Search results for "action potential"

showing 3 items of 233 documents

Spinal and supraspinal mechanisms affecting torque development at different joint angles

2015

INTRODUCTION We examined the neural mechanisms responsible for plantar flexion torque changes at different joint positions. METHODS Nine subjects performed maximal voluntary contractions (MVC) at 6 ankle-knee angle combinations [3 ankle angles (dorsiflexion, anatomic position, plantar flexion) and 2 knee angles (flexion, full extension)]. Neural mechanisms were determined by V-wave, H-reflex (at rest and during MVC), and electromyography during MVC (RMS), normalized to the muscle compound action potential (V/Msup, Hmax/Mmax, Hsup Msup and RMS/Msup) and voluntary activation (VA), while muscle function was assessed by doublet amplitude. RESULTS MVC and doublet amplitude were significantly low…

musculoskeletal diseasesmedicine.medical_specialtyPhysiologyElectromyographyKnee Joint03 medical and health sciencesCellular and Molecular Neuroscience0302 clinical medicinePhysical medicine and rehabilitationPhysiology (medical)MedicineTorqueJoint (geology)medicine.diagnostic_testbusiness.industry030229 sport sciencesAnatomymusculoskeletal systemCompound muscle action potentialbody regionsmedicine.anatomical_structureNeurology (clinical)Anklemedicine.symptomH-reflexbusinesshuman activities030217 neurology & neurosurgeryMuscle contractionMuscle & Nerve
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Burst analysis tool for developing neuronal networks exhibiting highly varying action potential dynamics

2012

In this paper we propose a firing statistics based neuronal network burst detection algorithm for neuronal networks exhibiting highly variable action potential dynamics. Electrical activity of neuronal networks is generally analyzed by the occurrences of spikes and bursts both in time and space. Commonly accepted analysis tools employ burst detection algorithms based on predefined criteria. However, maturing neuronal networks, such as those originating from human embryonic stem cells (hESCs), exhibit highly variable network structure and time-varying dynamics. To explore the developing burst/spike activities of such networks, we propose a burst detection algorithm which utilizes the firing …

purskeanalyysispike trainsQuantitative Biology::Neurons and CognitiontoimintapotentiaalipurskeetMEAmicroelectrode arrayaction potential burstsdeveloping neuronal networksihmisalkion kantasoluhuman embryonic stem cellssoluttoimintapotentiaaliryhmätnervous systemhESCsmikroelektordihilakehittyvät hermoverkotburst analysis
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A Novel Pathophysiological Mechanism Contributing to Trigeminal Neuralgia

2016

Trigeminal neuralgia (TN) is a form of neuropathic pain that affects the fifth cranial nerve, the most widely distributed nerve in the head. Although TN has been associated with a variety of pathological conditions, neurovascular compression on the trigeminal nerve, as it exits the brain stem, is the most frequent reported cause. This compression provides a progressive demyelination of the nerve and a subsequent aberrant neural transmission. Although several studies have clarified some physiopathological mechanisms underlying TN, the molecular basis remains vague. Very recently the substitution of methionine 136 by valine (MET126Val) in sodium channel Nav1.6 in a case study of typical TN ha…

trigeminal ganglionlcsh:Biochemistry03 medical and health sciencesTrigeminal ganglion0302 clinical medicineaction potentialTrigeminal neuralgianeurovascualr compressionGeneticsmedicinelcsh:QD415-436Molecular BiologyPathologicalTrigeminal neuralgia; action potential; molecular mechanism; neurovascualr compression; trigeminal ganglionGenetics (clinical)Trigeminal nervebusiness.industrySodium channellcsh:RM1-950medicine.diseasePathophysiologylcsh:Therapeutics. Pharmacology030220 oncology & carcinogenesisAnesthesiaNeuropathic painMolecular MedicineBrainstemmolecular mechanismbusinessNeuroscience030217 neurology & neurosurgeryTrigeminal neuralgiaResearch Article
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