about
Pipette aspiration applied to the characterization of nonhomogeneous, transversely isotropic materials used for vocal fold modeling.Characterization of a hyper-viscoelastic phantom mimicking biological soft tissue using an abdominal pneumatic driver with magnetic resonance elastography (MRE).The design of in vitro liver sinusoid mimics using chitosan-hyaluronic acid polyelectrolyte multilayers.Quasi-non-linear deformation modeling of a human liver based on artificial and experimental data.Constitutive modeling of liver tissue: experiment and theoryBlunt liver injury with intact ribs under impacts on the abdomen: a biomechanical investigationCharacterization of regional deformation and material properties of the intact explanted vein by microCT and computational analysis.Development of in vivo constitutive models for liver: application to surgical simulation.Remote Electromagnetic Vibration of Steerable Needles for Imaging in Power Doppler UltrasoundRobotic mechanical localization of prostate cancer correlates with magnetic resonance imaging scansBiodegradable scaffold with built-in vasculature for organ-on-a-chip engineering and direct surgical anastomosis.Designing a multicellular organotypic 3D liver model with a detachable, nanoscale polymeric Space of Disse.Constitutive modeling of porcine liver in indentation using 3D ultrasound imagingConstruct validity in a high-fidelity prostate exam simulator.Simple empirical model for identifying rheological properties of soft biological tissues.Review on different experimental techniques developed for recording force-deformation behaviour of soft tissues; with a view to surgery simulation applications.Improved human endometrial stem cells differentiation into functional hepatocyte-like cells on a glycosaminoglycan/collagen-grafted polyethersulfone nanofibrous scaffold.A novel laparoscopic grasper with two parallel jaws capable of extracting the mechanical behaviour of soft tissues.Numerical simulation and identification of macroscopic vascularised liver behaviour: Case of indentation tests.Development of a new optical device and its feasibility in prostate cancer detection.A Physics-driven Neural Networks-based Simulation System (PhyNNeSS) for multimodal interactive virtual environments involving nonlinear deformable objects.Cervical softening occurs early in pregnancy: characterization of cervical stiffness in 100 healthy women using the aspiration technique.Identifying a minimal rheological configuration: a tool for effective and efficient constitutive modeling of soft tissues.The effect of Glisson's capsule on the superficial elasticity measurements of the liver.Measuring tissue displacement of the anterior vaginal wall using the novel aspiration technique in vivo.Modeling function-perfusion behavior in liver lobules including tissue, blood, glucose, lactate and glycogen by use of a coupled two-scale PDE-ODE approach.Identification process based on shear wave propagation within a phantom using finite element modelling and magnetic resonance elastography.Robotic palpation and mechanical property characterization for abnormal tissue localization.How to build patient-specific synthetic abdominal anatomies. An innovative approach from physical toward hybrid surgical simulators.A novel experimental procedure based on pure shear testing of dermatome-cut samples applied to porcine skin.Dynamic bioengineered hydrogels as scaffolds for advanced stem cell and organoid cultureNew MEMS Tweezers for the Viscoelastic Characterization of Soft Materials at the Microscale
P2860
Q30445143-434907EB-BC0D-46BF-9781-A50571B0D092Q30455616-2619E8D0-6AC0-4ED9-9CD9-2EE02E845EC1Q30474413-BA3748A8-78A4-42B4-A66E-F2C42C4BF8A2Q31004545-FFE41CFF-30E4-4C9C-B8F0-4265B9E03896Q33636914-28EFBD7F-7A9B-4174-983B-889A1642A6A4Q34544514-D0BA2442-C575-4B40-AA71-60FA45EF97E6Q34755005-B2770467-9C0A-412B-B655-BEF725789036Q35177295-32FB7036-E8EC-4957-9A41-943FD1CBE04DQ36081933-63EC62AE-57ED-4F3C-855B-7C6B41B596F3Q36872828-73B6A8DF-28B1-479B-B846-FB024FBF63D4Q36932518-083B2157-D36C-4DFA-A25E-9AD8491D102DQ37222831-F3EC83F4-6C58-4F8E-A8F5-A04AC82061F5Q37243311-617D4C47-DB94-4101-AF86-F3895118C0E2Q37921078-5A80A17A-3636-4087-8A5E-9D43528012CDQ38744612-371F5160-E93E-45E1-8EC3-ED21A1C48E9DQ38763834-DEEAE185-61C5-4179-913E-DE1216E5E5B0Q38816014-C67ED6C6-7C73-4F2A-BED7-6B7790C48F43Q38838730-D203C0C7-606E-41C9-870F-22D406A27CEDQ38858249-1C73D607-E8E0-4310-8529-2D1FFC35824FQ40063426-AEB92088-24EA-4E32-8160-99ECDA77AA1EQ42176151-88900DE4-958B-4DF8-ADB0-421F4C6FFF95Q43954266-A9BDD6A7-CB9B-49AA-930A-13591359AC3EQ44689426-30170A96-7BED-49DA-9BED-36D70DE029E7Q46896928-EC766789-94D0-42D9-B81E-498DE805B0DDQ47156795-685F9873-4186-442E-96E6-01A7F5864A7CQ51035909-40A62B0F-BE89-4EC7-8A00-860391AC7921Q51172903-6FC6B444-1428-4E9A-B92F-CD95B2FA43DEQ51346208-820CE50C-EC62-4B0B-B18F-E5459489C6E0Q51572813-3EE6CC93-AA9F-4E61-BA3E-DC20911F0803Q53290069-9DE17638-A53B-499F-B457-4CDDB1D56637Q57371727-223195E4-EF58-419B-A4BE-D7E7F04743EEQ58584513-3A56998E-AAD1-4881-80FF-D7E018B32912
P2860
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
In vivo mechanical characterization of human liver.
@en
In vivo mechanical characterization of human liver.
@nl
type
label
In vivo mechanical characterization of human liver.
@en
In vivo mechanical characterization of human liver.
@nl
prefLabel
In vivo mechanical characterization of human liver.
@en
In vivo mechanical characterization of human liver.
@nl
P2093
P1476
In vivo mechanical characterization of human liver
@en
P2093
P304
P356
10.1016/J.MEDIA.2007.10.001
P577
2007-10-23T00:00:00Z