APA
Dow N., Coleman J. R., Moore H., Osborn Z. T., Sackheim A. M., Hennig G., Butenas S., Nelson M. T., Moore E. E. & Freeman K. (20200811). Dense and dangerous: The tissue plasminogen activator-resistant fibrinolysis shutdown phenotype is due to abnormal fibrin polymerization. : The journal of trauma and acute care surgery.
Chicago
Dow Nathan, Coleman Julia R, Moore Hunter, Osborn Zachary T, Sackheim Adrian M, Hennig Grant, Butenas Saulius, Nelson Mark T, Moore Ernest E and Freeman Kalev. 20200811. Dense and dangerous: The tissue plasminogen activator-resistant fibrinolysis shutdown phenotype is due to abnormal fibrin polymerization. : The journal of trauma and acute care surgery.
Harvard
Dow N., Coleman J. R., Moore H., Osborn Z. T., Sackheim A. M., Hennig G., Butenas S., Nelson M. T., Moore E. E. and Freeman K. (20200811). Dense and dangerous: The tissue plasminogen activator-resistant fibrinolysis shutdown phenotype is due to abnormal fibrin polymerization. : The journal of trauma and acute care surgery.
MLA
Dow Nathan, Coleman Julia R, Moore Hunter, Osborn Zachary T, Sackheim Adrian M, Hennig Grant, Butenas Saulius, Nelson Mark T, Moore Ernest E and Freeman Kalev. Dense and dangerous: The tissue plasminogen activator-resistant fibrinolysis shutdown phenotype is due to abnormal fibrin polymerization. : The journal of trauma and acute care surgery. 20200811.