Hemostasia: Coagulação do Sangue

Lição de Casa - Mirela Noro PhD MV

10 Apr 201709:08

Summary

TLDRThis video discusses the process of hemostasis, the series of mechanical and biochemical events that keep blood circulating in vessels and form clots to prevent bleeding when a vessel is injured. It outlines three phases: primary hemostasis, where blood vessels constrict and platelets form a temporary plug; secondary hemostasis, involving the coagulation cascade that forms a stable fibrin clot; and tertiary hemostasis, where fibrinolysis breaks down the clot after healing. The video highlights the complex, synchronized roles of blood vessels, platelets, and clotting factors in maintaining hemostatic balance.

Takeaways

🩸 Hemostasis is the process by which the body maintains blood in a liquid state within vessels and forms clots to prevent bleeding when a vessel is injured.
🛡️ Hemostasis involves a synchronized and sequential process with blood vessels, platelets (also called thrombocytes), coagulation factors, and fibrinolytic factors.
🔬 Blood vessel endothelium normally prevents platelet adhesion, but when a vessel is injured, collagen is exposed, triggering hemostatic mechanisms to reduce blood flow and activate platelets.
🔗 Hemostasis is divided into three interrelated phases: primary, secondary, and tertiary hemostasis.
🩹 Primary hemostasis involves vasoconstriction and platelet aggregation to form a platelet plug at the injury site, minimizing initial bleeding.
🧪 Secondary hemostasis involves a coagulation cascade, with sequential activation of coagulation factors, resulting in a stable fibrin clot.
🧬 The coagulation cascade has three pathways: intrinsic (activated by blood contact with subendothelial collagen), extrinsic (activated by tissue injury), and a common pathway leading to fibrin formation.
🔑 Vitamin K is essential for the activation of several coagulation factors, including factors IX, VII, and X, across the three pathways.
🧨 Tertiary hemostasis, or fibrinolysis, is the process where the fibrin clot is enzymatically degraded by plasmin, leading to clot dissolution.
⚖️ Fibrinolysis occurs simultaneously with coagulation, maintaining a balance between clot formation and degradation, with fibrin degradation products (PDFs) being cleared by macrophages.

Q & A

What is hemostasis?
-Hemostasis is the set of mechanical and biochemical events through which the organism ensures that blood remains circulating in blood vessels in its liquid state and, when a vessel is damaged, forms a clot to prevent bleeding, repairs the damage, and eventually dissolves the previously formed clot.
What are the components involved in hemostasis?
-Hemostasis involves blood vessels, platelets (also known as thrombocytes), coagulation factors, and fibrinolytic factors.
How does the endothelium of blood vessels contribute to hemostasis?
-Physiologically, the endothelium of blood vessels inhibits the adhesion of platelets and leukocytes, thus preventing clot formation.
What happens when a blood vessel is injured?
-When a blood vessel is injured, the exposed collagen activates hemostatic mechanisms to prevent bleeding by reducing blood flow, promoting platelet action, and activating coagulation factors.
What are the three phases of hemostasis?
-The three phases of hemostasis are primary hemostasis, secondary hemostasis, and tertiary hemostasis.
What occurs during primary hemostasis?
-Primary hemostasis involves the constriction of blood vessels and platelet adhesion and aggregation leading to the formation of an initial platelet plug.
What is the role of von Willebrand factor in primary hemostasis?
-The von Willebrand factor is necessary for platelet adhesion to the vascular endothelium. It binds to collagen, releasing vasoactive amines that promote local vasoconstriction and facilitate platelet aggregation.
How is secondary hemostasis initiated?
-Secondary hemostasis is dependent on coagulation factors that act in a series of sequential reactions known as the coagulation cascade, resulting in the formation of a stable fibrin clot.
What are the three pathways of the coagulation cascade?
-The coagulation cascade is traditionally divided into the intrinsic pathway, the extrinsic pathway, and the common pathway, all leading to the formation of a fibrin clot.
What is the role of vitamin K in the coagulation process?
-Vitamin K is essential for the formation and activation of coagulation factors, specifically factors 9, 7, 10, and prothrombin, which are involved in the three pathways of coagulation.
What is the purpose of tertiary hemostasis?
-Tertiary hemostasis, also known as fibrinolysis, is the process by which fibrin is enzymatically degraded to remove the clot formed during secondary hemostasis, maintaining a balance between clot formation and degradation.
How does the fibrinolysis process work?
-Fibrinolysis involves three steps: the formation of plasminogen activators, the conversion of plasminogen to plasmin, and the lysis of fibrin by plasmin, resulting in the formation of fibrin degradation products (FDPs).