24 research outputs found

    Neurophysiological and BOLD signal uncoupling of giant somatosensory evoked potentials in progressive myoclonic epilepsy: a case-series study

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    In progressive myoclonic epilepsy (PME), a rare epileptic syndrome caused by a variety of genetic disorders, the combination of peripheral stimulation and functional magnetic resonance imaging (fMRI) can shed light on the mechanisms underlying cortical dysfunction. The aim of the study is to investigate sensorimotor network modifications in PME by assessing the relationship between neurophysiological findings and blood oxygen level dependent (BOLD) activation. Somatosensory-evoked potential (SSEP) obtained briefly before fMRI and BOLD activation during median-nerve electrical stimulation were recorded in four subjects with typical PME phenotype and compared with normative data. Giant scalp SSEPs with enlarger N20-P25 complex compared to normal data (mean amplitude of 26.2\u2009\ub1\u20098.2\u2009\u3bcV after right stimulation and 27.9\u2009\ub1\u20093.7\u2009\u3bcV after left stimulation) were detected. Statistical group analysis showed a reduced BOLD activation in response to median nerve stimulation in PMEs compared to controls over the sensorimotor (SM) areas and an increased response over subcortical regions (p\u2009\u20092.3, corrected). PMEs show dissociation between neurophysiological and BOLD findings of SSEPs (giant SSEP with reduced BOLD activation over SM). A direct pathway connecting a highly restricted area of the somatosensory cortex with the thalamus can be hypothesized to support the higher excitability of these areas

    Multifactorial etiological aspects of epilepsy

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    The results of a computerized analysis of 555 newly recognized idiopathic epilepsy patients (301 males and 254 females) are presented. All patients were under 30 years over the period 1980-1985. The possible prenatal and perinatal risk factors (RFs) for epilepsy were investigated. The data showed that 307 patients (55.5%) had possible RFs; 162 had one possible RF, 145 two or more. The association of two or more RFs had a high frequency in secondary generalized epilepsy (66.6%) and in partial epilepsy. A multifactorial etiology of epilepsy is suggested, hypothesizing a connection either between prenatal and perinatal RFs or between multiple perinatal RFs

    Local neurotoxicity of cisplatin after intra-arterial chemotherapy

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    Acute cranial neuropathy followed intra-arterial chemotherapy with Cisplatin for a squamous cell cancer of the mouth. The favourable course, histological studies and local trophic impairment suggested local neurotoxicity due to Cisplatin accumulation in cranial nerves. The patient was the first to develop such a toxic effect in a series of 35 consecutive patients treated with the same therapy

    Organic nanofibers as new media for lasing, waveguiding and photonic sensing

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    We report waveguide amplification of spontaneous emission and coherent random laser action in individual self-assembled organic nanofibers grown by high-vacuum deposition. The interpretation of the experimental results is given on the basis of simple models, including transfer matrix calculations in one-dimensionally disordered structures. We present also the numerical results for light scattering from a nanofiber which can be used as a basis for further experiments

    A multimodal imaging approach to the evaluation of post-traumatic epilepsy

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    Electroencephalography-functional magnetic resonance imaging (EEG-fMRI) coregistration and high-density EEG (hdEEG) can be combined to map noninvasively abnormal brain activation elicited by epileptic processes. By combining noninvasive imaging techniques in a multimodal approach, we sought to investigate pathophysiological mechanisms underlying epileptic activity in seven patients with severe traumatic brain injury
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