This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
Literatur
Agostino R, Cruccu G, Iannetti GD, Innocenti P, Romaniello A, Truini A, Manfredi M (2000a) Trigeminal small-fibre dysfunction in patients with diabetes mellitus: a study with laser evoked potentials and corneal reflex. Clin Neurophysiol 111:2264–2267
Agostino R, Cruccu G, Romaniello A, Innocenti P, Inghilleri M, Manfredi M (2000b) Dysfunction of small myelinated afferents in diabetic polyneuropathy, as assessed by laser evoked potentials. Clin Neurophysiol 111:270–276
Baumgärtner U, Magerl W, Klein T, Hopf HC, Treede RD (2002) Neurogenic hyperalgesia versus painful hypoalgesia: two distinct mechanisms of neuropathic pain. Pain 96:141–151
Beydoun A, Morrow TJ, Shen JF, Casey KL (1993) Variability of laser-evoked potentials: attention, arousal and lateralized differences. Electroenceph Clin Neurophysiol 88:173–181
Beydoun A, Shen JF, Chimowitz MI, Casey KL (1994) Laser evoked potentials: correlation with pain and temperature deficits due to stroke. Neurology 44(Suppl 2):A343–A344
Biehl R, Treede RD, Bromm B (1984) Pain ratings of short radiant heat pulses. In: Bromm B (ed) Pain measurement in man. Neurophysiological correlates of pain. Elsevier, Amsterdam, pp 397–408
Boivie J, Leijon G, Johansson I (1989) Central post-stroke pain — a study of the mechanisms through analyses of the sensory abnormalities. Pain 37: 173–185
Bragard D, Chen ACN, Plaghki L (1996) Direct isolation of ultralate (C-fibre) evoked brain potentials by CO2 laser stimulation of tiny cutaneous surface areas in man. Neurosci Lett 209:81–84
Bromm B, Chen ACN (1995) Brain electrical source analysis of laser evoked potentials in response to painful trigeminal nerve stimulation. Electroenceph Clin Neurophysiol 95:14–26
Bromm B, Lorenz J (1998) Neurophysiological evaluation of pain. Electroenceph Clin Neurophysiol 107:227–253
Bromm B, Meier W (1984) The intracutaneous stimulus: a new pain model for algesimetric studies. Methods Find Exp Clin Pharmacol 6:405–410
Bromm B, Treede RD (1987) Human cerebral potentials evoked by CO2-laser stimuli causing pain. Exp Brain Res 767:153–162
Bromm B, Treede RD (1991) Laser-evoked cerebral potentials in the assessment of cutaneous pain sensitivity in normal subjects and patients. Rev Neurol (Paris) 147:625–643
Bromm B, Neitzel H, Tecklenburg A, Treede RD (1983) Evoked cerebral potential correlates of C-fibre activity in man. Neurosci Lett 43:109–114
Bromm B, Jahnke MT, Treede RD (1984) Responses of human cutaneous afferents to CO2 laser stimuli causing pain. Exp Brain Res 55:158–166
Bromm B, Frieling A, Lankers J (1991) Laser-evoked brain potentials in patients with dissociated loss of pain and temperature sensibility. Electroenceph Clin Neurophysiol 80:284–291
Carmon A, Friedman Y, Coger R, Kenton B (1980) Single trial analysis of evoked potentials to noxious thermal stimulation in man. Pain 8:21–32
Casey KL, Huang GCH, Morrow TJ (1989) The role of cortical, thalamic, and subthalamic neurons in pain: evidence from laser evoked potentials and sensory testing in patients and normal subjects. Soc Neurosci Abstr 15:1190
Casey KL, Boivie J, Holmgren H, Leijon G, Morrow TJ, Sjolund B, Rosen I (1990) Laser-evoked cerebral potentials and sensory function in patients with central pain. Pain (Suppl 5):S204
Chapman CR, Colpitts YH, Mayeno JK, Gagliardi GJ (1981) Rate of stimulus repetition changes evoked potential amplitude: dental and auditory modalities compared. Exp Brain Res 43:246–252
Cruccu G, Romaniello A, Amantini A, Lombardi M, Innocenti P, Manfredi M (1999) Assessment of trigeminal small fiber function: Brain and reflex responses evoked by CO2-laser stimulation. Muscle Nerve 22:508–516
Cruccu G, Iannetti GD, Agostino R, Romaniello A, Truini A, Manfredi M (2000) Conduction velocity of the human spinothalamic tract as assessed by laser evoked potentials. Neuroreport 11:3029–3032
Devor M, Carmon A, Frostig R (1982) Primary afferent and spinal neurons that respond to brief pulses of intense infrared laser radiation: A preliminary survey in rats. Exp Neurol 76:483–494
Devos D, Creac’h C, Laureau E, Bourriez JL, Guieu JD (2000) Thulium laser somatosensory evoked potentials. Normative values for upper and lower limbs. Neurophysiol Clin 30:313–322
Duclaux R, Franzen O, Chatt AB, Kenshalo DR, Stowell H (1974) Responses recorded from human scalp evoked by cutaneous thermal stimulation. Brain Res 78:279–290
Friehs GM, Schrottmer O, Pendl G (1995) Evidence for segregated pain and temperature conduction within the spinothalamic tract. J Neurosurg 83:8–12
Frot M, Mauguière F (2003) Dual representation of pain in the operculo-insular cortex in humans. Brain 126:438–450
Garcia-Larrea L, Convers P, Magnin M, André-Obadia N, Peyron R, Laurent B, Mauguière F (2002) Laser-evoked potential abnormalities in central pain patients: the influence of spontaneous and provoked pain. Brain 125:2766–2781
Giblin DR (1964) Somatosensory evoked potentials in healthy subjects and in patients with lesions of the nervous system. Ann N Y Acad Sci 112:93–142
Gibson SJ, Gorman MM, Helme RD (1991) Assessment of pain in the elderly using event-related cerebral potentials. In: Bond MR, Charlton JE, Woolf CJ (eds) Proceedings of the VIth World Congress on Pain. Elsevier, Amsterdam, pp 527–533
Gibson SJ, Littlejohn GO, Gorman MM, Helme RD, Granges G (1994) Altered heat pain thresholds and cerebral event-related potentials following painful CO2 laser stimulation in subjects with fibromyalgia syndrome. Pain 58:185–193
Granot M, Buskila D, Granovsky Y, Sprecher E, Neumann L, Yarnitsky D (2001) Simultaneous recording of late and ultra-late pain evoked potentials in fibromyalgia. Clin Neurophysiol 112:1881–1887
Greenspan JD, Lee RR, Lenz FA (1999) Pain sensitivity alterations as a function of lesion location in the parasylvian cortex. Pain 81:273–282
Halliday AM, Wakefield GS (1963) Cerebral evoked potentials in patients with dissociated sensory loss. J Neurol Neurosurg Psychiatry 26:211–219
Hansen C, Treede RD (1995) Laser-evozierte Potentiale: Eine neue klinisch-neurophysiologische Untersuchungsmethode für die Schmerzbahnen. EEG-Labor 17:76–85
Hansen HC, Treede RD, Lorenz J, Kunze K, Bromm B (1996) Recovery from brainstem lesions involving the nociceptive pathways: comparison of clinical findings with laser-evoked potentials. J Clin Neurophysiol 13:330–338
Hees J van, Gybels J (1981) C nociceptor activity in human nerve during painful and non painful skin stimulation. J Neurol Neurosurg Psychiatry 44:600–607
Holmgren H, Leijon G, Boivie J, Johansson I, Ilievska L (1990) Central post-stroke pain — somatosensory evoked potentials in relation to location of the lesion and sensory signs. Pain 40:43–52
Iannetti GD, Truini A, Galeotti F, Romaniello A, Manfredi M, Cruccu G (2001) Usefulness of dorsal laser evoked potentials in patients with spinal cord damage: report of two cases. J Neurol Neurosurg Psychiat 71:792–794
Iannetti GD, Truini A, Romaniello A, Galeotti F, Rizzo C, Manfredi M, Cruccu G (2003) Evidence of a specific spinal pathway for the sense of warmth in humans. J Neurophysiol 89:562–570
Kakigi R, Shibasaki H (1991) Estimation of conduction velocity of the spino-thalamic tract in man. Electroenceph Clin Neurophysiol 80:39–45
Kakigi R, Shibasaki H, Ikeda A (1989) Pain-related somatosensory evoked potentials following CO2 laser stimulation in man. Electroenceph Clin Neurophysiol 74:139–146
Kakigi R, Shibasaki H, Neshige R, Ikeda A, Mamiya K, Kuroda Y (1990) Pain-related somatosensory evoked potentials in cortical reflex myoclonus. J Neurol Neurosurg Psychiatry 53:44–48
Kakigi R, Endo C, Neshige R, Kuroda Y, Shibasaki H (1991a) Estimation of conduction velocity of A-delta fibers in humans. Muscle Nerve 14:1193–1196
Kakigi R, Shibasaki H, Kuroda Y, Neshige R, Endo C, Tabuchi K, Kishikawa T (1991b) Pain-related somatosensory evoked potentials in syringomyelia. Brain 114:1871–1889
Kakigi R, Shibasaki H, Tanaka K et al. (1991c) CO2laser-induced pain-related somatosensory evoked potentials in peripheral neuropathies: Correlation between electrophysiological and histopathological findings. Muscle Nerve 14:441–450
Kakigi R, Kuroda Y, Neshige R, Endo C, Shibasaki H (1992a) Physiological study of the spinothalamic tract conduction in multiple sclerosis. J Neurol Sci 107:205–209
Kakigi R, Kuroda Y, Takashima H, Endo C, Neshige R, Shibasaki H (1992b) Physiological functions of the ascending spinal tracts in HTLV-I-associated myelopathy (HAM). Electroenceph Clin Neurophysiol 84:110–114
Kakigi R, Shibasaki H, Ikeda T, Neshige R, Endo C, Kuroda Y (1992c) Pain-related somatosensory evoked potentials following CO2 laser stimulation in peripheral neuropathies. Acta Neurol Scand 85:347–352
Kanda M, Fujiwara N, Xu X, Shindo K, Nagamine T, Ikeda A, Shibasaki H (1996a) Pain-related and cognitive components of somatosensory evoked potentials following CO2 laser stimulation. Electroenceph Clin Neurophysiol 100:105–144
Kanda M, Mima T, Xu X et al. (1996b) Pain-related somatosensory evoked potentials can quantitatively evaluate hypalgesia in Wallenberg’s syndrome. Acta Neurol Scand 94:131–136
Kazarians H, Scharein E, Bromm B (1995) Laser evoked brain potentials in response to painful trigeminal nerve activation. Int J Neurosci 81:111–122
Kenton B, Coger R, Crue B, Pinsky J, Friedman Y, Carmon A (1980) Peripheral fiber correlates to noxious thermal stimulation in humans. Neurosci Lett 17:301–306
Kobal G, Hummel C (1988) Cerebral chemosensory evoked potentials elicited by chemical stimulation of the human olfactory and respiratory nasal mucosa. Electroenceph Clin Neurophysiol 71:241–250
Kunde V, Treede RD (1993) Topography of middle-latency somatosensory evoked potentials following painful laser stimuli and non-painful electrical stimuli. Electroenceph Clin Neurophysiol 88:280–289
Lankers J, Frieling A, Kunze K, Bromm B (1991) Ultralate cerebral potentials in a patient with hereditary motor and sensory neuropathy type I indicate preserved C-fibre function. J Neurol Neurosurg Psychiatry 54:650–652
Lenz FA, Seike M, Lin YC, Baker FH, Rowland LH, Gracely RH, Richardson RT (1993) Neurons in the area of human thalamic nucleus ventralis caudalis respond to painful heat stimuli. Brain Res 623:235–240
Lorenz J, Grasedyck K, Bromm B (1996) Middle and long latency somatosensory evoked potentials after painful laser stimulation in patients with fibromyalgia syndrome. Electroenceph Clin Neurophysiol 100:165–168
Lorenz J, Kunze K, Bromm B (1998) Differentiation of conversive sensory loss and malingering by P300 in a modified oddball task. Neuroreport 9:187–191
Magerl W, Ali Z, Ellrich J, Meyer RA, Treede RD (1999) C-and Aδ-fiber components of heat-evoked cerebral potentials in healthy human subjects. Pain 82:127–137
Mauguière F, Desmedt JE (1988) Thalamic pain syndrome of Dejérine-Roussy. Arch Neurol 45:1312–1320
Mauguière F, Gonnaud PM, Ibañez V, Schott B (1987) Potentiels évoqués somesthesiques précoces et déficits sensitifs dans les lésions thalamiques et juxta-thalamiques. Rev Neurol (Paris) 143:643–656
Melzack R, Wall PD (1965) Pain mechanisms: a new theory. Science 150:971–979
Miyazaki M, Shibasaki H, Kanda M et al. (1994) Generator mechanism of pain-related evoked potentials following CO2 laser stimulation of the hand: scalp topography and effect of predictive warning signal. J Clin Neurophysiol 11:242–254
Mor J, Carmon A (1975) Laser emitted radiant heat for pain research. Pain 1:233–237
Namerow NS (1969) Somatosensory evoked responses following cervical cordotomy. Bull Los Angeles Neurol Soc 34:184–189
Nël P, Desmedt JE (1975) Somatosensory cerebral evoked potentials after vascular lesions of the brain-stem and diencephalon. Brain 98:113–128
Opsommer E, Masquelier E, Plaghki L (1999) Determination of nerve conduction velocity of C-fibres in humans from thermal thresholds to contact heat (thermode) and from evoked brain potentials to radiant heat (CO2 laser). Neurophysiol Clin 29:411–422
Peyron R, Laurent B, García-Larrea L (2000) Functional imaging of brain responses to pain. A review and meta-analysis (2000). Neurophysiol Clin 30:263–288
Ploner M, Schmitz F, Freund HJ, Schnitzler A (1999) Parallel activation of primary and secondary somatosensory cortices in human pain processing. J Neurophysiol 81:3100–3104
Price DD, Hu JW, Dubner R, Gracely RH (1977) Peripheral suppression of first pain and central summation of second pain evoked by noxious heat pulses. Pain 3:57–68
Purves AM, Boyd SG, Murray NMF (1991) The CO2 laser as a tool for analysing small fibre function in man. J Physiol 438:341P
Ragazzoni A, Amantini A, Lombardi M, Macucci M, Mascalchi M, Pinto F (1993) Electric and CO2 laser SEP s in a patient with asymptomatic syringomyelia. Electroenceph Clin Neurophysiol 88:335–338
Rousseaux M, Cassim F, Bayle B, Laureau E (1999) Analysis of the perception of and reactivity to pain and heat in patients with Wallenberg syndrome and severe spinothalamic tract dysfunction. Stroke 30:2223–2229
Santiago S, Ferrer T, Espinosa ML (2000) Neurophysiological studies of thin myelinated (A delta) and unmyelinated (C) fibers: application to peripheral neuropathies. Neurophysiol Clin 30:27–42
Scharein E, Bromm B (1998) The intracutaneous pain model in the assessment of analgesic efficacy. Pain Rev 5:216–246
Schmahl CG, Greffrath W, Baumgärtner U et al. (2004) Differential nociceptive deficits in patients with borderline personality disorder and self-injurious behavior: laser-evoked potentials, spatial discrimination of noxious stimuli, and pain ratings. Pain 110:470–479
Schott B, Laurent B, Mauguière F (1986) Les douleurs thalamiques:étude critique de 43 cas. Rev Neurol (Paris) 142:308–315
Shibasaki H, Yamashita Y, Neshige R, Tobimatsu S, Fukui R (1985) Pathogenesis of giant somatosensory evoked potentials in progressive myoclonic epilepsy. Brain 108:225–240
Siedenberg R, Treede RD (1996) Laser-evoked potentials: exogenous and endogenous components. Electroenceph Clin Neurophysiol 100:240–249
Spiegel J, Hansen C, Treede RD (2000) Clinical evaluation criteria for the assessment of impaired pain sensitivity by thulium-laser evoked potentials. Clin Neurophysiol 111:725–735
Spiegel J, Hansen C, Baumgärtner U, Hopf HC, Treede RD (2003) Sensitivity of laser-evoked potentials versus somatosensory evoked potentials in patients with multiple sclerosis. Clin Neurophysiol 114:992–1002
Spreng M, Ichioka M (1964) Langsame Rindenpotentiale bei Schmerzreizung am Menschen. Pflügers Arch 279:121–132
Tarkka IM, Treede RD (1993) Equivalent electrical source analysis of pain-related somatosensory evoked potentials elicited by a CO2 laser. J Clin Neurophysiol 10:513–519
Tarkka IM, Treede RD, Bromm B (1992) Sensory and movement-related cortical potentials in nociceptive and auditory reaction time tasks. Acta Neurol Scand 86:359–364
Tommaso M de, Guido M, Libro G, Losito L, Sciruicchio V, Monetti C, Puca F (2002) Abnormal brain processing of cutaneous pain in migraine patients during the attack. Neurosci Lett 333:29–32
Tommaso M de, Valeriani M, Guido M, Libro G, Specchio LM, Tonali P, Puca F (2003) Abnormal brain processing of cutaneous pain in patients with chronic migraine. Pain 101:25–32
Towell AD, Boyd SG (1993) Sensory and cognitive components of the CO 2 laser evoked cerebral potential. Electroenceph Clin Neurophysiol 88:237–239
Treede RD (1988) Evozierte cerebrale Potentiale nach Hitzereizen als Grundlage für die nicht-invasive Objektivierung der Hautsensibilität, Habilitationsschrift (Physiologie), Hamburg
Treede RD (2001) Physiologische Grundlagen der Schmerzentstehung und Schmerztherapie. In: Zenz M, Jurna I (Hrsg) Lehrbuch der Schmerztherapie. Wissenschaftliche Verlagsgesellschaft, Stuttgart, S 39–63
Treede RD, Cole JD (1993) Dissociated secondary hyperalgesia in a subject with a large-fibre sensory neuropathy. Pain 53:169–174
Treede RD, Kief S, Hölzer T, Bromm B (1988a) Late somatosensory evoked cerebral potentials in response to cutaneous heat stimuli. Electroenceph Clin Neurophysiol 70:429–441
Treede RD, Meier W, Kunze K, Bromm B (1988b) Ultralate cerebral potentials as correlates of delayed pain perception: Observation in a case of neurosyphilis. J Neurol Neurosurg Psychiatry 51:1330–1333
Treede RD, Lankers J, Frieling A, Zangemeister WH, Kunze K, Bromm B (1991) Cerebral potentials evoked by painful laser stimuli in patients with syringomyelia. Brain 114:1595–1607
Treede RD, Meyer RA, Raja SN, Campbell JN (1992) Peripheral and central mechanisms of cutaneous hyperalgesia. Prog Neurobiol 38:397–421
Treede RD, Meyer RA, Lesser RP (1994) Similarity of threshold temperatures for first pain sensation, laser-evoked potentials and nociceptor activation. In: Gebhart GF, Hammond DL, Jensen TS (eds) Proceedings of the 7th World Congress on Pain. Progress in pain research and management, vol 2. IASP, Seattle, pp 857–865
Treede RD, Lorenz J, Kunze K, Bromm B (1995a) Assessment of nociceptive pathways with laser-evoked potentials in normal subjects and patients. In: Bromm B, Desmedt JE (eds) Pain and the brain: From nociception to cognition. Raven, New York, pp 377–391
Treede RD, Meyer RA, Raja SN, Campbell JN (1995b) Evidence for two different heat transduction mechanisms in nociceptive primary afferents innervating monkey skin. J Physiol 483:747–758
Treede RD, Magerl W, Baumgärtner U (1998) Laser-evoked potentials for assessment of nociceptive pathways in humans. Toward a rational experimental and clinical use. Pain Forum 7:191–195
Treede RD, Kenshalo DR, Gracely RH, Jones AKP (1999) The cortical representation of pain. Pain 79:105–111
Treede RD, Apkarian AV, Bromm B, Greenspan JD, Lenz FA (2000) Cortical representation of pain: functional characterization of nociceptive areas near the lateral sulcus. Pain 87:113–119
Urban PP, Hansen C, Baumgärtner U et al. (1999) Abolished laser-evoked potentials and normal blink reflex in midlateral medullary infarction. J Neurol 246:347–352
Valeriani M, Rambaud L, Mauguière F (1996) Scalp topography and dipolar source modelling of potentials evoked by CO2 laser stimulation of the hand. Electroenceph Clin Neurophysiol 100:343–353
Valeriani M, Restuccia D, Le Pera D, Fiaschetti L, Tonali P, Arendt-Nielsen L (2000) Unmasking of an early laser evoked potential by a point localization task. Clin Neurophysiol 111:1927–1933
Vogel H, Port JD, Lenz FA, Solaiyappan M, Krauss G, Treede RD (2003) Dipole source analysis of laser-evoked subdural potentials recorded from parasylvian cortex in humans. J Neurophysiol 89:3051–3060
Wolfe F, Smythe HA, Yunus MB et al. (1990) The American College of Rheumatology 1990 Criteria for the classification of fibromyalgia. Report of the Multicenter Criteria Committee. Arthritis Rheum 33:160–172
Wu Q, García-Larrea L, Mertens P, Beschet A, Sindou M, Mauguière F (1999) Hyperalgesia with reduced laser evoked potentials in neuropathic pain. Pain 80:209–214
Yamamoto M, Kachi T, Igata A (1995) Pain-related and electrically stimulated somatosensory evoked potentials in patients with stroke. Stroke 26:426–429
Yamamoto M, Kachi T, Igata A (1996) Pain-related somatosensory evoked potentials in dementia. J Neurol Sci 137:117–119
Yu YL, Jones SJ (1985) Somatosensory evoked potentials in cervical spondylosis. Correlation of median, ulnar and posterior tibial nerve responses with clinical and radiological findings. Brain 108:273–300
Author information
Authors and Affiliations
Rights and permissions
Copyright information
© 2005 Springer Medizin Verlag Heidelberg
About this chapter
Cite this chapter
Treede, R.D. (2005). Funktionsprüfung der nozizeptiven Bahnen durch SEP nach schmerzhaften Laser-Hitzereizen. In: Evozierte Potenziale. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-26659-3_9
Download citation
DOI: https://doi.org/10.1007/3-540-26659-3_9
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-01773-8
Online ISBN: 978-3-540-26659-4
eBook Packages: Medicine (German Language)