blood ch 19 blood and hemostasis muse lecture #1 bio 2440 5/8/12
TRANSCRIPT
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Blood
Ch 19 Blood and Hemostasis
Muse Lecture #1 Bio 24405/8/12
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Introduction to the Cardiovascular System
A circulating transport system
A pump (the heart)
A conducting system (blood vessels)
A fluid medium (blood)
Is specialized fluid of connective tissue
Contains cells suspended in a fluid matrix
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Introduction to the Cardiovascular System
To transport materials to and from cells
Oxygen and carbon dioxide
Nutrients
Hormones
Immune system components
Waste products
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Functions of Blood
Transport of dissolved substances
Regulation of pH and ions
Restriction of fluid losses at injury sites
Defense against toxins and pathogens
Stabilization of body temperature
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Physical Characteristics of Blood
Whole Blood
Plasma
Fluid consisting of:
– water– dissolved plasma proteins (albumins and globulins)– other solutes (salt, dissolved gasses)
Formed elements
All cells and solids
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Physical Characteristics of Blood
Figure 19–1 The Composition of Whole Blood
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Physical Characteristics of Blood
Figure 19–1b The Composition of a Typical Sample of Plasma
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Physical Characteristics of Blood
Figure 19–1c The Composition of Formed Elements of Blood
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Physical Characteristics of Blood
Three Types of Formed Elements
Red blood cells (RBCs) or erythrocytes
Transport oxygen - red because of hemoglobin
White blood cells (WBCs) or leukocytes
Part of the immune system
Platelets
Cell fragments involved in clotting
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Physical Characteristics of Blood
Hemopoiesis
Process of producing formed elements
By myeloid and lymphoid stem cells
Fractionation
Process of separating whole blood for clinical analysis
Into plasma and formed elements
centrifugation or filtering
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Physical Characteristics of Blood
Three General Characteristics of Blood
38°C (100.4°F) is normal temperature
High viscosity
Slightly alkaline pH (7.35–7.45)
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Physical Characteristics of Blood
Blood volume (liters) = 7% of body weight
(kilograms)
Adult male: 5 to 6 liters
Adult female: 4 to 5 liters
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Plasma
Makes up 50–60% of blood volume
More than 90% of plasma is water
Extracellular fluids
Interstitial fluid (IF) and plasma
Materials plasma and IF exchange across capillary
walls
Water
Ions
Small solutes
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Plasma
Differences between Plasma and IF
Levels of O2 and CO2
Concentrations and types of dissolved
proteins
Plasma proteins do not pass through capillary
walls
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Plasma
Plasma Proteins Albumins (60%)
Transport substances such as fatty acids, thyroid hormones, and steroid hormones. HSA- Human Serum Albumin is also a redox buffer to protect proteins from oxidation.
Globulins (35%) Antibodies, also called immunoglobulins
Transport globulins (small molecules): hormone-binding proteins, metalloproteins, apolipoproteins (lipoproteins), and steroid-binding proteins
Fibrinogen (4%) Molecules that form clots and produce long, insoluble strands
of fibrin
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Plasma
Serum
Liquid part of a blood sample
In which dissolved fibrinogen has converted to solid fibrin
Other Plasma Proteins
1% of plasma
Changing quantities of specialized plasma proteins
Enzymes, hormones, and prohormones
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Plasma
Origins of Plasma Proteins
90% + made in liver
Antibodies made by plasma cells (WBCs(B-cells)
Peptide hormones made by endocrine organs
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Red Blood Cells
Red blood cells (RBCs) make up 99.9% of
blood’s formed elements
Hemoglobin
The red pigment that gives whole blood its color
Binds and transports both oxygen and carbon dioxide
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Red Blood Cells
Abundance of RBCs
Red blood cell count: the number of RBCs in 1
microliter of whole blood
Male: 4.5–6.3 million
Female: 4.2–5.5 million
Hematocrit (packed cell volume, PCV): percentage of
RBCs in centrifuged whole blood
Male: 40–54
Female: 37–47
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Red Blood Cells
Structure of RBCs - anucleate in mammals Small and highly specialized discs
Thin in middle and thicker at edge
Importance of RBC Shape and Size High surface-to-volume ratio
Quickly absorbs and releases oxygen
Discs form stacks called rouleaux Smooth the flow through narrow blood vessels
Discs bend and flex entering small capillaries: 7.8 µm RBC passes through 4 µm capillary
Figure 19–2d
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Red Blood Cells
Figure 19–2a–c The Anatomy of Red Blood Cells
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Red Blood Cells
Figure 19–2d The Anatomy of Red Blood Cells
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Red Blood Cells
Lifespan of RBCs
Lack nuclei, mitochondria, and ribosomes
Means no repair and anaerobic metabolism
Live about 120 days
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Red Blood Cells
Hemoglobin (Hb)
Protein molecule, that transports respiratory gases
Normal hemoglobin (adult male)
14–18 g/dL whole blood
Normal hemoglobin (adult female)
12–16 g/dL, whole blood
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Red Blood Cells
Hemoglobin Structure
Complex quaternary structure
Four globular protein subunits:
Each with one molecule of heme
Each heme contains one iron ion
Iron ions
Associate easily with oxygen (oxyhemoglobin)
» OR
Dissociate easily from oxygen (deoxyhemoglobin)
Figure 19–3
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Red Blood Cells
Figure 19–3 The Structure of Hemoglobin
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Figure 17.4
Hemegroup
(a) Hemoglobin consists of globin (two alpha and two beta polypeptide chains) and four heme groups.
(b) Iron-containing heme pigment.
Globin chains
Globin chains
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Red Blood Cells
Fetal Hemoglobin
Strong form of hemoglobin found in embryos
Takes oxygen from mother’s hemoglobin
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Red Blood Cells
Hemoglobin Function
Carries oxygen
With low oxygen (peripheral capillaries)
Hemoglobin releases oxygen
Binds carbon dioxide and carries it to lungs
– Forms carbaminohemoglobin
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Red Blood Cells
Figure 19–4 ”Sickling” in Red Blood Cells
B-globin D6V
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Red Blood Cells
RBC Formation and Turnover
1% of circulating RBCs wear out per day
About 3 million RBCs per second
Macrophages of liver, spleen, and bone marrow
Monitor RBCs
Engulf RBCs before membranes rupture (hemolyze)
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Red Blood Cells
Hemoglobin Conversion and Recycling Phagocytes break hemoglobin into components
Globular proteins to amino acids
Heme to biliverdin
Iron
Hemoglobinuria Hemoglobin breakdown products in urine due to excess
hemolysis in bloodstream
Hematuria Whole red blood cells in urine due to kidney or tissue damage
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Red Blood Cells
Iron Recycling
Iron removed from heme leaving biliverdin
To transport proteins (transferrin)
To storage proteins (ferritin and
hemosiderin)
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Red Blood Cells
Breakdown of Biliverdin
Biliverdin (green) is converted to bilirubin
(yellow)
Bilirubin is:
– excreted by liver (bile)
– jaundice is caused by bilirubin buildup
– converted by intestinal bacteria to urobilins and
stercobilins
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Red Blood Cells
Figure 19–5 Recycling of Red Blood Cell Components
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Red Blood Cells
RBC Production
Erythropoiesis
Occurs only in myeloid tissue (red bone marrow) in adults
Stem cells mature to become RBCs
Hemocytoblasts
Stem cells in myeloid tissue divide to produce
Myeloid stem cells: become RBCs, some WBCs
Lymphoid stem cells: become lymphocytes
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Red Blood Cells
Stages of RBC Maturation
Myeloid stem cell
Proerythroblast
Erythroblasts
Reticulocyte
Mature RBC
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Red Blood Cells
Figure 19–6 Stages of RBC Maturation
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Figure 17.5
Stem cell
Hemocytoblast
Proerythro-blast
Earlyerythroblast
Lateerythroblast Normoblast
Phase 1Ribosomesynthesis
Phase 2Hemoglobinaccumulation
Phase 3Ejection ofnucleus
Reticulo-cyte
Erythro-cyte
Committedcell
Developmental pathway
Enters bloodstream
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Red Blood Cells
Regulation of Erythropoiesis
Building red blood cells requires
Amino acids
Iron
Vitamins B12, B6, and folic acid:
– pernicious anemia
» low RBC production
» due to unavailability of vitamin B12
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Figure 17.6
Kidney (and liver toa smaller extent)releaseserythropoietin.
Erythropoietinstimulates redbone marrow.
Enhancederythropoiesisincreases RBCcount.
O2- carryingability of bloodincreases.
Homeostasis: Normal blood oxygen levels
Stimulus:Hypoxia (low bloodO2- carrying ability)
due to• Decreased
RBC count• Decreased amount
of hemoglobin• Decreased
availability of O2
1
2
3
4
5
IMBALANCE
IMBALANCE
This is why athletes train in low altitude
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Red Blood Cells
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Red Blood Cells
Stimulating Hormones
Erythropoietin (EPO)
Also called erythropoiesis-stimulating hormone
Secreted when oxygen in peripheral tissues is low
(hypoxia)
Due to disease or high altitude
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Blood Typing
Are cell surface proteins that identify cells to
immune system
Normal cells are ignored and foreign cells
attacked
Blood types
Are genetically determined
By presence or absence of RBC surface antigens A,
B, Rh (or D)
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Blood Typing
Four Basic Blood Types
A (surface antigen A)
B (surface antigen B)
AB (antigens A and B)
O (neither A nor B)
Landsteiner
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Blood Typing
Figure 19–7a Blood Types and Cross-Reactions
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Blood Typing
Agglutinogens
Antigens on surface of RBCs
Screened by immune system
Plasma antibodies attack and agglutinate
(clump) foreign antigens
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Blood Typing
Blood Plasma Antibodies Type A person
Type B antibodies in sera
Type B Type A antibodies in sera
Type O Both A and B antibodies in sera
Type AB Neither A nor B antibodies in sera
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Blood Typing
The Rh Factor
Also called D antigen
Either Rh positive (Rh+) or Rh negative (Rh-)
Only sensitized Rh- blood has anti-Rh antibodies
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Blood Typing
Figure 19–9 Rh Factors and Pregnancy
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Blood Typing
RhoGAMFigure 19–9 Rh Factors and Pregnancy Can be used to chelate
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Blood Typing
Cross-Reactions in Transfusions
Also called transfusion reaction
Plasma antibody meets its specific surface antigen
Blood will agglutinate and hemolyze
Occur if donor and recipient blood types not
compatible
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Blood Typing
Figure 19–7b Blood Types and Cross-Reactions
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Blood Typing
Cross-Match Testing for Transfusion
Compatibility
Performed on donor and recipient blood for
compatibility
Without cross-match, type O- is universal
donor
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Blood Typing
Figure 19–8 Blood Type Testing
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ABO Blood Typing
Blood Type Being Tested
RBC Agglutinogens
Serum Reaction
Anti-A Anti-B
AB A and B + +
B B – +
A A + –
O None – –
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Blood Typing
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Figure 17.9
Formedelements
Platelets
Leukocytes
Erythrocytes
DifferentialWBC count
(All total 4800 –10,800/l)
Neutrophils (50 – 70%)
Lymphocytes (25 – 45%)
Eosinophils (2 – 4%)
Basophils (0.5 – 1%)
Monocytes (3 – 8%)
Agranulocytes
Granulocytes
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White Blood Cells
Figure 19–11 The Origins and Differentiation of Formed Elements
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Platelets
Cell fragments involved in human clotting
system
Nonmammalian vertebrates have thrombocytes
(nucleated cells)
Circulate for 9–12 days
Are removed by spleen
2/3 are reserved for emergencies
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Platelets
Platelet Counts
150,000 to 500,000 per microliter
Thrombocytopenia
Abnormally low platelet count
Thrombocytosis
Abnormally high platelet count
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Platelets
Three Functions of Platelets:
1. Release important clotting chemicals
2. Temporarily patch damaged vessel walls
3. Actively contract tissue after clot formation
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Platelets
Platelet Production
Also called thrombocytopoiesis
Occurs in bone marrow
Megakaryocytes
Giant cells in bone marrow
Manufacture platelets from cytoplasm
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Platelets
Platelet Production
Hormonal controls
Thrombopoietin (TPO)
Interleukin-6 (IL-6)
Multi-CSF
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Hemostasis
Hemostasis is the cessation of bleeding
Consists of three phases
Vascular phase
Platelet phase
Coagulation phase
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Hemostasis
The Vascular Phase A cut triggers vascular spasm that lasts 30 minutes
Three steps of the vascular phase Endothelial cells contract:
– expose basal lamina to bloodstream
Endothelial cells release:
– chemical factors: ADP, tissue factor, and prostacyclin
– local hormones: endothelins
– stimulate smooth muscle contraction and cell division
Endothelial plasma membranes become “sticky”:
– seal off blood flow
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Hemostasis
The Platelet Phase
Begins within 15 seconds after injury
Platelet adhesion (attachment)
To sticky endothelial surfaces
To basal laminae
To exposed collagen fibers
Platelet aggregation (stick together)
Forms platelet plug
Closes small breaks
Figure 19–11b
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Hemostasis
Platelet Phase
Activated platelets release clotting compounds
Adenosine diphosphate (ADP)
Thromboxane A2 and serotonin
Clotting factors
Platelet-derived growth factor (PDGF)
Calcium ions
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Hemostasis
Factors that limit the growth of the platelet plug
Prostacyclin, released by endothelial cells, inhibits
platelet aggregation
Inhibitory compounds released by other white blood
cells
Circulating enzymes break down ADP
Negative (inhibitory) feedback: from serotonin
Development of blood clot isolates area
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Hemostasis
Figure 19–12 The Vascular and Platelet Phases of Hemostasis.
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Hemostasis
The Coagulation Phase
Begins 30 seconds or more after the injury
Blood clotting (coagulation)
Cascade reactions:
– chain reactions of enzymes and proenzymes
– form three pathways
– convert circulating fibrinogen into insoluble fibrin
Figure 19–12a
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Hemostasis
Clotting Factors
Also called procoagulants
Proteins or ions in plasma
Required for normal clotting
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Hemostasis
Hemophelia is a loss of any one of these
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Hemostasis
Three Coagulation Pathways
Extrinsic pathway
Begins in the vessel wall
Outside bloodstream
Intrinsic pathway
Begins with circulating proenzymes
Within bloodstream
Common pathway
Where intrinsic and extrinsic pathways converge
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Hemostasis
The Extrinsic Pathway
Damaged cells release tissue factor (TF)
TF + other compounds = enzyme complex
Activates Factor X
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Hemostasis
The Intrinsic Pathway
Activation of enzymes by collagen
Platelets release factors (e.g., PF–3)
Series of reactions activates Factor X
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Figure 17.14 (1 of 2)
Vessel endothelium ruptures,exposing underlying tissues(e.g., collagen)
PF3
released byaggregated
platelets
XII
XI
IX
XIIa
Ca2+
Ca2+
XIa
IXa
Intrinsic pathwayPhase 1
Tissue cell traumaexposes blood to
Platelets cling and theirsurfaces provide sites formobilization of factors
Extrinsic pathway
Tissue factor (TF)
VII
VIIa
VIII
VIIIa
Ca2+
X
Xa
Prothrombinactivator
PF3
TF/VIIa complexIXa/VIIIa complex
V
Va
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Hemostasis
The Common Pathway
Forms enzyme prothrombinase
Converts prothrombin to thrombin
Thrombin converts fibrinogen to fibrin
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Hemostasis
Stimulates formation of tissue factor
Stimulates release of PF-3
Forms positive feedback loop (intrinsic and
extrinsic)
Accelerates clotting
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Hemostasis
Figure 19–13a The Coagulation Phase of Hemostasis
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Hemostasis
Figure 19–13b The Coagulation Phase of Hemostasis
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3 Stages of Clotting
Extrinsic or intrinsic pathways lead to formation of prothrombinase
Prothrombinase converts prothrombin into thrombin
Thrombin converts fibrinogen (soluble) into fibrin (insoluble) forming the threads of the clot
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Hemostasis
Clotting: Area Restriction
Anticoagulants (plasma proteins)
Antithrombin-III
Alpha-2-macroglobulin
Heparin
Protein C (activated by thrombomodulin)
Prostacyclin
hirudin (leech protein)
EDTA
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Hemostasis
Calcium Ions, Vitamin K, and Blood
Clotting
Calcium ions (Ca2+) and vitamin K are both
essential to the clotting process
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Hemostasis
Clot Retraction
After clot has formed
Platelets contract and pull torn area together
Takes 30–60 minutes
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Hemostasis
Fibrinolysis
Slow process of dissolving clot
Thrombin and tissue plasminogen activator (t-PA):
– activate plasminogen
Plasminogen produces plasmin
Digests fibrin strands
TPA to treat strokes
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