Coagulation cascade extrinsic

Figure 51-1. The pathways of blood coagulation. The intrinsic and extrinsic pathways are indicated. The events depicted below factor Xa are designated the final common pathway, culminating in the formation of cross-linked fibrin. New observations (dotted arrow) include the finding that complexes of tissue factor and factor Vila activate not only factor X (in the classic extrinsic pathway) but also factor IX in the intrinsic pathway, in addition, thrombin and factor Xa feedback-activate at the two sites indicated (dashed arrows). (PK, prekallikrein HK, HMW kininogen PL, phospholipids.) (Reproduced, with permission, from Roberts HR, Lozier JN New perspectives on the coagulation cascade. Hosp Pract [Off Ed] 1992Jan 27 97.)...

The fluidity of blood is a result of the inhibition of a complex series of enzymic reactions in the coagulation cascade (see Fig. 10). When triggered either intrinsically (by contact with foreign surfaces ), or extrinsically (by tissue factors from damaged cells), inactive proenzymes (factors XII, XI, IX, and X) are transformed into activated pro-teinases (XHa, XIa, IXa, and Xa, respectively). Each proteinase catalyzes the activation of the following proenzyme in the sequence, up to formation of thrombin (Factor Ha), another proteinase that catalyzes partial... 

Figure 12.2 The steps unique to the intrinsic coagulation pathway. Factor Xlla can also convert prekal-likrein to kallikrein by proteolysis, but this is omitted for the sake of clarity. Full details are given in the main text. The final steps of the coagulation cascade, which are shared by both extrinsic and intrinsic pathways, are outlined in Figure 12.3...

Simultaneously, activation of the extrinsic coagulation cascade occurs as a result of exposure of blood to the thrombogenic lipid core and endothelium, which are rich in tissue factor. This pathway ultimately leads to the formation of a fibrin clot composed of fibrin strands, cross-linked platelets, and trapped red blood cells. 

An overview of the coagulation cascade and sites of action for coumarins and heparin is shown in A. There are two ways to initiate the cascade (B) 1) conversion of factor XII into its active form (Xlla, intrinsic system) at intravascular sites denuded of endothelium 2) conversion of factor VII into Vila (extrinsic system) under the influence of a tissue-derived lipoprotein (tissue thromboplastin). Both mechanisms converge via factor X into a common final pathway. 

Two coagulation factors function uniquely in the extrinsic pathway factor III (tissue factor) and factor VII. Tissue factor is an integral membrane protein present in a wide variety of tissue types (particularly lung and brain). This protein is exposed to blood constituents only upon rupture of a blood vessel, and it initiates the extrinsic coagulation cascade at the site of damage as described below. 

Traditionally, the coagulation cascade has been divided into three distinct parts the intrinsic, extrinsic, and common pathways " (see Fig. 19-4). This artificial division is somewhat misleading because there are numerous interactions among the three pathways. The extrinsic pathway, sometimes referred to as the tissue factor pathway, appears to be the principal mechanism that triggers the coagulation... 

Measurements of the coagulation proteins are generally the responsibility of the hematology laboratory and are usually confined to prothrombin time and activated partial thromboplastin time measurements, or some alternative measures of the performance of the intrinsic and extrinsic coagulation cascade pathways (Theus and Zbinden 1984). The coagulation proteins synthesized by the liver also can be used as markers of hepatotoxicity (Pritchard et al. 1987). 

Activation of the blood coagulation cascade is triggered by the reaction of plasma proteins with the subendothelium at the same time that platelets are adhering to the subendothelial layer. Historically, two different pathways were discovered, one dependent on external stimuli (such as blunt trauma, which initiates the extrinsic pathway) and one using internal stimuli (the intrinsic pathway). As our understanding of blood clotting has expanded, it has become obvious that these distinctions are no longer correct, because there is overlap between the pathways, but the terms have persisted in the description of the pathways. 

Stuart-Factor, Stuart Prower-Factor, Thrombokinase, Factor X, a serine protease and constituent of the blood coagulation cascade. It is either be activated by factor IX (intrinsic pathway) or by Factor Vila (extrinsic pathway). In complex with Factor V as the cofactor it cleaves prothrombin at Arg-Thr and Arg-Ile to give active thrombin. 

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