Patient-specific modeling and quantification of the aortic and mitral valves from 4-D cardiac CT and TEE.
about
Three-dimensional transesophageal echocardiography: Principles and clinical applicationsAccuracy of a mitral valve segmentation method using J-splines for real-time 3D echocardiography dataPatient-specific mitral valve closure prediction using 3D echocardiography.Ultrasonic image analysis and image-guided interventionsUsing a shape prior for robust modeling of the mitral annulus on 4D ultrasound data.Computational modeling of cardiac valve function and intervention.Automatic measurement of aortic annulus diameter in 3-dimensional transoesophageal echocardiography.Modeling and representation of human hearts for volumetric measurement.Development of a semi-automated method for mitral valve modeling with medial axis representation using 3D ultrasound.Mitral annulus segmentation from four-dimensional ultrasound using a valve state predictor and constrained optical flow.Medially constrained deformable modeling for segmentation of branching medial structures: Application to aortic valve segmentation and morphometry.A novel left heart simulator for the multi-modality characterization of native mitral valve geometry and fluid mechanics.How do we use imaging to aid considerations for intervention in patients with severe mitral regurgitation?Fully automatic segmentation of the mitral leaflets in 3D transesophageal echocardiographic images using multi-atlas joint label fusion and deformable medial modeling.Isolated effect of geometry on mitral valve function for in silico model development.Multi-atlas segmentation with robust label transfer and label fusion.Feasibility of in vivo human aortic valve modeling using real-time three-dimensional echocardiographyModelling mitral valvular dynamics-current trend and future directions.Machine learning-based 3-D geometry reconstruction and modeling of aortic valve deformation using 3-D computed tomography images.A multidimensional dynamic quantification tool for the mitral valve.Modeling the Myxomatous Mitral Valve With Three-Dimensional Echocardiography.Patient-specific modelling of whole heart anatomy, dynamics and haemodynamics from four-dimensional cardiac CT images.Vascular smooth muscle cell functional contractility depends on extracellular mechanical properties.New concepts for mitral valve imaging.Four-dimensional modelling of the mitral valve by real-time 3D transoesophageal echocardiography: proof of concept.Three-dimensional dynamic assessment of tricuspid and mitral annuli using cardiovascular magnetic resonance.Three-dimensional transesophageal echocardiographic study of aortic-mitral valve coupling after coronary artery bypass grafting.CFD- and Bernoulli-based pressure drop estimates: A comparison using patient anatomies from heart and aortic valve segmentation of CT images.Dynamic updating atlas for heart segmentation with a nonlinear field-based model.Empirically Determined Vascular Smooth Muscle Cell Mechano-Adaptation Law.Exploring Different Parameters to Assess Left Ventricle Global and Regional Functional Analysis from Coronary CT Angiography
P2860
Q28078527-7A0901C0-6602-473E-AFAC-92B1B4F3C6A5Q30437428-E16B4D31-C588-4391-842E-F6BA9680D448Q30439334-BFA97066-630A-4B2A-A45B-4B5308B212D2Q30464903-78155222-321E-41E5-8BB0-AE70E5BACACDQ30677002-A53D053D-C2DF-4D1B-ACB6-4A0C3EE3429EQ33826407-9D7F72D4-B466-4E54-A6FF-EE5C12BEF0C4Q34761873-6C803209-3DFC-4602-AE60-480850601546Q35581906-8B58DA97-DC5F-4355-ACBD-C2E4B65D02EFQ35763999-7FADCAF8-E605-4889-A832-931739337CACQ36096579-0B5664BF-786B-4CCE-A1D4-5C07076AB7E2Q36372568-A66C8D10-2007-4680-8183-6CC4F401FF22Q36532984-78738226-6079-4483-A54C-CC9A62FD1214Q37377969-03AE867A-0F75-4BA0-89A4-4AD787C9B7CDQ37498652-8669AE3C-8081-401B-8CB5-C52418B8F55EQ37660159-7555D3C4-F7C1-485E-AF9F-11F623FED12CQ38601680-DD59455C-08AB-43B3-9BB8-25F306920BABQ38615195-9286D621-BD65-45F4-BBA1-6CD758B668E8Q38785092-D42A58C7-FAA2-4BFF-A5D9-9B3B0EBB41B7Q38828222-6BADF92D-ACD7-4EAF-B2D8-7BF1074EEC2BQ38984868-BA3039AE-E7CF-4151-B1FB-77A611D75C4CQ39522714-9A06FF13-914A-444A-8D1F-6556C732BC8EQ40543316-523DFF70-6BC3-4217-80AE-DA5D28F344C7Q40632021-E860139E-F2D2-4406-AF63-BDC95526DB55Q42107438-9229FA24-4001-45BD-B618-8AE4543FC506Q43539199-B9975A29-74B2-4235-B0F1-2C693FFE4B9CQ44995350-82E05CA1-FF2A-4DB1-AE3D-FB42C1E28A9DQ46425987-8011DCD4-0DB9-4928-B100-9C3592B9492CQ47937951-3A6FDDF1-C8C2-44DA-BEEF-E35C11CE4526Q50546227-43C5CD88-5A3D-48E5-8C11-21D4995CE591Q50912340-988B6913-A996-499C-8186-B18D3E3A5595Q57988301-7777E967-7069-4169-88AA-7CD9F4F2EEBC
P2860
Patient-specific modeling and quantification of the aortic and mitral valves from 4-D cardiac CT and TEE.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh-hant
name
Patient-specific modeling and ...... s from 4-D cardiac CT and TEE.
@en
Patient-specific modeling and ...... s from 4-D cardiac CT and TEE.
@nl
type
label
Patient-specific modeling and ...... s from 4-D cardiac CT and TEE.
@en
Patient-specific modeling and ...... s from 4-D cardiac CT and TEE.
@nl
prefLabel
Patient-specific modeling and ...... s from 4-D cardiac CT and TEE.
@en
Patient-specific modeling and ...... s from 4-D cardiac CT and TEE.
@nl
P2093
P356
P1476
Patient-specific modeling and ...... s from 4-D cardiac CT and TEE.
@en
P2093
Bogdan Georgescu
Fernando Vega-Higuera
Helene Houle
Ingmar Voigt
Nassir Navab
Razvan Ioan Ionasec
P304
P356
10.1109/TMI.2010.2048756
P50
P577
2010-05-03T00:00:00Z