Search results for "in vivo -menetelmä"

showing 5 items of 5 documents

In vivo muscle morphology comparison in post-stroke survivors using ultrasonography and diffusion tensor imaging.

2019

AbstractSkeletal muscle architecture significantly influences the performance capacity of a muscle. A DTI-based method has been recently considered as a new reference standard to validate measurement of muscle structure in vivo. This study sought to quantify muscle architecture parameters such as fascicle length (FL), pennation angle (PA) and muscle thickness (tm) in post-stroke patients using diffusion tensor imaging (DTI) and to quantitatively compare the differences with 2D ultrasonography (US) and DTI. Muscle fascicles were reconstructed to examine the anatomy of the medial gastrocnemius, posterior soleus and tibialis anterior in seven stroke survivors using US- and DTI-based techniques…

0301 basic medicineAdultMaleFysiologiPhysiologylcsh:MedicineSkeletal musclelihaksettuki- ja liikuntaelimetArticle03 medical and health sciencesMuscle morphology0302 clinical medicinemorfologiaIn vivomedicineHumansin vivo -menetelmädiffuusiotensorikuvausSurvivorsskeletal musclelcsh:ScienceMuscle SkeletalAgedUltrasonographyMultidisciplinarybusiness.industrylcsh:RSkeletal muscleMiddle AgedIndividual leveldiffusion tensor imagingStroke030104 developmental biologymedicine.anatomical_structureDiffusion Tensor ImagingPost strokelcsh:QFemaleUltrasonographyMuscle architecturebusinessBiomedical engineering030217 neurology & neurosurgeryBiomedical engineeringDiffusion MRIScientific reports
researchProduct

An update to Hippocampome.org by integrating single-cell phenotypes with circuit function in vivo.

2021

Understanding brain operation demands linking basic behavioral traits to cell-type specific dynamics of different brain-wide subcircuits. This requires a system to classify the basic operational modes of neurons and circuits. Single-cell phenotyping of firing behavior during ongoing oscillations in vivo has provided a large body of evidence on entorhinal–hippocampal function, but data are dispersed and diverse. Here, we mined literature to search for information regarding the phase-timing dynamics of over 100 hippocampal/entorhinal neuron types defined in Hippocampome.org. We identified missing and unresolved pieces of knowledge (e.g., the preferred theta phase for a specific neuron type) a…

DYNAMICSGABAERGIC INTERNEURONPhysiologyAction PotentialsSocial SciencesHippocampal formationHippocampusNeuron typesBehavioral traitsMice0302 clinical medicineAnimal CellsMedicine and Health SciencesEntorhinal CortexPsychologyNETWORKBiology (General)Function (engineering)media_commonNeurons0303 health sciencesPHYSIOLOGICAL-PROPERTIESGeneral NeurosciencePyramidal CellsMethods and ResourcesBrainPhenotypeMOSSY CELLS3. Good healthElectrophysiologyPhenotypeAnatomyCellular TypesGeneral Agricultural and Biological SciencesGanglion CellsHeuristic (computer science)QH301-705.5media_common.quotation_subjectNeurophysiologyBiologyMembrane PotentialGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciencesAnimalsin vivo -menetelmähippokampus030304 developmental biologyBehaviorNeuron typeGeneral Immunology and MicrobiologyGranule CellsTHETA OSCILLATIONShermoverkot (biologia)Biology and Life SciencesCell BiologyNeuronal DendritesSILICON PROBESRatshermosolutBrain stateCellular Neuroscience1182 Biochemistry cell and molecular biologyfenotyyppi3111 BiomedicineNeuroscience030217 neurology & neurosurgeryNeurosciencePLoS biology
researchProduct

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
researchProduct

Advancing the ecotoxicological relevancy of zebrafish : application of early-juvenile 20dpfZF to assess xenoestrogenicity of environmental chemicals …

2014

aromataseekotoksikologiaestrogeenitsukupuolihormonitin vivo early life-stagesukupuolen määräytyminenestrogenicityin vivo -menetelmäseeprakalazebrafishvitellogeninteollisuuskemikaalithormonaaliset vaikutukset
researchProduct

Red Light Optogenetics in Neuroscience

2022

Optogenetics, a field concentrating on controlling cellular functions by means of light-activated proteins, has shown tremendous potential in neuroscience. It possesses superior spatiotemporal resolution compared to the surgical, electrical, and pharmacological methods traditionally used in studying brain function. A multitude of optogenetic tools for neuroscience have been created that, for example, enable the control of action potential generation via light-activated ion channels. Other optogenetic proteins have been used in the brain, for example, to control long-term potentiation or to ablate specific subtypes of neurons. In in vivo applications, however, the majority of optogenetic too…

phytochromeoptogenetiikkabrainnear-infraredneurotieteetneuronneuroscienceopsinin vivo -menetelmäproteiinitpunainen (väri)optogeneticsaivotvalo
researchProduct