blood functions of blood: 1.transports gasses, (o 2 and co 2 ) 2.transport nutrients, wastes,...
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Blood
Functions of Blood:1. Transports gasses, (O2 and CO2)2. Transport nutrients, wastes,
electrolytes, and hormones3. Distributes heat throughout the
body4. Contains buffers5. Immunity
Chapter 14, Section 1 of 2.
ivyanatomy.com
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Centrifuged Blood:1. Plasma, 55%
2. Buffy Coat, <1%• Proteins and WBCs
3. Red Blood Cells, 45%• Hematocrit = packed
RBCs
Characteristics of Blood: Blood is a connective tissue
1. Cells are called= formed elements• Red Blood Cells• White Blood Cells• Platelets
2. Liquid Matrix = plasma
Introduction
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HematopoiesisHematopoiesis is the formation of new blood cells.• Occurs within red bone marrow
• Blood stem cells are called, hemocytoblasts ( or hematopoietic stem cells)• Hemocytoblasts can give rise to additional blood stem cells • Can differentiate into any of the blood cells
• The fate of hemocytoblast depends on hematopoietic growth factors
Hemocytoblast erythroblast reticulocyte erythrocyte (RBC)
Example:
Erythropoietin (EPO = growth factor)
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Erythrocytes: red blood cells (corpuscles)
Characteristics of erythrocytes1. Biconcave cells2. anucleated (nucleus dislodged during
formation)3. Average diameter = 7.5µm4. 1/3 volume is hemoglobin
• Oxyhemoglobin – bright red• Deoxyhemoglobin – dark brick red
Red Blood Cell CountsRBC counts is the number of RBCs in a cubic millimeter or microliter of blood
1. Male 4.6 - 6.2 million cells per µL2. Female 4.2 - 5.4 million cells per µL3. Child 4.5 - 5.1 million cells per µL
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Erythropoiesis: RBC production
Sites of Erythropoiesis
Adult – Erythropoiesis occurs primarily in red bone marrow, which is found within
• flat bones (sternum, pelvis, ribs, skull)• Proximal end of long bones (femur, humerus)
Child• Erythropoiesis occurs within the yolk sac, liver, and spleen
Example of erythropoiesi:
In red bone marrow
circulation
Erythropoietin (EPO)
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Erythopoiesis is stimulated by low blood oxygen. • Decreased blood O2 may cause the kidneys and the liver (to a lesser extent) to release erythropoietin (EPO)
• EPO stimulates RBC production
• This is a negative feedback mechanism
• Within a few days many new blood cells appear in the circulating blood
• Iron – required for hemoglobin production
• Vitamin B12 & Folic Acid – required for DNA synthesis (and thus, cell production)
Dietary Factors of Erythropoiesis
Erythrocytes: feedback loop
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Lifespan of Red Blood Cells
Red blood cells survive about 120 days in circulation.• With age, RBCs become fragile and easily rupture.• Old RBCs are removed by the liver and spleen• Hemoglobin is liberated and recycled in new RBCs
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Hemoglobin breakdownHemoglobin
Heme Globin
Biliverdin Iron (Fe2+)• Reused by liver in synthesis
of new hemoglobinBilirubin• Excreted as bile
pigment
Amino acids • recycled by body
+
+
Jaundice: yellowish staining of skin caused by the accumulation of bile pigments.
Jaundice may indicate increased RBC destruction, destruction of liver tissue, or blockage of the biliary tract.
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Red Blood Cell DisordersErythrocytosis (polycythemia) is an excess number of RBCs in the blood.
• Causes include1. Genetic mutations2. Poor blood oxygen levels or
delivery3. tumor
Anemia• Low oxygen capacity of blood, several types
1. Iron deficiency – body cannot form hemoglobin
2. Hemolytic – excess RBC destruction3. Sickle cell – sickle-shaped RBCs 4. Aplastic – inability to produce RBCs
Sickle cell anemia. RBCs take on a thin sickle shape when deoxygenated. The sickle cells sludge in capillaries, further reducing blood flow and oxygen levels
Polycythemia. The surplus of RBCs causes the blood to be more viscous and it slows its flow through the body. This increases the likelihood of clot formation.
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Leukocytes (White Blood Cells)Functions of WBCs1. Protect against infection2. Remove worn out cells & debris3. immunity
Colony Stimulating Factors and Interleukins are growth factors that promote the development of white blood cells.
There are five types of white blood cells within 2 categories
Granulocytes • Visible lysosomes “granules” in cytoplasm
1. Neutrophil2. Eosinophil3. Basophil
Agranulocytes• No visible granules in cytoplasm
1. Monocyte2. Lymphocyte
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Neutrophils
Functions1. Phagocytosis
• Kill bacteria, protozoa, fungi, parasites• Remove dead cells, debris, and foreign particulate
2. First to arrive at the site of infection• Fast moving cells
Overview:1. Neutrophils stain in acid-base stains 2. Constitutes 54-62% of WBCs3. Also called polymorphonuclear leukocytes “polymorphs”4. Contain 2-5 nuclei + fine purple granules5. 12 hour lifespan
neutrophil, 1000x
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EosinophilsOverview:
1. Constitute 1-3% of all WBCs2. Bi-lobed nucleus3. Granules stain bright red in acid stain
Functions1. Defend against parasitic worms (tapeworm, hookworm, fluke worm,
ect)2. mediates allergic reaction and asthma attacks
eosinophil, 1000x
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BasophilsOverview:
1. Constitutes <1% of WBCs2. Deep blue granules stain in basic dye3. Bilobed nucleus is usually obscured by the darkened granules
Functions1. Secretes histamines
• Histamines promote inflammation2. Secretes heparin
• Heparin is an anticoagulant “prevents clotting”
basophil, 1000x
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MonocytesOverview:
1. Constitutes 3-9% of WBC2. Largest of all WBCs3. Large kidney-shaped nucleus4. May live for several weeks up to a month
Functions1. Leave the blood to become macrophages2. Phagocytize bacteria, dead cells and other debris
monocyte, 1000x
platelet
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Overview:1. Constitutes 23-33% of all WBCs2. Formed in red bone marrow and in lymphatic tissues3. Large spherical nucleus with a thin sliver of cytoplasm4. May live for many months to several years5. Includes T-cells & B-cells
Lymphocytes
Functions1. Lymphocytes provide immunity
• T-cells directly attack microorganisms and tumor cells• B-cells produce antibodies
lymphocyte, 1000x
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Functions of white blood cells1. Leukocytes (primarily neutrophils & monocytes) are motile
• Exhibit amoeboid movement• Neutrophils & Monocytes are the most mobile of WBCs
2. Leukocytes are capable of diapedesis. • They can squeeze between the cells of a capillary wall and enter the
tissue space outside the blood vessel.3. Leukocytes exhibit chemotaxis.• They are attracted to chemicals released by damaged tissues.
4. Leukocytes contribute to the formation of pus.• Pus is the accumulation of bacteria, damaged tissue, and dead white
blood cells.
Figure 14.15 illustrates diapedesis of a WBC from a capillary into the surrounding connective tissue.
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Figure 14.16 When bacteria invade the tissues, leukocytes migrate into the region and destroy the microbes by phagocytosis.
Activation of WBCs
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White Blood Cell CountsA typical white blood count contains 4,500-10,000 WBCs per µL (mm3)Leukopenia is a low WBC count (below 4,500 cells/µL)• Often associated with viral infections (influenza, chicken pox, measles,
AIDS)
Leukocytosis is a high WBC count (above 10,000 cells/µL)• Acute infection, exercise, emotional distress
DIFF (differential WBC count)• Measures the percentages specific types of WBC
Table 14.4 illnesses associated with various DIFF counts
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Thrombocytes (platelets)
Overview1. Platelets are cell fragments released from
Megakaryocytes within red bone marrow
2. Approximately 150,000 - 450,000 platelets per µL (mm3) of blood.
3. Thrombopoietin (TPO) = growth factor that promotes formation of platelets.
4. Functions include blood coagulation and blood vessel repair
TPO
Figure 14.4. Development of platelets from hemocytoblasts. Exposure to TPO promotes the formation of megakaryocytes, which release thrombocytes from their plasma membrane.
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Overview of Blood Cells
End of Section 1 of 2.
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PlasmaOverview1. Plasma is the liquid portion of blood2. Makes up 55% of blood volume3. Straw colored4. Components include Plasma proteins, Dissolved gasses, Wastes,
Electrolytes, Nutrients, Hormones
Chapter 14, Section 2 of 2.
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1. Albumin• 60% of plasma proteins• Synthesized in liver• Creates an osmotic that
helps maintain blood pressure
2. Globulins • 36% of plasma proteins • Alpha & Beta globulins
o Are produced by liver
o Transports lipids• Gamma globulins
o Are produced by lymphatic tissues
o function as antibodies
3. Fibrinogen• 4% of plasma proteins• Primary role in blood
coagulation
Plasma proteins
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Plasma proteins
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• Blood Gasses:• Oxygen
• Most is bound to hemoglobin. Less than 2% of oxygen is dissolved in plasma
• Carbon dioxide• Most CO2 is transported as bicarbonate (HCO3
-)• About 7% is dissolved in plasma
• Nutrients:• Amino acids• Simple sugars• Nucleotides• Lipids
• Hydrophobic lipids are bound to plasma proteins within the plasma
Plasma Gasses & Nutrients
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• These are molecules containing nitrogen but are not proteins
• In plasma they include:• Urea – product of protein catabolism; about 50% of nonprotein
nitrogenous substances
• Uric acid – product of nucleic acid catabolism
• Amino acids – product of protein catabolism
• Creatine – biproduct of creatine phosphate metabolism
• Creatinine – product of creatine metabolism
Common tests that evaluate kidney functions:• Creatinine test – measures creatinine• BUN – blood urea nitrogen; indicates health of kidney
Nonprotein Nitrogenous Substances
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• Plasma contains a variety of these ions called electrolytes
• They are absorbed from the intestine or released as by-products of cellular metabolism
• They include:• Sodium (most abundant with chloride)• Potassium• Calcium• Magnesium• Chloride (most abundant with sodium)• Bicarbonate• Phosphate• Sulfate
Plasma Electrolytes
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• Hemostasis refers to the stoppage of bleeding
• Actions that limit or prevent blood loss include:1. Blood vessel spasm (vasospasm)2. Platelet plug formation3. Blood coagulation
Hemostasis
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• Blood vessel spasm (vasospasm)• Cutting or breaking a vessel wall stimulates the
smooth muscles in its walls to contract.
• Vasospasm reduces blood loss almost immediately, and may close small blood vessels completely.
hemostasis, step 1: vasospasm
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hemostasis, step 2: platelet plug formation
1. Platelet adhesion – platelets adhere to collagen fibers that become exposed due to the damage in a vascular walls
2. Platelets undergo a shape change, producing several processes to which additional platelets bind.
3. In addition, platelets secrete thromboxanes, which attract additional platelets to the site of injury.
4. A platelet plug may control blood loss from a small break.
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hemostasis, step 3: coagulation
• Blood coagulation• Is triggered by cellular damage and blood contact with foreign surfaces
• Coagulation is a cascade reaction involving several biochemicals (clotting factors)
• The major event is formation of a blood clot when fibrin (a thread-like protein) forms a mesh surrounding the damaged vessel. • The cascade is divided into three events
1. Extrinsic mechanism2. Intrinsic mechanism3. Common pathway
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• Extrinsic clotting mechanism• A chemical released from tissue outside the blood
vessels trigger the extrinsic pathway
• Damaged tissues releases thromboplastin (also called factor III)
• Factor III initiates a cascade reaction that, in the presence of Calcium, activates factor X.
• Activation of factor X initiates the common pathway
Coagulation
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• Intrinsic clotting mechanism• An inactive clotting factor within the
blood (Hageman, or factor XII) is activated when foreign tissue, such as collagen enters the bloodstream.
• Factor XII proceeds through a cascade of reactions in the presence of Calcium to activate factor X.
• Activation of factor X initiates the common pathway.
Coagulation
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• Common Pathway • Is the point at which intrinsic & extrinsic pathways converge
• Activated factor X (with help of Calcium & factor V) leads to the release of prothrombin activator from platelets.
• Prothrombin activator converts prothrombin into thrombin.
• Thrombin, in turn converts fibrinogen into long threads of fibrin.
• Fibrin forms an insoluble clot at the site of injury.
Coagulation
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CoagulationFigure 14.19c. Schematic of the common pathway in the blood clotting mechanism
Figure 14.18 A scanning electron micrograph of fibrin threads. The insoluble fibers trap blood cells and platelets, which contribute to the blood clot formation.
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hemostasis: review
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Blood Clot Dissolution
• After a blood clot forms it retracts and pulls the edges of a broken blood vessel together while squeezing the fluid serum from the clot
• Platelet-derived growth factor stimulates smooth muscle cells and fibroblasts to repair damaged blood vessel walls
• Plasmin digests the blood clots
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• A thrombus is an abnormal blood clot• Deep vein thrombosis – prolonged immobility causes blood to pool,
especially in the deep veins of the legs or pelvis.
• An embolus is a blood clot moving through the blood vessels• Pulmonary embolism – may occur when part of a thrombus breaks
away from the clot and lodges in a pulmonary artery. Rapidly fatal.
•Atherosclerosis – accumulation of fatty deposits along arterial lining• May cause inappropriate clotting• Most common cause of thrombosis in medium-sized arteries
•Arteriosclerosis – hardening of an artery.
•Stenosis – abnormal narrowing of a passage in a body• Atherosclerosis of an artery narrows the passage through which blood
flows in an artery, and increases the likelihood of an embolism at that site.
Blood Clot Disorders
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Figure 14.20 Artery cross sections.(a) light micrograph of a normal artery. (b) The inner wall of an artery changed as a result of atheroclerosis.
Ultrasound image of stenosis within the internal carotid artery.
Blood Clot Disorders
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• Terms to become familiar with:
• Antigen – a chemical (or membrane protein) that stimulates cells to produce antibodies
• Foreign antigens in the body stimulate the immune response.
• Antibodies – a plasma protein that reacts against a specific antigen
• Agglutination – clumping of red blood cells in response to a reaction between an antibody and an antigen
Blood TypingBlood typing is the process of identifying an individual’s blood group. (eg. Type A, B, AB or O)
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ABO Blood Group
• This blood group is based on the presence (or absence) of two antigens on red blood cell membranes: Antigen A & Antigen B
Type A blood contains A-antigens on the surface of its RBCs.
Type B blood contains B-antigens on the surface of its RBCs. and anti-A antibodies in its plasma.
Type AB blood contains A-antigens and B-antigens on the surface of its RBCs. and has neither antibody
Type O blood contains neither A or B antigen on the surface of its RBCs
antigens
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Blood Typingantibodies
Type A blood plasma contains anti-B antibodies.
Type B blood plasma contains anti-A antibodies.
Type AB blood plasma contains neither antibody
Type O blood plasma contains both anti-A and anti-B antibodies.
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ABO Blood Group
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• The Rh blood group was named for the rhesus monkey
• Rh positive (Rh+) indicates the presence of D-antigen (or other Rh antigen) on the red blood cell membranes
• Rh negative (Rh-) lacks the D-antigen
• When Rh- blood is exposed to the D antigen, it becomes sensitized and develops anti-D antibodies
• Anti-D antibodies are formed only after a person is exposed to D-antigen (Rh sensitization).
Rh Blood Group
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erythroblastosis fetalis • The seriousness of the Rh blood group is evident in a fetus that develops
the condition erythroblastosis fetalis or hemolytic disease of the newborn.• If the mother is Rh- and has been sensitized to the D-antigen, her own antibodies may attack the red blood cells of a fetus that is Rh+.
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• Erythroblastosis fetalis can be prevented for women at high risk by administering a serum that contains anti-D antibodies into the mother during the pregnancy and after birth (before she becomes sensitized to D-antigen).
• The injected antibodies quickly agglutinate any fetal red blood cells, thereby preventing her from becoming sensitized to the D-antigen.
erythroblastosis fetalis
End of Section 2 of 2.