Pain
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Current concepts of memory storage are largely based on Hebbian-type synaptic long-term potentiation induced by concurrent activity of pre- and postsynaptic neurons. Little is known about non-Hebbian synaptic plasticity, which, if present in nociceptive pathways, could resolve a number of unexplained findings. We performed whole-cell patch-clamp recordings in rat spinal cord slices and found that a rise in postsynaptic [Ca(2+)]i due to postsynaptic depolarization was sufficient to induce synaptic long-term potentiation (LTP) in the absence of any presynaptic conditioning stimulation. ⋯ The paired pulse ratio and the coefficient of variation remained unchanged in neurons expressing LTP, suggesting that this form of synaptic potentiation was not only induced, but also expressed postsynaptically. Postsynaptic depolarization had no influence on firing patterns, action potential shape, or neuronal excitability. An increase in [Ca(2+)]i in spinal lamina I neurons induces a non-Hebbian form of synaptic plasticity in spinal nociceptive pathways without affecting neuronal active and passive membrane properties.
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In cluster headache (CH), pathogenesis has been emphasized the role of the posterior hypothalamus. It is part of a supraspinal network involved in the descending control of pain, including the diffuse noxious inhibitory control (DNIC), which in turn modulates the pain processing. We hypothesized that CH during the active phase facilitated temporal pain processing supported by abnormal functioning of the DNIC. ⋯ During the active phase, CH revealed a significant facilitation in temporal processing of pain stimuli (reduction of TST), which reverted during the remission phase. The CPT activating the DNIC did not produce any significant inhibitory effect of pain responses in CH during the active phase, whereas it induced a clear inhibition during the remission phase. We hypothesized that in CH, a dysfunction of the supraspinal control of pain related to the clinical activity of the disease, possibly supported by an abnormal hypothalamic function, leads to a facilitation in pain processing and a predisposition to pain attacks.
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Migraine with aura is associated with an increased incidence of stroke and cardiovascular disease, but the biological mechanisms are poorly understood. This study examined the incidence of metabolic syndrome and its relationship to migraine with and without aura and to nonmigraine headache. In the population-based the Nord-Trøndelag Health Study (HUNT), 19,895 individuals were followed for the development of metabolic syndrome, with a median follow-up time of 11.3 years. ⋯ A moderate risk increase was seen for migraine without aura (IRR 1.26, 95% CI 1.12-1.42) and nonmigraine headache (IRR 1.22, 95% CI 1.13-1.32), not modified by smoking. The results suggest that traditional risk factors may be one of the mechanisms through which migraine with aura is linked to an increased risk for cardiovascular disease. A heightened vigilance concerning cardiovascular risk factors in this patient group may be warranted.