0000000000612221

AUTHOR

Heidi Pesonen

showing 6 related works from this author

Long-Term Physical Activity May Modify Brain Structure and Function: Studies in Young Healthy Twins

2019

Background: Physical activity (PA) is said to be beneficial to many bodily functions. However, the effects of PA in the brain are still inadequately known. The authors aimed to uncover possible brain modulation linked with PA. Here, they combine 4 of their studies with monozygotic twins, who were within-pair discordant in PA for a minimum of 1 year. Methods: The authors performed brain imaging, brain electrophysiology, and cardiovascular and body composition assessments, and collected questionnaire-based data. The present synopsis elucidates the differences associated with differing PA history in conditions without genetic variability. They present new structural and electrophysiological re…

AdultMaleneurofysiologiaBrain Structure and FunctionPhysiologyHippocampal formationSomatosensory systemneuroscienceYoung Adult03 medical and health sciences0302 clinical medicineNeuroimagingHumansMedicineOrthopedics and Sports MedicineExercisehealth disparities030304 developmental biology0303 health sciencesbusiness.industryBrain morphometryBrainMotor controlNeurophysiologyneurotieteetHealthy VolunteersElectrophysiologyneurophysiologyterveyserotbusiness030217 neurology & neurosurgeryJournal of Physical Activity and Health
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Ten-year resistance training background modulates somatosensory P3 cognitive brain resonse in older men : a magnetoencephalograpy study

2020

The brain electrophysiological component P3, associated with good cognitive abilities, deteriorates during healthy aging. Both cognitive functions and P3 component amplitude respond positively to exercise, but the effects of resistance training on P3 are much less studied. Short-term resistance training interventions in older adults indicate modulation towards larger P3 amplitude, but this association has not been studied with a longitudinal study design. We investigated magnetoencephalographically recorded P3 (P3m) in a unique study design of nine aged men (mean age 77.7 y) with quasi-supervised resistance training background over a 10-year period and eight controls of similar age (mean ag…

Male0301 basic medicinemagnetoencephalographykognitioAgingmedicine.medical_specialtyLongitudinal studyElementary cognitive taskStrength trainingAudiologySomatosensory systemBiochemistry03 medical and health sciencesCognition0302 clinical medicineEndocrinologyReaction TimeGeneticsmedicinestrength trainingHumansLongitudinal Studiesaivotutkimuselectrical stimulationMolecular BiologyOddball paradigmAgedMEGmedicine.diagnostic_testexercisebusiness.industrykuntoliikuntaP3magingBrainElectroencephalographyResistance TrainingCognitionCell BiologyMagnetoencephalographyElectrophysiology030104 developmental biologyikääntyminenvoimaharjoittelubusiness030217 neurology & neurosurgery
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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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Long-term physical activity modifies automatic visual processing

2017

Electrophysiologically registered visual mismatch negativity (vMMN) is known to represent automatic visual processing in human visual cortex. Since physical activity (PA) is generally beneficial to cerebrovascular function, we wanted to find out if automatic visual processing is affected by PA. We investigated the connection between long-term leisure-time PA and precognitive visual processing in 32 healthy young males. Participants were divided into active (n = 16) and inactive (n = 16) group according to their leisure-time PA records from the past three years. vMMN was recorded with electroencephalogram using passive oddball paradigm with visual bars. Standard (90%) and deviant (10%) stimu…

medicine.medical_specialtygenetic structuresSocial Psychology05 social sciencesPhysical activityVisual taskMismatch negativityAudiology050105 experimental psychologyTerm (time)Developmental psychologyVisual processing03 medical and health sciences0302 clinical medicineVisual cortexmedicine.anatomical_structuremedicine0501 psychology and cognitive sciencesPsychologyOddball paradigm030217 neurology & neurosurgeryApplied PsychologyYoung maleInternational Journal of Sport and Exercise Psychology
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Perimenopausal women show modulation of excitatory and inhibitory neuromuscular mechanisms.

2021

Background Menopausal transition exposes women to an early decline in muscle force and motor function. Changes in muscle quality and function, especially in lower limbs, are crucial, as they expose individuals to increased risk of falls. To elucidate some of the related neuromuscular mechanisms, we investigated cortical inhibition and peripheral muscle twitch force potentiation in women during the early and late stages of perimenopause. Methods Participants were 63 women aged 48–55 years categorized as early (EP, n = 25) or late (LP, n = 38) perimenopausal according to serum follicle-stimulating hormone (FSH) levels and menstrual diaries. EP women had an irregular menstrual cycle and FSH  2…

vaihdevuodetlcsh:Public aspects of medicinemenopauselcsh:RA1-1270follikkelia stimuloiva hormoniEvoked Potentials MotorTMS silent periodlcsh:Gynecology and obstetricsTranscranial Magnetic StimulationPerimenopauseikääntyminenhermo-lihastoimintamotor cortextwitch force potentiationHumansMotor cortexFemalefollicle-stimulating hormoneMenopauseMuscle SkeletalFollicle-stimulating hormoneTwitch force potentiationlcsh:RG1-991lihasvoimaResearch ArticleBMC women's health
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Long-term physical activity modifies automatic visual processing

2019

Electrophysiologically registered visual mismatch negativity (vMMN) is known to represent automatic visual processing in human visual cortex. Since physical activity (PA) is generally beneficial to cerebrovascular function, we wanted to find out if automatic visual processing is affected by PA. We investigated the connection between long-term leisure-time PA and precognitive visual processing in 32 healthy young males. Participants were divided into active (n = 16) and inactive (n = 16) group according to their leisure-time PA records from the past three years. vMMN was recorded with electroencephalogram using passive oddball paradigm with visual bars. Standard (90%) and deviant (10%) stimu…

visual mismatch negativitygenetic structuresphysical exercisedistractibilityhealthy young malesliikuntakognitiiviset prosessittarkkaavaisuuspoikkeavuusnegatiivisuusnäköfyysinen aktiivisuus
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