Search results for "BRAIN-STIMULATION"

showing 4 items of 4 documents

Direct activation of zebrafish neurons by ultrasonic stimulation revealed by whole CNS calcium imaging

2020

Abstract Objective. Ultrasounds (US) use in neural engineering is so far mainly limited to ablation through high intensity focused ultrasound, but interesting preliminary results show that low intensity low frequency ultrasound could be used instead to modulate neural activity. However, the extent of this modulatory ability of US is still unclear, as in in vivo studies it is hard to disentangle the contribution to neural responses of direct activation of the neuron by US stimulation and indirect activation due either to sensory response to mechanical stimulation associated to US, or to propagation of activity from neighboring areas. Here, we aim to show how to separate the three effects and…

Ultrasonic Therapy0206 medical engineeringBiomedical EngineeringCalcium imagingStimulationSensory systembrain-stimulation02 engineering and technologysystem03 medical and health sciencesCellular and Molecular NeuroscienceUltrasounds0302 clinical medicineCalcium imagingmedicineAnimalsZebrafishZebrafishNeuronscalcium imaging ultrasonic stimulation ultrasound zebrafishSensory stimulation therapybiologyCalcium imaging; Neuromodulation; Ultrasounds; ZebrafishNeuromodulationneuromodulation; zebrafish; ultrasounds; calcium imagingtranscranial focused ultrasoundNeural engineeringbiology.organism_classification020601 biomedical engineeringNeuromodulation (medicine)cellular resolutionmedicine.anatomical_structureLarvaCalciumNeuronNeuroscience030217 neurology & neurosurgeryneurostimulation
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Anodal tDCS over the left prefrontal cortex does not cause clinically significant changes in circulating metabolites

2020

Background: Transcranial direct current stimulation (tDCS), a putative treatment for depression, has been proposed to affect peripheral metabolism. Metabolic products from brain tissue may also cross the blood–brain barrier, reflecting the conditions in the brain. However, there are no previous data regarding the effect of tDCS on circulating metabolites.\ud Objective: To determine whether five daily sessions of tDCS modulate peripheral metabolites in healthy adult men.\ud Methods: This double-blind, randomized controlled trial involved 79 healthy males (aged 20–40 years) divided into two groups, one receiving tDCS (2 mA) and the other sham stimulated. The anode was placed over the left dor…

Metabolitemedicine.medical_treatmentPhysiologyStimulationSELECT-TDCS3124 Neurology and psychiatrylaw.inventionchemistry.chemical_compound0302 clinical medicineRandomized controlled triallawlcsh:PsychiatryMedicineaivotutkimustESMOTOR CORTEXaineenvaihduntaTRANSCRANIAL DC STIMULATIONOriginal Researchmass spectrometryPsychiatryTranscranial direct-current stimulationVenous bloodDEPRESSION3. Good healthPeripheralPsychiatry and Mental healthmedicine.anatomical_structureMENSTRUAL-CYCLEaivotMotor cortexmasennuslcsh:RC435-571brain stimulationSERTRALINE03 medical and health sciencesMETAANALYSISbusiness.industryDIRECT-CURRENT STIMULATIONEFFICACYneurotieteet030227 psychiatryBRAIN-STIMULATIONaivokuorichemistryBrain stimulationaineenvaihduntatuotteettranscranial direct current stimulationbusinessmetabolism030217 neurology & neurosurgery
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Neuromodulation of chronic headaches: position statement from the European Headache Federation

2013

The medical treatment of patients with chronic primary headache syndromes (chronic migraine, chronic tension-type headache, chronic cluster headache, hemicrania continua) is challenging as serious side effects frequently complicate the course of medical treatment and some patients may be even medically intractable. When a definitive lack of responsiveness to conservative treatments is ascertained and medication overuse headache is excluded, neuromodulation options can be considered in selected cases.Here, the various invasive and non-invasive approaches, such as hypothalamic deep brain stimulation, occipital nerve stimulation, stimulation of sphenopalatine ganglion, cervical spinal cord sti…

TRANSCRANIAL MAGNETIC STIMULATIONDeep Brain Stimulationmedicine.medical_treatmentSPGSPINAL-CORD STIMULATIONDBSARTERIAL BLOOD-PRESSUREtDCS0302 clinical medicinechronic headachetmsVNSMedicine and Health Sciencesmigraine030212 general & internal medicineHUMAN MOTOR CORTEXeuropean headache federationVAGAL AFFERENT STIMULATIONTranscranial direct-current stimulationspgHeadacheEuropean headache federationcluster headacheHemicrania continuadbsGeneral MedicineTranscranial Magnetic StimulationNeuromodulation (medicine)3. Good healthConsensus ArticleChronic headachevnsSettore MED/26 - NeurologiaDEEP-BRAIN-STIMULATIONChronic PainHeadachesmedicine.symptomVagus nerve stimulationUNILATERAL NEURALGIFORM HEADACHEneurostimulationmedicine.medical_specialtyPOSTERIOR HYPOTHALAMIC AREACluster headacheHeadache DisordersTENSClinical NeurologyElectric Stimulation TherapyONS03 medical and health sciencesPhysical medicine and rehabilitationmedically intractable headachemedicineHumansdbs; spg; tdcs; tms; ons; medically intractable headache; migraine; european headache federation; neurostimulation; gon; cluster headache; tens; vns; chronic headacheGONNeurostimulationNeurostimulationMigraineOCCIPITAL NERVE-STIMULATIONtdcsMedically intractable headachebusiness.industryCluster headachemedicine.diseaseonsAnesthesiology and Pain MedicineMigraineTMSPhysical therapytensChronic headache; Medically intractable headache; Neurostimulation; SPG; DBS; GON; tDCS; TMS; ONS; TENS; VNS; Migraine; Cluster headache; European headache federationgonNeurology (clinical)businessCHRONIC CLUSTER HEADACHE030217 neurology & neurosurgery
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Motor intracortical inhibition in PD: L-DOPA modulation of high-frequency rTMS effects

2007

Dopaminergic drugs and deep brain stimulation restore cortical inhibition in Parkinson disease (PD) patients. High-frequency rTMS was also found to increase cortical inhibition in PD but its therapeutic effect is still controversial. Here we hypothesize that, if dopaminergic drugs reverse to normal cortical excitability in M1, the effect of high-frequency (hf)-rTMS in PD patients could depend on whether they are in a medicated or unmedicated state. The present study aims to explore the lasting effects of sub-threshold hf rTMS trains over M1 on cortical inhibition in patients with "on" and without "off" L-DOPA treatment. Fourteen PD patients were examined twice while "on" and "off" medicatio…

Malemedicine.medical_specialtyNeurologyDeep brain stimulationCORTICAL SILENT PERIODmedicine.medical_treatmentStimulationMotor ActivityInhibitory postsynaptic potentialPAIRED-PULSE INHIBITIONAntiparkinson AgentsLevodopaDegenerative diseaseEVOKED-POTENTIALSmedicineHumansCORTEX EXCITABILITYAgedAged 80 and overSUBTHALAMIC NUCLEUSPARKINSONS-DISEASE PATIENTSGeneral NeuroscienceDopaminergicMotor CortexNeural InhibitionParkinson DiseaseMiddle Agedmedicine.diseaseFACILITATIONCombined Modality TherapyTranscranial Magnetic StimulationTranscranial magnetic stimulationBRAIN-STIMULATIONmedicine.anatomical_structureSettore MED/26 - NeurologiaFemaleREPETITIVE TMSPsychologyNeuroscienceMotor cortexExperimental Brain Research
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