Search results for "jänne"

showing 10 items of 52 documents

In vivo localized gastrocnemius subtendon representation within the healthy and ruptured human Achilles tendon

2022

The Achilles tendon (AT) is composed of three distinct in-series elastic subtendons, arising from different muscles in the triceps surae. Independent activation of any of these muscles is thought to induce sliding between the adjacent AT subtendons. We aimed to investigate displacement patterns during voluntary contraction (VOL) and selective transcutaneous stimulation of medial (MGstim) and lateral (LGstim) gastrocnemius between ruptured and healthy tendons, and to examine the representative areas of AT subtendons. Twenty-eight patients with unilateral AT rupture performed bilateral VOL at 30% of the maximal isometric un-injured plantarflexion torque. AT displacement was analysed from sagi…

LegarchitecturegeometryanatomyPhysiologyachilles tendonAchilles TendonRC1200jänteetanatomiaTorqueTendon InjuriesPhysiology (medical)HumansrupturehumankantajännebiomekaniikkavammatMuscle Skeletal
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Non-uniform displacement and strain between the soleus and gastrocnemius subtendons of rat Achilles tendon

2018

Achilles tendon (AT) comprises of 3 subtendons arising from the soleus (SOL) and the lateral (LG) and medial (MG) heads of the gastrocnemius muscle. While recent human studies show differential displacement within AT, these displacements have not been attributed to specific subtendons. We tested the hypothesis that the SOL and LG subtendons show differential displacement and strain during various combinations of SOL, LG, and MG excitations. Movement of knots, sutured onto SOL and LG subtendons of 12 Wistar rats, was videotaped, while the muscles were stimulated intramuscularly and ankle torque was assessed. When SOL only was stimulated, the plantar flexion torque was the smallest among the …

Male0301 basic medicineanatomyPhysical Therapy Sports Therapy and RehabilitationAchilles TendonPlantar flexion03 medical and health sciencesGastrocnemius muscle0302 clinical medicinemedicineAnimalsOrthopedics and Sports MedicineDisplacement (orthopedic surgery)Active stateRats WistarMuscle Skeletalta315Achilles tendonStrain (chemistry)Human studiesChemistryankle torquedeformation030229 sport sciencesAnatomy3-dimensional modelRatsAchilles tendon030104 developmental biologymedicine.anatomical_structureTorquecalcaneal tendontriceps suraekantajänneAnkle JointAnkle torqueMuscle Contraction
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Viscoelastic properties of the Achilles tendon in vivo

2013

It has been postulated that human tendons are viscoelastic and their mechanical properties time-dependent. Although Achilles tendon (AT) mechanics are widely reported, there is no consensus about AT viscoelastic properties such as loading rate dependency or hysteresis, in vivo. AT force-elongation characteristics were determined from 14 subjects in an ankle dynamometer at different loading rates using motion capture assisted ultrasonography. AT stiffness and elongation were determined between 10 – 80% of maximum voluntary contraction (MVC) force at fast and slow loading rates. As subjects were unable to consistently match the target unloading rate in the slow condition, AT hysteresis was on…

Materials scienceMedial gastrocnemiusViscoelasticityStiffnessIn vivojäykkyysmedicineSimulationUltrasonographyAchilles tendonMultidisciplinaryResearchHysteresisStiffnessultraäänimusculoskeletal systemhystereesiTendonjänneHysteresismedicine.anatomical_structureultraäänitutkimusElongationAnklemedicine.symptomLoading rate dependencyBiomedical engineeringSpringerPlus
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Towards modern understanding of the Achilles tendon properties in human movement research

2023

The Achilles tendon (AT) is the strongest tendon in humans, yet it often suffers from injury. The mechanical properties of the AT afford efficient movement, power amplification and power attenuation during locomotor tasks. The properties and the unique structure of the AT as a common tendon for three muscles have been studied frequently in humans using in vivo methods since 1990's. As a part of the celebration of 50 years history of the International Society of Biomechanics, this paper reviews the history of the AT research focusing on its mechanical properties in humans. The questions addressed are: What are the most important mechanical properties of the Achilles tendon, how are they stud…

TechnologySPECKLE-TRACKINGBiomedical EngineeringBiophysicsISOMETRIC PLANTARFLEXIONDIFFERENTIAL STRAIN PATTERNSLOAD-DISPLACEMENT PROPERTIESjänteetELASTIC PROPERTIESstressstiffnessEngineeringYoung 's modulusstrainjäykkyysOrthopedics and Sports MedicineTRICEPS SURAE APONEUROSISin vivo -menetelmäEngineering BiomedicalIN-VIVOrasitusfyysiset ominaisuudetScience & TechnologyQUANTITATIVE ASSESSMENTRehabilitationyoung’s modulusHUMAN GASTROCNEMIUS-MUSCLEMECHANICAL-PROPERTIEShysteresiskantajännebiomekaniikkaLife Sciences & Biomedicine
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Sysmä

1749

UurajärvitietYlimmäinenrajatPäijännetorpattalvitiet
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Kuunteleminen keskustelussa – yhdysvaltalaisen ja suomalaisen aineiston vertailu

2005

Keskustelukuuntelun aikajännemittari (Conversational Listening Span, CLS) mittaa kokeellisesti henkilöiden keskustelukuuntelemisen kapasiteettia. Kyseinen kapasiteetti tarkoittaa niiden kognitiivisten merkityksien määrää, joita joku kykenee pitämään aktiivisena muistissaan ja joihin hän pystyy vastaamaan keskustelun kuluessa. Keskustelukuuntelun aikajännemittari tarjoaa puheviestintätutkimukseen uuden näkökulman: se mittaa kuuntelemisen prosessia, kun aiemmat mittarit ovat perustuneet esimerkiksi itsearviointiin tai toisen henkilön arviointiin jonkun kuuntelusta. Artikkeli esittelee mittarin ja testaa sen toimivuutta eri kieli— ja kulttuurisessa ympäristössä; Yhdysvalloissa ja Suomessa. Pää…

aikajännemittarikeskustelukuuntelemisen kapasiteettiPharmacology (medical)Artikkelitaikajännitemittarityömuistikuunteleminenkulttuurienvälisyyskulttuurien välisyysPrologi
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Muscle-tendon morphomechanical properties of non-surgically treated Achilles tendon 1-year post-rupture

2022

Background\ud Achilles tendon rupture appears to alter stiffness and length of the tendon. These alterations may affect the function of tendon in force transmission and in energy storage and recovery. We studied the mechanical properties of the Achilles' tendon post-rupture and their association with function.\ud Methods\ud Twenty-four (20 males, 4 females) participants (mean age: 43 y, 176 cm, 81 kg) were recruited. Ultrasonography and dynamometry were used to assess the muscle-tendon unit morphological and mechanical properties of non-surgically treated patients 1-year post rupture.\ud Findings\ud Injured tendons were longer with difference of 1.8 cm (95%CI: 0.5–1.9 cm; P < 0.001), and th…

akillesjänneAchilles tendon ruptureAdultMaleRuptureitsearviointiBiophysicsultrasonographymusculoskeletal systemtuki- ja liikuntaelimetAchilles TendonraajatRC1200stiffnesspatient-reported outcomesTendon InjuriesjäykkyysultraäänitutkimusHumansOrthopedics and Sports MedicineFemalevammatkantajänneMuscle SkeletalUltrasonography
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Akillesjänteen paksuutta määrittävät tekijät ja lihasarkkitehtuuri vaihdevuosi-ikäisillä naisilla

2017

Laitinen, E. 2017. Akillesjänteen paksuutta määrittävät tekijät ja lihasarkkitehtuuri vaihde-vuosi-ikäisillä naisilla. Liikuntabiologian laitos, Jyväskylän yliopisto, biomekaniikan pro gradu -tutkielma, 45 s. Vaihdevuodet ja ikääntyminen saavat aikaan lihasvoiman nopean laskun ja tämä vaikuttaa myös toimintakykyyn. Jopa 15-25 % lihasvoimasta voi laskea vaihdevuosien seurauksena. Lihaksen arkkitehtuurisia muuttujia on tutkittu ikääntymiseen liittyen jonkin verran ja sukupuolihormoneilla uskotaan olevan vahva yhteys lihasvoiman laskuun ikääntymisen myötä. Estrogeenin ja progesteronin vaikutuksia naisten lihasvoimaan ei vielä kattavasti tunneta. Lihaksen toiminnan ja voiman välityksen kannalta…

akillesjänneestrogeenitnaisetvaihdevuodetultraäänikuvantaminenkantajänneestrogeeni
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A comparison of the impacts of introduced signal crayfish and native noble crayfish in boreal lake ecosystems

2014

boreal lake ecosystemsvesiekosysteemitstable isotopestäplärapueliöyhteisötselkärangattomatjärvetekologiaekologinen lokerobiodiversiteettiekosysteemitinvasive signal crayfishmacroinvertebrate communitiesboreaalinen vyöhykeisotooppianalyysijokirapuPäijännenative noble crayfishvieraslajitravintoverkot
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Non-uniformity of displacement and strain within the Achilles tendon is affected by joint angle configuration and differential muscle loading.

2020

Although the Achilles tendon (AT) has been studied for more than a century, a complete understanding of the mechanical and functional consequences of AT structural organization is currently lacking. The aim of this study was to assess how joint angle configuration affects subtendon displacement and strain of soleus (SOL) and lateral gastrocnemius (LG) muscles. Knots sutured onto SOL and LG subtendons of 12 Wistar rats, were videotaped to quantify displacements and the ankle torque was assessed for different isometric activation conditions (i.e., individual and simultaneous) of the triceps surae muscles. Changing ankle and knee joint angle affected the magnitude of displacement, relative dis…

displacementMaleStrain (injury)lihakset02 engineering and technologyIsometric exerciseKnee JointStrainWeight-Bearing0302 clinical medicineSoleusgastrocnemiusOrthopedics and Sports MedicinerasitusAchilles tendonRehabilitationankle torqueBiomechanical Phenomenamedicine.anatomical_structureAnkle torquekantajännebiomekaniikkaMaterials science0206 medical engineeringBiomedical EngineeringBiophysicsshearAchilles Tendonjänteet03 medical and health sciencesstrainmedicineGastrocnemiusAnimalsDisplacement (orthopedic surgery)Rats WistarMuscle SkeletalBalance (ability)soleusShearDisplacementmedicine.disease020601 biomedical engineeringRatsnilkatAchilles tendonTorqueJoint angleJointsAnkle030217 neurology & neurosurgeryBiomedical engineeringJournal of biomechanics
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