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Blood By: Dr. Holly Nash-Rule
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Functions of blood Distribution/transport - nutrients, wastes, gases, etc. Communication, i.e., hormones Prevention of fluid loss – hemostasis, osmosis Maintenance of pH Disease/ infection fighting Heating/Cooling
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Blood Circulation Powered by the pumping action of the heart
Functions of blood Carries respiratory gases, nutrients, and hormones Helps body regulate temperature Blood volume Males: 5–6 liters Females: 4–5 liters
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Composition of Blood Contains cellular and liquid components
A specialized connective tissue Blood cells—formed elements Plasma—fluid portion and fibrinogen Hematocrit—measure of % RBC Males: 47% ± 5% Females: 42% ± 5%
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Major Components of Whole Blood
Withdraw blood and place in tube. Plasma 55% of whole blood Least dense component Buffy coat Leukocytes and platelets <1% of whole blood Erythrocytes 45% of whole blood Most dense component Centrifuge the blood sample. Formed elements 1 2
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Blood Plasma Straw-colored, sticky fluid portion of blood
Approximately 90% water Contains over 100 kinds of molecules Ions—Na+ and Cl– Nutrients—Sugars, amino acids, lipids, wastes, and proteins Three main proteins Albumin, globulins, and fibrinogen
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Formed Elements Blood cells Erythrocytes, leukocytes, and platelets
Staining of blood cells Acidic dye—eosin; stains pink Basic dye—methylene blue; stains blue and purple
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Photomicrograph of a human blood smear
Erythrocytes Lymphocyte Neutrophils Photomicrograph of a human blood smear Platelets Monocyte
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Erythrocytes Oxygen-transporting cells—7.5 µm in diameter (diameter of capillary 8—10mm) Most numerous of the formed elements Females: 4.3–5.2 million cells/cubic millimeter Males: 5.2–5.8 million cells/cubic millimeter Have no organelles or nuclei
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Erythrocytes Are packed with oxygen-carrying hemoglobin
Hemoglobin molecule bears four oxygen molecules Each O2 molecule bears an iron molecule Results in the oxidation of iron atoms of hemoglobin molecules Gives blood its red color
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Erythrocytes Pick up O2 at lung capillaries
Release O2 across other tissue capillaries Structural characteristics contribute to respiratory function Biconcave shape 30% more surface area 97% hemoglobin Lack mitochondria Do not consume O2 they pick up
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Erythrocyte
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Leukocytes—White Blood Cells (WBCs)
4,800–11,000/cubic millimeter Protect the body from infectious microorganisms Function outside the bloodstream in loose connective tissue Circulating leukocytes leave the capillaries Originate in bone marrow
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Leukocytes—White Blood Cells (WBCs)
Two types of leukocytes Granulocytes Agranulocytes Girls Never Eat Bananas Around Long-armed Monkeys
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Relative Percentages of the Different Types of Leukocytes
Formed elements Platelets Leukocytes Erythrocytes Differential WBC count (All total 4,800– 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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Granulocytes Neutrophils—most numerous WBC
Phagocytize and destroy bacteria Nucleus—has two to six lobes Granules pick up acidic and basic stains
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Granulocytes Eosinophils—compose 1–4% of all WBCs Play roles in
Ending allergic reactions, parasitic infections Granules pick up mostly acidic stain
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Granulocytes Basophils—about 0.5% of all leukocytes
Nucleus—usually two lobes Function in inflammation mediation Granules secrete histamines Granules pick up mostly basic stain
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Agranulocytes Lymphocytes—compose 20–45% of WBCs
The most important cells of the immune system Nucleus—stains dark purple Effective in fighting infectious organisms Act against a specific foreign molecule (antigen)
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Agranulocytes Two main classes of lymphocyte
T cells—attack foreign cells directly B cells—multiply to become plasma cells Secrete antibodies
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Agranulocytes Monocytes—compose 4–8% of WBCs The largest leukocytes
Nucleus—kidney shaped Transform into macrophages Phagocytic cells
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Platelets Cell fragments Break off from megakaryocytes
Function in clotting of blood
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Blood Cell Formation Hematopoiesis—process by which blood cells are formed in red marrow 100 billion new blood cells formed each day
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Bone Marrow as the Site of Hematopoiesis
Bone marrow—located within all bones Red marrow—actively generates new blood cells Contains immature erythrocytes In adults, red marrow is located Between trabeculae of spongy bone of axial skeleton Appendicular girdles Proximal epiphyses of humerus and femur
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Bone Marrow as the Site of Hematopoiesis
Yellow marrow—dormant Contains many fat cells Located in the long bones of adults
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Cell Lines in Blood Cell Formation
All blood cells originate in bone marrow All originate from one cell type Blood stem cell (pluripotential hematopoeitic stem cell) Lymphoid stem cells Give rise to lymphocytes Myeloid stem cells Give rise to all other blood cells
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Proerythroblasts Monoblasts Megakaryoblasts Myeloblasts
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The End
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