Search results for "Biomedical engineering"

showing 10 items of 2020 documents

Reproducibility of imaging human knee cartilage by delayed gadolinium-enhanced MRI of cartilage (dGEMRIC) at 1.5 Tesla

2009

Summary Objective The purpose of this study was to investigate the day-to-day reproducibility of the delayed gadolinium-enhanced MRI of cartilage (dGEMRIC) measurement at different knee joint surfaces in healthy subjects at 1.5 Tesla (T). Methods The dGEMRIC experiment was repeated for 10 asymptomatic volunteers three times with an average interval of 5 days between scans. The measurement was performed from a single sagittal slice through the center of the lateral femoral condyle and from the center of the patella in the axial plane. Cartilage was manually segmented into superficial, deep and full-thickness regions of interests (ROIs) at different topographical locations of the femur, tibia…

AdultCartilage ArticularGadolinium DTPAMalemusculoskeletal diseasesdGEMRICmedicine.medical_specialtyIntraclass correlationBiomedical EngineeringContrast MediaKnee JointSensitivity and Specificity030218 nuclear medicine & medical imaging03 medical and health sciences0302 clinical medicineRheumatologymedicineHumansFemurOrthopedics and Sports MedicineTibiaRadionuclide Imaging030222 orthopedicsReproducibilitybusiness.industryCartilageReproducibility of ResultsMiddle AgedImage Enhancementmusculoskeletal systemMagnetic Resonance ImagingReproducibilityKnee jointSagittal planeCartilagemedicine.anatomical_structureProteoglycanFemalePatellaRadiologybusinessNuclear medicineOsteoarthritis and Cartilage
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Assessment of normal patellar cartilage volume and thickness using MRI: an analysis of currently available pulse sequences.

1996

Objective. The objective of this study was to analyse the potential of magnetic resonance imaging for valid determination of patellar cartilage thickness, comparing currently available pulse sequences. Design. In six patients and one cadaver the cartilage was repetitively imaged employing three spin-echo and six three-dimensional gradient-echo sequences. In the cadaveric specimen the total volume and the regional distribution of cartilage thickness were assessed and compared with the values obtained from anatomical sections by image analysis. Results and conclusions. The FLASH and fat-suppressed FLASH sequences allowed the most accurate determination of the cartilage volume and thickness. F…

AdultCartilage ArticularMaleCadaverReference ValuesmedicineCadaverSynovial fluidHumansRadiology Nuclear Medicine and imagingReproducibilitymedicine.diagnostic_testbusiness.industryCartilageReproducibility of ResultsPulse sequenceMagnetic resonance imagingAnatomyPatellaMiddle AgedMagnetic Resonance Imagingmedicine.anatomical_structurePatellabusinessCadaveric spasmBiomedical engineeringSkeletal radiology
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Facilitating cartilage volume measurement using MRI.

2010

To compare quantitative cartilage volume measurement (CVM) using different slice thicknesses.Ten knees were scanned with a 1.5T MRI (Sonata, Siemens, Erlangen, Germany) using a 3D gradient echo sequence (FLASH, fast low-angle shot). Cartilage volume of the medial and lateral tibial plateau was measured by two independent readers in 1.5mm, 3.0mm and 5.0mm slices using the Argus software application. Accuracy and time effectiveness served as control parameters.Determining cartilage volume, time for calculation diminished for the lateral tibial plateau from 384.6+/-127.7s and 379.1+/-117.6s to 214.9+/-109.9s and 213.9+/-102.2s to 122.1+/-60.1s and 126.8+/-56.2s and for the medial tibial platea…

AdultCartilage ArticularMaleKnee JointLateral tibial plateauArticular cartilageYoung AdultVolume measurementImage Processing Computer-AssistedMedicineHumansRadiology Nuclear Medicine and imagingControl parametersObserver VariationTibiabusiness.industryCartilageGeneral MedicineAnatomyMagnetic Resonance Imagingmedicine.anatomical_structureFemalebusinessVolume (compression)Biomedical engineeringGradient echoEuropean journal of radiology
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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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Repeatability of patellar cartilage thickness patterns in the living, using a fat-suppressed magnetic resonance imaging sequence with short acquisiti…

1998

A fast, reproducible, and noninvasive method is required for quantifying cartilage thickness clinically and for studying the deformation of articular cartilage during and after mechanical loading in vivo. The objective of the current investigation was to test the repeatability of regional distribution patterns of patellar cartilage thickness in the living on the basis of a fat-suppressed magnetic resonance imaging sequence with a short acquisition time and three-dimensional digital data processing. The knees of eight healthy volunteers were transversally imaged with a fat-suppressed FLASH-3D (fast low angle shot) sequence (acquisition time: 4 minutes and 10 seconds). In each case, the joint…

AdultCartilage ArticularMalePatellar cartilageMaterials sciencemedicine.diagnostic_testCoefficient of variationCartilageReproducibility of ResultsMagnetic resonance imagingPatellaRepeatabilityImage EnhancementMagnetic Resonance ImagingNuclear magnetic resonancemedicine.anatomical_structureHealthy volunteersImage Processing Computer-AssistedmedicineHumansFemaleOrthopedics and Sports MedicineAcquisition timeDigital data processingBiomedical engineeringJournal of Orthopaedic Research
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Determination of knee joint cartilage thickness using three-dimensional magnetic resonance chondro-crassometry (3D MR-CCM)

1996

The objective of this article was to analyze the accuracy and precision with which the quantitative distribution of articular cartilage can be determined in the knee joint using MRI. A three-dimensional (3D) technique that accounts for the out-of-plane deviation of the interface normal in strongly curved joint surfaces (3D MR-CCM) has been developed for cartilage thickness measurements. Eight cadaveric knee-joint specimens and six volunteers were imaged using a fat-suppressed gradient-echo sequence at a resolution of 2 x 0.31 x 0.31 mm3. Cartilage volumes and topographical thickness maps were obtained and compared with those derived from anatomical sections by image analysis. The deviation …

AdultCartilage ArticularMalemusculoskeletal diseasesAccuracy and precisionMaterials scienceKnee JointCoefficient of variationKnee JointmedicineHumansRadiology Nuclear Medicine and imagingJoint (geology)AgedAged 80 and overObserver Variationmedicine.diagnostic_testCartilageReproducibility of ResultsMagnetic resonance imagingAnatomyMiddle AgedMagnetic Resonance Imagingmedicine.anatomical_structureFemalePatellaCadaveric spasmBiomedical engineeringMagnetic Resonance in Medicine
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Importance of Patella, Quadriceps Forces, and Depthwise Cartilage Structure on Knee Joint Motion and Cartilage Response During Gait

2015

In finite-element (FE) models of the knee joint, patella is often omitted. We investigated the importance of patella and quadriceps forces on the knee joint motion by creating an FE model of the subject's knee. In addition, depthwise strains and stresses in patellar cartilage with different tissue properties were determined. An FE model was created from subject's magnetic resonance images. Knee rotations, moments, and translational forces during gait were recorded in a motion laboratory and used as an input for the model. Three material models were implemented into the patellar cartilage: (1) homogeneous model, (2) inhomogeneous (arcadelike fibrils), and (3) random fibrils at the superficia…

AdultCartilage ArticularMalemusculoskeletal diseasesquadricepsMaterials science0206 medical engineeringShear forceBiomedical Engineering02 engineering and technologyOsteoarthritisKnee Jointmedicine.disease_causegaitModels BiologicalQuadriceps MuscleWeight-bearingWeight-Bearingknee joint03 medical and health sciences0302 clinical medicineTensile StrengthPhysiology (medical)Collagen networkfinite-element modelsmedicineHumansComputer SimulationRange of Motion Articularta315Orthodonticsta114Cartilage030229 sport sciencesmusculoskeletal systemmedicine.disease020601 biomedical engineeringmedicine.anatomical_structurepatellaPatellaStress MechanicalRange of motionhuman activitiesMuscle ContractionJournal of Biomechanical Engineering
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Non-invasive determination of cartilage thickness throughout joint surfaces using magnetic resonance imaging.

1997

Abstract Data on articular cartilage thickness in the living are important for the design of computer models, aimed at preoperatively assessing the effect of surgical procedures on joint contact and load transmission, and for the calculation of cartilage material properties from its deformational behavior as determined during arthroscopy. A non-invasive method for measuring cartilage thickness in living subjects is, however, not available. A technique based on magnetic resonance imaging has therefore been tested for assessing articular cartilage thickness throughout joint surfaces. The accuracy is determined by comparing cartilage thickness maps obtained from three patellar specimens with a…

AdultCartilage ArticularMaterials scienceKnee JointBiomedical EngineeringBiophysicsContrast MediaArticular cartilageModels BiologicalArthroscopyTriiodobenzoic AcidsmedicineCadaverImage Processing Computer-AssistedHumansOrthopedics and Sports MedicineJoint (geology)Ultrasonographymedicine.diagnostic_testbusiness.industryCartilageRehabilitationArthroscopyUltrasoundMagnetic resonance imagingPatellaCartilage thicknessMiddle AgedImage EnhancementMagnetic Resonance ImagingRadiographic Image Enhancementmedicine.anatomical_structurePatellaStress MechanicalbusinessTomography X-Ray ComputedBiomedical engineeringJournal of biomechanics
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Noncontact monitoring of vascular lesion phototherapy efficiency by RGB multispectral imaging.

2013

A prototype low-cost RGB imaging system consisting of a commercial RGB CMOS sensor, RGB light-emitting diode ring light illuminator, and a set of polarizers was designed and tested for mapping the skin erythema index, in order to monitor skin recovery after phototherapy of vascular lesions, such as hemangiomas and telangiectasias. The contrast of erythema index (CEI) was proposed as a parameter for quantitative characterization of vascular lesions. Skin recovery was characterized as a decrease of the CEI value relative to the value before the treatment. This approach was clinically validated by examining 31 vascular lesions before and after phototherapy.

AdultDiagnostic ImagingSkin erythemaPathologymedicine.medical_specialtyErythemaMultispectral imageBiomedical EngineeringBiomaterialsYoung AdultMedicineHumansTelangiectasisSkinCMOS sensorintegumentary systembusiness.industrySpectrum AnalysisVascular lesionMiddle AgedPhototherapyAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsTreatment OutcomeErythemaRGB color modelmedicine.symptombusinessHemangiomaBiomedical engineeringJournal of biomedical optics
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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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