1/6. hyperalgesia with reduced laser evoked potentials in neuropathic pain.Nociceptive evoked potentials to laser stimuli (LEPs) are able to detect lesions of pain and temperature pathways at peripheral, spinal and supraspinal levels. It is commonly accepted that LEP attenuation correlates with the loss of pain and temperature sensations, while pathological heat-pain hypersensitivity has been associated with increased LEP amplitude. Here we present two patients in whom increased pain sensation (hyperalgesia) to laser stimuli was, on the contrary, associated to delayed, desynchronized and attenuated LEPs. Both patients experienced increased unpleasantness and affective reactions to laser, associated to poor ability to localize the stimulus. In both cases the results may be explained by an overactivation of the 'medial pain system', in one patient due to deafferentation of cortical sensory areas by a capsular lesion, and in the other to imbalance between A-delta and C fiber excitation due to peripheral nerve injury. Our results suggest that LEPs, as currently recorded, reflect the activity of a 'lateral' pain system subserved by rapidly conducting fibers. They may therefore, assess the sensory and cognitive dimensions of pain, but may not index adequately the affective-emotional aspects of pain sensation conveyed by the 'medial' pain system. The dissociation between pain sensation and cortical EPs deserve to be added to the current semiology of LEPs, as the presence of abnormal pain to laser on the background of reduced LEPs substantiates the neuropathic nature of the pain.- - - - - - - - - - ranking = 1keywords = nerve (Clic here for more details about this article) |
2/6. Acute painful neuropathy in thallium poisoning.Dysesthesia, allodynia, distal muscle weakness, and sensory impairment were noted in two patients with acute thallium intoxication. Two months later, nerve conduction studies showed an axonal degeneration. sural nerve biopsy disclosed a decreased fiber density in the large myelinated fibers. Quantitative sensory testing also revealed an impairment of pinprick, temperature, and touch sensations. Cutaneous nerve biopsy confirmed a loss of epidermal nerves indicating an involvement of the small sensory nerves.- - - - - - - - - - ranking = 5keywords = nerve (Clic here for more details about this article) |
3/6. Catecholamine-induced excitation of nociceptors in sympathetically maintained pain.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 microl, 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 microl) 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.- - - - - - - - - - ranking = 1keywords = nerve (Clic here for more details about this article) |
4/6. The natural history of acute painful neuropathy in diabetes mellitus.Observations have been made on nine cases of painful diabetic neuropathy of acute onset. All cases were male and all were associated with and preceded by precipitous and severe weight loss. The pain was of a continuous burning quality and experienced mainly in the legs, especially distally. Contact discomfort of the skin was often a troublesome feature, but sensory loss was mild or absent, and reflex loss or depression not invariable. There were no accompanying motor signs. depression and impotence were constant features. The weight loss responded to adequate control of the diabetes with insulin and was followed by improvement in the neuropathy. The severe manifestations subsided in all cases within 10 months, and in most cases within 6 months, and later resolved completely in all except one. No recurrences were observed after follow-up periods of up to 6 years. Abnormalities of nerve conduction were mild or even lacking. sural nerve biopsies from three cases taken in the acute stage showed evidence of active degeneration of myelinated nerve fibres of all diameters and also degeneration of unmyelinated axons. There was a mild degree of demyelination. It is concluded that acute painful diabetic neuropathy is a distinct syndrome, occurring in insulin or noninsulin dependent patients of any duration, and unrelated to other diabetic complications. It is separable from other types of painful diabetic sensory polyneuropathy that have been described.- - - - - - - - - - ranking = 3keywords = nerve (Clic here for more details about this article) |
5/6. The triple cold syndrome. Cold hyperalgesia, cold hypoaesthesia and cold skin in peripheral nerve disease.A syndrome of cold hyperalgesia associated with cold hypoaesthesia is described in 28 patients with peripheral polyneuropathy or mononeuropathy of various aetiologies. A mechanism of sensory disinhibition, where diminished cold-specific A delta input releases cold pain input carried by C nociceptors, is proposed to explain the hyperalgesia. In most patients, the symptomatic skin is abnormally cold. This is a likely consequence of vasospasm, due to sympathetic denervation supersensitivity, caused by dropout of sympathetic efferents as part of the small caliber nerve fibre insult. The term 'triple cold syndrome' is coined to describe this specific pathophysiological condition. Descriptively it is a mirror image of erythralgia, as described by Sir Thomas Lewis (1936) and updated by one of the present authors, a human condition also centred around anomalous primary nociceptor input, in which there is heat hyperalgesia and hot symptomatic skin due to C nociceptor sensitization and vasodilatation from antidromic discharge. Thus, like the latter condition, the triple cold syndrome emerges as an independent clinical entity with definable abnormal mechanisms which should be retrieved out of the all-embracing, descriptive, diagnostic category 'reflex sympathetic dystrophy--causalgia'.- - - - - - - - - - ranking = 5keywords = nerve (Clic here for more details about this article) |
6/6. Dissociated secondary hyperalgesia in a subject with a large-fibre sensory neuropathy.In the skin surrounding a site of injury, hyperalgesia develops to mechanical stimuli. Two types of secondary hyperalgesia (to light touch and punctate stimuli) have recently been differentiated, based on different durations and sizes of the area involved. We studied secondary hyperalgesia in a subject who had a loss of myelinated afferent nerve fibres below the neck that spared the A delta group. Stroking with a cotton swab was not perceived anywhere on affected skin either before or after injection of 60 micrograms of capsaicin. Thus, there was no hyperalgesia to light touch. capsaicin injection into the volar forearm evoked normal pain and flare. A von Frey probe exerting a force of 40 mN was perceived as sharp. The sensation of sharpness was more pronounced up to 2 cm outside the flare zone for at least 16 min following the injection (tested with a 200 mN von Frey probe). Thus, hyperalgesia to punctate stimuli developed as in healthy subjects. These data support the model that hyperalgesia to light touch (allodynia) is due to sensitisation of central pain-signaling neurones to low-threshold mechanoreceptor input (A beta fibres). In contrast, punctate hyperalgesia is likely to be due to sensitisation to nociceptor input (A delta or C fibres).- - - - - - - - - - ranking = 1keywords = nerve (Clic here for more details about this article) |