Showing papers by "Lino Nobili published in 2011"

Complex movement disorders at disease onset in childhood narcolepsy with cataplexy

Abstract: Narcolepsy with cataplexy is characterized by daytime sleepiness, cataplexy (sudden loss of bilateral muscle tone triggered by emotions), sleep paralysis, hypnagogic hallucinations and disturbed nocturnal sleep. Narcolepsy with cataplexy is most often associated with human leucocyte antigen-DQB1*0602 and is caused by the loss of hypocretin-producing neurons in the hypothalamus of likely autoimmune aetiology. Noting that children with narcolepsy often display complex abnormal motor behaviours close to disease onset that do not meet the classical definition of cataplexy, we systematically analysed motor features in 39 children with narcolepsy with cataplexy in comparison with 25 age- and sex-matched healthy controls. We found that patients with narcolepsy with cataplexy displayed a complex array of ‘negative’ (hypotonia) and ‘active’ (ranging from perioral movements to dyskinetic‐dystonic movements or stereotypies) motor disturbances. ‘Active’ and ‘negative’ motor scores correlated positively with the presence of hypotonic features at neurological examination and negatively with disease duration, whereas ‘negative’ motor scores also correlated negatively with age at disease onset. These observations suggest that paediatric narcolepsy with cataplexy often co-occurs with a complex movement disorder at disease onset, a phenomenon that may vanish later in the course of the disease. Further studies are warranted to assess clinical course and whether the associated movement disorder is also caused by hypocretin deficiency or by additional neurochemical abnormalities.

Insular‐opercular seizures manifesting with sleep‐related paroxysmal motor behaviors: A stereo‐EEG study

Abstract: Summary Purpose: Sleep-related complex motor seizures are a common feature of nocturnal frontal lobe epilepsy. Nevertheless, recent studies also suggest that sleep-related hypermotor seizures can originate in the insula. The present study describes the electroclinical features of eight drug-resistant epileptic patients with insular-opercular seizures manifesting with nocturnal complex motor seizures. Methods: Patients underwent a comprehensive presurgical evaluation, which included history, interictal electroencephalography (EEG), scalp video-EEG monitoring, high-resolution magnetic resonance imaging (MRI), and intracerebral recording by stereo-EEG. Key Findings: Almost all patients reported an initial sensation consisting of viscerosensitive or somatosensory symptoms. Ictal clinical signs were represented by tonic–dystonic asymmetric posturing and/or hyperkinetic automatisms, including bimanual/bipedal activity and ballistic movements. Some patients exhibited dysarthric speech, hypersalivation, and apnea. Interictal and ictal EEG provided lateralizing information in the majority of patients. In three patients, MRI showed a focal anatomical abnormality in the insular-opercular region. Stereo-EEG ictal recordings demonstrated that the epileptic discharge involved simultaneously the insular cortex and the opercular region. Complex motor manifestations appeared when the ictal discharge showed an extrainsular spreading to frontomesial regions (cingulum, superior frontal gyrus, and supplementary motor area) and/or to internal and neocortical temporal lobe structures. Six patients received an insular-opercular cortical resection; three of them are seizure free (minimum follow-up 24 months) and in one a marked reduction in seizure frequency was obtained. Two patients have been operated on recently. Histology revealed a focal cortical dysplasia in three patients. One patient excluded from surgery died for sudden unexpected death in epilepsy during sleep. Significance: Our data strengthen the concept that sleep-related complex motor attacks can originate in the insula, and provide useful electroclinical information to differentiate this localization from those with similar clinical characteristics. Furthermore, this study indicates that in these drug-resistant patients, surgical treatment represents a highly effective treatment option.

Nocturnal frontal lobe epilepsy presenting with restless leg syndrome-like symptoms.

Abstract: We describe the case of a 22-year-old male affected by NFLE reporting paroxysmal RLS-like symptoms. The patient was referred to our Sleep Center due to nocturnal paresthesias and cramps involving the left leg and leading to sleep fragmentation. At age 4, the patient presented with secondary generalized seizures preceded by left leg discomfort, controlled on CBZ. After successive therapy discontinuation, leg symptoms built up in frequency and duration until a secondary generalized seizure re-occurred. On CBZ prompt resumption no further GM seizures occurred albeit persistence of night-time frequent cramps and paraesthesia. Sleep EEG demonstrated asymmetric interictal sharp theta on the right posterior frontal areas, whereas brain MRI results were consistent with a Taylor type right frontal cortical dysplasia. CBZ augmentation and add on therapy with LEV led to further frequency reduction of sensory symptoms.

Stimulus-induced, sleep-bound, focal seizures: a case report.

Abstract: In nocturnal frontal lobe epilepsy (NFLE), seizures occur almost exclusively during NREM sleep. Why precisely these seizures are sleep-bound remains unknown. Studies of patients with nonlesional familial forms of NFLE have suggested the arousal system may play a major role in their pathogenesis. We report the case of a patient with pharmaco-resistant, probably cryptogenic form of non-familial NFLE and strictly sleep-bound seizures that could be elicited by alerting stimuli and were associated with ictal bilateral thalamic and right orbital-insular hyperperfusion on SPECT imaging.

Studying functional networks in human brain through intracerebral spontaneous EEG

Abstract: Several experiments have demonstrated that spontaneous brain activity is not random. Atthe level of large-scale neural systems, the ongoing activity measured with functional MRI(fMRI) reflects the organization of a series of highly coherent functional networks [1]. Al-though methodologies based on fMRI are highly reliable in spatial resolution, they lack timeresolution, which is indeed the strength of EEG-based methodologies. However, using EEGfor studying functional connectivity is severely limited by volume conduction and its accuracystrongly depends on source modelling. To avoid these problems we propose an approachbased on intra-cerebral EEG recordings (stereo-EEG - SEEG) in humans. In the presentwork we have applied a graph theoretical approach to analyze a set of SEEG signals, ac-quired during a resting-state condition. With the developed tools we are able to investigatethe salient characteristics of the brain regions involved and to find preferred pathways andconnection hubs.