2012 Pearson Education, Inc. PowerPoint ® Lecture Slides Prepared by Patty Bostwick- Taylor, Florence-Darlington Technical College C H A P T E R 10 Blood
© 2012 Pearson Education, Inc.
PowerPoint® Lecture Slides Prepared by Patty Bostwick-Taylor,Florence-Darlington Technical College
C H A P T E R 10
Blood
© 2012 Pearson Education, Inc.
Blood
•The only fluid tissue in the human body
•Classified as a connective tissue
•Components of blood
•Living cells
•Formed elements—____% (RBC, WBC, Platelets)
•Non-living matrix
•Plasma—____% (Water, Electrolytes, Plasma Proteins)
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Blood
• If blood is centrifuged (spun)
•___________ sink to the bottom (45 percent of blood, a percentage known as the hematocrit)
•Buffy coat contains leukocytes and platelets (less than 1 percent of blood)
•Buffy coat is a thin, whitish layer between the erythrocytes and plasma
•______ rises to the top (55 percent of blood)
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The composition of blood
Figure 10.1
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Physical Characteristics of Blood
•Color range
•Oxygen-_____ blood is scarlet red
•Oxygen-_____ blood is dull red
•pH must remain between __________
•Blood temperature is slightly higher than body temperature at 100.4°F (38°C)
• In a healthy man, blood volume is about 5–6 liters or about ____ quarts
•Blood makes up 8 percent of body weight
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Blood Plasma
•Composed of approximately __ percent water
• Includes many dissolved substances
•Nutrients
•Salts (electrolytes)
•Respiratory gases
•Hormones
•Plasma proteins
•Waste products
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Blood Plasma
•Plasma proteins
•Most abundant solutes in plasma
•Most plasma proteins are made by liver
•Various plasma proteins include
•_________—regulates osmotic pressure (keeps water in the bloodstream)
•Clotting proteins—help to stem blood loss when a blood vessel is injured
•__________—help protect the body from pathogens
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Blood Plasma
•_________
•Blood becomes too acidic (pH below 7.35)
•_________
•Blood becomes too basic (pH above 7.45)
• In each scenario, the respiratory system and kidneys help restore blood pH to normal
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Formed Elements
•Erythrocytes
•Red blood cells (RBCs)
•__________
•White blood cells (WBCs)
•__________
•Cell fragments
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Formed Elements
•Erythrocytes (red blood cells or RBCs)
•Main function is to carry ________
•Anatomy of circulating erythrocytes
•Biconcave disks
•Essentially bags of ____________ (iron-bearing protein, transports bulk of the oxygen carried in the blood)
•Anucleate (no nucleus)
•Contain very few organelles
•5 million RBCs per cubic millimeter of blood
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Lymphocyte Platelets Photomicrograph of a blood smearLymphocyte Platelets
Erythrocytes Neutrophils Figure 10.2
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Formed Elements
•Hemoglobin
• Iron-containing protein
•Each erythrocyte has 250 million hemoglobin molecules
•Normal blood contains ____________ of hemoglobin per 100 mL blood
•Higher in men 13—18 g/ mL
•Women 12—16 g/ mL
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Formed Elements
•Homeostatic imbalance of RBCs
•______ is a decrease in the oxygen-carrying ability of the blood
•______________anemia (SCA) results from abnormally shaped hemoglobin (crescent shape)
•Genetic disorder
•Polycythemia is an excessive or abnormal increase in the number of erythrocytes
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Table 10.1 Types of Anemia
© 2012 Pearson Education, Inc. Figure 10.3
© 2012 Pearson Education, Inc.
Formed Elements
•_____________
•Disorder resulting from excessive or abnormal increase of RBC
•May be caused by bone marrow cancer (polycythemia vera)
•May be a response to life at higher altitudes (secondary polycythemia)
• Increased RBC slows blood flow and increases blood viscosity
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Formed Elements•Leukocytes (white blood cells or WBCs)
•Crucial in the body’s defense against disease
•These are complete cells, with a nucleus and organelles
•Able to move into and out of blood vessels (_____________)
•Can move by ameboid motion
•Can respond to chemicals released by damaged tissues (positive chemotaxsis)
•Average—_______ to _______ WBC per cubic millimeter of blood (mm³)
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Formed Elements•Abnormal numbers of leukocytes
•_____________•WBC count above 11,000 leukocytes/mm3
•Generally indicates an infection•Leukopenia
•Abnormally low leukocyte level•Commonly caused by certain drugs such as corticosteroids and anticancer agents
•_____________•Bone marrow makes abnormal WBC which becomes cancerous, turns out excess WBC
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Formed Elements
•Types of leukocytes
•_____________
•Granules in their cytoplasm can be stained
•Possess lobed nuclei
• Include neutrophils, eosinophils, and basophils
•_____________
•Lack visible cytoplasmic granules
•Nuclei are spherical, oval, or kidney-shaped
• Include lymphocytes and monocytes
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•Easy way to remember this list
•Never
•Let
•Monkeys
•Eat
•Bananas
Formed Elements
•List of the WBCs from most to least abundant
•Neutrophils
•Lymphocytes
•Monocytes
•Eosinophils
•Basophils
© 2012 Pearson Education, Inc. Figure 10.4
© 2012 Pearson Education, Inc.
Formed Elements•Types of granulocytes
•____________
•Cytoplasm stains pale pink and contains fine granules
•Deep purple nucleus contains three to seven lobes
•Function as ____________ at active sites of infection
•Numbers increase during infection
•3,000–7,000 neutrophils in a cubic millimeter of blood (40–70% of WBCs)
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Formed Elements
•Types of granulocytes (continued)
•____________
•Red, coarse cytoplasmic granules
•Figure-8 or bilobed nucleus stains blue-red
•Function to kill _____________and play a role in allergy attacks
•100–400 eosinophils in a cubic millimeter of blood (1–4% of WBCs)
© 2012 Pearson Education, Inc. Figure 10.4
© 2012 Pearson Education, Inc.
Formed Elements
•Types of granulocytes (continued)
•_____________
•Sparse but large blue-purple granules
•U- or S-shaped nucleus stains dark blue
•Release ________ (vasodilator) at sites of inflammation—makes blood vessels leaky and attracts other WBC to the site
•Contain heparin (anticoagulant)
•20–50 basophils in a cubic millimeter of blood (0–1% of WBCs)
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Formed Elements
•Types of agranulocytes
•_____________
•Cytoplasm is pale blue
•Dark purple-blue nucleus
•Functions as part of the ______ response
•B lymphocytes produce antibodies
•T lymphocytes are involved in graft rejection, fighting tumors and viruses
•1,500–3,000 lymphocytes in a cubic millimeter of blood (20–45% of WBCs)
© 2012 Pearson Education, Inc. Figure 10.4
© 2012 Pearson Education, Inc.
Formed Elements
•Types of agranulocytes (continued)
•_____________
•Largest of the white blood cells
•Gray-blue cytoplasm
•Dark blue-purple nucleus is often kidney shaped
•Function as ____________
• Important in fighting chronic infection
•100–700 monocytes per cubic millimeter of blood (4–8% of WBCs)
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Formed Elements
•Platelets
•Derived from ruptured multinucleate cells (megakaryocytes)
•Needed for the _______________
•Platelet count ranges from 150,000 to 400,000 per cubic millimeter of blood
•300,000 is considered a normal number of platelets per cubic millimeter of blood
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Hematopoiesis
•Blood cell formation
•Occurs in ______ bone marrow
•All blood cells are derived from a common stem cell (hemocytoblast)
•______________ differentiation
•Lymphoid stem cell produces lymphocytes
•Myeloid stem cell produces all other formed elements
© 2012 Pearson Education, Inc. Figure 10.4
© 2012 Pearson Education, Inc.
Formation of Erythrocytes
•Unable to divide, grow, or synthesize proteins because they are anucleate
•Wear out in _____ to _____ days
•When worn out, RBCs are eliminated by phagocytes in the spleen or liver
•Lost cells are replaced by division of hemocytoblasts in the red bone marrow
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Control of Erythrocyte Production
•Rate is controlled by a hormone (________________)
•Kidneys produce most erythropoietin as a response to reduced oxygen levels in the blood
•Homeostasis is maintained by negative feedback from blood oxygen levels
© 2012 Pearson Education, Inc. Figure 10.5
IMBALANCE
IMBALANCE
Homeostasis: Normal blood oxygen levels
Stimulus Low blood O2−carrying abilitydue to• Decreased RBC count • Decreased amount of hemoglobin• Decreased availability of O2
Kidney (and liver to a smaller extent)releases erythropoietin
Erythropoietin stimulates red bone marrow.
Enhanced erythropoiesis increases RBC count.
4
3
2
1
O2−carrying ability of blood increases.
5
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Formation of White Blood Cells and Platelets•Controlled by __________
•Colony stimulating factors (CSFs) and interleukins prompt bone marrow to generate leukocytes
•Thrombopoietin stimulates production of platelets
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Hemostasis
•Stoppage of bleeding resulting from a break in a blood vessel
•____________ involves three phases
•Vascular spasms
•Platelet plug formation
•Coagulation (blood clotting)
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Hemostasis
•_________________
•Vasoconstriction causes blood vessel to spasm
•Spasms narrow the blood vessel, decreasing blood loss
© 2012 Pearson Education, Inc. Figure 10.6, step 1
Step Vascular spasms occur.1• Smooth muscle contracts, causing vasoconstriction.
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Hemostasis
•______________ formation
•Collagen fibers are exposed by a break in a blood vessel
•Platelets become “sticky” and cling to fibers
•Anchored platelets release chemicals to attract more platelets
•Platelets pile up to form a platelet plug
© 2012 Pearson Education, Inc. Figure 10.6, step 2
Step Platelet plug forms.• Injury to lining of vessel exposes collagen fibers; platelets adhere.
• Platelets release chemicals that make nearby platelets sticky; platelet plug forms.
Collagenfibers
Platelets
2
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Hemostasis
•_______________
• Injured tissues release tissue factor (TF)—helps in clotting
•PF3 (a phospholipid) interacts with TF, blood protein clotting factors, and calcium ions to trigger a clotting cascade
•Prothrombin activator converts prothrombin to thrombin (an enzyme)
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Hemostasis
•Coagulation (continued)
•Thrombin joins fibrinogen proteins into hair-like molecules of insoluble fibrin
•Fibrin forms a meshwork (the basis for a clot)
© 2012 Pearson Education, Inc. Figure 10.6, step 3
Fibrin
Step Coagulation events occur.3
• Fibrin forms a mesh that traps red blood cells and platelets, forming the clot.
• Clotting factors present in plasma and released by injured tissue cells interact with Ca2+ to form thrombin, the enzyme that catalyzes joining of fibrinogen molecules in plasma to fibrin.
© 2012 Pearson Education, Inc. Figure 10.7
© 2012 Pearson Education, Inc.
Hemostasis
•Blood usually clots within ___ to ___ minutes
•The clot remains as endothelium regenerates
•The clot is broken down after tissue repair
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Undesirable Clotting
•__________
•A clot in an unbroken blood vessel
•Can be deadly in areas like the heart
•__________
•A thrombus that breaks away and floats freely in the bloodstream
•Can later clog vessels in critical areas such as the brain
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Bleeding Disorders
•_________________
•Platelet deficiency
•Even normal movements can cause bleeding from small blood vessels that require platelets for clotting
•Evidenced by petechiae, small purplish blotches
•____________
•Hereditary bleeding disorder
•Normal clotting factors are missing
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Bleeding Disorders
Thrombocytopenia
Hemophilia
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Blood Groups and Transfusions
•Large losses of blood have serious consequences
•Loss of __ to __ percent causes weakness
•Loss of over ____ percent causes shock, which can be fatal
•Transfusions are the only way to replace blood quickly
•Transfused blood must be of the same blood group
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Human Blood Groups
•Blood contains genetically determined proteins
•_______ (a substance the body recognizes as foreign) may be attacked by the immune system
•One person’s RBC proteins will be recognized as foreign if transfused into another person with different RBC antigens
•____________ are the “recognizers”
•Blood is “typed” by using antibodies that will cause blood with certain proteins to clump (______________)
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Human Blood Groups
•There are over 30 common red blood cell antigens
•The most vigorous transfusion reactions are caused by ____ and ___ blood group antigens
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ABO Blood Groups
•Based on the presence or absence of two antigens
•Type ___
•Type ___
•The lack of these antigens is called type ___
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ABO Blood Groups
•The presence of both antigens A and B is called type ____
•The presence of antigen A is called type ___
•The presence of antigen B is called type ___
•The lack of both antigens A and B is called type ____
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ABO Blood Groups
•Blood type ____ can receive A, B, AB, and O blood
•Universal _________
•Blood type B can receive B and O blood
•Blood type A can receive A and O blood
•Blood type O can receive ____ blood
•Universal _______
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Blood Group RBC Antigens Plasma antibodies Blood that can be received
AB A, B None A, B, AB, OUniversal recipient
B B Anti-A B, O
A A Anti-B A, O
O None Anti-A, Anti-B OUniversal donor
ABO Blood Groups
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Rh Blood Groups
•Named because of the presence or absence of one of eight Rh antigens (agglutinogen D) that was originally defined in Rhesus monkeys
•Most Americans are Rh+ (Rh positive)—RBCs carry the Rh antigen
•Problems can occur in mixing ____ blood into a body with _____ (Rh negative) blood
• Immune system becomes sensitized and begins producing antibodies (anti-Rh⁺ antibodies) against the foreign blood type
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Rh Dangers During Pregnancy
•Danger occurs only when the mother is Rh– and the father is Rh+, and the child inherits the Rh+ factor
•___________ shot can prevent buildup of anti-Rh+ antibodies in mother’s blood
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Rh Dangers During Pregnancy
•The mismatch of an Rh– mother carrying an Rh+ baby can cause problems for the unborn child
•The first pregnancy usually proceeds without problems
•The immune system is sensitized after the first pregnancy
• In a second pregnancy, the mother’s immune system produces antibodies to attack the Rh+ blood (_________ disease of the newborn)
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Blood Typing
•Blood samples are mixed with anti-___ and anti-___ serum
•Coagulation or no coagulation leads to determining blood type
•Typing for ABO and Rh factors is done in the same manner
•______________—testing for agglutination of donor RBCs by the recipient’s serum, and vice versa
© 2012 Pearson Education, Inc. Figure 10.8
Serum
Anti-A Anti-B
AgglutinatedRBCs
Blood being tested
Type AB (containsantigens A and B;agglutinates with both sera)
Type B (containsantigen B;agglutinates with anti-B serum)
Type A (containsantigen A;agglutinates with anti-A serum)
Type O (containsno antigens;does notagglutinate witheither serum)
Blood Typing
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Developmental Aspects of Blood
•Sites of blood cell formation
•The fetal ____ and ______ are early sites of blood cell formation
•Bone marrow takes over hematopoiesis by the ________ month
•Fetal hemoglobin differs from hemoglobin produced after birth
•Physiologic _______ results in infants in which the liver cannot rid the body of hemoglobin breakdown products fast enough
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Critical Thinking Question
•Mrs. Carlyle is pregnant for the first time. Her blood type is Rh negative, her husband is Rh positive and their first child has been determined to be Rh positive. Ordinarily, the first such pregnancy causes no major problems but baby Carlyle is born blue and cyanotic.
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Critical Thinking Question
1. What is this condition, a result of Rh incompatability, called?
2. Why is the baby cyanotic?
3. Because this is Mrs. Carlyle’s first pregnancy, how can you account for the baby’s problem?
4. Assume baby Carlyle was born pink and healthy. What measures should be taken to prevent the previously described situation from happening in a second pregnancy with an Rh negative baby?
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Next Week
•Unit 3—The Cardiovascular System