about
Integration of acoustic radiation force and optical imaging for blood plasma clot stiffness measurement.An investigation on platelet transport during thrombus formation at micro-scale stenosisFour-dimensional characterization of thrombosis in a live-cell, shear-flow assay: development and application to xenotransplantationPermanent occlusion of feeding arteries and draining veins in solid mouse tumors by vascular targeted photodynamic therapy (VTP) with TookadHolographic intravital microscopy for 2-D and 3-D imaging intact circulating blood cells in microcapillaries of live mice.High platelet reactivity on clopidogrel therapy correlates with increased coronary atherosclerosis and calcification: a volumetric intravascular ultrasound study.Rate of mixing controls rate and outcome of autocatalytic processes: theory and microfluidic experiments with chemical reactions and blood coagulation.Macro- and microscale variables regulate stent haemodynamics, fibrin deposition and thrombomodulin expressionHigh-shear stress sensitizes platelets to subsequent low-shear conditions.Dilutional control of prothrombin activation at physiologically relevant shear ratesA local increase in red blood cell aggregation can trigger deep vein thrombosis: evidence based on quantitative cellular ultrasound imaging.Comparison of fibrin-based clot elasticity parameters measured by free oscillation rheometry (ReoRox ®) versus thromboelastometry (ROTEM ®).Procoagulant activity in hemostasis and thrombosis: Virchow's triad revisited.Membrane binding events in the initiation and propagation phases of tissue factor-initiated zymogen activation under flow.Prothrombin activation by platelet-associated prothrombinase proceeds through the prethrombin-2 pathway via a concerted mechanism.Hemocompatibility of styrenic block copolymers for use in prosthetic heart valves.A reduced-dimensional model for near-wall transport in cardiovascular flowsEffects of different shear rates on the attachment and detachment of platelet thrombiRivaroxaban delivery and reversal at a venous flow rateRepetitive Hypershear Activates and Sensitizes Platelets in a Dose-Dependent MannerBiocompatibility assessment of a long-term wearable artificial pump-lung in sheepTissue factor activity is increased in a combined platelet and microparticle sample from cancer patients.In vitro perfused human capillary networks.Aspirin has limited ability to modulate shear-mediated platelet activation associated with elevated shear stress of ventricular assist devices.Comparison of stress-hemoconcentration correction techniques for stress-induced coagulation.Effect of exercise on patient specific abdominal aortic aneurysm flow topology and mixing.Tanshinone IIA protects rabbits against LPS-induced disseminated intravascular coagulation (DIC).Hemoconcentration and hemostasis during acute stress: interacting and independent effects.Physiologic and hematologic concerns of rotary blood pumps: what needs to be improved?Quantification of local hemodynamic alterations caused by virtual implantation of three commercially available stents for the treatment of aortic coarctation.Dynamics of blood flow and thrombus formation in a multi-bypass microfluidic ladder network.Compositions Including Synthetic and Natural Blends for Integration and Structural Integrity: Engineered for Different Vascular Graft Applications.Postoperative Hemodynamic Index Measurement With Miniaturized Dynamic Light Scattering Predicts Colorectal Anastomotic Healing.Influence of statin therapy at time of stroke onset on functional outcome among patients with atrial fibrillation.Quantitative Assessment of Turbulence and Flow Eccentricity in an Aortic Coarctation: Impact of Virtual Interventions.Functional characterization of tissue factor in von Willebrand factor-dependent thrombus formation under whole blood flow conditions.Using a Systems Pharmacology Approach to Study the Effect of Statins on the Early Stage of Atherosclerosis in Humans.Ischaemic stroke after exposure to aflibercept: interaction with vitamin K antagonist and/or direct pharmacodynamic effect?Effect of Immobilized Antithrombin III on the Thromboresistance of Polycarbonate UrethaneSlipChip for immunoassays in nanoliter volumes
P2860
Q27305047-B111E45B-8BA8-4900-A7A1-1DD156E19024Q27307079-9AABAA96-DA8C-4B34-80B3-AA8D3D40CA8AQ27310028-D6F128F0-1C85-4972-B860-94F4AC831CEBQ27330438-C0E039A5-F208-493D-976E-A951B397AAA5Q27349091-410B2455-C74A-4F42-AA0C-530F32547124Q30450312-5F12D01A-BD4E-406B-A3AE-15B4B92FFC07Q30482777-8414933B-A511-4C98-900E-1B435C16383BQ30575327-4DAA101E-D9DF-4CFC-A1D2-C876712BB9BCQ33857737-3F14154B-99A3-47BF-9231-AC60904B216EQ34535914-0C386258-5D89-4FD9-91B7-1C8F6A317472Q34630573-4CE29D35-4868-4786-B4CD-EFACBCFCFBC3Q35318068-644BE6FA-95A0-4B4C-B31E-6B4B106F50ECQ35690807-CD3C31B9-96A6-45C5-991A-8192729EA156Q35886863-24A581DA-83B2-4D2A-B375-D4BDE48DD1D2Q36385811-47B8A30D-2618-404D-B0CB-582AE0A20F0EQ36403365-D616F3DB-3E4C-4B05-93F7-F8694B585E94Q36609777-F2489B5F-699A-4425-AFB7-880FE49ED619Q36623963-553ECB35-E3E4-482B-87DF-DDBA0DEDD59DQ36775716-ED0DC4AA-BB19-4712-A183-773732AD89A0Q36863391-7F8F4ED1-8176-45BA-9850-9D942C269910Q36909047-9523BE49-3C8F-4272-8EA2-293ED884B0DEQ36947164-BB486626-B17C-4380-95AA-C47A46E42BB1Q37035799-7BECFB40-7CEF-4575-89BB-3300749B15ACQ37046266-297BE7E1-7814-47A8-839E-3E28F209C6E5Q37270461-E5129026-9011-49DC-B4E6-5A5E1BC9D1B4Q37555566-81433DA4-8B01-4EE9-9591-DE39DAD7B4FBQ37728710-FB007A91-74A7-4DDE-83DC-64161F7D77C8Q37874480-5D4F79B5-53E4-4B98-8202-8DAB97E803F9Q38095401-1B48D0B2-D443-4AE0-ADFE-372EE375BFE8Q38353534-AAD50744-0770-43F3-B9AC-96BB3917E6DFQ38744641-84CC0626-598A-45D1-95C3-F91C455B6D9EQ39216764-3CB05A19-8A2A-4365-986C-6A15ADF5649CQ40278785-FFC93471-2190-4AC0-83EF-63700AF3D4D0Q40302136-B80579AE-CB90-4134-A8F1-B87356F1CE60Q40312142-2D2F4498-C4FD-4452-AA47-F335F66A1383Q40562735-45947999-6B53-4B43-8A8C-2670573EC375Q40678975-1D60983D-5741-4F62-855E-08DEBB8CE9AAQ40990867-80657A7B-BD1D-4ECE-A423-0D2996EADA2AQ40991856-8BC06D50-5C92-4CD0-970F-2F18EFF3CE4AQ41075718-C691EBDD-38EF-44C7-A273-EC8BB693210B
P2860
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh
2006年學術文章
@zh-hant
name
Flow effects on coagulation and thrombosis.
@ast
Flow effects on coagulation and thrombosis.
@en
type
label
Flow effects on coagulation and thrombosis.
@ast
Flow effects on coagulation and thrombosis.
@en
prefLabel
Flow effects on coagulation and thrombosis.
@ast
Flow effects on coagulation and thrombosis.
@en
P1476
Flow effects on coagulation and thrombosis.
@en
P2093
James J Hathcock
P304
P356
10.1161/01.ATV.0000229658.76797.30
P407
P577
2006-06-01T00:00:00Z