Search results for "Biomechanic"

showing 10 items of 706 documents

Effects of gait speed on stability of walking revealed by simulated response to tripping perturbation

2013

The objective of this work was to study stability of walking over a range of gait speeds by means of muscle-driven simulations. Fast walking has previously been related to high likelihood of falling due to tripping. Various measures of stability have shown different relationships between walking speed and stability. These measures may not be associated with tripping, so it is unclear whether the increase in likelihood of falling is explicable by an increase in instability. Here, stability with respect to a constant tripping perturbation was quantified as the immediate passive response of torso to the perturbation. Subject-specific muscle-driven simulations of eight young healthy subjects wa…

AdolescentAccelerationBiophysicsPerturbation (astronomy)Angular velocityModels BiologicalInstabilityControl theorymedicinePostural BalanceHumansComputer SimulationOrthopedics and Sports MedicineChildMuscle Skeletalta315GaitPostural BalanceMathematicsta114ElectromyographyRehabilitationMathematical analysisTorsoTorsoBiomechanical PhenomenaPreferred walking speedmedicine.anatomical_structureTrippingAccidental FallsMaximahuman activitiesGait and Posture
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EMG-Assisted Muscle Force Driven Finite Element Model of the Knee Joint with Fibril-Reinforced Poroelastic Cartilages and Menisci.

2019

Abnormal mechanical loading is essential in the onset and progression of knee osteoarthritis. Combined musculoskeletal (MS) and finite element (FE) modeling is a typical method to estimate load distribution and tissue responses in the knee joint. However, earlier combined models mostly utilize static-optimization based MS models and muscle force driven FE models typically use elastic materials for soft tissues or analyze specific time points of gait. Therefore, here we develop an electromyography-assisted muscle force driven FE model with fibril-reinforced poro(visco)elastic cartilages and menisci to analyze knee joint loading during the stance phase of gait. Moreover, since ligament pre-st…

AdultCartilage ArticularMaleKnee JointTibiaElectromyographyFinite Element Analysismusculoskeletal systemModels BiologicalElasticityArticleMechanical engineeringBiomechanical PhenomenaHumansComputer SimulationMeniscusFemurStress MechanicalMuscle Skeletalhuman activitiesPorosityBiomedical engineeringScientific reports
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Similar planning strategies for whole-body and arm movements performed in the sagittal plane

2003

The present paper looks for kinematic similarities between whole-body and arm movements executed in the sagittal plane. Eight subjects performed sit-to-stand (STS) and back-to-sit (BTS) movements at their preferred speed in the sagittal plane. Kinematics analysis focused on shoulder motion revealed that STS was composed of a straight, forward displacement followed by a curved, upward displacement while BTS was characterized by a curved, downward and straight, backward displacement. Curvature of the upward displacement was significantly greater than the downward one. Analysis of shoulder-velocity profiles showed that movement duration was significantly longer for BTS compared with STS and th…

AdultCentral Nervous SystemMaleShoulder JointMovement (music)MovementGeneral NeuroscienceBody movementKinematicsGeodesyCurvatureDisplacement (vector)Sagittal planeBiomechanical PhenomenaAccelerationmedicine.anatomical_structureArmmedicineHumansWhole bodyPsychomotor PerformanceGeologyNeuroscience
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Muscle-tendon glucose uptake in Achilles tendon rupture and tendinopathy before and after eccentric rehabilitation: Comparative case reports

2016

Achilles tendon rupture (ATR) is the most common tendon rupture injury. The consequences of ATR on metabolic activity of the Achilles tendon and ankle plantarflexors are unknown. Furthermore, the effects of eccentric rehabilitation on metabolic activity patterns of Achilles tendon and ankle plantarflexors in ATR patients have not been reported thus far. We present a case study demonstrating glucose uptake (GU) in the Achilles tendon, the triceps surae, and the flexor hallucis longus of a post-surgical ATR patient before and after a 5-month eccentric rehabilitation. At baseline, three months post-surgery, all muscles and Achilles tendon displayed much higher GU in the ATR patient compared to…

AdultDiagnostic ImagingMalemedicine.medical_specialtypositron emission tomographymedicine.medical_treatmentPhysical Therapy Sports Therapy and RehabilitationAchilles Tendonbiomechanics03 medical and health sciences0302 clinical medicineTendon InjuriesmedicineEccentricHumansOrthopedics and Sports MedicineMuscle Skeletalta315RuptureAchilles tendonRehabilitationbusiness.industryta1184Biomechanicsta3141030229 sport sciencesGeneral Medicinemusculoskeletal systemmedicine.diseaseTendonSurgeryBiomechanical Phenomenaglucose uptakemedicine.anatomical_structureGlucoseAnesthesiaAthletic InjuriesimmobilizationAnkleAchilles tendon rupturemedicine.symptomTendinopathybusiness030217 neurology & neurosurgeryPhysical Therapy in Sport
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Influence of the distance in a roundhouse kick's execution time and impact force in Taekwondo.

2009

Taekwondo, originally a Korean martial art, is well known for its kicks. One of the most frequently used kicks in competition is Bandal Chagui or roundhouse kick. Excellence in Taekwondo relies on the ability to make contact with the opponent's trunk or face with enough force in as little time as possible, while at the same time avoiding being hit. Thus, the distance between contestants is an important variable to be taken into consideration. Thirty-one Taekwondo athletes in two different groups (expert and novice, according to experience in competition) took part in this study. The purpose of this study was to examine both impact force and execution time in a Bandal Chagui or roundhouse ki…

AdultEngineeringAdolescentBiomedical EngineeringBiophysicsTorsion MechanicalPoison controlExecution timeHumansOrthopedics and Sports MedicineForce platformMuscle SkeletalSimulationAnalysis of VarianceMartial artsbiologybusiness.industryAthletesRehabilitationCompetitor analysisbiology.organism_classificationBiomechanical PhenomenaVariable (computer science)Lower ExtremityImpactbusinessMartial ArtsJournal of biomechanics
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A finite element-based machine learning approach for modeling the mechanical behavior of the breast tissues under compression in real-time

2017

[EN] This work presents a data-driven method to simulate, in real-time, the biomechanical behavior of the breast tissues in some image-guided interventions such as biopsies or radiotherapy dose delivery as well as to speed up multimodal registration algorithms. Ten real breasts were used for this work. Their deformation due to the displacement of two compression plates was simulated off-line using the finite element (FE) method. Three machine learning models were trained with the data from those simulations. Then, they were used to predict in real-time the deformation of the breast tissues during the compression. The models were a decision tree and two tree-based ensemble methods (extremely…

AdultFinite element methodsMean squared errorComputer scienceQuantitative Biology::Tissues and OrgansINGENIERIA MECANICAFinite Element AnalysisPhysics::Medical PhysicsDecision treeBreast compressionHealth Informatics02 engineering and technologyMachine learningcomputer.software_genreModels Biological030218 nuclear medicine & medical imagingSet (abstract data type)03 medical and health sciencesImaging Three-Dimensional0302 clinical medicineMachine learning0202 electrical engineering electronic engineering information engineeringHumansBreastbusiness.industryModelingEnsemble learningFinite element methodComputer Science ApplicationsRandom forestEuclidean distanceTree (data structure)Female020201 artificial intelligence & image processingArtificial intelligenceBreast biomechanicsbusinesscomputerLENGUAJES Y SISTEMAS INFORMATICOS
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Initiating running barefoot: Effects on muscle activation and impact accelerations in habitually rearfoot shod runners

2016

Runners tend to shift from a rearfoot to a forefoot strike pattern when running barefoot. However, it is unclear how the first attempts at running barefoot affect habitually rearfoot shod runners. Due to the inconsistency of their recently adopted barefoot technique, a number of new barefoot-related running injuries are emerging among novice barefoot runners. The aim of this study was therefore to analyse the influence of three running conditions (natural barefoot [BF], barefoot with a forced rearfoot strike [BRS], and shod [SH]) on muscle activity and impact accelerations in habitually rearfoot shod runners. Twenty-two participants ran at 60% of their maximal aerobic speed while foot strik…

AdultFoot strikemedicine.medical_specialtyAccelerationPhysical Therapy Sports Therapy and RehabilitationElectromyographyRunningBarefootYoung Adult03 medical and health sciences0302 clinical medicinePeroneus longusHumansMedicineOrthopedics and Sports MedicineMuscle activityMuscle SkeletalLegmedicine.diagnostic_testFootbusiness.industryForefootMuscle activation030229 sport sciencesGeneral MedicineBiomechanical PhenomenaPhysical therapybusiness030217 neurology & neurosurgeryGastrocnemius medialisEuropean Journal of Sport Science
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Effect of aneurysm on the mechanical dissection properties of the human ascending thoracic aorta

2012

Objectives: The acute dissection of an ascending thoracic aortic aneurysm (ATAA) represents a devastating separation of elastic layers occurring when the hemodynamic loads on the diseased wall exceed the adhesive strength between layers. At present, the mechanics underlying aortic dissection are largely unclear, and the biomechanical delamination properties of the aneurysmal aorta are not defined. Individuals with bicuspid aortic valve (BAV) are particularly predisposed to ascending aortic aneurysm formation, with a marked risk of aortic dissection. The purpose of this study was to evaluate and compare the dissection properties of nonaneurysmal and aneurysmal human ascending thoracic aorta …

AdultHeart Defects CongenitalMaleAortic valvePulmonary and Respiratory Medicinemedicine.medical_specialtyAorta ThoracicDissection (medical)Risk AssessmentThoracic aortic aneurysmArticleAortic aneurysmBicuspid aortic valveRisk FactorsAneurysm DissectingTensile StrengthInternal medicinemedicine.arterymedicineHumansThoracic aortaAgedAortic dissectionAnalysis of VarianceAortaAortic Aneurysm Thoracicbusiness.industryRisk FactorHemodynamicsSettore ING-IND/34 - Bioingegneria IndustrialeAnatomyMiddle AgedPennsylvaniamedicine.diseaseBiomechanical PhenomenaAortic Dissectionmedicine.anatomical_structureAortic ValveMicroscopy Electron Scanningcardiovascular systemCardiologyFemaleSurgerybusinessCardiology and Cardiovascular MedicineHumanThe Journal of Thoracic and Cardiovascular Surgery
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Ski jumping boots limit effective take-off in ski jumping

2002

In this study, we measured the vertical and horizontal take-off forces, plantar pressures and activation patterns of four muscles (vastus lateralis, gluteus maximus, tibialis anterior, gastrocnemius) in 10 ski jumpers in simulated laboratory conditions when wearing either training shoes or ski jumping boots. We found significant differences in vertical (P < 0.001), horizontal (P < 0.05) and resultant (P < 0.001) take-off velocities and vertical force impulse (P < 0.01). We found no significant differences in the jumpers' initial take-off positions; however, the jumping boots condition resulted in a smaller displacement in the final position of the following joint angles: ankle angle (P < 0.…

AdultHeelPhysical Therapy Sports Therapy and RehabilitationElectromyographymedicine.disease_causeSki jumpingJumpingSkiingTask Performance and AnalysisPressuremedicineHumansOrthopedics and Sports MedicineMuscle SkeletalMathematicsOrthodonticsmedicine.diagnostic_testElectromyographyFootAnkle angleForefootBiomechanicsBody movementAnatomymusculoskeletal systemBiomechanical PhenomenaShoesbody regionsmedicine.anatomical_structurehuman activitiesJournal of Sports Sciences
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Functional evaluation of patients with anterior cruciate ligament injury. A transversal analytical study.

2018

Abstract Objective To evaluate, by means of biomechanical analysis, functional alterations of gait and balance of patients with anterior cruciate ligament (ACL) injury. Material and methods Transversal analytical study on 64 people, 27 health subjects and 37 patients with ACL injury. Biomechanical analysis of gait in all individuals was performed by means of four tests: (1) kinematic test, to characterize gait pattern; (2) kinetic test, to characterize forces against the floor, duration of treads, symmetry of both legs, and the reproducibility of the gait; (3) pivot-shift test, to analyze the rotational stability of the knee on the sagittal axis; and (4) equilibrium test. Results Alteration…

AdultJoint InstabilityMaleAdolescentRotationAnterior cruciate ligamentAnterior cruciate ligament Cinemática de la marcha Cinética de la marcha Evaluación funcional Functional evaluation Gait kinematics Gait kinetics Knee Ligamento cruzado anterior RodillaKinematics03 medical and health sciencesYoung Adult0302 clinical medicineGait (human)medicineHumansOrthopedics and Sports MedicineIn patientProspective StudiesGaitPostural BalanceBalance (ability)Orthodontics030222 orthopedicsFunctional evaluationbusiness.industryAnterior Cruciate Ligament Injuries030229 sport sciencesmedicine.diseasemusculoskeletal systemACL injurySagittal planeBiomechanical PhenomenaKineticsmedicine.anatomical_structuresurgical procedures operativeCross-Sectional StudiesCase-Control StudiesSurgerybusinesshuman activitiesRevista espanola de cirugia ortopedica y traumatologia (English ed.)
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