Search results for "Orthotics"

showing 5 items of 5 documents

Effect of static foot posture on the dynamic stiffness of foot joints during walking

2018

Background The static foot posture has been related to the development of lower limb injuries. Research question This study aimed to investigate the dynamic stiffness of foot joints during gait in the sagittal plane to understand the role of the static foot posture in the development of injuries. Methods Seventy healthy adult male subjects with different static postures, assessed by the Foot Posture Index (FPI) (30 normal, 20 highly pronated and 20 highly supinated), were recruited. Kinematic and kinetic data were recorded using an optical motion capture system and a pressure platform, and dynamic stiffness at the different stages of the stance was calculated from the slopes of the linear r…

AdultMaleMetatarsophalangeal Jointmusculoskeletal diseasesmedicine.medical_specialtyPostureBiophysicsMetatarsophalangeal jointsOrthoticsWalkingFoot joints03 medical and health sciences0302 clinical medicineGait (human)Foot JointsmedicineHumansOrthopedics and Sports MedicineRange of Motion ArticularRange of motionOrthodonticsbusiness.industryFootRehabilitationWork (physics)Dynamic Stiffness030229 sport sciencesFoot Posture IndexSagittal planeBiomechanical Phenomenabody regionsKineticsmedicine.anatomical_structureJoint stiffnessLinear ModelsAnklemedicine.symptombusinessRange of motion030217 neurology & neurosurgeryAnkle Joint
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Decompression/Stabilization of the Metastatic Spine: Cotrel-Dubousset-Lnstrumentation in 50 Patients Jan

1993

50 patients with metastatic disease of the spine underwent dorsal decompression and stabilization with the Cotrel-Dubousset-Instrumentation from 1987 to 1991. Indications for surgical treatment were neurologic deficit, spinal instability, and/or pain resistant to medical or radiation treatment. No external orthotics were used postoperatively. Pain was relieved dramatically in 45 patients. Among 25 patients suffering from neurologic deficit preoperatively, 13 improved, 15 remained unchanged, whereas 2 developed an incomplete, transient paraplegia. 15 (7) patients were alive after 1 (2) years. Postoperative complications were frequent, but there were only 2 failures of the stabilization devic…

AdultMaleReoperationmedicine.medical_specialtyDecompressionOrthoticsCotrel–Dubousset instrumentationThoracic VertebraePostoperative ComplicationsHumansMedicineOrthopedics and Sports MedicineRachisAgedFixation (histology)Aged 80 and overLumbar VertebraeSpinal Neoplasmsbusiness.industryMiddle Agedmedicine.diseaseSurgerySurvival RateSpinal FusionTreatment OutcomeOrthopedic surgeryFemaleSurgerybusinessParaplegiaComplicationFollow-Up StudiesActa Orthopaedica Scandinavica
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Kinematics reduction applied to the comparison of highly-pronated, normal and highly-supinated feet during walking

2019

Abstract Background Kinematic analysis could help to study how variations in the static foot posture affect lower limb biomechanical function. The analysis of foot kinematics is complex because it involves managing the time-dependent joint angles in different joints and in all three planes of motion. But it could be simplified if joint angles are coordinated. Methods The kinematics of the ankle, midtarsal and metatarsophalangeal joints were registered in 20 highly-pronated, 30 normal and 20 highly-supinated subjects (assessed by the Foot Posture Index – FPI) as they walked barefoot. Coordination for each sample was analysed through principal component analysis applied to the dorsiflexion, a…

AdultMalemusculoskeletal diseasesmedicine.medical_specialtyBiophysicsMetatarsophalangeal jointsWalkingOrthoticsKinematicsSupinationBarefoot03 medical and health sciences0302 clinical medicineGait (human)Physical medicine and rehabilitationFoot JointsmedicineHumansPronationOrthopedics and Sports MedicineRange of Motion ArticularGaitMathematicsAnalysis of VariancePrincipal Component AnalysisFootRehabilitationWork (physics)030229 sport sciencesBiomechanical Phenomenamedicine.anatomical_structureFemaleAnkle030217 neurology & neurosurgeryFoot (unit)Gait & Posture
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Effect of custom-made and prefabricated foot orthoses on kinematic parameters during an intense prolonged run

2020

Foot orthoses are one of the most used strategies by healthy runners in injury prevention and performance improvement. However, their effect on running kinematics throughout an intense prolonged run in this population is unknown. Moreover, there is some controversy regarding the use of custom-made versus prefabricated foot orthoses. This study analysed the effect of different foot orthoses (custom-made, prefabricated and a control condition) on spatio-temporal and angular (knee flexion and foot eversion) kinematic parameters and their behaviour during an intense prolonged run. Twenty-four recreational runners performed three similar tests that consisted of running 20 min on a treadmill at 8…

MaleKinematicsTime Factorsbusiness.product_categoryPhysiologyKneesKinematicsOrthoticsRunning0302 clinical medicineHeart RateMedicine and Health SciencesMedicinePublic and Occupational HealthTreadmillFoot OrthosesMusculoskeletal SystemOrthoticseducation.field_of_studyMultidisciplinaryFeetPhysicsQRBiomechanicsClassical MechanicsEquipment DesignSports ScienceBiomechanical PhenomenaPhysical SciencesEngineering and TechnologyLegsMedicineFemaleAnatomyResearch ArticleBiotechnologyAdultmedicine.medical_specialtySciencePopulationCardiologyFoot OrthosesSTRIDEBioengineering03 medical and health sciencesPhysical medicine and rehabilitationHumansSports and Exercise MedicineeducationExerciseFoot orthosisMechanical PhenomenaBiological Locomotionbusiness.industryBiology and Life SciencesPhysical Activity030229 sport sciencesPhysical FitnessBody LimbsMedical Devices and Equipmentbusinesshuman activities030217 neurology & neurosurgeryPLOS ONE
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Effects of medially posted insoles on foot and lower limb mechanics across walking and running in overpronating men.

2017

Anti-pronation orthoses, like medially posted insoles (MPI), have traditionally been used to treat various of lower limb problems. Yet, we know surprisingly little about their effects on overall foot motion and lower limb mechanics across walking and running, which represent highly different loading conditions. To address this issue, multi-segment foot and lower limb mechanics was examined among 11 over-pronating men with normal (NORM) and MPI insoles during walking (self-selected speed 1.70 +/- 0.19 m/s vs 1.72 +/- 0.20 m/s, respectively) and running (4.04 +/- 0.17 m/s vs 4.10 +/- 0.13 m/s, respectively). The kinematic results showed that MPI reduced the peak forefoot eversion movement in …

MaleMOTIONKnee JointOrthoticsKinematicsWalkingORTHOTICSRunning0302 clinical medicineMOMENTSOrthopedics and Sports Medicineta315Rehabilitationmulti-segment foot kinematicsBiomechanicsta3141MechanicsBiomechanical Phenomenamedicine.anatomical_structureKNEEmedicine.medical_specialtyOrthotic DevicesMovementBiomedical EngineeringBiophysicspronationmedially posted insolesjuoksuwalking03 medical and health sciencesmedicinePressureHumansPronationTibiaKINEMATICSTibiabusiness.industryFootForefootANKLE030229 sport sciences217 Medical engineeringORTHOSESBIOMECHANICSbody regionsKineticskineticsREARFOOTCoronal planeAnklebusinesshuman activities030217 neurology & neurosurgeryAnkle JointCenter of pressure (fluid mechanics)Journal of biomechanics
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