Search results for "Neurologi"

showing 10 items of 1189 documents

Binding of flunitrazepam to differentiating neurons cultured in a chemically defined, hormone-supplemented medium

1990

[3H]Flunitrazepam (FNZ) binding to cortical neurons from fetal rat brain was investigated in vitro. The use of a synthetic medium specific for neurons made it possible to plot a developmental curve of3H-FNZ binding in an almost pure neuronal culture. Detectable specific binding was present in vitro at time 0 (that is, the 16th gestational day). A progressive increase of binding, due to an increment in the number of recognition sites, was observed on the subsequent days. The affinity of the specific binding sites to3H-FNZ was enhanced by the addition of exogenous GABA, whereas the density was not affected. © 1990 Plenum Publishing Corporation.

Central nervous systemFlunitrazepamBiologySettore BIO/19 - Microbiologia GeneraleBiochemistrygamma-Aminobutyric acidGABACellular and Molecular NeurosciencemedicineAnimalsBinding siteCells Culturedgamma-Aminobutyric AcidNeuronsFetusCell DifferentiationGeneral MedicineHormonesIn vitroCulture MediaCell biologymedicine.anatomical_structureneuronal cultureCell cultureCerebral cortexSettore MED/26 - NeurologiaFlunitrazepamNeurosciencemedicine.drugNeurochemical Research
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Effects of Neuromodulation on Gait

2018

In the last decades, non-invasive brain stimulation (NIBS) has evolved to become a valuable tool in both basic and clinical neuroscience. Various methods of transcranial magnetic stimulation (TMS) and transcranial electrical stimulation (TES) have been widely used for diagnostic, prognostic and even therapeutic applications in a broad range of neurological and psychiatric disorders. The rationale for using NIBS techniques lies in the possibility to modulate, in a targeted manner, the activity of different cerebral and cerebellar cortical regions, as well as the functional connections between these areas and distant brain regions also including subcortical structures. The neural circuitry in…

CerebellumCerebellar ataxiaClinical neurosciencebusiness.industrymedicine.medical_treatmentmedicine.diseaseNeuromodulation (medicine)Transcranial magnetic stimulationGait (human)medicine.anatomical_structureNIBS TMS rTMS tES balance gaitBrain stimulationmedicineSettore MED/26 - Neurologiamedicine.symptombusinessSpinal cord injuryNeuroscience
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Computation of inverse functions in a model of cerebellar and reflex pathways allows to control a mobile mechanical segment.

2003

Abstract The command and control of limb movements by the cerebellar and reflex pathways are modeled by means of a circuit whose structure is deduced from functional constraints. One constraint is that fast limb movements must be accurate although they cannot be continuously controlled in closed loop by use of sensory signals. Thus, the pathways which process the motor orders must contain approximate inverse functions of the bio-mechanical functions of the limb and of the muscles. This can be achieved by means of parallel feedback loops, whose pattern turns out to be comparable to the anatomy of the cerebellar pathways. They contain neural networks able to anticipate the motor consequences …

CerebellumEfferentMovementModels NeurologicalSensory systemOlivary NucleusCerebellar CortexArtificial IntelligenceCerebellumNeural PathwaysReflexmedicineSet (psychology)Muscle SkeletalRed NucleusMotor NeuronsNeuronsArtificial neural networkGeneral NeuroscienceSupervised learningExtremitiesBiomechanical Phenomenamedicine.anatomical_structureMemory Short-TermCerebellar NucleiCerebellar cortexReflexNeural Networks ComputerPsychologyNeuroscienceAlgorithmsMuscle ContractionNeuroscience
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The role of transcranial magnetic stimulation in the study of cerebellar cognitive function.

2007

Transcranial magnetic stimulation (TMS) allows non-invasive stimulation of brain structures. This technique can be used either for stimulating the motor cortex, recording motor evoked potentials from peripheral muscles, or for modulating the excitability of other non-motor areas in order to establish their necessity for a given task. TMS of the cerebellum can give interesting insights on the cerebellar functions. Paired-TMS techniques, delivering stimuli over the cerebellum followed at various interstimulus intervals by stimuli over the motor cortex, allow studying the pattern of connectivity between the cerebellum and the contralateral motor cortex in physiological as well as in pathologic…

CerebellumElementary cognitive taskAnimals; Humans; Cerebellum; Transcranial Magnetic Stimulation; Cognitionmedicine.medical_treatmentCerebellum; Cognitive functions; TMS;Muscle memorybehavioral disciplines and activitiesProcedural memoryNOCognitionCerebellummedicineAnimalsHumanscerebellum; cognitive functions; tmsWorking memoryCognitionTranscranial Magnetic StimulationCognitive functionsTranscranial magnetic stimulationmedicine.anatomical_structurenervous systemNeurologyTMSSettore MED/26 - NeurologiaNeurology (clinical)PsychologyNeuroscienceMotor cortexCerebellum (London, England)
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Semaphorin 6A Improves Functional Recovery in Conjunction with Motor Training after Cerebral Ischemia

2010

Stroke is a major health problem in industrialized societies. Despite numerous attempts at developing acute stroke therapies aimed at minimizing acute infarct development, the only approved therapy so far is recombinant tissue plasminogen activator (rtPA). In recent years, the attention of the stroke community has therefore also put increased emphasis on understanding processes of post-stroke recovery, and their potential exploitability for therapeutic purposes. The brain has a remarkable ability to adapt to changes after stroke. Mechanisms that contribute to this plasticity are re-mapping and expansion of cortical areas to neighboring regions of functional motor cortex areas after injury […

CerebellumPathologymedicine.medical_specialtyanimal structures610lcsh:MedicineSemaphorinsMotor ActivityBiologyBrain IschemiaCell LineNeuroscience/Motor SystemsSemaphorinPhysical Conditioning AnimalCortex (anatomy)NeuroplasticitymedicineAnimalsHumanslcsh:ScienceMultidisciplinarylcsh:RNeurogenesisNeurological Disorders/Cerebrovascular DiseaseRecovery of FunctionDependovirusRatsStrokemedicine.anatomical_structurenervous systemembryonic structuresCorticospinal tractlcsh:QAxon guidancesense organsNeuroscience/Neurobiology of Disease and RegenerationNeurosciencePsychomotor PerformanceResearch ArticleMotor cortexPLoS ONE
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Morphometric magnetic resonance imaging cortico-subcortical features in Parkinson's disease with mild cognitive impairment

2022

Background and purpose Parkinson's disease (PD) patients with cognitive impairment undergo progressive atrophy of several cortical and subcortical areas. The aim was to study the magnetic resonance imaging (MRI) morphometric features of PD patients with mild cognitive impairment (MCI). Methods Patients from the Parkinson's Disease Cognitive Impairment Study (PACOS) cohort with an available structural volumetric brain MRI and morphometric measurements of the midbrain and pons areas, middle cerebellar peduncle, superior cerebellar peduncle width and midbrain anteroposterior diameter (A-Pdiam) were included. MCI was diagnosed according to the Movement Disorder Society level II criteria. Additi…

Cerebral CortexMaleParkinson's diseaseParkinson DiseasemidbrainNeuropsychological TestsbrainstemNeurologyParkinson’s diseaseHumansmagnetic resonance imagingCognitive DysfunctionFemaleSettore MED/26 - NeurologiaNeurology (clinical)Atrophycognitive impairment
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Analysis of neuronal networks in the visual system of the cat using statistical signals--simple and complex cells. Part II.

1978

Superimposing additively a two-dimensional noise process to deterministic input signals (bars) the neurons of area 17 show a class-specific reaction for the task of signal extraction. Moving both parts of the signals simultaneously and varying the signal to noise ratio (S/N) the simple cells achieve the same performance as resulted from the psychophysical experiment. Type I complex cells extract moving deterministic signals (i.e. bars) from the stationary noise, whereas in the answers of Type II complex cells the statistical parts of the signals predominate. Considering the different cell types each as a series of a linear and a nonlinear system one obtains the cell specific space-time freq…

Cerebral CortexNeuronsGeneral Computer ScienceSeries (mathematics)Noise (signal processing)Computer scienceSpeech recognitionModels NeurologicalStatistics as TopicProcess (computing)Complex systemElectrophysiologyForm PerceptionNonlinear systemAmplitudeSignal-to-noise ratioPattern Recognition VisualSimple (abstract algebra)CatsAnimalsVisual PathwaysBiological systemMathematicsBiotechnologyBiological cybernetics
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On localization of moving objects in the visual system of cats.

1980

In cortical areas direction-specific receptive fields occur systematically. Direction specifity is based on unsymmetric coupling of neurons. Such a coupling allows an exact localization of moved stimuli. For this task, the asymmetry in the time domain is compensated for by a spatial asymmetry.

Cerebral CortexQuantitative Biology::Neurons and CognitionGeneral Computer Sciencebusiness.industrymedia_common.quotation_subjectModels NeurologicalMotion PerceptionAsymmetryCoupling (electronics)Receptive fieldSpace PerceptionTime PerceptionCatsVisual PerceptionAnimalsComputer visionTime domainArtificial intelligenceNerve NetbusinessBiotechnologyMathematicsmedia_commonBiological cybernetics
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Bilateral ptosis and internuclear ophthalmoplegia in a case of bilateral thalamic and midbrain Infarct.

2008

Cerebro-vascular disease ophthalmoplegiaSettore MED/26 - Neurologia
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Analysis of neuronal networks in the visual system of the cat using statistical signals

1976

If the input signals of the visual system in the cat are statistical patterns in space and time, a complete system analysis can be carried out. What counts here as a system are the neuronal networks between retina and recording site. In the case of linearity, one obtains the temporal impulse response functions at every point in the receptive field with the aid of correlation methods. The measuring time is about one minute. Some aspects of the procedure are explained in terms of examples. The method of measurement also makes it possible to determine the characteristic function of the system in time and space between different recording sites within the cortex. It is possible to specialize th…

Characteristic function (convex analysis)Systems AnalysisGeneral Computer ScienceModels NeurologicalStatistics as TopicComplex systemLinearityNonlinear systemSimple (abstract algebra)Receptive fieldCatsElectronic engineeringAnimalsVisual PathwaysPoint (geometry)AlgorithmImpulse responseBiotechnologyMathematicsBiological Cybernetics
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