Trigeminal small-fibre function assessed with contact heat evoked potentials in humans

Contact heat stimuli have been reported to excite mechano-thermal nociceptors and to evoke brain potentials (CHEPs) from the limbs. We investigated whether contact heat evokes reproducible CHEPs from the trigeminal territory and may prove a reliable diagnostic tool in facial neuropathic pain. We app...

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Published in	Pain (Amsterdam) Vol. 132; no. 1; pp. 102 - 107
Main Authors	Truini, A., Galeotti, F., Pennisi, E., Casa, F., Biasiotta, A., Cruccu, G.
Format	Journal Article
Language	English
Published	Amsterdam Elsevier B.V 01.11.2007 Elsevier
Subjects	Adult Aged Aged, 80 and over Biological and medical sciences Contact heat evoked potentials Cranial nerves. Spinal roots. Peripheral nerves. Autonomic nervous system. Gustation. Olfaction Diagnostic Techniques, Neurological Evoked Potentials, Somatosensory Facial Pain - diagnosis Facial Pain - physiopathology Female Fundamental and applied biological sciences. Psychology Hot Temperature Humans Laser evoked potentials Male Medical sciences Middle Aged Nerve Fibers Nervous system (semeiology, syndromes) Neurology Neuropathic pain Reaction Time Somesthesis and somesthetic pathways (proprioception, exteroception, nociception); interoception; electrolocation. Sensory receptors Trigeminal Nerve - physiopathology Trigeminal nociceptive pathways Trigeminal pain Vertebrates: nervous system and sense organs Trigeminal pain Laser evoked potentials Trigeminal nociceptive pathways Contact heat evoked potentials Neuropathic pain Human Reflex Nervous system diseases Masseter muscle Electrophysiology Orbicularis oculi muscle Silent period Peripheral neuropathy Nerve fiber C Nociceptor Pain Evoked potential Peripheral nerve disease Biological receptor
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ISSN	0304-3959 1872-6623 1872-6623
DOI	10.1016/j.pain.2007.01.030

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Abstract	Contact heat stimuli have been reported to excite mechano-thermal nociceptors and to evoke brain potentials (CHEPs) from the limbs. We investigated whether contact heat evokes reproducible CHEPs from the trigeminal territory and may prove a reliable diagnostic tool in facial neuropathic pain. We applied contact heat stimuli to the perioral and supraorbital regions; CHEPs were recorded from the vertex in 20 controls and 2 patients with facial neuropathic pains, and reflex responses from the orbicularis oculi and masticatory muscles in 5 controls. We studied the correlation between CHEP data and perceptive ratings, site of stimulation, and age. Finally, we compared CHEPs with laser evoked potentials (LEPs). Contact heat stimuli at 51 °C evoked vertex potentials consisting of an NP complex similar to that elicited by laser pulses, though with a latency some 100-ms longer. Perioral stimulation yielded higher pain intensity ratings, shorter latency and larger amplitude CHEPs than supraorbital stimulation. CHEP data correlated significantly with age. Contact heat stimuli at 53 °C evoked a blink-like response in the relaxed orbicularis oculi muscle and a silent period in the contracted masseter muscle. In patients with facial neuropathic pain the CHEP abnormalities paralleled those seen with LEPs. We were unable to achieve reproducible signals related to C-receptor stimulation by contact heat stimuli at 41 °C in the ten subjects in whom they were tested. Contact heat stimulation, as well as laser stimulation, easily yields large-amplitude brain potentials and nociceptive reflexes, both related to the Aδ input. However CHEPs are not suitable for C-fibres potentials recording.
AbstractList	Contact heat stimuli have been reported to excite mechano-thermal nociceptors and to evoke brain potentials (CHEPs) from the limbs. We investigated whether contact heat evokes reproducible CHEPs from the trigeminal territory and may prove a reliable diagnostic tool in facial neuropathic pain. We applied contact heat stimuli to the perioral and supraorbital regions; CHEPs were recorded from the vertex in 20 controls and 2 patients with facial neuropathic pains, and reflex responses from the orbicularis oculi and masticatory muscles in 5 controls. We studied the correlation between CHEP data and perceptive ratings, site of stimulation, and age. Finally, we compared CHEPs with laser evoked potentials (LEPs). Contact heat stimuli at 51 degrees C evoked vertex potentials consisting of an NP complex similar to that elicited by laser pulses, though with a latency some 100-ms longer. Perioral stimulation yielded higher pain intensity ratings, shorter latency and larger amplitude CHEPs than supraorbital stimulation. CHEP data correlated significantly with age. Contact heat stimuli at 53 degrees C evoked a blink-like response in the relaxed orbicularis oculi muscle and a silent period in the contracted masseter muscle. In patients with facial neuropathic pain the CHEP abnormalities paralleled those seen with LEPs. We were unable to achieve reproducible signals related to C-receptor stimulation by contact heat stimuli at 41 degrees C in the ten subjects in whom they were tested. Contact heat stimulation, as well as laser stimulation, easily yields large-amplitude brain potentials and nociceptive reflexes, both related to the Adelta input. However CHEPs are not suitable for C-fibres potentials recording.Contact heat stimuli have been reported to excite mechano-thermal nociceptors and to evoke brain potentials (CHEPs) from the limbs. We investigated whether contact heat evokes reproducible CHEPs from the trigeminal territory and may prove a reliable diagnostic tool in facial neuropathic pain. We applied contact heat stimuli to the perioral and supraorbital regions; CHEPs were recorded from the vertex in 20 controls and 2 patients with facial neuropathic pains, and reflex responses from the orbicularis oculi and masticatory muscles in 5 controls. We studied the correlation between CHEP data and perceptive ratings, site of stimulation, and age. Finally, we compared CHEPs with laser evoked potentials (LEPs). Contact heat stimuli at 51 degrees C evoked vertex potentials consisting of an NP complex similar to that elicited by laser pulses, though with a latency some 100-ms longer. Perioral stimulation yielded higher pain intensity ratings, shorter latency and larger amplitude CHEPs than supraorbital stimulation. CHEP data correlated significantly with age. Contact heat stimuli at 53 degrees C evoked a blink-like response in the relaxed orbicularis oculi muscle and a silent period in the contracted masseter muscle. In patients with facial neuropathic pain the CHEP abnormalities paralleled those seen with LEPs. We were unable to achieve reproducible signals related to C-receptor stimulation by contact heat stimuli at 41 degrees C in the ten subjects in whom they were tested. Contact heat stimulation, as well as laser stimulation, easily yields large-amplitude brain potentials and nociceptive reflexes, both related to the Adelta input. However CHEPs are not suitable for C-fibres potentials recording. Contact heat stimuli have been reported to excite mechano-thermal nociceptors and to evoke brain potentials (CHEPs) from the limbs. We investigated whether contact heat evokes reproducible CHEPs from the trigeminal territory and may prove a reliable diagnostic tool in facial neuropathic pain. We applied contact heat stimuli to the perioral and supraorbital regions; CHEPs were recorded from the vertex in 20 controls and 2 patients with facial neuropathic pains, and reflex responses from the orbicularis oculi and masticatory muscles in 5 controls. We studied the correlation between CHEP data and perceptive ratings, site of stimulation, and age. Finally, we compared CHEPs with laser evoked potentials (LEPs). Contact heat stimuli at 51 degrees C evoked vertex potentials consisting of an NP complex similar to that elicited by laser pulses, though with a latency some 100-ms longer. Perioral stimulation yielded higher pain intensity ratings, shorter latency and larger amplitude CHEPs than supraorbital stimulation. CHEP data correlated significantly with age. Contact heat stimuli at 53 degrees C evoked a blink-like response in the relaxed orbicularis oculi muscle and a silent period in the contracted masseter muscle. In patients with facial neuropathic pain the CHEP abnormalities paralleled those seen with LEPs. We were unable to achieve reproducible signals related to C-receptor stimulation by contact heat stimuli at 41 degrees C in the ten subjects in whom they were tested. Contact heat stimulation, as well as laser stimulation, easily yields large-amplitude brain potentials and nociceptive reflexes, both related to the Adelta input. However CHEPs are not suitable for C-fibres potentials recording. Contact heat stimuli have been reported to excite mechano-thermal nociceptors and to evoke brain potentials (CHEPs) from the limbs. We investigated whether contact heat evokes reproducible CHEPs from the trigeminal territory and may prove a reliable diagnostic tool in facial neuropathic pain. We applied contact heat stimuli to the perioral and supraorbital regions; CHEPs were recorded from the vertex in 20 controls and 2 patients with facial neuropathic pains, and reflex responses from the orbicularis oculi and masticatory muscles in 5 controls. We studied the correlation between CHEP data and perceptive ratings, site of stimulation, and age. Finally, we compared CHEPs with laser evoked potentials (LEPs). Contact heat stimuli at 51 °C evoked vertex potentials consisting of an NP complex similar to that elicited by laser pulses, though with a latency some 100-ms longer. Perioral stimulation yielded higher pain intensity ratings, shorter latency and larger amplitude CHEPs than supraorbital stimulation. CHEP data correlated significantly with age. Contact heat stimuli at 53 °C evoked a blink-like response in the relaxed orbicularis oculi muscle and a silent period in the contracted masseter muscle. In patients with facial neuropathic pain the CHEP abnormalities paralleled those seen with LEPs. We were unable to achieve reproducible signals related to C-receptor stimulation by contact heat stimuli at 41 °C in the ten subjects in whom they were tested. Contact heat stimulation, as well as laser stimulation, easily yields large-amplitude brain potentials and nociceptive reflexes, both related to the Aδ input. However CHEPs are not suitable for C-fibres potentials recording.
Author	Galeotti, F. Cruccu, G. Casa, F. Truini, A. Pennisi, E. Biasiotta, A.
Author_xml	– sequence: 1 givenname: A. surname: Truini fullname: Truini, A. email: andrea.truini@uniroma1.it organization: Department of Neurological Sciences, “La Sapienza” University, Viale Università 30, 00185 Rome, Italy – sequence: 2 givenname: F. surname: Galeotti fullname: Galeotti, F. organization: Department of Neurological Sciences, “La Sapienza” University, Viale Università 30, 00185 Rome, Italy – sequence: 3 givenname: E. surname: Pennisi fullname: Pennisi, E. organization: Department of Neurological Sciences, “La Sapienza” University, Viale Università 30, 00185 Rome, Italy – sequence: 4 givenname: F. surname: Casa fullname: Casa, F. organization: Department of Neurological Sciences, “La Sapienza” University, Viale Università 30, 00185 Rome, Italy – sequence: 5 givenname: A. surname: Biasiotta fullname: Biasiotta, A. organization: Department of Neurological Sciences, “La Sapienza” University, Viale Università 30, 00185 Rome, Italy – sequence: 6 givenname: G. surname: Cruccu fullname: Cruccu, G. organization: Department of Neurological Sciences, “La Sapienza” University, Viale Università 30, 00185 Rome, Italy
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Keywords	Trigeminal pain Laser evoked potentials Trigeminal nociceptive pathways Contact heat evoked potentials Neuropathic pain Human Reflex Nervous system diseases Masseter muscle Electrophysiology Orbicularis oculi muscle Silent period Peripheral neuropathy Nerve fiber C Nociceptor Pain Evoked potential Peripheral nerve disease Biological receptor
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Snippet	Contact heat stimuli have been reported to excite mechano-thermal nociceptors and to evoke brain potentials (CHEPs) from the limbs. We investigated whether...
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SubjectTerms	Adult Aged Aged, 80 and over Biological and medical sciences Contact heat evoked potentials Cranial nerves. Spinal roots. Peripheral nerves. Autonomic nervous system. Gustation. Olfaction Diagnostic Techniques, Neurological Evoked Potentials, Somatosensory Facial Pain - diagnosis Facial Pain - physiopathology Female Fundamental and applied biological sciences. Psychology Hot Temperature Humans Laser evoked potentials Male Medical sciences Middle Aged Nerve Fibers Nervous system (semeiology, syndromes) Neurology Neuropathic pain Reaction Time Somesthesis and somesthetic pathways (proprioception, exteroception, nociception); interoception; electrolocation. Sensory receptors Trigeminal Nerve - physiopathology Trigeminal nociceptive pathways Trigeminal pain Vertebrates: nervous system and sense organs
Title	Trigeminal small-fibre function assessed with contact heat evoked potentials in humans
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