Murine Models in the Evaluation of Heparan Sulfate-Based Anticoagulants.

Evaluating prospective anticoagulant therapies in animal thrombosis and bleeding models are standard pre-clinical approaches. Mice are frequently used for initial evaluations because a variety of models have been developed in this well-characterized species, and mice are relatively inexpensive to maintain. Because mice seem to be resistant to forming "spontaneous" thrombosis, vessel injury is used to induce intravascular clot formation. For the purpose of testing heparin-based drugs, we adapted a well-established model in which thrombus formation in the carotid artery is induced by exposing the vessel to ferric chloride. For studying anticoagulant effects on venous thrombosis, we use a model in which the inferior vena cava is ligated and the size of the resulting clots are measured. The most common adverse effect of anticoagulation therapy is bleeding. We describe a simple tail bleeding time that has been used for many years to study the effects of anticoagulants on hemostasis. We also describe a more reproducible, but more technically challenging, saphenous vein bleeding model that is also used for this purpose.