1. 1. Hematocrit The volume of a blood sample 1

2. 2. Formed Elements Accounts for 45% of whole blood Erythrocytes Leukocytes Platelets 2

3. 3. Plasma Liquid portion of the blood – accounts for 55% of whole blood Is 90% water Helps to distribute body heat evenly 3

4. 4. Platelets Are needed for the clotting process Formerly called thrombocytes (platelets) 4

5. 5. Hemoglobin (Hb) Is an iron containing protein Transports oxygen Also binds with CO2 250 million HB molecules in 1 RBC Normal levels 12-18g/100ml of blood Males: 13-18g; Females: 12-16g 5

6. 6. Hematopoiesis Blood cell formation that occurs in the red bone marrow found in flat bones (skull, pelvis, ribs, sternum, proximal epiphyses of the humerus and the femur). 6

7. 7. Erythropoietin (EPO) Hormone that controls rate of erythrocyte (RBC) production Is produced by the kidneys Targets the bone marrow 7

8. 8. Erythrocytes Red Blood Cells (RBC’s) Are anucleate Have few organelles No mitochondria Have biconcave disks for increased surface area for Oxygen/Carbon Dioxide 8

9. 9. Leukocytes White Cells Are White Blood Cells (WBC’s) Protect, defense, immunity Account for less than 1% of total blood volume Are complete blood cells: contain nuclei and organelles 9

10. 10. Leukocytosis An increased white blood cell count Could be indicative of a bacterial or viral infection 10

11. 11. Leukopenia Abnormally low WBC count Commonly caused by certain drugs, and anticancer medications 11

12. 12. Diapedesis Means “leaping across” WBC’s are able to slip in and out of blood vessels as needed 12

13. Leukocyte Squeezing Through Capillary Wall – literally “leaping across” a blood vessel 13

14. 13. Megakaryocytes Fragments of bizarre multinucleate cells They rupture and release thousands of pieces that seal off from surrounding fluids 14

15. 14. Granulocytes Contains granules (appears as grains of sand) Are “philled” with sand Types: Neutrophils Eosinophils Basophils 15

16. 15. Neutrophils Act as avid phagocytes at site of acute infections 16

17. 16. Eosinophils Kills parasitic worms Tend to increase during allergies 17

18. 17. Basophils Rarest form of WBC’s Contains histamines at sites of inflammation 18

19. 18. Agranulocytes Lack visible organelles Include: lymphocytes and monocytes “are a “cyte” for sore eyes” 19

20. 19. Lymphocytes Part of the immune system Reside in lymphatic tissues 20

21. 20. Monocytes Are the largest WBC Change into macrophages Help fight chronic infections 21

22. 21. Polycythemia Excessive or abnormal increase in RBC’s May result from: 1) bone marrow cancer 2) High altitudes Leads to increase viscosity, sluggish flow 22

23. 22. Anemia Reduced oxygen-carrying capacity of the blood cause by a low number of erythrocytes or decreased percentage of hemoglobin 23

24. 23. Albumin Is a plasma protein Regulates osmotic pressure of blood Helps to keep water in the bloodstream 24

25. 24. ABO Blood Groups 2 Antigens (A or B) inherits one or the other, both or none Absence of both antigens = Type O Presence of both = Type AB Either A or B if just one antigen present AB type is universal recipient O type is universal donor 25

26. 25. Antigens Is recognized as “foreign” Stimulates release of antibodies from the immune system Over 30 common RBC antigens 26

27. 26. Agglutination Binding of the antibodies causing RBC’s to clump Leads to clogging of small blood vessels 27

28. 27. Rh blood groups 8 Rh antigens first discovered in Rhesus monkeys; most Americans are Rh+ meaning they carry the Rh antigen 28

29. 28. Hemostasis Hem = blood Stasis = standing still Means stoppage of blood flow 29

30. 29. Hemophilia Hereditary bleeding disorder “bleeder’s disease” Patients are given fresh plasma or injections of missing platelet factor (Pf) 30

31. Disorders of the clotting process Undesirable Clotting Thrombus embolus Bleeding disorders Thrombocytopenia – is a platelet deficiency Hemophilia – lack Pf factors for clotting 31

32. 30. Thrombus A clot that develops in an unbroken blood vessel 32

33. 31. Embolus When a clot (thrombus) breaks away from a blood vessel and floats freely in the bloodstream Potentially life threatening 33

34. 32. Heparin Body’s natural anticoagulant 34

35. 33. Coagulation To clot 35

36. 34. Fibrin Is converted from fibrinogen to fibrin Is an insoluble protein formed during blood clotting process 36

37. Process of Blood Clotting Is a multistep process: 1.Vascular spasms – of the smooth muscle in the vessel wall producing a vasoconstriction resulting from serotonin. Lasts up to 30 minutes Makes the platelets “sticky” as they are produced 37

38. Process of Blood Clotting 2. Platelet plug forms – damaged blood vessel releases Von Willebrand’s Factor. Platelets release ADP causing aggregation and a plug to form An increase in the “stickiness” results 38

39. Process of Blood Clotting 3. Coagulation (clotting phase) Platelet Factor III (PF3) releases thromboplastin. PF3 and Calcium forms an activator producing a cascade effect. Prothrombin (in the plasma) is converted to Thrombin (an enzyme) Formation of Fibrinogen (plasma protein) to Fibrin to trap platelets “meshwork.” 39

40. Process of Blood Clotting Entire process normally takes 3 – 6 minutes A sudden and severe loss of blood leads first to shock and eventually death Use direct pressure to help Elevate body part above the heart to allow gravity to take effect 40

41. 3 phases of hemostasis (process of blood clotting): Vascular spasms – decreases the flow of blood to the area Platelet plug formation – platelets become “sticky” and cause chemical release to form clot Coagulation – prothrombin to thrombin and fibrinogen to fibrin 41

42. http://www.mhhe.com/biosci/esp /2002_general/Esp/folder_struct ure/tr/m1/s7/trm1s7_3.htm 42

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