Search results for "reconstruction"

showing 10 items of 784 documents

Porcine Model for Deep Superior Epigastric Artery Perforator Flap Harvesting: Anatomy and Technique

2018

BACKGROUND Microsurgical training on rats before starting with clinical practice is a well-established routine. Animal model training is less widespread for perforator flaps, although these flaps represent a technical challenge. Unlike other flaps, they require specific technical skills that need to be adequately trained on a living model 1 : a cadaver is not enough because no bleeding, vessel damage, or vasospasm can be simulated. 2 The purpose of this study was to assess the suitability of the porcine abdomen as a training model for the deep inferior epigastric artery perforator (DIEAP) flap, commonly used in human breast reconstruction. METHODS A female swine (Sus scrofa domesticus, ssp;…

Superior epigastric arteryMicrosurgical training DIEP breast reconstruction free flap living animal modelbusiness.industrylcsh:SurgeryAnatomylcsh:RD1-811030230 surgery03 medical and health sciences0302 clinical medicine030220 oncology & carcinogenesismedicine.arteryMedicineSurgerybusinessporcine model Deep Superior Epigastric Artery Perforator FlapSICPRE AbstractsPlastic and Reconstructive Surgery Global Open
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Atomistic Simulations of the LaMnO3 (110) Polar Surface.

2003

The results of atomic structure calculations, with a focus on the surface relaxation and polarization, are presented for the LaMnO3 (110) O-terminated polar surface. We compare results of the classical shell model calculations for four possible terminations, including (1 × 2) (110) surface reconstruction, and demonstrate that the latter has the lowest surface energy. The surface energy is saturated only when six to eight near-surface atomic planes are relaxed which is accompanied by the considerable dipole moments perpendicular to the surface. Results are compared with those for iso-structural BaTiO3 (110) surfaces.

Surface (mathematics)ChemistrySHELL modelRelaxation (NMR)General Physics and AstronomyGeneral MedicinePolarization (waves)Molecular physicsSurface energyCrystallographyDipoleAb initio quantum chemistry methodsPerpendicularPolarPhysical and Theoretical ChemistrySurface reconstructionChemInform
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Geometric Properties of the 3D Spine Curve

2003

Through a 3D reconstruction of the human back surface using structured light techniques, we study the properties of spine curve by means of a set of parameters related to measures commonly applied in medicine. In this way, descriptors for measuring the abnormalities in the projections of the front and sagittal planes can be computed. We build the spine curve in 3D and analyse the behaviour of the Frenet frame when along the curve the deformation processes in idiophatic scoliosis appear.

Surface (mathematics)Computer scienceFrenet–Serret formulas3D reconstructionGeometryImage processingScoliosisIterative reconstructionmedicine.diseaseSagittal planeHuman backmedicine.anatomical_structuremedicineStructured light
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3D reconstruction of transparent objects exploiting surface fluorescence caused by UV irradiation

2010

In this paper, we present a novel approach exploiting fluorescence imaging to estimate the shape of transparent objects. Classical inspection systems require users to coat transparent objects with some powder before measurement. Methods suggested in literature through non contact measurement do not effectively deal with the refraction problem, thus, providing inaccuracies. The proposed method handles the scanning of transparent objects without using any powder and solving the refraction problem using UV environment. A classical triangulation method based on stereovision scheme using fixed stereoscopic visible range cameras with a fixed UV (Ultra Violet) laser source is implemented. Transpar…

Surface (mathematics)Materials sciencebusiness.industry3D reconstructionTriangulation (computer vision)StereoscopyIterative reconstructionFluorescenceRefractionlaw.inventionlawComputer visionIrradiationArtificial intelligencebusiness2010 IEEE International Conference on Image Processing
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Effective elastic properties of biocomposites using 3D computational homogenization and X-ray microcomputed tomography

2021

A 3D computational homogenization method based on X-ray microcomputed tomography (μCT) was proposed and implemented to investigate how the fiber weight fraction, orthotropy and orientation distribution affect the effective elastic properties of regenerated cellulose fiber-polylactic acid (PLA) biocomposites. Three-dimensional microstructures reconstructed by means of the X-ray μCT were used as the representative volume elements (RVEs) and incorporated into the finite element solver within the computational homogenization framework. The present method used Euclidean bipartite matching technique so as to eliminate the generation of artificial periodic boundaries and use the in-situ solution d…

Surface (mathematics)Materials scienceröntgentekniikkaComputational homogenizationHomogenization (chemistry)X-Ray Microcomputed TomographytomografiaFiberFiber3D-mallinnuskomposiititCivil and Structural EngineeringBiocompositeskuidutOrientation (computer vision)Regenerated celluloseReconstruction algorithmMicrostructuremikrorakenteetmateriaalitutkimuskuvantaminenröntgenkuvausCeramics and CompositesReconstructionBiological systemX-ray microcomputed tomography
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MUSIC-characterization of small scatterers for normal measurement data

2009

We investigate the reconstruction of the positions of a collection of small metallic objects buried beneath the ground from measurements of the vertical component of scattered fields corresponding to vertically polarized dipole excitations on a horizontal two-dimensional measurement device above the surface of the ground. A MUSIC reconstruction method for this problem has recently been proposed by Iakovleva et al (2007 IEEE Trans. Antennas Propag. 55 2598). In this paper, we give a rigorous theoretical justification of this method. To that end we prove a characterization of the positions of the scatterers in terms of the measurement data, applying an asymptotic analysis of the scattered fie…

Surface (mathematics)PhysicsAsymptotic analysisbusiness.industryApplied MathematicsInverse problemReconstruction methodComputer Science ApplicationsTheoretical Computer ScienceComputational physicsCharacterization (materials science)DipoleOpticsPosition (vector)Signal ProcessingbusinessMathematical PhysicsExcitationInverse Problems
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Comment on "surface restructuring, kinetic oscillations, and chaos in heterogeneous catalytic reactions".

1999

In a recent article Zhdanov studied the oscillating $\mathrm{NO}+{\mathrm{H}}_{2}$ reaction on the Pt(100) single-crystal surface [V. P. Zhdanov, Phys. Rev. E 59, 6292 (1999)]. We have scrutinized his model and found fundamental errors in the chemical modeling, in the modeling of the surface reconstruction and in the simulation procedure itself.

Surface (mathematics)PhysicsChemical process modelingThermodynamicsKinetic energySurface reconstructionCatalysisPhysical review. E, Statistical, nonlinear, and soft matter physics
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Scanning from heating: 3D shape estimation of transparent objects from local surface heating.

2009

Today, with quality becoming increasingly important, each product requires three-dimensional in-line quality control. On the other hand, the 3D reconstruction of transparent objects is a very difficult problem in computer vision due to transparency and specularity of the surface. This paper proposes a new method, called Scanning From Heating (SFH), to determine the surface shape of transparent objects using laser surface heating and thermal imaging. Furthermore, the application to transparent glass is discussed and results on different surface shapes are presented.

Surface (mathematics)Quality ControlOptics and PhotonicsMaterials scienceHot TemperatureRadiationbusiness.industryInfrared RaysUltraviolet RaysLasers3D reconstructionOptical flowTransparency (human–computer interaction)Equipment DesignAtomic and Molecular Physics and OpticsT Technology (General)OpticsSpecularityThermographyAttenuation coefficientThermalImage Processing Computer-AssistedbusinessStructured lightOptics express
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A modified surgical approach for hard and soft tissue reconstruction of severe periimplantitis defects – Laser‐assisted periimplant defect regenerati…

2019

Surgical approachMaterials scienceRegeneration (biology)Soft tissue reconstructionOral SurgeryLaser assistedBiomedical engineeringClinical Oral Implants Research
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Dural splitting reconstruction in retethering after lipomeningocele repair: Technical note

2021

Background: Tethered spinal cord syndrome (TCS) can occur after the surgical repair of lipomeningoceles (LMCs). In these cases, the tethering results from postoperative adhesions between the spinal cord and the overlying repaired dura. A watertight dural closure using the residual dura and/or the surrounding tissues does not always provide enough space for the spinal cord and risks retethering. Here, we report a 16-year-old patient with secondary TCS following lipomeningocele repair who successfully underwent release of the tethered filum terminale utilizing a novel dural splitting reconstructive technique to attain a water-tight closure without the need for a duroplasty. Methods: A 16-yea…

Surgical repairmedicine.medical_specialtyLipomeningocelebusiness.industryDura materSpinal cordTethered spinal cord syndromemedicine.diseaseLipomeningoceleLow back painSurgerySplittingmedicine.anatomical_structuremedicineDura materSurgeryNeurology (clinical)Filum terminaleTechnical NotesReconstructionmedicine.symptombusinessTethered CordTethered cordSurgical Neurology International
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