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The Cardiovascular System: Blood and Sheep’s Heart
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Blood Liquid connective tissue 3 general functions 1. Transportation Gases, nutrients, hormones, waste products 2. Regulation pH, body temperature, osmotic pressure 3. Protection Clotting, white blood cells, proteins
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Components of Blood Blood plasma – water liquid extracellular matrix 91.5% water, 8.5% solutes (primarily proteins) Hepatocytes synthesize most plasma proteins Albumins, fibrinogen, antibodies Other solutes include electrolytes, nutrients, enzymes, hormones, gases and waste products Formed elements – cells and cell fragments Red blood cells (RBCs) White blood cells (WBCs) Platelets
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Formed Elements of Blood
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Formation of Blood Cells Negative feedback systems regulate the total number of RBCs and platelets in circulation Abundance of WBC types based of response to invading pathogens or foreign antigens Hemopoiesis or hemotopoiesis Red bone marrow primary site Pluripotent stem cells have the ability to develop into many different types of cells
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Formation of Blood Cells Stem cells in bone marrow Reproduce themselves Proliferate and differentiate Cells enter blood stream through sinusoids Formed elements do not divide once they leave red bone marrow Exception is lymphocytes
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Formation of Blood Cells Pluripotent stem cells produce Myeloid stem cells Give rise to red blood cells, platelets, monocytes, neutrophils, eosinophils and basophils Lymphoid stem cells give rise to Lymphocytes Hemopoietic growth factors regulate differentiation and proliferation Erythropoietin – RBCs Thrombopoietin – platelets Colony-stimulating factors (CSFs) and interleukins – WBCs
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Red Blood Cells/ Erythrocytes Contain oxygen-carrying protein hemoglobin Production = destruction with at least 2 million new RBCs per second Biconcave disc – increases surface area Strong, flexible plasma membrane Glycolipids in plasma membrane responsible for ABO and Rh blood groups Lack nucleus and other organelles No mitochondria – doesn’t use oxygen
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Hemoglobin Globin – 4 polypeptide chains Heme in each of 4 chains Iron ion can combine reversibly with one oxygen molecule Also transports 23% of total carbon dioxide Combines with amino acids of globin Nitric oxide (NO) binds to hemoglobin Releases NO causing vasodilation to improve blood flow and oxygen delivery
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Shapes of RBC and Hemoglobin
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Red Blood Cells RBC life cycle Live only about 120 days Cannot synthesize new components – no nucleus Ruptured red blood cells removed from circulation and destroyed by fixed phagocytic macrophages in spleen and liver Breakdown products recycled Globin’s amino acids reused Iron reused Non-iron heme ends as yellow pigment urobilin in urine or brown pigment stercobilin in feces
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Formation and Destruction of RBC’s
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Red blood cell death and phagocytosis Key: in blood in bile Macrophage in spleen, liver, or red bone marrow 1 Globin Red blood cell death and phagocytosis Key: in blood in bile Macrophage in spleen, liver, or red bone marrow Heme 2 1 Amino acids Reused for protein synthesis Globin Red blood cell death and phagocytosis Key: in blood in bile Macrophage in spleen, liver, or red bone marrow Heme 3 2 1 Amino acids Reused for protein synthesis Globin Red blood cell death and phagocytosis Transferrin Fe 3+ Key: in blood in bile Macrophage in spleen, liver, or red bone marrow Heme 4 3 2 1 Amino acids Reused for protein synthesis Globin Red blood cell death and phagocytosis Transferrin Fe 3+ Liver Key: in blood in bile Macrophage in spleen, liver, or red bone marrow Ferritin Heme 5 4 3 2 1 Amino acids Reused for protein synthesis Globin Red blood cell death and phagocytosis Transferrin Fe 3+ Transferrin Liver Key: in blood in bile Macrophage in spleen, liver, or red bone marrow Ferritin Heme 6 5 4 3 2 1 Amino acids Reused for protein synthesis Globin Red blood cell death and phagocytosis Transferrin Fe 3+ Transferrin Liver + Globin + Vitamin B 12 + Erythopoietin Key: in blood in bile Macrophage in spleen, liver, or red bone marrow Ferritin Heme Fe 3+ 7 6 5 4 3 2 1 Amino acids Reused for protein synthesis Globin Circulation for about 120 days Red blood cell death and phagocytosis Transferrin Fe 3+ Transferrin Liver + Globin + Vitamin B 12 + Erythopoietin Key: in blood in bile Erythropoiesis in red bone marrow Macrophage in spleen, liver, or red bone marrow Ferritin Heme Fe 3+ 8 7 6 5 4 3 2 1 Amino acids Reused for protein synthesis Globin Circulation for about 120 days Red blood cell death and phagocytosis Transferrin Fe 3+ Transferrin Liver + Globin + Vitamin B 12 + Erythopoietin Key: in blood in bile Erythropoiesis in red bone marrow Macrophage in spleen, liver, or red bone marrow Ferritin Heme Biliverdin Bilirubin Fe 3+ 9 8 7 6 5 4 3 2 1 Amino acids Reused for protein synthesis Globin Circulation for about 120 days Bilirubin Red blood cell death and phagocytosis Transferrin Fe 3+ Transferrin Liver + Globin + Vitamin B 12 + Erythopoietin Key: in blood in bile Erythropoiesis in red bone marrow Macrophage in spleen, liver, or red bone marrow Ferritin Heme Biliverdin Bilirubin Fe 3+ 10 9 8 7 6 5 4 3 2 1 Amino acids Reused for protein synthesis Globin Stercobilin Bilirubin Urobilinogen Feces Small intestine Circulation for about 120 days Bacteria Bilirubin Red blood cell death and phagocytosis Transferrin Fe 3+ Transferrin Liver + Globin + Vitamin B 12 + Erythopoietin Key: in blood in bile Erythropoiesis in red bone marrow Macrophage in spleen, liver, or red bone marrow Ferritin Heme Biliverdin Bilirubin Fe 3+ 12 11 10 9 8 7 6 5 4 3 2 1 Amino acids Reused for protein synthesis Globin Urine Stercobilin Bilirubin Urobilinogen Feces Small intestine Circulation for about 120 days Bacteria Bilirubin Red blood cell death and phagocytosis Transferrin Fe 3+ Transferrin Liver + Globin + Vitamin B 12 + Erythopoietin Key: in blood in bile Erythropoiesis in red bone marrow Kidney Macrophage in spleen, liver, or red bone marrow Ferritin Urobilin Heme Biliverdin Bilirubin Fe 3+ 13 12 11 10 9 8 7 6 5 4 3 2 1 Amino acids Reused for protein synthesis Globin Urine Stercobilin Bilirubin Urobilinogen Feces Large intestine Small intestine Circulation for about 120 days Bacteria Bilirubin Red blood cell death and phagocytosis Transferrin Fe 3+ Transferrin Liver + Globin + Vitamin B 12 + Erythopoietin Key: in blood in bile Erythropoiesis in red bone marrow Kidney Macrophage in spleen, liver, or red bone marrow Ferritin Urobilin Heme Biliverdin Bilirubin Fe 3+ 14 13 12 11 10 9 8 7 6 5 4 3 2 1
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Erythropoiesis Starts in red bone marrow with proerythroblast Cell near the end of development ejects nucleus and becomes a reticulocyte Develop into mature RBC within 1-2 days Negative feedback balances production with destruction Controlled condition is amount of oxygen delivery to tissues Hypoxia stimulates release of erythropoietin
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White Blood Cells/ Leukocytes Have nuclei Do not contain hemoglobin Granular or agranular based on staining highlighting large conspicuous granules Granular leukocytes Neutrophils, eosinophils, basophils Agranular leukocytes Lymphocytes and monocytes
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Types of White Blood Cells
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Functions of WBCs Usually live a few days Except for lymphocytes – live for months or years Far less numerous than RBCs Leukocytosis is a normal protective response to invaders, strenuous exercise, anesthesia and surgery Leukopenia is never beneficial General function to combat invaders by phagocytosis or immune responses
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Emigration of WBCs Many WBCs leave the bloodstream Emigration (formerly diapedesis) Roll along endothelium Stick to and then squeeze between endothelial cells Precise signals vary for different types of WBCs
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WBCs Neutrophils and macrophages are active phagocytes Attracted by chemotaxis Neutrophils respond most quickly to tissue damage by bacteria Uses lysozymes, strong oxidants, defensins Monocytes take longer to arrive but arrive in larger numbers and destroy more microbes Enlarge and differentiate into macrophages
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WBCs Basophila leave capillaries and release granules containing heparin, histamine and serotonin, at sites of inflammation Intensify inflammatory reaction Involved in hypersensitivity reactions (allergies) Eosinophils leave capillaries and enter tissue fluid Release histaminase, phagocytize antigen- antibody complexes and effective against certain parasitic worms
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Lymphocytes Lymphocytes are the major soldiers of the immune system B cells – destroying bacteria and inactivating their toxins T cells – attack viruses, fungi, transplanted cells, cancer cells and some bacteria Natural Killer (NK) cells – attack a wide variety of infectious microbes and certain tumor cells
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Platelets/ Thrombocytes Myeloid stem cells develop eventually into a megakaryocyte Splinters into 2000-3000 fragments Each fragment enclosed in a piece of plasma membrane Disc-shaped with many vesicles but no nucleus Help stop blood loss by forming platelet plug Granules contain blood clot promoting chemicals Short life span – 5-9 days
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Stem cell transplants Bone marrow transplant Recipient's red bone marrow replaced entirely by healthy, noncancerous cells to establish normal blood cell counts Takes 2-3 weeks to begin producing enough WBCs to fight off infections Graft-versus-host-disease – transplanted red bone marrow may produce T cells that attack host tissues Cord-blood transplant Stem cells obtained from umbilical cord shortly before birth Easily collected and can be stored indefinitely Less likely to cause graft-versus-host-disease
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Hemostasis Sequence of responses that stops bleeding 3 mechanisms reduce blood loss 1. Vascular spasm Smooth muscle in artery or arteriole walls contracts 2. Platelet plug formation Platelets stick to parts of damaged blood vessel, become activated and accumulate large numbers 3. Blood clotting (coagulation)
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Platelet Plug Formation
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1 Red blood cell Platelet Collagen fibers and damaged endothelium Platelet adhesion 1 1 2 Red blood cell Platelet Collagen fibers and damaged endothelium Liberated ADP, serotonin, and thromboxane A2 Platelet adhesion 1 Platelet release reaction 2 1 2 3 Red blood cell Platelet Collagen fibers and damaged endothelium Liberated ADP, serotonin, and thromboxane A2 Platelet plug Platelet adhesion 1 Platelet release reaction 2 Platelet aggregation 3
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Blood Clotting 3. Blood clotting Serum is blood plasma minus clotting proteins Clotting – series of chemical reactions culminating in formation of fibrin threads Clotting (coagulation) factors – Ca 2+, several inactive enzymes, various molecules associated with platelets or released by damaged tissues
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3 Stages of Clotting 1. Extrinsic or intrinsic pathways lead to formation of prothrombinase 2. Prothrombinase converts prothrombin into thrombin 3. Thrombin converts fibrinogen (soluble) into fibrin (insoluble) forming the threads of the clot
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Tissue trauma Tissue factor (TF) Blood trauma Damaged endothelial cells expose collagen fibers (a) Extrinsic pathway (b) Intrinsic pathway Activated XII Ca 2+ Damaged platelets Ca 2+ Platelet phospholipids Activated X Activated platelets Activated X PROTHROMBINASE Ca 2+ V V 1 Tissue trauma Tissue factor (TF) Blood trauma Damaged endothelial cells expose collagen fibers (a) Extrinsic pathway (b) Intrinsic pathway Activated XII Ca 2+ Damaged platelets Ca 2+ Platelet phospholipids Activated X Activated platelets Activated X PROTHROMBINASE Ca 2+ V Prothrombin (II) Ca 2+ THROMBIN (c) Common pathway V 1 2 + + Tissue trauma Tissue factor (TF) Blood trauma Damaged endothelial cells expose collagen fibers (a) Extrinsic pathway (b) Intrinsic pathway Activated XII Ca 2+ Damaged platelets Ca 2+ Platelet phospholipids Activated X Activated platelets Activated X PROTHROMBINASE Ca 2+ V Prothrombin (II) Ca 2+ THROMBIN Ca 2+ Loose fibrin threads STRENGTHENED FIBRIN THREADS Activated XIII Fibrinogen (I) XIII (c) Common pathway V 1 2 3 + +
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Blood Clotting Extrinsic pathway Fewer steps then intrinsic and occurs rapidly Tissue factor (TF) or thromboplastin leaks into the blood from cells outside (extrinsic to) blood vessels and initiates formation of prothrombinase Intrinsic pathway More complex and slower than extrinsic Activators are either in direct contact with blood or contained within (intrinsic to) the blood Outside tissue damage not needed Also forms prothrombinase
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Blood Clotting: Common pathway Marked by formation of prothrombinase Prothrombinase with Ca 2+ catalyzes conversion of prothrombin to thrombin Thrombin with Ca 2+ converts soluble fibrinogen into insoluble fibrin Thrombin has 2 positive feedback effects Accelerates formation of prothrombinase Thrombin activates platelets Clot formation remains localized because fibrin absorbs thrombin and clotting factor concentrations are low
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Blood Groups and Blood Types Agglutinogens – surface of RBCs contain genetically determined assortment of antigens Blood group – based on presence or absence of various antigens At least 24 blood groups and more than 100 antigens ABO and Rh
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ABO Blood Group Based on A and B antigens Type A blood has only antigen A Type B blood has only antigen B Type AB blood has antigens A and B Universal recipients – neither anti-A or anti-B antibodies Type O blood has neither antigen Universal donor Reason for antibodies presence not clear
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Antigens and Antibodies of ABO Blood Types
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Hemolytic Disease Rh blood group People whose RBCs have the Rh antigen are Rh + People who lack the Rh antigen are Rh - Normally, blood plasma does not contain anti-RH antibodies Hemolytic disease of the newborn (HDN) – if blood from Rh + fetus contacts Rh - mother during birth, anti-Rh antibodies made Affect is on second Rh + baby
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Typing Blood Single drops of blood are mixed with different antisera Agglutination with an antisera indicates the presence of that antigen on the RBC
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The pump Cat heart showing pericardium
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Structure of the Heart
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Internal Anatomy of the Heart
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Sheep heart external
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Sheep’s heart internal
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Features to focus on Be able to trace blood flow through the heart starting with the Superior Vena Cava Aorta Superior Vena Cava Pulmonary Trunk Right Atrium Fossa ovalis Right Ventricle Tricuspid valve Chordae tendineae Trabeculae carneae Pulmonary semilunar valves Left Atrium Mitral (bicuspid) valve Left Ventricle Papilary muscle Interventricular septum Exterior features Auricle Apex Coronary arteries and veins Coronary sinus SA node
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Sheep’s heart internal cont’
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