spontaneous activity is restricted to 1 functional subgroup that shows tonic firing behavior and seems to be especially prone to develop neuronal hyperexcitability. We demonstrate that spontaneous activity correlates with a reduced voltage threshold of action potential generation and increased spontaneous depolarizing fluctuations of the membrane potential. Our findings reveal that only the tonically firing functional subclass of iSNs shows spontaneous activity and suggest that these neurons may be related to the pathologically active CMi fibers identified during microneurography recordings in patients with pain.
Skystad Kvernebo M, Grayson C, Stylianou IM, Woloshen V, Radomski C , et al.
Acta dermato-venereologica •
Gain-of-function variants in the voltage-gated sodium channel Nav1.7, encoded by the SCN9A gene, have previously been identified in patients with erythromelalgia, a clinical diagnosis defined by intermittent attacks of painful, hot, swollen, and red skin, predominantly involving the hands and feet. Symptoms are induced or aggravated by warming and relieved by cooling. In primary erythromelalgia there is no known underlying disease. This study investigated the frequency of SCN9A variants in a cohort of primary erythromelalgia patients collected at a single centre, and examined the clinical signs and symptoms associated with identified variants. One hundred patients with possible erythromelalgia were collected prospectively and evaluated by clinical examination. Thirty-five patients fulfilling the clinical criteria of primary erythromelalgia were screened for variants in SCN9A. Five were found to carry likely causal variants, including a variant found in 2 related individuals and a variant not previously described in patients with erythromelalgia. The clinical findings differed significantly between the patients. Overall, in this cohort only 4/34 (11.7%) of unrelated patients had erythromelalgia likely caused by gain-of-function variants in SCN9A. Variants in SCN9A are therefore likely to cause or contribute to primary erythromelalgia in only a small proportion of patients.
Helås T, Sagafos D, Kleggetveit IP, Quiding H, Jönsson B , et al.
European journal of pain (London, England) •
Nociceptive thresholds and supra-threshold pain ratings as well as their reduction upon local injection with lidocaine were compared between healthy subjects and patients with erythromelalgia (EM). Lidocaine (0.25, 0.50, 1.0 or 10 mg/mL) or placebo (saline) was injected intradermally in non-painful areas of the lower arm, in a randomized, double-blind manner, to test the effect on dynamic and static mechanical sensitivity, mechanical pain sensitivity, thermal thresholds and supra-threshold heat pain sensitivity. Heat pain thresholds and pain ratings to supra-threshold heat stimulation did not differ between EM-patients (n = 27) and controls (n = 25), neither did the dose-response curves for lidocaine. Only the subgroup of EM-patients with mutations in sodium channel subunits Na 1.7, 1.8 or 1.9 (n = 8) had increased lidocaine sensitivity for supra-threshold heat stimuli, contrasting lower sensitivity to strong mechanical stimuli. This pattern was particularly clear in the two patients carrying the Na 1.7 I848T mutations in whom lidocaine's hyperalgesic effect on mechanical pain sensitivity contrasted more effective heat analgesia. Heat pain thresholds are not sensitized in EM patients, even in those with gain-of-function mutations in Na 1.7. Differential lidocaine sensitivity was overt only for noxious stimuli in the supra-threshold range suggesting that sensitized supra-threshold encoding is important for the clinical pain phenotype in EM in addition to lower activation threshold. Intracutaneous lidocaine dose-dependently blocked nociceptive sensations, but we did not identify EM patients with particular high lidocaine sensitivity that could have provided valuable therapeutic guidance. Acute pain thresholds and supra-threshold heat pain in controls and patients with erythromelalgia do not differ and have the same lidocaine sensitivity. Acute heat pain thresholds even in EM patients with the Na 1.7 I848T mutation are normal and only nociceptor sensitivity to intradermal lidocaine is changed. Only in EM patients with mutations in Na 1.7, 1.8 or 1.9 supra-threshold heat and mechanical pain shows differential lidocaine sensitivity as compared to controls.
Journal of the European Academy of Dermatology and Venereology : JEADV •
Erythromelalgia is a clinical syndrome characterized by burning pain in the extremities together with erythema and increased skin temperature. Typically, the patients experience relief from cold, and aggravation from warmth. Symptoms are hypothesized to be caused by arteriovenous shunting and reduced nutritive skin capillary perfusion with corresponding tissue hypoxia. Erythromelalgia is most often primary, but may be secondary to a wide variety of diseases. We report erythromelalgia in a patient with acquired immune deficiency syndrome (AIDS). At peak pain intensity he actively cooled hands and feet for more than 12 h/day. Many doctors handling human immunodeficiency virus/AIDS patients are unfamiliar with erythromelalgia, and the condition can easily be overlooked, especially the more common milder cases.
Erythromelalgia is a condition consisting of red, warm, and burning painful extremities. Symptoms are relieved by cold and aggravated by heat. A wide variety of etiologic conditions can cause erythromelalgia, but one common pathogenetic mechanism, microvascular arteriovenous shunting, has been hypothesized. The aim of this study was to test this hypothesis. Quantification of skin microvascular perfusion using laser Doppler perfusion imaging and skin temperature at rest and after central body heating was performed in 14 patients with erythromelalgia and 11 controls. Attacks of erythromelalgia were induced in eight patients after heat provocation. In the plantar region of the foot, the location of numerous anatomical arteriovenous shunts, these patients significantly increased the skin perfusion as compared with asymptomatic patients with erythromelalgia and controls. In the dorsal region with few arteriovenous shunts no significant differences between the groups were demonstrated. The results show a relation between clinical symptoms and increased perfusion in the region of numerous anatomical arteriovenous shunts, and support the hypothesis of increased thermoregulatory arteriovenous shunt flow during attacks in primary erythromelalgia.
