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2. Cyclic changes of sensory parameters in migraine patients

Author

Carolin Helfenstein, Marion Strupf, Andrea Stefke, Britta Fraunberger, Bertold Renner, Insa Suchantke, Markus Rothermel, Karl Messlinger, Roberto DeCol, and Barbara Namer

Subjects
Pain Threshold, Erythema, Migraine Disorders, Humans, Pain, ddc:610, Neurology (clinical), General Medicine, Habituation, Psychophysiologic
Abstract

Background Migraine shows a cyclic pattern with an inter-ictal-, a pre-ictal, an ictal- and a post-ictal phase. We aimed to examine changes in psychophysical parameters during the migraine cycle. Methods The perception of nociceptive and non-nociceptive stimuli and an electrically induced axon-reflex-erythema were assessed in 20 healthy controls and 14 migraine patients on five consecutive days according to different phases of the migraine cycle. Pain was rated three times during a 10-second electrical stimulus. The size of the axon-reflex-erythema was determined using laser-Doppler-imaging. Intensity and hedonic estimates of odours presented by Sniffin’ Sticks were rated. Results In healthy controls, no significant changes over the test days were observed. In migraine patients pain thresholds at the head decreased with an ictal minimum. Less habituation after five seconds of stimulation at the head was found pre-ictally, whereas reduced habituation to 10-second electrical stimulation was present in all phases. The axon-reflex-erythema size showed an inter-ictal-specific minimum at the head. odours were perceived ictally as more unpleasant and intense. Conclusions Somatosensory functions, pain thresholds and habituation as predominantly central parameters, axon-reflex-erythema as a peripheral function of trigeminal neurons and odour perception as a predominantly extra-thalamic sensation change specifically over the migraine cycle indicating complex variations of neuronal signal processing.

Published
2022

3. Lysophosphatidic acid activates nociceptors and causes pain or itch depending on the application mode in human skin

Author

Martina Stengel, Miriam M. Düll, Barbara Namer, Peter W. Reeh, Marion Strupf, Andreas E. Kremer, V Ries, University of Zurich, and Namer, Barbara

Subjects
Nerve fiber, 610 Medicine & health, Stimulus (physiology), chemistry.chemical_compound, Transient receptor potential channel, Lysophosphatidic acid, medicine, Animals, Humans, Skin, Nerve Fibers, Unmyelinated, Pruritus, Nociceptors, Microneurography, Anesthesiology and Pain Medicine, medicine.anatomical_structure, 10219 Clinic for Gastroenterology and Hepatology, 2728 Neurology (clinical), Neurology, chemistry, 2808 Neurology, Neuropathic pain, Nociceptor, Neuralgia, Mechanosensitive channels, Neurology (clinical), 2703 Anesthesiology and Pain Medicine, Lysophospholipids, Neuroscience, Histamine
Abstract

Lysophosphatidic acid (LPA) is involved in the pathophysiology of cholestatic pruritus and neuropathic pain. Slowly conducting peripheral afferent C-nerve fibers are crucial in the sensations of itch and pain. In animal studies, specialized neurons ("pruriceptors") have been described, expressing specific receptors, eg, from the Mas-related G-protein-coupled receptor family. Human nerve fibers involved in pain signaling ("nociceptors") can elicit itch if activated by focalized stimuli such as cowhage spicules. In this study, we scrutinized the effects of LPA in humans by 2 different application modes on the level of psychophysics and single nerve fiber recordings (microneurography). In healthy human subjects, intracutaneous LPA microinjections elicited burning pain, whereas LPA application through inactivated cowhage spicules evoked a moderate itch sensation. Lysophosphatidic acid microinjections induced heat hyperalgesia and hypersensitivity to higher electrical stimulus frequencies. Pharmacological blockade of transient receptor potential channel A1 or transient receptor potential channel vanilloid 1 reduced heat hyperalgesia, but not acute chemical pain. Microneurography revealed an application mode-dependent differential activation of mechanosensitive (CM) and mechanoinsensitive C (CMi) fibers. Lysophosphatidic acid microinjections activated a greater proportion of CMi fibers and more strongly than CM fibers; spicule application of LPA activated CM and CMi fibers to a similar extent but excited CM fibers more and CMi fibers less intensely than microinjections. In conclusion, we show for the first time in humans that LPA can cause pain as well as itch dependent on the mode of application and activates afferent human C fibers. Itch may arise from focal activation of few nerve fibers with distinct spatial contrast to unexcited surrounding afferents and a specific combination of activated fiber subclasses might contribute.

Published
2022

4. Methylglyoxal causes pain and hyperalgesia in human through C-fiber activation

Author

V Ries, Susanne K. Sauer, Kathrin Riegel, Marion Strupf, Thomas Fleming, Miriam M. Düll, Barbara Namer, and Julia Tappenbeck

Subjects
Adult, Male, Diabetic neuropathy, TRPV1, Pharmacology, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Diabetic Neuropathies, 030202 anesthesiology, Humans, Medicine, Skin, Burning Pain, Nerve Fibers, Unmyelinated, business.industry, Nociceptors, Microneurography, medicine.disease, Anesthesiology and Pain Medicine, Allodynia, Neurology, Hyperalgesia, Neuropathic pain, Nociceptor, Neuralgia, Female, Calcium Channels, Neurology (clinical), medicine.symptom, business, psychological phenomena and processes, 030217 neurology & neurosurgery
Abstract

The endogenous metabolite methylglyoxal (MG) accumulates in diabetic patients with neuropathic pain. Methylglyoxal could be a mediator of diabetes-induced neuropathic pain through TRPA1 activation and sensitization of the voltage-gated sodium channel subtype 1.8. In this study, we tested the algogenic and sensitizing effect of MG in healthy human subjects using intracutaneous microinjections. The involvement of C fibers was assessed through selective A-fiber nerve block, axon-reflex-erythema, and through single nerve fiber recordings in humans (microneurography). Involvement of the transduction channels TRPA1 and TRPV1 in MG-induced pain sensation was investigated with specific ion channel blockers. We showed for the first time in healthy humans that MG induces pain, axon-reflex-erythema, and long-lasting hyperalgesia through the activation of C nociceptors. Predominantly, the subclass of mechano-insensitive C fibers is activated by MG. A fibers contribute only negligibly to the burning pain sensation. Selective pharmacological blockade of TRPA1 or TRPV1 showed that TRPA1 is crucially involved in MG-induced chemical pain sensation and heat hyperalgesia. In conclusion, the actions of MG through TRPA1 activation on predominantly mechano-insensitive C fibers might be involved in spontaneously perceived pain in diabetic neuropathy and hyperalgesia as well as allodynia.

Published
2019

5. Slow depolarizing stimuli differentially activate mechanosensitive and silent C nociceptors in human and pig skin

Author

Ellen Jørum, Richard W. Carr, Otilia Obreja, Roman Rukwied, Martin Schmelz, Barbara Namer, Inge Petter Kleggetveit, Christian Thomas, and Fiona Werland

Subjects
Pain Threshold, Swine, Stimulation, Human skin, 03 medical and health sciences, 0302 clinical medicine, 030202 anesthesiology, medicine, Animals, Humans, Skin, Nerve Fibers, Unmyelinated, Chemistry, Chronic pain, Nociceptors, Depolarization, Microneurography, medicine.disease, Axons, Electric Stimulation, Anesthesiology and Pain Medicine, nervous system, Neurology, Nociceptor, Mechanosensitive channels, Axon reflex, Neurology (clinical), Neuroscience, 030217 neurology & neurosurgery
Abstract

High-threshold mechanosensitive and mechanoinsensitive ("silent") nociceptors have similar electrical thresholds for transcutaneous sine wave stimulation at 4 Hz that selectively activates cutaneous C nociceptors in human skin. Their fundamentally different functions particularly in chronic pain warrant differential stimulation protocols. We used transcutaneously delivered slow depolarizing stimuli (half-sine, 500 ms duration, 0.01-1 mA) in humans to assess intensity-response relations for the induction of pain psychophysically and recorded activation of mechanosensitive and silent nociceptors in healthy volunteers by microneurography. Differential C-fiber activation was confirmed in single-fiber recordings in pig allowing for stimulation amplitudes up to 10 mA. Perception and pain thresholds to half-sine wave pulses were 0.06 ± 0.03 mA and 0.18 ± 0.1 mA, respectively, and caused pain in an amplitude-dependent manner (n = 24). When matched for pain intensity, only sine wave stimulation induced an instant widespread axon reflex erythema (n = 10). In human microneurography, half-sine stimulation activated mechanosensitive nociceptors (n = 13), but only one of 11 silent nociceptors. In pig skin, the amplitude-dependent activation of mechanosensitive nociceptors was confirmed (0.2-1 mA, n = 28), and activation thresholds for most silent nociceptors (n = 13) were found above 10 mA. Non-nociceptive low-threshold mechanosensitive C fibers (n = 14) displayed lower activation thresholds for half-sine wave stimuli with an amplitude-dependent discharge increase between 0.01 and 0.1 mA. We conclude that transcutaneous electrical stimulation with 500-ms half-sine wave pulses between 0.2 and 1 mA causes amplitude-dependent pain by preferential activation of mechanosensitive C nociceptors.

Published
2019

6. Nerve growth factor locally sensitizes nociceptors in human skin

Author

Barbara Namer, Lorenz Nagler, Martin Schmelz, Martha Schmidt, Roman Rukwied, and Otilia Obreja

Subjects
Adult, Male, Pain Threshold, 0301 basic medicine, medicine.medical_specialty, Injections, Intradermal, Neural Conduction, Action Potentials, Human skin, Nerve conduction velocity, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Nerve Growth Factor, medicine, Humans, Sensitization, Skin, Nerve Fibers, Unmyelinated, business.industry, Nociceptors, Electric Stimulation, 030104 developmental biology, Anesthesiology and Pain Medicine, medicine.anatomical_structure, Nociception, Nerve growth factor, Endocrinology, nervous system, Neurology, Hyperalgesia, Receptive field, Nociceptor, Female, Neurology (clinical), medicine.symptom, business, 030217 neurology & neurosurgery
Abstract

Nerve growth factor (NGF) injected into the human skin causes local hyperalgesia to mechanical and electrical stimuli lasting for weeks. Pig data suggested axonal sensitization of C-nociceptors as a contributing mechanism. Here, we recorded single C-nociceptors in 11 human subjects 3 weeks after intracutaneous injection of 1 μg NGF into the foot dorsum. For each identified unit, the receptive field was mapped and, whenever possible, we recorded 2 terminal branches of the same unit, 1 from the hyperalgesic NGF-site ("inside") and the other from the nonsensitized skin ("outside"). In the saline-treated control feet, mechano-insensitive nociceptors (CMi) were more abundant than at the NGF sites (36% vs 19%). Units with axonal properties of CMi fibres but displaying positive mechanical responses ("CMi-like") dominated at the NGF site (27% vs 6%). Moreover, axonal branches innervating the hyperalgesic skin displayed significantly lower electrical thresholds and less activity-dependent conduction velocity slowing when compared with "outside" or control skin. The "inside" branches also showed long-lasting after-discharges and less adaptation to repeated mechanical stimuli. NGF-induced long-term nociceptor hyperexcitability was maximum at the terminal branches directly treated with NGF. The sensitization included sensory and axonal components affecting both activation thresholds and supra-threshold responses. Our data suggest that a combination of sensory sensitization and axonal hyperexcitability is underlying the localized hyperalgesia by facilitating action potential generation and conduction. Axonal changes were also found in the asymptomatic skin surrounding the NGF-treatment sites, thereby possibly reflecting "nociceptive priming."

Published
2017

7. The role of Nav1.7 in human nociceptors: insights from human induced pluripotent stem cell-derived sensory neurons of erythromelalgia patients

Author

Roman Goetzke, Herdit M. Schüler, Marc Rogers, Ellen Jørum, Angelika Lampert, Martin Hampl, Elisangela Bressan, Anthony M. Rush, Martin Zenke, Zacharias Kohl, Clara M. Kerth, Thi Kim Chi Le, Barbara Namer, Alec Foerster, Petra Hautvast, Martin Schmelz, Corinna Rösseler, Wolfgang Wagner, Kim Le Cann, Inge Petter Kleggetveit, Beate Winner, Jannis E. Meents, and Stephanie Sontag

Subjects
Patch-Clamp Techniques, Action potential, Action Potentials, Membrane Potentials, 0302 clinical medicine, 030202 anesthesiology, Ganglia, Spinal, pharmacology [Tetrodotoxin], pain, Induced pluripotent stem cell, Prepulse inhibition, genetics [NAV1.7 Voltage-Gated Sodium Channel], NAV1.7 Voltage-Gated Sodium Channel, Nociceptors, Afterhyperpolarization, cytology [Induced Pluripotent Stem Cells], Erythromelalgia, metabolism [NAV1.7 Voltage-Gated Sodium Channel], iPS cells, Neurology, genetics [Pain], genetics [Erythromelalgia], Nociceptor, sodium channel, Research Paper, physiology [Nociceptors], Sensory Receptor Cells, Induced Pluripotent Stem Cells, Pain, Sensory system, Tetrodotoxin, physiopathology [Erythromelalgia], patch clamp, 03 medical and health sciences, methods [Patch-Clamp Techniques], stem cells, medicine, Voltage-gated sodium channel, metabolism [Sensory Receptor Cells], Humans, ddc:610, business.industry, drug effects [Action Potentials], cytology [Ganglia, Spinal], Sodium channel, drug effects [Membrane Potentials], medicine.disease, diagnosis [Pain], Electric Stimulation, methods [Electric Stimulation], Anesthesiology and Pain Medicine, nervous system, Neurology (clinical), Inherited pain syndrome, business, Action potential firing, Neuroscience, Patch-clamp, 030217 neurology & neurosurgery
Abstract

Supplemental Digital Content is Available in the Text. Human sodium channel NaV1.7 in induced pluripotent stem cell–derived sensory neurons sets the action potential threshold but does not support subthreshold depolarizations., The chronic pain syndrome inherited erythromelalgia (IEM) is attributed to mutations in the voltage-gated sodium channel (NaV) 1.7. Still, recent studies targeting NaV1.7 in clinical trials have provided conflicting results. Here, we differentiated induced pluripotent stem cells from IEM patients with the NaV1.7/I848T mutation into sensory nociceptors. Action potentials in these IEM nociceptors displayed a decreased firing threshold, an enhanced upstroke, and afterhyperpolarization, all of which may explain the increased pain experienced by patients. Subsequently, we investigated the voltage dependence of the tetrodotoxin-sensitive NaV activation in these human sensory neurons using a specific prepulse voltage protocol. The IEM mutation induced a hyperpolarizing shift of NaV activation, which leads to activation of NaV1.7 at more negative potentials. Our results indicate that NaV1.7 is not active during subthreshold depolarizations, but that its activity defines the action potential threshold and contributes significantly to the action potential upstroke. Thus, our model system with induced pluripotent stem cell–derived sensory neurons provides a new rationale for NaV1.7 function and promises to be valuable as a translational tool to profile and develop more efficacious clinical analgesics.

Published
2019

8. Cyclic changes in sensations to painful stimuli in migraine patients

Author

Marion Strupf, Karl Messlinger, Barbara Namer, and Britta Fraunberger

Subjects
Adult, Male, Pain Threshold, medicine.medical_specialty, Migraine Disorders, Chronic tension-type headache, Audiology, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Medizinische Fakultät, medicine, Humans, Ictal, ddc:610, 030212 general & internal medicine, Habituation, Habituation, Psychophysiologic, business.industry, General Medicine, Middle Aged, medicine.disease, Migraine, Female, Neurology (clinical), business, 030217 neurology & neurosurgery
Abstract

Introduction Migraine is characterized by cycling phases (interictal, preictal, ictal and postictal) with differing symptoms, while in chronic tension type headache pain phases are fluctuating. The question we asked is whether these phases are associated with changes in parameters of somatosensation and axon-reflex erythema. Methods Patients with episodic migraine and chronic tension type headache were examined psychophysically in the interictal, preictal and ictal phase and healthy subjects on five different test days. Thresholds and suprathreshold ratings of pressure and electrical pain were assessed on three different regions of the head. In migraine patients and in healthy controls, electrically induced axon-reflex erythema was measured in the area of the first trigeminal branch. All migraine patients filled out questionnaires about prodromal symptoms at every visit. Results The axon-reflex erythema was always larger in patients with migraine in contrast to healthy subjects. The pressure pain threshold was lower in migraine patients and chronic tension type headache in comparison to healthy subjects. Electrical pain thresholds did not differ between headache patients and healthy subjects and showed no changes between the phases. However, suprathreshold pain ratings showed less habituation solely in the preictal phase of migraine. The number of prodromal symptoms in migraine patients was increased in the preictal and ictal phase. Discussion Reduced habituation was the unique sign of the preictal phase in migraine patients, independently of prodromal symptoms, whereas a larger axon-reflex erythema and higher pressure pain sensitivity are constitutional and non-phase dependent properties of migraine. Reduced inhibitory mechanisms in the preictal phase may contribute to trigger headache attacks in migraine.

Published
2018

9. Tuning in C-nociceptors to reveal mechanisms in chronic neuropathic pain

Author

Roland Schmidt, C. Konrad, Mark Schnakenberg, Richard W. Carr, Martin Schmelz, Kim Chisholm, Gunther Landmann, Barbara Namer, Mateusz Kucharczyk, Lenka Stockinger, Roman Rukwied, Robin Jonas, and Stephen B. McMahon

Subjects
0301 basic medicine, Adult, Male, Pain Threshold, medicine.medical_specialty, Neurology, Transcutaneous stimulation, Pain, Stimulation, 03 medical and health sciences, 0302 clinical medicine, Ganglia, Spinal, medicine, Animals, Humans, Skin, business.industry, Nociceptors, Peripheral Nervous System Diseases, Axons, Electric Stimulation, Mice, Inbred C57BL, 030104 developmental biology, Neuropathic pain, Nociceptor, Neuralgia, Neurology (clinical), Chronic Pain, business, Neuroscience, 030217 neurology & neurosurgery
Abstract

Develop and validate a low-intensity sinusoidal electrical stimulation paradigm to preferentially activate C-fibers in human skin.Sinusoidal transcutaneous stimulation (4Hz) was assessed psychophysically in healthy volunteers (n = 14) and neuropathic pain patients (n = 9). Pursuing laser Doppler imaging and single nociceptor recordings in vivo in humans (microneurography) and pigs confirmed the activation of "silent" C-nociceptors. Synchronized C-fiber compound action potentials were evoked in isolated human nerve fascicles in vitro. Live cell imaging of L4 dorsal root ganglia in anesthetized mice verified the recruitment of small-diameter neurons during transcutaneous 4-Hz stimulation of the hindpaw (0.4mA).Transcutaneous sinusoidal current (0.05-0.4mA, 4Hz) activated "polymodal" C-fibers (50% at ∼0.03mA) and "silent" nociceptors (50% at ∼0.04mA), intensities substantially lower than that required with transcutaneous 1-ms rectangular pulses ("polymodal" ∼3mA, "silent" ∼50mA). The stimulation induced delayed burning (nonpulsating) pain and a pronounced axon-reflex erythema, both indicative of C-nociceptor activation. Pain ratings to repetitive stimulation (1 minute, 4Hz) adapted in healthy volunteers by Numeric Rating Scale (NRS) -3 and nonpainful skin sites of neuropathic pain patients by NRS -0.5, whereas pain even increased in painful neuropathic skin by approximately NRS +2.Sinusoidal electrical stimulation at 4Hz enables preferential activation of C-nociceptors in pig and human skin that accommodates during ongoing (1-minute) stimulation. Absence of such accommodation in neuropathic pain patients suggest axonal hyperexcitability that could be predictive of alterations in peripheral nociceptor encoding and offer a potential therapeutic entry point for topical analgesic treatment. Ann Neurol 2018;83:945-957.

Published
2018

10. Differential Effects of Low Dose Lidocaine on C-Fiber Classes in Humans

Author

Martin Schmelz, Inge Petter Kleggetveit, Otilia Obreja, Jennifer Kankel, Roland Schmidt, Barbara Namer, and Ellen Jørum

Subjects
Adult, Male, Lidocaine, Pharmacology, Nerve conduction velocity, Young Adult, Sodium channel blocker, Reaction Time, Humans, Medicine, Anesthetics, Local, Nerve Fibers, Unmyelinated, business.industry, Sodium channel, Microneurography, Hyperpolarization (biology), Treatment Outcome, Anesthesiology and Pain Medicine, nervous system, Neurology, Anesthesia, Nociceptor, Female, Mechanosensitive channels, Neurology (clinical), business, medicine.drug
Abstract

The nonselective sodium channel blocker lidocaine is widely used as a local anesthetic but also systemically for treatment of postoperative and neuropathic pain. Voltage-gated sodium channels are crucial for action potential generation and conduction, and their availability controls the amount of activity-dependent conduction velocity slowing. This important axonal property, as assessed by microneurography, is used to differentiate human mechanoinsensitive (silent) nociceptors from the classical polymodal nociceptors. In the current study, microneurography was used to assess axonal properties of the 2 main nociceptor classes in humans, before and after intradermal injection of lidocaine .1% or control saline solution in the receptive field. In mechanosensitive nociceptors, lidocaine reduced baseline conduction velocity and turned activity-dependent slowing into speeding of conduction. In contrast, mechanoinsensitive fibers were not affected in their baseline conduction velocity or their activity-dependent slowing, but probability of conduction block with repetitive stimulation increased. Recovery cycles showed reduced hyperpolarization in all C-fiber classes after lidocaine injections. These results support our hypothesis that sodium channel subtypes are differentially expressed in the 2 nociceptor classes of mechanosensitive C-fibers (CMs) and mechanoinsensitive C-fibers (CMis). Perspective This study reveals that microneurography can be used to assess pharmacological effects on single C-fibers directly in humans.

Published
2012

11. Axon reflex flare and quantitative sudomotor axon reflex contribute in the diagnosis of small fiber neuropathy

Author

Stefan Pfeffer, Hermann O. Handwerker, Barbara Namer, Andreas Bickel, and Martin Schmelz

Subjects
Physiology, business.industry, Magnetic resonance neurography, Efferent, Anatomy, Thigh, medicine.disease, Axon reflex flare, Sudomotor, Cellular and Molecular Neuroscience, Peripheral neuropathy, medicine.anatomical_structure, Physiology (medical), Anesthesia, medicine, Axon reflex, Neurology (clinical), Small Fiber Neuropathy, business
Abstract

Introduction Objective diagnosis of small fiber impairment is difficult. Methods We used the quantitative sudomotor axon reflex test (QSART) and axon-reflex-flare-test in the foot and thigh of 46 patients with peripheral neuropathy to assess C-fiber function in addition to conventional neurography and thermal threshold testing. Results In all patients, small fiber impairment was suspected because of abnormal warmth detection thresholds (76% of all tested) and/or pain in the feet. A total of 83% had reduced axon-reflex flare areas and 17% lower QSART scores. Patients with pure small fiber neuropathy had higher rates of reduced flare areas (87.5%) and sweating rates (25.5%). There was no difference between patients with and without pain regarding thermotesting and axon-reflex testing. Conclusions Both axon-reflex tests are helpful to identify objectively patients with small fiber impairment. Afferent and efferent C-fiber classes can be impaired differently. These tests detect small fiber impairment, but they cannot differentiate between painful and nonpainful neuropathy. Muscle Nerve 47: 357–363, 2013

Published
2012

12. High spontaneous activity of C-nociceptors in painful polyneuropathy

Author

Roland Schmidt, Inge Petter Kleggetveit, Ellen Jørum, Kristin Ørstavik, Tormod Helås, Martin Schmelz, Barbara Namer, and Michael Rückel

Subjects
Adult, Male, Action Potentials, Polyneuropathies, Biological Clocks, medicine, Humans, Sensitization, Aged, business.industry, Chronic pain, Nociceptors, Microneurography, Middle Aged, medicine.disease, Peripheral, Anesthesiology and Pain Medicine, Peripheral neuropathy, medicine.anatomical_structure, nervous system, Neurology, Anesthesia, Neuropathic pain, Nociceptor, Neuralgia, Female, Neurology (clinical), business, Polyneuropathy
Abstract

Polyneuropathy can be linked to chronic pain but also to reduced pain sensitivity. We investigated peripheral C-nociceptors in painful and painless polyneuropathy patients to identify pain-specific changes. Eleven polyneuropathy patients with persistent spontaneous pain and 8 polyneuropathy patients without spontaneous pain were investigated by routine clinical methods. For a specific examination of nociceptor function, action potentials from single C-fibres including 214 C-nociceptors were recorded by microneurography. Patients with and without pain were distinguished by the occurrence of spontaneous activity and mechanical sensitization in C-nociceptors. The mean percentage of C-nociceptors being spontaneously active or mechanically sensitized was significantly higher in patients with pain (mean 40.5% and 14.6%, respectively, P=.02). The difference was mainly due to more spontaneously active mechanoinsensitive C-nociceptors (operationally defined by their mechanical insensitivity and their axonal characteristics) in the pain patients (19 of 56 vs 6 of 43; P=.02). The percentage of sensitized mechanoinsensitive C-nociceptors correlated to the percentage of spontaneously active mechanoinsensitive C-nociceptors (Kendall's tau=.55, P=.004). Moreover, spontaneous activity of mechanoinsensitive C-nociceptors correlated to less pronounced activity-dependent slowing of conduction (Kendall's tau=-.48, P=.009), suggesting that axons were included in the sensitization process. Hyperexcitability in mechanoinsensitive C-nociceptors was significantly higher in patients with polyneuropathy and pain compared to patients with polyneuropathy without pain, while the difference was much less prominent in mechanosensitive (polymodal) C-nociceptors. This hyperexcitability may be a major underlying mechanism for the pain experienced by patients with painful peripheral neuropathy.

Published
2012

13. TRPA1 and TRPV1 Antagonists Do Not Inhibit Human Acidosis-Induced Pain

Author

Barbara Namer, Peter W. Reeh, Matthias Schwarz, and Michael Fischer

Subjects
0301 basic medicine, Agonist, Adult, Male, medicine.drug_class, Pyridines, TRPV1, Pain, TRPV Cation Channels, Pharmacology, Amiloride, 03 medical and health sciences, Transient receptor potential channel, 0302 clinical medicine, Double-Blind Method, Oximes, medicine, Humans, Receptor, TRPA1 Cation Channel, Ion channel, Acidosis, Pain Measurement, Analgesics, Analysis of Variance, Dose-Response Relationship, Drug, business.industry, Antagonist, Middle Aged, 030104 developmental biology, Anesthesiology and Pain Medicine, Neurology, Acid Sensing Ion Channel Blockers, Anesthesia, Pyrazines, Female, Neurology (clinical), medicine.symptom, Capsaicin, business, 030217 neurology & neurosurgery, medicine.drug
Abstract

Acidosis occurs in a variety of pathophysiological and painful conditions where it is thought to excite or contribute to excitation of nociceptive neurons. Despite potential clinical relevance the principal receptor for sensing acidosis is unclear, but several receptors have been proposed. We investigated the contribution of the acid-sensing ion channels, transient receptor potential vanilloid type 1 (TRPV1) and transient receptor potential ankyrin type 1 (TRPA1) to peripheral pain signaling. We first established a human pain model using intraepidermal injection of the TRPA1 agonist carvacrol. This resulted in concentration-dependent pain sensations, which were reduced by experimental TRPA1 antagonist A-967079. Capsaicin-induced pain was reduced by the TRPV1 inhibitor BCTC. Amiloride was used to block acid-sensing ion channels. Testing these antagonists in a double-blind and randomized experiment, we probed the contribution of the respective channels to experimental acidosis-induced pain in 15 healthy human subjects. A continuous intraepidermal injection of pH 4.3 was used to counter the buffering capacity of tissue and generate a prolonged painful stimulation. In this model, addition of A-967079, BCTC or amiloride did not reduce the reported pain. In conclusion, target-validated antagonists, applied locally in human skin, have excluded the main hypothesized targets and the mechanism of the human acidosis-induced pain remains unclear. Perspective An acidic milieu is a trigger of pain in many clinical conditions. The aim of this study was to identify the contribution of the currently hypothesized sensors of acid-induced pain in humans. Surprisingly, inhibition of these receptors did not alter acidosis-induced pain.

Published
2016

14. Single-Fiber Recordings of Nociceptive Fibers in Patients With HSAN Type V With Congenital Insensitivity to Pain

Author

Ellen Jørum, Roland Schmidt, Martin Schmelz, Dagrun Sagafos, Tormod Helås, Barbara Namer, Jan Minde, and Inge Petter Kleggetveit

Subjects
0301 basic medicine, Adult, Pain Threshold, medicine.medical_specialty, Heterozygote, Neurology, Pain Insensitivity, Congenital, Single fiber, Sensory system, 03 medical and health sciences, 0302 clinical medicine, Nerve Growth Factor, Reflex, Medicine, Humans, In patient, Hereditary Sensory and Autonomic Neuropathies, Aged, 80 and over, business.industry, Homozygote, Nociceptors, Middle Aged, medicine.disease, 030104 developmental biology, Anesthesiology and Pain Medicine, Nociception, Nerve growth factor, nervous system, Anesthesia, Mutation, Nociceptor, Female, Neurology (clinical), business, Neuroscience, 030217 neurology & neurosurgery, Congenital insensitivity to pain
Abstract

Nerve growth factor (NGF) is a protein important for growth and survival, but also for modulation of sensitivity of nociceptors and sympathetic neurons. The purpose of the present study was to investigate the effects of reduced NGF signaling in patients with hereditary sensory and autonomic neuropathies type V, congenital insensitivity to pain, caused by a mutation of the NGFβ gene, including a characterization of single nociceptive fibers using microneurography (MNG).One homozygote and 2 heterozygote patients with this mutation were examined with electromyography/neurography, thermal testing, quantitative sudomotor axon reflex test, and electrically induced axon reflex erythema in addition to MNG.Low quantitative sudomotor axon reflex test measurements of 0.02 (left foot) and 0.03 (right foot) μL/cm and elevated thermal thresholds for warmth and cold detection testing showed clear impairment of small nerve fibers, both sudomotor efferent and somatic afferent fibers, in the patient homozygote for the mutation. MNG from one of the heterozygote patients revealed changes in the small nociceptive fibers in skin, including abnormally low conduction velocity, spontaneous activity in A-δ fibers and C-nociceptors and abnormal or lacking response to heat.The findings of grossly intact pain thresholds compared with anamnestic insensitivity of pain in deep somatic tissue such as bone suggest a gradient of impairment dependent on different NGF availability in various tissues. Even though these patients in some aspects report insensitivity to pain, they also report chronic spontaneous pain as their main symptom, strikingly highlighting differential mechanisms of insensitivity to evoked pain versus spontaneous pain.

Published
2016

15. Double spikes to single electrical stimulation correlates to spontaneous activity of nociceptors in painful neuropathy patients

Author

Roland Schmidt, Martin Schmelz, Ellen Jørum, Barbara Namer, Tormod Helås, Inge Petter Kleggetveit, and Otilia Obreja

Subjects
Adult, Male, Electrodiagnosis, Clinical pain, Action Potentials, Stimulation, Stimulus (physiology), medicine, Humans, Peripheral Nerves, Aged, Nerve Fibers, Unmyelinated, medicine.diagnostic_test, business.industry, Nociceptors, Peripheral Nervous System Diseases, Microneurography, Middle Aged, medicine.disease, Electric Stimulation, Anesthesiology and Pain Medicine, nervous system, Neurology, Neuropathic pain, Neuralgia, Nociceptor, Female, Neurology (clinical), business, Neuroscience
Abstract

Multiple firing of C nociceptors upon a single electrical stimulus has been suggested to be a possible mechanism contributing to neuropathic pain. Because this phenomenon maybe based on a unidirectional conduction block, it might also be related to neuropathic changes without a direct link to pain. We investigated painful neuropathy patients using microneurography and analysed nociceptors for the occurrence of multiple spiking and spontaneous activity. In 11 of 105 nociceptors, double spiking was found, with 1 fibre even showing triple spikes on electrical stimulation. The interval between the main action potential and the multiple spikes ranged from 13 to 100 ms. There was a significant association between spontaneous activity and multiple spiking in C nociceptors, with spontaneous activity being present in 9 of 11 fibres with multiple spiking, but only in 21 of 94 nociceptors without multiple spiking (P

Published
2012

16. Cross-over evaluation of electrically induced pain and hyperalgesia

Author

Martin Schmelz, Björn Hägglöf, M. Strupf, Roman Rukwied, Wolfgang Koppert, Barbara Namer, Marcus Schley, and M. Dusch

Subjects
Cross over, business.industry, Drug administration, Axon reflex flare, Placebo, Anesthesiology and Pain Medicine, Allodynia, Anesthesia, Hyperalgesia, medicine, Axon reflex, Neurology (clinical), medicine.symptom, business
Abstract

Background Anewexperimental protocol of electrically induced pain and hyperalgesia was established to examine orally administered drugs. In a randomized, double-blind, placebo-controlled cross-over study this experimental protocol was used to assess the effects of paracetamol. Methods Twenty-four subjects were enrolled in this study. The magnitude of pain, axon reflex flare, and areas of pin-prick hyperalgesia and touch-evoked allodynia were assessed in two consecutive sessions; prior to, and 2 h after drug administration. This protocol was repeated after 1 week. Subjects were randomized to receive either paracetamol (2 g) or a placebo. Results In comparison to the placebo arm there were no significant effects of paracetamol on pain, hyperalgesia, allodynia, or axon reflex flare. Pain and flare responses were highly reproducible on the same day (r = 0.77 and r = 0.79, respectively), and after 1 week (r = 0.6 and r = 0.71, respectively). The correlation between areas of hyperalgesia and allodynia was, however, significantly improved when the protocol was repeated on the same day (r = 0.8 and r = 0.75), as opposed to after a week (r = 0.54 and r = 0.53). Discussion The electrical pain model is a well established method for the assessment of intravenously applied analgesics. In order to assess effects of orally applied drugs the model had to be modified: for the assessment of hyperalgesia and allodynia a protocol repeating the model within 1 day proved to have advantages over repetition after 1 week.

Published
2010

17. Patterns of activity-dependent conduction velocity changes differentiate classes of unmyelinated mechano-insensitive afferents including cold nociceptors, in pig and in human

Author

Elmar Forsch, Matthias Ringkamp, Andreas Klusch, Otilia Obreja, Marlen Petersen, Martin Schmelz, Barbara Namer, and Roman Rukwied

Subjects
Adult, Male, Pain Threshold, Swine, Efferent, Biophysics, Neural Conduction, Action Potentials, Stimulation, Nerve conduction velocity, Extracellular, Animals, Humans, Ion channel, Afferent Pathways, Nerve Fibers, Unmyelinated, Chemistry, Nociceptors, Microneurography, Electric Stimulation, Cold Temperature, Electrophysiology, Anesthesiology and Pain Medicine, nervous system, Neurology, Hyperalgesia, Nociceptor, Female, Neurology (clinical), Mechanoreceptors, Neuroscience
Abstract

Activity-dependent slowing of conduction velocity (ADS) differs between classes of human nociceptors. These differences likely reflect particular expression and use-dependent slow inactivation of axonal ion channels and other mechanisms governing axonal excitability. In this study, we compared ADS of porcine and human cutaneous C-fibers. Extracellular recordings were performed from peripheral nerves, using teased fiber technique in pigs and microneurography in humans. We assessed electrically-induced conduction changes and responsiveness to natural stimuli. In both species, the group of mechano-insensitive C-fibers showed the largest conduction slowing ( approximately 30%) upon electrical stimulation (2Hz for 3min). In addition, we found mechano-insensitive cold nociceptors in pig that slowed only minimally (

Published
2010

18. C-fiber axon reflex flare size correlates with epidermal nerve fiber density in human skin biopsies

Author

Andreas, Bickel, Gisela, Heyer, Christine, Senger, Christian, Maihöfner, Christian, Maihoefner, Dieter, Heuss, Max J, Hilz, and Barbara, Namer

Subjects
Male, Pathology, medicine.medical_specialty, Biopsy, Sweating, Human skin, Nerve fiber, In Vitro Techniques, Reflex, medicine, Humans, In patient, Small Fiber Neuropathy, Aged, Aged, 80 and over, Nerve Fibers, Unmyelinated, business.industry, General Neuroscience, Peripheral Nervous System Diseases, Dermis, Anatomy, Middle Aged, medicine.disease, Axon reflex flare, Axons, Electric Stimulation, Peripheral neuropathy, medicine.anatomical_structure, Female, Axon reflex, Neurology (clinical), Epidermis, business
Abstract

The size of the neurogenic axon reflex flare (ARFS) has been proposed to serve as a non-invasive measure of C-fiber neuropathies. This idea is based on the observation that ARFS is often reduced in patients with small-fiber neuropathies. In this study, we compared ARFS and electrically evoked axon reflex sweating with intraepidermal nerve fiber density (IENF) in patients with peripheral neuropathy in order to validate these methods against an objective standard method of diagnosing small-fiber neuropathy. ARFS was significantly correlated with IENF, while axon reflex sweating was not correlated to IENF. We conclude that measurement of ARFS is a potential objective non-invasive diagnostic tool for analysis of C-fiber function in patients with small-fiber neuropathies.

Published
2009

19. Role of TRPM8 and TRPA1 for cold allodynia in patients with cold injury

Author

Barbara Namer, Inge Petter Kleggetveit, Hermann O. Handwerker, Ellen Jørum, and Martin Schmelz

Subjects
Adult, Pain Threshold, Pain, TRPM Cation Channels, Nerve Tissue Proteins, Transient receptor potential channel, chemistry.chemical_compound, Transient Receptor Potential Channels, Double-Blind Method, Threshold of pain, TRPM8, Humans, Medicine, Thermosensing, Acrolein, TRPA1 Cation Channel, Afferent Pathways, Nerve Fibers, Unmyelinated, Cross-Over Studies, business.industry, Nociceptors, Cold Temperature, Menthol, Anesthesiology and Pain Medicine, Allodynia, Neurology, chemistry, Anesthesia, Neuropathic pain, Nociceptor, Axon reflex, Calcium Channels, Neurology (clinical), medicine.symptom, business
Abstract

Local cold injury often induces hypersensitivity to cold and cold allodynia. Sensitisation of TRPM8 or TRPA1 could be the underlying mechanisms. This was evaluated by psychophysics and axon-reflex-flare induction following topical menthol and cinnamaldehyde application in cold injury patients and healthy subjects. The patients had no signs of neuropathy except cold allodynia. We applied 20% cinnamaldehyde and 40% menthol solutions in the cold-allodynic area of the patients and in a corresponding area in healthy subjects and obtained sensory ratings during application. Thermotesting and Laser Doppler Imaging were performed before and after exposure to the compounds. Menthol did not induce axon-reflex-erythema in patients or in controls. After menthol cold pain threshold was decreased in healthy subjects; however, no further sensitisation was observed in the patients moreover in some patients an amelioration of their cold allodynia was observed. Cinnamaldehyde-induced pain sensation did not differ between patients and controls. Heat pain thresholds following cinnamaldehyde were lowered to a similar extent in patients and controls (43-39.8 and 44-39 degrees C) and also the axon-reflex-flare responses were comparable. No evidence for sensitisation of responses to TRPM8 or TRPA1-stimulation was found in patients with cold injury-induced cold allodynia. The lack of TRPM8 induced axon-reflex indicates that also de-novo expression of TRPM8 on mechano-insensitive C-nociceptors does not underlie cold allodynia in these patients. We conclude from these data that the mechanisms for the induction of cold allodynia in the patients with cold injury are independent of TRPM8 or TRPA1 and differ therefore from neuropathic pain patients.

Published
2008

20. Endothelin1 activates and sensitizes human C-nociceptors

Author

Hermann O. Handwerker, Roland Schmidt, Barbara Namer, Christian Weidner, Erik Torebjörk, Martin Schmelz, Marita Hilliges, and Kristin Ørstavik

Subjects
Pain Threshold, Histamine H1 receptor, Pharmacology, chemistry.chemical_compound, Skin Physiological Phenomena, Humans, Medicine, Sensitization, Pain Measurement, Nerve Fibers, Unmyelinated, Endothelin-1, business.industry, Nociceptors, Microneurography, Electric Stimulation, Anesthesiology and Pain Medicine, medicine.anatomical_structure, Neurology, chemistry, Anesthesia, Nociceptor, Itching, Mechanosensitive channels, Axon reflex, Neurology (clinical), medicine.symptom, business, Histamine
Abstract

Microneurography was used to record action potentials from afferent C-fibers in cutaneous fascicles of the peroneal nerve in healthy volunteers. Afferent fibers were classified according to their mechanical responsiveness to von Frey stimulation (75 g) into mechano-responsive and mechano-insensitive nociceptors. Various concentrations of Endothelin1 (ET1) and Histamine were injected into the receptive fields of C-fibers. Activation and heat sensitization were monitored. Axon reflex flare and psychophysical ratings were assessed after injection of ET1 and codeine into the forearms after pre-treatment with an H1 blocker or sodium chloride. 65% of mechanosensitive nociceptors were activated by ET1. One-third showed long lasting responses (>15 min). In contrast, none of thirteen mechano-insensitive fibers were activated. Sensitization to heat was observed in 62% of mechanosensitive and in 46% of mechano-insensitive fibers. Injection of ET1 produced a widespread axon reflex flare, which was suppressed by pre-treatment with an H1 receptor blocker. In addition, pain sensations were induced more often than itching by ET1 in contrast to codeine. No wheal was observed after injection of ET1. Both itching and pain were decreased after H1 blocker treatment. In summary: (1) In humans ET1 activates mechanosensitive, but not mechano-insensitive, nociceptors. (2) Histamine released from mast cells is not responsible for all effects of ET1 on C-nociceptors. (3) ET1 could have a differential role in pain compared to other chemical algogens which activate additionally or even predominantly mechano-insensitive fibers.

Published
2008

21. Catecholamine-induced excitation of nociceptors in sympathetically maintained pain

Author

Roland Schmidt, Erik Torebjörk, Gunnvald Kvarstein, Kristin Ørstavik, Marita Hilliges, Barbara Namer, Ellen Jørum, Richard W. Carr, Martin Schmelz, and Hermann O. Handwerker

Subjects
Adult, Male, medicine.medical_specialty, Sympathetic Nervous System, Ephaptic coupling, Efferent, Pain, Article, Nerve conduction velocity, Catecholamines, Internal medicine, medicine, Humans, Leg, Chemistry, Nociceptors, Anesthesiology and Pain Medicine, Nociception, Endocrinology, Neurology, Hyperalgesia, Nociceptor, Catecholamine, Neurology (clinical), medicine.symptom, Free nerve ending, medicine.drug
Abstract

Sympathetically maintained pain could either be mediated by ephaptic interactions between sympathetic efferent and afferent nociceptive fibers or by catecholamine-induced activation of nociceptive nerve endings. We report here single fiber recordings from C nociceptors in a patient with sympathetically maintained pain, in whom sympathetic blockade had repeatedly eliminated the ongoing pain in both legs. We classified eight C-fibers as mechano-responsive and six as mechano-insensitive nociceptors according to their mechanical responsiveness and activity-dependent slowing of conduction velocity (latency increase of 0.5 ± 1.1 vs. 7.1 ± 2.0 ms for 20 pulses at 0.125 Hz). Two C-fibers were activated with a delay of several seconds following strong endogenous sympathetic bursts; they were also excited for about 3 min following the injection of norepinephrine (10 μl, 0.05%) into their innervation territory. In these two fibers, a prolonged activation by injection of low pH solution (phosphate buffer, pH 6.0, 10 μl) and sensitization of their heat response following prostaglandin E2 injection were recorded, evidencing their afferent nature. Moreover, their activity-dependent slowing was typical for mechano-insensitive nociceptors. We conclude that sensitized mechano-insensitive nociceptors can be activated by endogenously released catecholamines and thereby may contribute to sympathetically maintained pain. No evidence for ephaptic interaction between sympathetic efferent and nociceptive afferent fibers was found.

Published
2007

22. Chemically and electrically induced sweating and flare reaction

Author

Barbara Namer, Heidi Krämer, Andreas Bickel, Frank Birklein, and Martin Schmelz

Subjects
Adult, Male, medicine.medical_specialty, Erythema, Efferent, Sweating, Stimulation, Functional Laterality, Cellular and Molecular Neuroscience, Sex Factors, Internal medicine, Reflex, Laser-Doppler Flowmetry, medicine, Humans, Aged, Skin, Analysis of Variance, Neurogenic inflammation, integumentary system, Foot, Endocrine and Autonomic Systems, Chemistry, Age Factors, Reproducibility of Results, Dose-Response Relationship, Radiation, Middle Aged, Acetylcholine, Electric Stimulation, Stimulation, Chemical, Sudomotor, Autonomic nervous system, Endocrinology, Thigh, Anesthesia, Nociceptor, Female, Neurology (clinical), medicine.symptom, medicine.drug
Abstract

Both thin afferent (nociceptors) and efferent (sympathetic sudomotor) nerve fibers can be activated electrically and chemically, resulting in neurogenic erythema and sweating. These reactions have been used before to assess the impairment of sympathetic and nociceptor fibers in humans. In this study, electrically induced sweating and erythema were assessed simultaneously in the foot dorsum and thigh, and were compared to chemically induced activation. Reproducible intensity-response relations (stimulation intensities 0-30 mA, 1 Hz) were obtained from 32 subjects. The steepest increase of the sweat response was induced at lower intensities as compared to that of the erythema (18.3 mA vs. 25.7 mA, p0.01) and reached a plateau for intensities above 25 mA, suggesting lower electrical thresholds for sudomotor fibers. Maximum flare areas induced electrically with 30 mA were smaller than those evoked chemically (flare size: 4.5 cm2 vs. 10.6 cm2). In contrast, the electrically evoked sweating rate was higher than that evoked chemically (acetylcholine, or ACh; sweating rate 0.31 vs. 0.21 microl/cm2/min, p0.01), which might be attributed to an increased effectiveness of synchronized discharge in sympathetic fibers upon electrical stimulation.

Published
2004

23. Analgesic treatment of ciguatoxin-induced cold allodynia

Author

Richard J. Lewis, Marco Inserra, Katharina Zimmermann, Irina Vetter, Peter W. Reeh, Jennifer R. Deuis, Barbara Namer, Peter J. Cabot, and Lindon S. Collins

Subjects
Agonist, Male, Ciguatoxin, Ciguatera, medicine.drug_class, Analgesic, Lamotrigine, Pharmacology, Ciguatoxins, Cell Line, Tumor, medicine, Animals, Humans, Rats, Wistar, Analgesics, Eels, business.industry, medicine.disease, Rats, Cold Temperature, Mice, Inbred C57BL, Anesthesiology and Pain Medicine, Allodynia, Treatment Outcome, Neurology, Hyperalgesia, Nociceptor, Neurology (clinical), medicine.symptom, Flupirtine, business, medicine.drug
Abstract

Ciguatera, the most common form of nonbacterial ichthyosarcotoxism, is caused by consumption of fish that have bioaccumulated the polyether sodium channel activator ciguatoxin. The neurological symptoms of ciguatera include distressing, often persistent sensory disturbances such as paraesthesias and the pathognomonic symptom of cold allodynia. We show that intracutaneous administration of ciguatoxin in humans elicits a pronounced axon-reflex flare and replicates cold allodynia. To identify compounds able to inhibit ciguatoxin-induced Nav responses, we developed a novel in vitro ciguatoxin assay using the human neuroblastoma cell line SH-SY5Y. Pharmacological characterisation of this assay demonstrated a major contribution of Nav1.2 and Nav1.3, but not Nav1.7, to ciguatoxin-induced Ca2+ responses. Clinically available Nav inhibitors, as well as the Kv7 agonist flupirtine, inhibited tetrodotoxin-sensitive ciguatoxin-evoked responses. To establish their in vivo efficacy, we used a novel animal model of ciguatoxin-induced cold allodynia. However, differences in the efficacy of these compounds to reverse ciguatoxin-induced cold allodynia did not correlate with their potency to inhibit ciguatoxin-induced responses in SH-SY5Y cells or at heterologously expressed Nav1.3, Nav1.6, Nav1.7, or Nav1.8, indicating cold allodynia might be more complex than simple activation of Nav channels. These findings highlight the need for suitable animal models to guide the empiric choice of analgesics, and suggest that lamotrigine and flupirtine could be potentially useful for the treatment of ciguatera.

Published
2012

24. Electrically induced quantitative sudomotor axon reflex test in human volunteers

Author

Olga Kluschina, Martin Schmelz, Marcus Schley, Roman Rukwied, Peter Sommer, and Barbara Namer

Subjects
Adult, Male, Sympathetic nervous system, Efferent, Stimulation, Stimulus (physiology), Cellular and Molecular Neuroscience, Sympathetic Fibers, Postganglionic, Reflex, Medicine, Humans, integumentary system, Endocrine and Autonomic Systems, business.industry, Electrodiagnosis, Middle Aged, Axons, Sweat Glands, Sudomotor, Nociception, medicine.anatomical_structure, Autonomic Nervous System Diseases, Anesthesia, Axon reflex, Female, Neurology (clinical), business
Abstract

Chemically-induced quantitative sudomotor axon reflex test (QSART) and quantitative sensory testing (QST) are established clinical tools to assess thin fiber function in humans. We investigated stimulus-response functions to transcutaneous electrical stimuli of different current intensity (3.75 to 10mA) and pulse frequency (5 to 100Hz) comparing sweat output (ml/h/m(2)) and pain intensity (numeric rating scale [NRS], 0-10). Efferent sudomotor and afferent nociceptive responses were recorded after a 30s electrical stimulation period of distal (hand and foot) and proximal (forearm and thorax) body sites with 3 repetitive measures per body site. Sweat responses increased intensity dependently and peaked (~100ml/h/m(2)) at highest currents (10mA) that had been administered. Similarly, pain ratings increased with an escalating current intensity. At a constant stimulus intensity of 7.5mA, sudomotor activity was highest (~75ml/h/m(2)) at a stimulus frequency of 20Hz without further increase at 50 or 100Hz. In contrast, pain ratings increased frequency dependently and reached NRS 7 at 100Hz. Sudomotor activity, but not pain ratings, was significantly different between the body sites (p

Published
2010

26. Hyperexcitable C-nociceptors in human paroxysmal pain

Author

I.P. Kleggetveit, Ellen Jørum, Roland Schmidt, Tormod Helås, Martin Schmelz, and Barbara Namer

Subjects
Anesthesiology and Pain Medicine, business.industry, Nociceptor, Medicine, Neurology (clinical), business, Neuroscience
Published
2010

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