There are two descriptions of what may be referred to as the “coagulation cascade.”

  1. The first is the physiological coagulation cascade, which is used to describe a very complex step-by-step process that occurs in the body (in vivo) when a blood vessel is injured. Several special proteins known as coagulation factors are activated one after the other in a “cascade” effect. The end result is a blood clot that creates a barrier over the injury site, protecting it until it heals.  This process also involves a feedback system that regulates clot formation in the body so that clots are removed when the injury site is healed. Although not a definitive illustration of the process that takes place when a wound or vessel injury occurs, we have provided a downloadable diagram (pdf) of the physiological coagulation cascade. It depicts the complex nature of what happens in the body when bleeding occurs.

  2. The second definition refers to the series of protein (coagulation factor) activations that occur in vitro when coagulation testing is performed in the laboratory. A sample of blood is tested by adding substances that begin the coagulation process, and the time that it takes for the sample to begin to clot is measured. The activated partial thromboplastin time (aPTT) measures those protein factors that are part of the cascade often referred to as the intrinsic pathway: XII, XI, IX, VIII, X, V, II, and fibrinogen as well as prekallikrein (PK) and high molecular weight kininogen (HK). The prothrombin time (PT test) measures the factors that make up the extrinsic pathway: VII, X, V, II and fibrinogen. These two screening tests help to diagnose defects or deficiencies in coagulation factors. Note that some factors are shared by both the intrinsic and extrinisic pathways.

At one time the physiological cascade and the testing cascade were thought to be the same. It is now known that there are important differences between the two. A diagram (pdf) is provided of the testing coagulation cascade that shows the factors that make up both the intrinsic and extrinsic pathways.


Last Review Date: June 11, 2017