0000000000526395

AUTHOR

Erika Koltai

showing 4 related works from this author

Absence of an aging-related increase in fiber type grouping in athletes and non-athletes

2020

The ageing-related loss of muscle mass is thought to be partly attributable to motor neuron loss and motor unit remodelling that result in fibre type grouping. We examined fibre type grouping in 19- to 85-year-old athletes and non-athletes and evaluated to which extent any observed grouping is explained by the fibre type composition of the muscle. Since regular physical activity may stimulate reinnervation, we hypothesised that fibre groups are larger in master athletes than in age-matched non-athletes. Fibre type grouping was assessed in m. vastus lateralis biopsies from 22 young (19-27 years) and 35 healthy older (66-82 years) non-athletes, and 14 young (20-29 years), 51 middle-aged (38%6…

MaleBiopsy030204 cardiovascular system & hematologyMuskel- und KnochenstoffwechselQuadriceps Muscleudc:612.74:612.660302 clinical medicinegroupingOrthopedics and Sports MedicineFibre typeAged 80 and overMotor NeuronsDenervationbiologyFiber typestaranjemišična vlaknaMiddle Agedfibre typeMuscle Fibers Slow-Twitchmedicine.anatomical_structureMuscle Fibers Fast-TwitchreinervacijaFemaleSportsReinnervationAdultmedicine.medical_specialtyPhysical Therapy Sports Therapy and RehabilitationYoung Adult03 medical and health sciencesInternal medicinevastus lateralismedicineHumansAgeddenervationbusiness.industryAthletesaging030229 sport sciencesMotor neuronbiology.organism_classificationfiber typereinnervationMotor unitdenervacijaCross-Sectional StudiesEndocrinologyAgeingbusiness
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Greater maintenance of bone mineral content in male than female athletes and in sprinting and jumping than endurance athletes: a longitudinal study o…

2020

Abstract Summary We investigated longitudinal changes in tibia bone strength in master power (jumping and sprinting) and endurance (distance) athletes of both sexes. Bone mass but not cross-sectional moment of inertia was better maintained in power than endurance athletes over time, particularly in men and independent of changes in performance. Objective Assessment of effects of sex and athletic discipline (lower limb power events, e.g. sprint running and jumping versus endurance running events) on longitudinal changes in bone strength in masters athletes. Methods We examined tibia and fibula bone properties at distal (4% distal-proximal tibia length) and proximal (66% length) sites using p…

AdultMaleLongitudinal studyAgingosteoporoosiOsteoporosisluu030209 endocrinology & metabolismliikuntamedicine.disease_causeMuskel- und KnochenstoffwechselBone and BonesbiomechanicsRunning03 medical and health sciences0302 clinical medicineJumpingBone DensitymedicineHumansOrthopedics and Sports MedicineTibiaLongitudinal StudiesQuantitative computed tomographyAgedOrthodonticsAged 80 and overmedicine.diagnostic_testbiologyexercisebusiness.industryAthletesBiomechanicsbone geometry030229 sport sciencesMiddle Agedbiology.organism_classificationmedicine.diseaseosteoporosisikääntyminenSprintAthletesageingFemaleOriginal ArticlebiomekaniikkabusinessSportsurheilijat
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Age-Related Declines in Lower Limb Muscle Function are Similar in Power and Endurance Athletes of Both Sexes : A Longitudinal Study of Master Athletes

2021

The age-related decline in muscle function, particularly muscle power, is associated with increased risk of important clinical outcomes. Physical activity is an important determinant of muscle function, and different types of physical activity e.g. power-based versus endurance-based exercise appear to have differential effects on muscle power. Cross-sectional studies suggest that participation in power-based exercise is associated with greater muscle power across adulthood but this has not been investigated longitudinally. We recruited eighty-nine male and female power and endurance master athletes (sprint and distance runners respectively, baseline age 35–90y). Using jumping mechanography,…

AdultMaleAgingmedicine.medical_specialtyLongitudinal studyEndocrinology Diabetes and Metabolismphysical activitymedicine.disease_causePower (social and political)Vertical jumpEndocrinologyJumpingPhysical medicine and rehabilitationliikuntakykyHumansMedicineYttrium RadioisotopesOrthopedics and Sports MedicineLongitudinal StudiesAgedOriginal ResearchAged 80 and overbiologyexerciseAthletesbusiness.industrykuntoliikuntaMusclesMiddle Agedbiology.organism_classificationmobilityCross-Sectional StudiesikääntyminenLower ExtremitySprintAthletesAgeingageingPhysical EnduranceJumpFemalebusinesslihasvoimaurheilijat
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Absence of an aging‐related increase in fibre type grouping in athletes and non‐athletes

2020

The ageing‐related loss of muscle mass is thought to be partly attributable to motor neuron loss and motor unit remodelling that result in fibre type grouping. We examined fibre type grouping in 19‐ to 85‐year‐old athletes and non‐athletes and evaluated to which extent any observed grouping is explained by the fibre type composition of the muscle. Since regular physical activity may stimulate reinnervation, we hypothesised that fibre groups are larger in master athletes than in age‐matched non‐athletes. Fibre type grouping was assessed in m. vastus lateralis biopsies from 22 young (19‐27 years) and 35 healthy older (66‐82 years) non‐athletes, and 14 young (20‐29 years), 51 middle‐aged (38‐6…

ikääntyminendenervationgroupinglihasmassaageingvastus lateralislihaksetfibre typereinnervationfyysinen aktiivisuuslihassolut
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