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D Basmadjian

Showing results (1-10 of 14) with videos related to

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Journal of Biomechanics|January 1, 1986
The hemodynamic and embolizing forces acting on thrombi--II. The effect of pulsatile blood flowD Basmadjian
Annals of Biomedical Engineering|January 1, 1990
The effect of flow and mass transport in thrombogenesisD Basmadjian
Journal of Biomechanics|January 1, 1984
The hemodynamic forces acting on thrombi, from incipient attachment of single cells to maturity and embolizationD Basmadjian
Journal of Biomedical Materials Research|November 1, 1989
Embolization: critical thrombus height, shear rates, and pulsatility. Patency of blood vesselsD Basmadjian
Annals of Biomedical Engineering|March 1, 1994
An analysis of the contact phase of blood coagulation: effects of shear rate and surface are intertwinedK Gregory, D Basmadjian
Journal of Biomedical Materials Research|May 1, 1986
A model of thrombin inactivation in heparinized and nonheparinized tubes with consequences for thrombus formationD Basmadjian, M V Sefton
Journal of Biomedical Materials Research|May 1, 1983
Relationship between release rate and surface concentration for heparinized materialsD Basmadjian, M V Sefton
Biophysical Journal|December 1, 1978
Examination of transport equations pertaining to permeable elastic tubules such as Henle's loopD Basmadjian, A D Baines
Annals of Biomedical Engineering|July 1, 1994
A mathematical model of thrombin production in blood coagulation, Part I: The sparsely covered membrane caseS A Baldwin, D Basmadjian
Biomaterials|January 16, 1998
Coagulation on biomaterials in flowing blood: some theoretical considerationsD Basmadjian, M V Sefton, S A Baldwin
Pageof 2

Showing results (1-10 of 14) with videos related to

Sort By:
Pageof 2
Journal of Biomechanics|January 1, 1986
The hemodynamic and embolizing forces acting on thrombi--II. The effect of pulsatile blood flowD Basmadjian
Annals of Biomedical Engineering|January 1, 1990
The effect of flow and mass transport in thrombogenesisD Basmadjian
Journal of Biomechanics|January 1, 1984
The hemodynamic forces acting on thrombi, from incipient attachment of single cells to maturity and embolizationD Basmadjian
Journal of Biomedical Materials Research|November 1, 1989
Embolization: critical thrombus height, shear rates, and pulsatility. Patency of blood vesselsD Basmadjian
Annals of Biomedical Engineering|March 1, 1994
An analysis of the contact phase of blood coagulation: effects of shear rate and surface are intertwinedK Gregory, D Basmadjian
Journal of Biomedical Materials Research|May 1, 1986
A model of thrombin inactivation in heparinized and nonheparinized tubes with consequences for thrombus formationD Basmadjian, M V Sefton
Journal of Biomedical Materials Research|May 1, 1983
Relationship between release rate and surface concentration for heparinized materialsD Basmadjian, M V Sefton
Biophysical Journal|December 1, 1978
Examination of transport equations pertaining to permeable elastic tubules such as Henle's loopD Basmadjian, A D Baines
Annals of Biomedical Engineering|July 1, 1994
A mathematical model of thrombin production in blood coagulation, Part I: The sparsely covered membrane caseS A Baldwin, D Basmadjian
Biomaterials|January 16, 1998
Coagulation on biomaterials in flowing blood: some theoretical considerationsD Basmadjian, M V Sefton, S A Baldwin
Pageof 2