Search results for "Evoked field"

showing 5 items of 5 documents

Acute Exercise Modulates Pain-induced Response on Sensorimotor Cortex ∼20 Hz Oscillation.

2019

Exercise affects positively on self-reported pain in musculoskeletal pain conditions possibly via top-down pain inhibitory networks. However, the role of cortical activity in these networks is unclear. The aim of the current exploratory study was to investigate the effects of acute exercise on cortical nociceptive processing and specifically the excitability in the human sensorimotor cortex. Five healthy adults (mean age 32.8 years) were recorded with a whole-head 306-channel magnetoencephalography (MEG, Elekta Neuromag® Triux™). Participant’s right hand third fingertip was stimulated electrically with an intracutaneous non-magnetic copper tip electrode before and immediately after an exerc…

0301 basic medicineAdultbrain oscillationsPainStimulationEvoked fieldIsometric exerciseliikuntaStimulus (physiology)Inhibitory postsynaptic potentialSomatosensory systemkivunhoito03 medical and health sciences0302 clinical medicineEvoked Potentials SomatosensorymedicineHumanselectrical stimulationsensorimotor cortexExerciseMEGexercisemedicine.diagnostic_testbusiness.industryGeneral NeuroscienceMagnetoencephalographyMagnetoencephalographySomatosensory Cortexaivokuori030104 developmental biologyNociceptionmagnetoencephalographstimulointiSensorimotor CortexbusinessNeuroscience030217 neurology & neurosurgeryliikuntahoitoNeuroscience
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Unilateral medial forebrain bundle activation selectively enhances conditioned orienting head turns and ipsilateral cingulate cortex evoked field res…

1994

Effects of a unilateral medial forebrain bundle (MFB) stimulation unconditioned stimulus (US) on conditioned head turn and bilateral cingulate cortex field potentials were studied in cats. Conditioned stimuli (CSs) of different frequences were given randomly to either ear. The CS+ was followed by the US, and the CS— was presented alone. Before conditioning most cats predominantly turned toward the ear to which the CSs were presented, whereas after conditioning the head turns were in one direction, most prominently contralateral to the US. Negative field potentials were greater in the cingulate cortex ipsilateral to the US than in the cingulate cortex contralateral to the US. Cross correlati…

Cingulate cortexPhysiologybusiness.industryGeneral NeuroscienceClassical conditioningBody movementEvoked fieldLateralityMedicinePremovement neuronal activityEvoked potentialMedial forebrain bundlebusinessNeurosciencePsychobiology
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Somatosensory evoked fields after exercise induced pain

2017

The amount of research utilizing magnetoencephalography (MEG) has increased within the last few decades because of the development and better availability of equipment. With MEG, different areas of brain functionality can be studied in a variety of tasks and pathologies. Somatosensory evoked fields (SEF) are magnetic fields generated by tens of thousands of neurons firing in the primary somatosensory cortex. The purpose of this master’s thesis is to study the modulation of SEFs after exercise induced pain. The study was carried out in Jyväskylä Centre for Interdisciplinary Brain Research (CIBR). The study subjects (N=18, male 10, female 8) were healthy and suitable for MEG measurements. Dat…

magnetoencephalographyMEGsomatosensory evoked fieldsphysical activityneurofysiologiakipupainlihaksetliikunta
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Proprioceptive response strength in the primary sensorimotor cortex is invariant to the range of finger movement

2023

Available online 13 February 2023 Proprioception is the sense of body position and movement that relies on afference from the proprioceptors in muscles and joints. Proprioceptive responses in the primary sensorimotor (SM1) cortex can be elicited by stim- ulating the proprioceptors using evoked (passive) limb movements. In magnetoencephalography (MEG), propri- oceptive processing can be quantified by recording the movement evoked fields (MEFs) and movement-induced beta power modulations or by computing corticokinematic coherence (CKC) between the limb kinematics and cortical activity. We examined whether cortical proprioceptive processing quantified with MEF peak strength, relative beta supp…

movement rangeAccelerationSomatosensoryproprioseptioMechanoreceptorsomatosensoryrange of motionmovement evoked fieldsMagnetoencelphalographyMuscle spindleMovement evoked fieldBeta modulationCortico-kinematic coherenceRange of motionPassive movementjerk of movementMEGliikeaistisormetaccelerationProprioceptionliikeSensorimotor cortexaivokuoriKinesthesiacorticokinematic coherenceMovement evoked fieldsaivotkinesthesiamuscle spindlemechanoreceptorasennot (ruumiinasennot)Corticokinematic coherence
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Corticokinematic coherence is stronger to regular than irregular proprioceptive stimulation of the hand

2021

Funding Information: This study was supported by the Academy of Finland “Brain changes across the life-span” profiling funding to University of Jyva€skyla€. H. Piitulainen was supported by Academy of Finland (Grants 296240, 326988, 307250, and 327288) and Jane and Aatos Erkko Foundation. Publisher Copyright: © 2021 the American Physiological Society. Proprioceptive afference can be investigated using corticokinematic coherence (CKC), which indicates coupling between limb kinematics and cortical activity. CKC has been quantified using proprioceptive stimulation (movement actuators) with fixed interstimulus interval (ISI). However, it is unclear how regularity of the stimulus sequence (jitter…

movement-evoked fieldjitteraivokuoriliikeoppiMEGkinematicsproprioceptionsensomotoriikkaproprioseptiikkasomatosensorymotoriikka
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