Browsing by Author "Hudson, Nathan E."
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The Applicability of Current Turbidimetric Approaches for Analyzing Fibrin Fibers and Other Filamentous Networks
Belcher, Heather A.; Hudson, Nathan E.; Litwa, Karen; Guthold, Martin (2022-06-09) -
Biophysical Mechanisms Mediating Fibrin Fiber Lysis
Hudson, Nathan E. (2017-05-28)The formation and dissolution of blood clots is both a biochemical and a biomechanical process. While much of the chemistry has been worked out for both processes, the influence of biophysical properties is less well ... -
Development of Transient Recombinant Expression and Affinity Chromatography Systems for Human Fibrinogen
Popovic, Grega; Kirby, Nicholas C.; Daub, Caroline E.; Offenbacher, Adam R.; Dement, Taylor C.; Belcher, Heather A.; Hudson, Nathan E. (2022-01-19) -
Inherent Fibrin Fiber Tension Propels Mechanisms of Network Clearance During Fibrinolysis
Cone, Sean J.; Fuquay, Andrew T.; Litofsky, Justin M.; Dement, Taylor C.; Carolan, Christopher (Christopher A.); Hudson, Nathan E. (2020-02-25)Proper wound healing necessitates both coagulation (the formation of a blood clot) and fibrinolysis (the dissolution of a blood clot). A thrombus resistant to clot dissolution can obstruct blood flow, leading to vascular ... -
Inherent fibrin fiber tension propels mechanisms of network clearance during fibrinolysis
Cone, Sean J.; Fuquay, Andrew T.; Litofsky, Justin M.; Dement, Taylor C.; Carolan, Christopher (Christopher A.); Hudson, Nathan E. (2020-04-15)Proper wound healing necessitates both coagulation (the formation of a blood clot) and fibrinolysis (the dissolution of a blood clot). A thrombus resistant to clot dissolution can obstruct blood flow, leading to vascular ... -
Microscale Structural Changes of Individual Fibrin Fibers During Fibrinolysis
Lynch, Spencer R.; Hudson, Nathan E.; Laverty, Sean M.; Bannish, Brittany E. (2022) -
Microscale structural changes of individual fibrin fibers during fibrinolysis
Lynch, Spencer R.; Laverty, Sean M.; Bannish, Brittany E.; Hudson, Nathan E. (2022-01-07)Fibrinolysis is the enzymatic digestion of fibrin, the primary structural component in blood clots. Mechanisms of fibrin fiber digestion during lysis have long been debated and obtaining detailed structural knowledge of ... -
Von Willebrand Factor A1 Domain Stability and Affinity for GPIbα are Differentially Regulated by its O-glycosylated N- and Clinker
Hudson, Nathan E.; Bonazza, Klaus (2022-05-09)