Platelet activation due to hemodynamic shear stresses: damage accumulation model and comparison to in vitro measurements.
about
Rupture Forces among Human Blood Platelets at different Degrees of Activation.Device thrombogenicity emulation: a novel method for optimizing mechanical circulatory support device thromboresistanceAn integrated acoustic and dielectrophoretic particle manipulation in a microfluidic device for particle wash and separation fabricated by mechanical machining.Device Thrombogenicity Emulator (DTE)--design optimization methodology for cardiovascular devices: a study in two bileaflet MHV designs.Single-molecule force spectroscopy applied to heparin-induced thrombocytopenia.Near valve flows and potential blood damage during closure of a bileaflet mechanical heart valve.Two-dimensional FSI simulation of closing dynamics of a tilting disc mechanical heart valveTowards non-thrombogenic performance of blood recirculating devicesHigh-shear stress sensitizes platelets to subsequent low-shear conditions.The use of computational fluid dynamics in the development of ventricular assist devicesNumerical investigation of the effects of channel geometry on platelet activation and blood damage.Lagrangian postprocessing of computational hemodynamicsMechanical platelet activation potential in abdominal aortic aneurysms.Hemocompatibility of Poly(vinyl alcohol)-Gelatin Core-Shell Electrospun Nanofibers: A Scaffold for Modulating Platelet Deposition and ActivationPhysical Characterization and Platelet Interactions under Shear Flows of a Novel Thermoset Polyisobutylene-based Co-polymerTortuosity triggers platelet activation and thrombus formation in microvesselsPotential fluid mechanic pathways of platelet activationActivation and shedding of platelet glycoprotein IIb/IIIa under non-physiological shear stressEvaluation of shear-induced platelet activation models under constant and dynamic shear stress loading conditions relevant to devices.Repetitive Hypershear Activates and Sensitizes Platelets in a Dose-Dependent MannerA novel mathematical model of activation and sensitization of platelets subjected to dynamic stress histories.Aspirin has limited ability to modulate shear-mediated platelet activation associated with elevated shear stress of ventricular assist devices.Biological effects of dynamic shear stress in cardiovascular pathologies and devices.A retrospective analysis of factors influencing re-operation in patients undergoing mechanical valve replacement.Platelet size and density affect shear-induced thrombus formation in tortuous arterioles.Computational simulation of platelet interactions in the initiation of stent thrombosis due to stent malappositionHigh Frequency Components of Hemodynamic Shear Stress Profiles are a Major Determinant of Shear-Mediated Platelet Activation in Therapeutic Blood Recirculating Devices.Predicting false lumen thrombosis in patient-specific models of aortic dissection.Modeling thrombus formation and growth.Microfluidic emulation of mechanical circulatory support device shear-mediated platelet activation.Mathematical modeling of thrombus formation in idealized models of aortic dissection: initial findings and potential applications.Hemodynamic and thrombogenic analysis of a trileaflet polymeric valve using a fluid-structure interaction approach.Dielectrophoresis-Mediated Electrodeformation as a Means of Determining Individual Platelet Stiffness.Computational evaluation of the thrombogenic potential of a hollow-fiber oxygenator with integrated heat exchanger during extracorporeal circulation.Computational fluid dynamics analysis of surgical adjustment of left ventricular assist device implantation to minimise stroke risk.Combining numerical and clinical methods to assess aortic valve hemodynamics during exercise.Effect of hypertension on the closing dynamics and Lagrangian blood damage index measure of the b-datum regurgitant jet in a bileaflet mechanical heart valve.High-resolution measurement of the unsteady velocity field to evaluate blood damage induced by a mechanical heart valve.Introducing the pro-coagulant contact system in the numerical assessment of device-related thrombosis.Constricted microfluidic devices to study the effects of transient high shear exposure on platelets.
P2860
Q27317335-14C9C49C-A1A6-48C2-AE27-D8EC72B5B9B0Q28731568-1F61D970-0806-4276-A9D0-CC4121D0276AQ30365016-82001F4C-FE86-4999-8432-9BF947760CDAQ30496100-7645D7C2-F631-4DFC-8D85-E398E995D76CQ33436353-DCF91BE9-1703-4091-8F6F-8D92BB8B2E80Q33626883-87CAFE4B-9F02-45EB-B0E8-887C135948CEQ33701922-634BD3ED-2005-4CDF-8289-BD9751B855BCQ33822427-71A8C8ED-66FE-4421-8CBB-6D3E20DF5D7CQ33857737-64010E04-2F14-4E87-BBB8-3B574DAAAF96Q34149690-748EDF4E-C330-4FA7-B94E-71B0E0329836Q34769722-502ECA06-F798-431B-86FC-9C9FBC4650B6Q34892765-5D36F1F6-80C4-45D7-8615-1009DF3FA73CQ35062181-70739F26-2B77-447D-B3BE-4483FFDC6282Q35983779-0BB29B39-CEA3-45EB-B2BB-56292CCDBDDDQ36171051-AE8B039A-0418-40BD-A1B7-3E5057C1037FQ36373837-9287D80C-55B7-4186-A2CC-DA2D35666BC6Q36478932-6CE90481-D966-4B06-9C69-BE97CC989337Q36608114-844C9A8D-CF91-461C-A0F5-7487D0604987Q36807605-E72028E9-56A5-47A2-8FB3-35B75A7F9BBDQ36863391-4D655673-2556-4AA2-B888-2E9C06B42F0FQ36988852-CA2F8C48-6B35-4914-B86E-B92C2E8F60E0Q37046266-9C002BFD-F8A7-46C2-B1EA-50D96358C2EFQ37106462-FAA84CEC-BA23-4600-8FE2-B3C166AD3213Q37253637-8FEF8238-2DEA-418C-87E3-D74203F1E366Q37270256-A21F5FEF-254D-4EEB-A00A-8B8FB24BE4EDQ37289877-18C5B8C6-8CAB-4EC5-A336-1E0631C748B6Q38685333-E07B3936-16A6-4A7C-A847-7E2A067A6F39Q39222487-F83AAF7B-342E-443C-8522-DDABFA0FD4E4Q39329081-92AE57AD-8D98-411F-A534-E365F425EEC8Q40946994-FF9D0548-D9D7-4BE0-B229-3547F0EFA556Q41372186-4A73D8F4-9E3A-44F1-86EC-069DF9BE67A8Q41825021-F7EC8A0E-A856-49A5-8D05-E5B902B6928FQ41885031-92F1A9FE-29AD-427A-93E2-C13B2AE76491Q42876554-CE0E4E72-2B35-4B38-9022-2B27F55D2993Q43651194-E8B0D800-154A-41C7-8621-1802F0B685E9Q44309016-7F292F33-920E-459A-8EAC-1B5C07C1784FQ45230252-86280F8F-2F4B-4F8E-BCA8-D90A3708D2BBQ45708981-FFBD122B-FF15-473D-BCB1-DC496FBBCCABQ47199514-24BAA90A-3077-4622-B7DE-5B61C3571F77Q47285003-D76BD08E-4D63-4E01-A488-8439C90F470F
P2860
Platelet activation due to hemodynamic shear stresses: damage accumulation model and comparison to in vitro measurements.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Platelet activation due to hem ...... ison to in vitro measurements.
@en
Platelet activation due to hem ...... ison to in vitro measurements.
@nl
type
label
Platelet activation due to hem ...... ison to in vitro measurements.
@en
Platelet activation due to hem ...... ison to in vitro measurements.
@nl
prefLabel
Platelet activation due to hem ...... ison to in vitro measurements.
@en
Platelet activation due to hem ...... ison to in vitro measurements.
@nl
P2093
P2860
P1433
P1476
Platelet activation due to hem ...... ison to in vitro measurements.
@en
P2093
Alberto Redaelli
Danny Bluestein
Jawaad Sheriff
Matteo Nobili
Umberto Morbiducci
P2860
P356
10.1097/MAT.0B013E31815D6898
P577
2008-01-01T00:00:00Z