Search results for "020601 biomedical engineering"

showing 10 items of 335 documents

Inability of Laplace's law to estimate sub-bandage pressures after applying a compressive bandage: a clinical study

2021

Objective: The aim of the current study was to compare pressures exerted on the lower limb by a high compression bandage as recorded by sub-bandage sensors and those estimated by Laplace's law. The correlation between pressures obtained in each anatomical zone and the corresponding limb perimeters were explored. Method: For the measurement of sub-bandage pressures, four anatomical zones in the lower right limb were determined. Pressures were recorded by nine pneumatic sensors and a PicoPress transducer. A two-layer compression bandage system (UrgoK2, Urgo Group, France) was used for the dressing. Pressures were registered in supine position. Sensor pressures were compared with those estimat…

AdultNursing (miscellaneous)Compression BandageCompression system0206 medical engineering02 engineering and technologyLower limbClinical studyYoung Adult030207 dermatology & venereal diseases03 medical and health sciences0302 clinical medicineCompression BandagesPressureHumansMedicineLaplace transformbusiness.industryEquipment DesignModels Theoretical020601 biomedical engineeringLawCalibrationFemaleFundamentals and skillsFrancebusinessBandageJournal of Wound Care
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Assessment of haemophilic arthropathy through balance analysis: a promising tool

2019

[EN] The purpose of this study was to develop a tool able to distinguish between subjects who have haemophilic arthropathy in lower limbs and those who do not by analyzing the centre of pressure displacement. The second objective was to assess the possible different responses of haemophiliacs and healthy subjects by creating a classifier that could distinguish between both groups. Fiftyfour haemophilic patients (28 with and 26 without arthropathy) and 23 healthy subjects took part voluntarily in the study. A force plate was used to measure postural stability. A total of 276 centre of pressure displacement parameters were calculated under different conditions: unipedal/bipedal balance with e…

Adultmedicine.medical_specialtyHaemophiliaEvaluation system0206 medical engineeringBiomedical EngineeringArthropathyBioengineering02 engineering and technologyHemophilia AQuadratic discriminant analysisTECNOLOGIA ELECTRONICA03 medical and health sciences0302 clinical medicinePhysical medicine and rehabilitationHemarthrosisArthropathyClassifier (linguistics)HumansMedicinePostural BalanceBalance (ability)Haemophilic arthropathybusiness.industryHealthy subjectsDiscriminant Analysis030229 sport sciencesGeneral MedicineQuadratic classifiermedicine.disease020601 biomedical engineeringHealthy VolunteersComputer Science ApplicationsHuman-Computer InteractionPostural stabilityCentre of pressuresbusiness
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Comparison of hemodynamic and structural indices of ascending thoracic aortic aneurysm as predicted by 2-way FSI, CFD rigid wall simulation and patie…

2018

Patient-specific computational modeling is increasingly being used to predict structural and hemodynamic parameters, especially when current clinical tools are not accessible. Indeed, pathophysiology of ascending thoracic aortic aneurysm (ATAA) has been simulated to quantify the risk of complications by novel prognostic parameters and thus to improve the clinical decision-making process related to the intervention of ATAAs. In this study, the relevance of aneurysmal wall elasticity in determining parameters of clinical importance, such as the wall shear stress (WSS), is discussed together with the significance of applying realistic boundary conditions to consider the aortic stretch and twis…

Aortic valveAdultMalePatient-Specific Modelingmedicine.medical_specialtyComputer science0206 medical engineeringFinite Element Analysisaorti failureHeart Valve DiseasesHemodynamicsFluid-solid interaction (FSI)Health Informatics02 engineering and technology030204 cardiovascular system & hematologyComputational fluid dynamicsThoracic aortic aneurysm03 medical and health sciences0302 clinical medicineBicuspid aortic valveBicuspid Aortic Valve DiseaseInternal medicinemedicineShear stressHumansComputer SimulationAgedAortic Aneurysm ThoracicStructural mechanicsbusiness.industryFinite element analysis (FEA)Models CardiovascularMiddle Agedmedicine.diseaseAscending thoracic aortic aneurysm020601 biomedical engineeringFinite element methodElasticityComputer Science Applicationsmedicine.anatomical_structureComputational fluid-dynamic (CFD)Aortic Valvecardiovascular systemCardiologyFemaleStress Mechanicalbusiness
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In Silico Shear and Intramural Stresses are Linked to Aortic Valve Morphology in Dilated Ascending Aorta

2017

Objective/Background: The development of ascending aortic dilatation in patients with bicuspid aortic valve (BAV) is highly variable, and this makes surgical decision strategies particularly challenging. The purpose of this study was to identify new predictors, other than the well established aortic size, that may help to stratify the risk of aortic dilatation in BAV patients.Methods: Using fluid-structure interaction analysis, both haemodynamic and structural parameters exerted on the ascending aortic wall of patients with either BAV ( n = 21) or tricuspid aortic valve (TAV; n = 13) with comparable age and aortic diameter (42.7 +/- 5.3 mm for BAV and 45.4 +/- 10.0 mm for TAV) were compared…

Aortic valveMalePatient-Specific ModelingComputed Tomography AngiographyHeart Valve DiseasesHemodynamics02 engineering and technology030204 cardiovascular system & hematology0302 clinical medicineBicuspid aortic valveBicuspid Aortic Valve DiseaseRisk FactorsAortaSinotubular JunctionModels CardiovascularSettore ING-IND/34 - Bioingegneria IndustrialeComputational modelingAneurysm of ascending aortaMiddle AgedAortic AneurysmHeart Valve Diseasemedicine.anatomical_structureAortic Valvecardiovascular systemCardiologyWall shear streFemaleCardiology and Cardiovascular MedicineBlood Flow VelocityDilatation PathologicHumanmedicine.medical_specialtyBicuspid aortic valve0206 medical engineeringAortography03 medical and health sciencesInternal medicinemedicine.arteryAscending aortamedicineHumansAgedAortabusiness.industryRisk FactorSignificant differenceHemodynamicsmedicine.disease020601 biomedical engineeringAortic wallRegional Blood FlowSurgeryStress Mechanicalbusiness
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On the Left Ventricular Remodeling of Patients with Stenotic Aortic Valve: A Statistical Shape Analysis

2021

The left ventricle (LV) constantly changes its shape and function as a response to pathological conditions, and this process is known as remodeling. In the presence of aortic stenosis (AS), the degenerative process is not limited to the aortic valve but also involves the remodeling of LV. Statistical shape analysis (SSA) offers a powerful tool for the visualization and quantification of the geometrical and functional patterns of any anatomic changes. In this paper, a SSA method was developed to determine shape descriptors of the LV under different degrees of AS and thus to shed light on the mechanistic link between shape and function. A total of n=86 patients underwent computed tomography (…

Aortic valveTechnologymedicine.medical_specialtyQH301-705.5left ventricle0206 medical engineeringstatistical shape analysisBioengineeringaortic valve stenosis02 engineering and technology030204 cardiovascular system & hematologyArticle03 medical and health sciences0302 clinical medicineInternal medicinemedicineIn patientBiology (General)Settore ING-IND/15 - Disegno E Metodi Dell'Ingegneria IndustrialeVentricular remodelingbusiness.industryTStatistical shape analysisSettore ING-IND/34 - Bioingegneria IndustrialeBaseline modelmedicine.disease020601 biomedical engineeringStenosismedicine.anatomical_structureAortic valve stenosis Left ventricle Statistical shape analysisVentriclePrincipal component analysisCardiologybusinessBioengineering
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Transcatheter Heart Valve Implantation in Bicuspid Patients with Self-Expanding Device

2021

Bicuspid aortic valve (BAV) patients are conventionally not treated by transcathether aortic valve implantation (TAVI) because of anatomic constraint with unfavorable outcome. Patient-specific numerical simulation of TAVI in BAV may predict important clinical insights to assess the conformability of the transcathether heart valves (THV) implanted on the aortic root of members of this challenging patient population. We aimed to develop a computational approach and virtually simulate TAVI in a group of n.6 stenotic BAV patients using the self-expanding Evolut Pro THV. Specifically, the structural mechanics were evaluated by a finite-element model to estimate the deformed THV configuration in …

Aortic valveTechnologymedicine.medical_specialtybicuspid aortic valveQH301-705.5medicine.medical_treatment0206 medical engineeringDiastoleBioengineering02 engineering and technology030204 cardiovascular system & hematologyBicuspid aortic valve Finite-element analysis Fluid–solid interaction Transcatheter aortic valve implantationArticle03 medical and health sciences0302 clinical medicineBicuspid aortic valveInternal medicinemedicine.arterymedicineCardiac skeletonHeart valveBiology (General)transcatheter aortic valve implantationAortabusiness.industryTSettore ING-IND/34 - Bioingegneria IndustrialeStentmedicine.diseasefluid–solid interaction020601 biomedical engineeringAortic wallmedicine.anatomical_structurefinite-element analysiscardiovascular systemCardiologybusinessBioengineering
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Deep learning approach for the segmentation of aneurysmal ascending aorta.

2020

Diagnosis of ascending thoracic aortic aneurysm (ATAA) is based on the measurement of the maximum aortic diameter, but size is not a good predictor of the risk of adverse events. There is growing interest in the development of novel image-derived risk strategies to improve patient risk management towards a highly individualized level. In this study, the feasibility and efficacy of deep learning for the automatic segmentation of ATAAs was investigated using UNet, ENet, and ERFNet techniques. Specifically, CT angiography done on 72 patients with ATAAs and different valve morphology (i.e., tricuspid aortic valve, TAV, and bicuspid aortic valve, BAV) were semi-automatically segmented with Mimic…

Aortic valvemedicine.medical_specialtyComputer science0206 medical engineeringBiomedical Engineering02 engineering and technology01 natural sciencesThoracic aortic aneurysm010309 opticsAneurysmBicuspid aortic valvemedicine.artery0103 physical sciencesAscending aortamedicineSegmentationAortabusiness.industryDeep learningSettore ING-IND/34 - Bioingegneria Industrialemedicine.disease020601 biomedical engineeringAneurysm Aorta Aortic valve Deep learningSegmentationmedicine.anatomical_structureOriginal ArticleRadiologyArtificial intelligencebusinessBiomedical engineering letters
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Constitutive modeling of ascending thoracic aortic aneurysms using microstructural parameters.

2016

Ascending thoracic aortic aneurysm (ATAA) has been associated with diminished biomechanical strength and disruption in the collagen fiber microarchitecture. Additionally, the congenital bicuspid aortic valve (BAV) leads to a distinct extracellular matrix structure that may be related to ATAA development at an earlier age than degenerative aneurysms arising in patients with the morphological normal tricuspid aortic valve (TAV). The purpose of this study was to model the fiber-reinforced mechanical response of ATAA specimens from patients with either BAV or TAV. This was achieved by combining image-analysis derived parameters of collagen fiber dispersion and alignment with tensile testing dat…

Aortic valvemedicine.medical_specialtyMaterials scienceBicuspid aortic valve0206 medical engineeringFinite Element AnalysisBiomedical EngineeringBiophysics02 engineering and technology030204 cardiovascular system & hematologyThoracic aortic aneurysmModels BiologicalArticleExtracellular matrixSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di Macchine03 medical and health sciencesAortic aneurysmFinite Element Analysi0302 clinical medicineBicuspid aortic valveFinite elementmedicine.arteryInternal medicineTensile StrengthAscending aortamedicineHumansAortaMechanical PhenomenaAortaAortic aneurysmAortic Aneurysm ThoracicSettore ING-IND/34 - Bioingegneria IndustrialeBiomechanical strengthExtracellular matrixAnatomymedicine.disease020601 biomedical engineeringBiomechanical Phenomenamedicine.anatomical_structureBiophysicCardiologycardiovascular systemCollagenStress MechanicalAortic failureHumanMedical engineeringphysics
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Statistical shape analysis of ascending thoracic aortic aneurysm: Correlation between shape and biomechanical descriptors

2020

An ascending thoracic aortic aneurysm (ATAA) is a heterogeneous disease showing different patterns of aortic dilatation and valve morphologies, each with distinct clinical course. This study aimed to explore the aortic morphology and the associations between shape and function in a population of ATAA, while further assessing novel risk models of aortic surgery not based on aortic size. Shape variability of n = 106 patients with ATAA and different valve morphologies (i.e., bicuspid versus tricuspid aortic valve) was estimated by statistical shape analysis (SSA) to compute a mean aortic shape and its deformation. Once the computational atlas was built, principal component analysis (PCA) allow…

Aortic valveprincipal component analysis0206 medical engineeringPopulationshape analysislcsh:MedicineMedicine (miscellaneous)Principal component analysi02 engineering and technology030204 cardiovascular system & hematologyThoracic aortic aneurysmTortuosityArticleCorrelation03 medical and health sciences0302 clinical medicinemedicine.arterymedicineShear stress: straineducationeducation.field_of_studyAortaShape analysibusiness.industryStatistical shape analysislcsh:RComputational modelingAnatomymedicine.disease020601 biomedical engineeringmedicine.anatomical_structurecardiovascular systembusinessShape analysis (digital geometry)
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Dielectric Behavior of Aqueous Solutions of α,β-Poly(aspartyl hydrazide) and α,β-Poly(N-hydroxyethyl aspartamide): An Investigation of the Structural…

1994

The dielectric properties of aqueous solutions of α,β-poly(aspartyl hydrazide) (PAHy) and of α,β-poly( N-hydroxyethyl aspartamide) (PHEA) were measured at 25 ° C in the frequency range of 100 MHz to 15 GHz using a time domain reflection method (TDR). Single time relaxation processes were found at 2 GHz and 15 GHz, respectively. The low frequency dispersion was inter preted in terms of the dynamics of polymeric segments based on the dielectric relaxation strength and the relaxation time. The high frequency process which is attributed to the rotational relaxation of water, indicated that water mole cules surrounding the polymeric backbone and in the pure state have a similar rotational behav…

Aqueous solutionPolymers and PlasticsRelaxation strength0206 medical engineeringRelaxation (NMR)Analytical chemistryBioengineering02 engineering and technologyDielectricLow frequency021001 nanoscience & nanotechnologyHydrazide020601 biomedical engineeringBiomaterialschemistry.chemical_compoundCrystallographyReflection (mathematics)chemistryMaterials Chemistry0210 nano-technologyDispersion (chemistry)Journal of Bioactive and Compatible Polymers
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