Blood

Question 1

Types of Blood Cells: Shape

Answer 1

• E: Biconcave Disc
• L: Irregular
• T: Fragmented

Question 2

Types of Blood Cells: Produced Where?

Answer 2

• E: Bone Marrow
• L: Lymph nodes and Spleen
• T: Bone Marrow

Question 3

Types of Blood Cells: Hormones

Answer 3

• E: Erythropoietin
• L: Thymosin, Interluekin, CSF
• T: Thrombopoietin

Question 4

Types of Blood Cells: Nucleated?

Answer 4

• E: None
• L: nucleated
• T: none

Question 5

Types of Blood Cells: Amount

Answer 5

• E: 4-6 million mm^3
• L: 4,800-10,000 mm^3
• T: 150,000-400,000 mm^3

Question 6

Types of Blood Cells: Function

Answer 6

• E: Transport blood and gas
• L: Protect Immune system
• T: Blood Clotting

Question 7

Types of Blood Cells: Appearance

Answer 7

• E: Salmon colored
• L: Granular/ Non-granular, clear
• T: blue

Question 8

Types of Blood Cells: Proteins

Answer 8

• E: Hemoglobin
• L: Antibodies
• T: Fibrogen

Question 9

Types of Blood Cells: Vitamins

Answer 9

• E: B6, b9, b12
• L: C, E, A
• T: K, B9, B12

Question 10

Types of Blood Cells: Minerals

Answer 10

• E: iron/copper
• L: magnesium
• T: calcium

Question 11

Types of Blood Cells: Conditions (more/less)

Answer 11

• E: Polycythemia, anemia
• L: Leukemia, leukopenia
• T: Thrombocytosis, Hemophilia

Question 12

Types of Blood Cells: Life Span

Answer 12

• E: 120 days
• L: 4-30 days
• T: 5-10 days

Question 13

Types of Blood Cells

Answer 13

• Erythrocytes
  
  • Red Blood Cells
• Leukocytes
  
  • White Blood Cells
• Thrombocytes
  
  • platelets
• Cell fragments

Question 14

Types of Blood Cells: Size

Answer 14

• E: 6 mm^3
• L: 12-15 mm^3
• T: 2-5 mm^3

Question 15

Erythrocytes

Answer 15

• Main function is to carry oxygen
  
  • Anatomy of circulating erythrocytes
    
    • Biconcave dicks
    • Essentially bags of hemoglobin
    • Anucleate (No nucleus)
    • Contain very few organelles
  • 5 million RBCs per cubic millimeter of blood

Question 16

Hemoglobin

Answer 16

• Iron-containing protein
  
  • Binds strongly, but reversible, to oxygen (can release and attract oxygen)
  • Each hemoglobin molecule has four oxygen binding sites
  • Each erythrocyte has 250 million hemoglobin molecules
  • Normal blood contains 12-18 g of hemoglobin per 100 mL blood

Question 17

Leukocytes

Answer 17

• 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 (diapedesis)
  • Can move by ameboid motion
  • Can respond to chemicals released by damaged tissues
  • 4,000 to 11,000 WBC per cubic millimeter of blood

Question 18

Leukocytosis

Answer 18

• WBC count about 11,000 leukocytes/ mm^3

- Generally indicates an infection

Question 19

Leukopenia

Answer 19

• Abnormally low leukocyte level

- Commonly caused by certain drugs such as corticosteroids and anticancer agents

Question 20

Leukemia

Answer 20

-Bone marrow becomes cancerous, turns out excess WBC

Question 21

Granulocytes (Types of Leukocytes)

Answer 21

• Granules in their cytoplasm can be stained
• Possess lobed nuclei
• Include neutrophils, eosinophils, and basophils

Question 22

Agranulocytes

Answer 22

• Lack of visible cytoplasmic granules
• Nuclei are spherical, oval, kidney-shaped
• Include lymphocytes and monocytes

Question 23

List of White Blood Cells from Most to Least Abundant

Answer 23

• Neutrophils
  
  • Lymphocytes
  • Monocytes
  • Eosinophils
  • Basophils

Question 24

Erythroblastosis Fetalis

Answer 24

-Rh- and Rh+

Question 25

Types of Leukocytes

Answer 25

• Granulocytes

- Agranulocytes

Question 26

Types of Granulocytes

Answer 26

• Neutrophils
• Eosinophils
• Basophils

Question 27

Neutrophils

Answer 27

• Multi lobed nucleus with fine granules

- Act as phagocytes at active sits of infection

Question 28

Eosinophils

Answer 28

• Large brick red cytoplasmic granules

- Found in response to allergies and parasitic worms

Question 29

Basophils

Answer 29

• Phil= protein
• Have histamine containing granules
• Initiate inflammation

Question 30

Types of Agranulocytes

Answer 30

• Lymphocytes

- Monocytes

Question 31

Lymphocytes

Answer 31

• Nucleus fills most of the cell

- Play an important role in the immune response

Question 32

Monocytes

Answer 32

• Largest of the white blood cells
• Function as macrophages
• Important in fighting chronic infection

Question 33

Platelets (Thrombocytes)

Answer 33

• Derived from ruptured multinucleate cells (megakaryocytes)
  
  • Megakaryocytes create thrombocytes
• Needed for the clotting process
• Normal platelet could - 300,000/mm3

Question 34

Blood

Answer 34

• The only fluid tissue in the human body
• Classified as a connective tissue
• Components:
  
  • Living cells
    
    • formed elements
  • Non-living matrix
    - plasma

Question 35

Physical Characteristics of Blood

Answer 35

• Color range:
  
  • Oxygen-rich blood is scarlet red
  • Oxygen-poor blood is dull red
• pH must remain between 7.35-7.45
• Blood temperature is slightly higher than body temperature at 100.4 F
• In a healthy man, blood volume is about 5-6 liters or about 6 quarts
• Blood makes up 8% of body weight

Question 36

Blood when Centrifuged

Answer 36

• Erythrocytes sink to the bottom (45% of blood, percentage known as the hemocrit)
  
  • Buffy coat contains Leukocytes and platelets (less than 1% of blood)
    
    • Buffy coat is thin, whitish layer between erythrocytes and plasma
  • Plasma rises to the top (55% percent

Question 37

Blood Plasma

Answer 37

• Composed of approximately 90% water
• Includes many dissolved substances
  
  • Nutrients (carbs, lipids, proteins)
  • Salts (electrolytes)
  • Respiratory gases
  • Hormones
  • Plasma proteins
  • Waste products

Question 38

Plasma Proteins

Answer 38

• Most abundant solutes in plasma
  
  • Most plasma proteins are made by the liver
  • Various Plasma proteins include:
    
    • Albumin: Regulates osmotic pressure
    • Clotting proteins: help to stem blood loss when a blood vessel is injured
    • Antibodies: help protect the body from pathogens

Question 39

Acidosis

Answer 39

-Blood becomes too acidic

Question 40

Alkalosis

Answer 40

-Blood becomes too basic

Question 41

What happens during Acidosis and Alkalosis?

Answer 41

In each scenario, the respiratory system and kidneys help restore pH to normal

Question 42

Hematopoiesis

Answer 42

• Blood cell formation
• Occurs in red bone marrow
• All blood cells are derived from a common stem cell (hemocytoblast)

Question 43

Hemocytoblast Differentiation

Answer 43

• Lymphoid stem cell produces lymphocytes

- Myeloid stem cell produces all other formed elements

Question 44

Formation of Erythrocytes

Answer 44

• Unable to divide, grow, or synthesize proteins
  
  • Wear out in 100-120 days
  • When worn out , RBCs are eliminated by phagocytes in the spleen or liver
  • Lost cells are replaced by division of hemocytoblasts

Question 45

Control of Erythrocytes

Answer 45

• Rate is controlled by a hormone (erythropoietin)
• Kidneys produce most erythropoietin as a response to reduced oxygen levels in the blood
• Homeostasis is maintained by negative feedback from blood oxygen levels

Question 46

Formation of WBCs and Platelets

Answer 46

• Controlled by hormones
  
  • Colony stimulating factors (CSFs) and interleukins prompt bone marrow to generate Leukocytes
  • Thrombopoietin stimulates production of platelets

Question 47

Hemostasis

Answer 47

• Stoppage of bleeding resulting from a break in a blood vessel
  
  • Hemostasis involves 3 phases
    
    • Vascular spasms (Parasympathetic nervous system)
    • Platelet plug formation
    • Coagulation (blood clotting)

Question 48

Vascular Spasms

Answer 48

• Vasoconstriction causes blood vessel to spasm (parasympathetic nervous system)
  - Spasms narrow the blood vessel, decreasing blood loss

Question 49

Coagulation

Answer 49

• Injured tissues released tissue factor (TF)
  
  • PF(underscore 3) (a phospholippid) interacts with TF, blood protein clotting factors, and calcium ions to trigger a clotting cascade
  • Prothrombin activator converts prothrombin to thrombin