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Acta Biomaterialia
|
July 7, 2021
Strength and deformability of fibrin clots: Biomechanics, thermodynamics, and mechanisms of rupture
Valerie Tutwiler, Farkhad Maksudov, Rustem I Litvinov, et al.
Blood
|
June 14, 2003
Recombinant BbetaArg14His fibrinogen implies participation of N-terminus of Bbeta chain in desA fibrin polymerization
Jennifer L Moen, Oleg V Gorkun, John W Weisel, et al.
Sub-Cellular Biochemistry
|
November 30, 2020
Fibrinogen and Fibrin
Rustem I Litvinov, Marlien Pieters, Zelda de Lange-Loots, et al.
Journal of Thrombosis and Haemostasis : JTH
|
January 27, 2015
Molecular mechanisms of the effect of ultrasound on the fibrinolysis of clots
I N Chernysh, C E Everbach, P K Purohit, et al.
Current Opinion in Biomedical Engineering
|
April 7, 2022
Computational Biomechanical Modeling of Fibrin Networks and Platelet-Fiber Network Interactions
Francesco Pancaldi, Oleg V Kim, John W Weisel, et al.
Circulation
|
January 19, 2006
Images in cardiovascular medicine. Architecture of intracoronary thrombi in ST-elevation acute myocardial infarction: time makes the difference
Farzin Beygui, Jean-Philippe Collet, Chandrasekaran Nagaswami, et al.
Blood
|
June 15, 1997
The conversion of fibrinogen to fibrin: recombinant fibrinogen typifies plasma fibrinogen
O V Gorkun, Y I Veklich, J W Weisel, et al.
Biomaterials
|
May 21, 2014
Structural basis for the nonlinear mechanics of fibrin networks under compression
Oleg V Kim, Rustem I Litvinov, John W Weisel, et al.
Nature Communications
|
November 4, 2017
Quantitative structural mechanobiology of platelet-driven blood clot contraction
Oleg V Kim, Rustem I Litvinov, Mark S Alber, et al.
Annals of the New York Academy of Sciences
|
July 20, 2001
Clot lysis of variant recombinant fibrinogens confirms that fiber diameter is a major determinant of lysis rate
J L Mullin, S E Norfolk, J W Weisel, et al.
Page
of 32
Search research articles
Search
Showing results (101-110 of 319) with videos related to
Sort By:
Page
of 32
Acta Biomaterialia
|
July 7, 2021
Strength and deformability of fibrin clots: Biomechanics, thermodynamics, and mechanisms of rupture
Valerie Tutwiler, Farkhad Maksudov, Rustem I Litvinov, et al.
Blood
|
June 14, 2003
Recombinant BbetaArg14His fibrinogen implies participation of N-terminus of Bbeta chain in desA fibrin polymerization
Jennifer L Moen, Oleg V Gorkun, John W Weisel, et al.
Sub-Cellular Biochemistry
|
November 30, 2020
Fibrinogen and Fibrin
Rustem I Litvinov, Marlien Pieters, Zelda de Lange-Loots, et al.
Journal of Thrombosis and Haemostasis : JTH
|
January 27, 2015
Molecular mechanisms of the effect of ultrasound on the fibrinolysis of clots
I N Chernysh, C E Everbach, P K Purohit, et al.
Current Opinion in Biomedical Engineering
|
April 7, 2022
Computational Biomechanical Modeling of Fibrin Networks and Platelet-Fiber Network Interactions
Francesco Pancaldi, Oleg V Kim, John W Weisel, et al.
Circulation
|
January 19, 2006
Images in cardiovascular medicine. Architecture of intracoronary thrombi in ST-elevation acute myocardial infarction: time makes the difference
Farzin Beygui, Jean-Philippe Collet, Chandrasekaran Nagaswami, et al.
Blood
|
June 15, 1997
The conversion of fibrinogen to fibrin: recombinant fibrinogen typifies plasma fibrinogen
O V Gorkun, Y I Veklich, J W Weisel, et al.
Biomaterials
|
May 21, 2014
Structural basis for the nonlinear mechanics of fibrin networks under compression
Oleg V Kim, Rustem I Litvinov, John W Weisel, et al.
Nature Communications
|
November 4, 2017
Quantitative structural mechanobiology of platelet-driven blood clot contraction
Oleg V Kim, Rustem I Litvinov, Mark S Alber, et al.
Annals of the New York Academy of Sciences
|
July 20, 2001
Clot lysis of variant recombinant fibrinogens confirms that fiber diameter is a major determinant of lysis rate
J L Mullin, S E Norfolk, J W Weisel, et al.
Page
of 32