Blood Components and Blood Clotting

Question 1

What is the average blood volume for women?

Answer 1

5.0 L

Question 2

What is the average blood volume for men?

Answer 2

5.5 L

Question 3

Name the 4 components of blood.

Answer 3

• plasma
• erythrocytes: hematocrit
• leukocytes
• platelets

Question 4

How much plasma is there in blood?

Answer 4

3 L

Question 5

Erythrocytes make up what percent of blood in men?

Answer 5

42-52%

Question 6

Erythrocytes make up what percent of blood in women?

Answer 6

37-47%

Question 7

Plasma without clotting factors is called:

Answer 7

serum

Question 8

Plasma is ____ % water and ____% proteins.

Answer 8

90% water and 6-8% proteins

Question 9

Plasma contains:

Answer 9

• water
• gases
• small proteins
• nutrients
• electrolytes

Question 10

What small proteins are in plasma?

Answer 10

• clotting proteins

- albumin (osmotic pressure gradient)

Question 11

What electrolytes are in plasma?

Answer 11

• Na+ and Cl–

- H+, HCO3–, K+, and Ca2+

Question 12

How many RBCs/mL of blood?

Answer 12

5 billion

Question 13

Describe the shape of RBCs.

Answer 13

• biconcave disk
• large surface area
• favours diffusion

Question 14

Describe the diameter of RBCs.

Answer 14

8 μm

Question 15

Describe the thickness of RBCs.

Answer 15

2 μm

Question 16

Continuous glucose supply to the RBC via _____ _____.

Answer 16

facilitated diffusion

Question 17

How does glycolysis play a role in RBCs?

Answer 17

produces ATP necessary for function

Question 18

RBCs play a role in:

Answer 18

• vessel dilation (in response to shear stress)

- formation of NO

Question 19

Describe the hemoglobin molecule.

Answer 19

• Iron-containing

- Binds: O2, CO2, H+, and CO

Question 20

Describe O2 transport via hemoglobin.

Answer 20

• 98.5% is bound to Hb

- 1.5% is dissolved in plasma

Question 21

Describe CO2 transport via hemoglobin.

Answer 21

• Converted to bicarbonate
• Dissolved in plasma
• Bound to Hb

Question 22

Oxygenated Hb is ____ ____.

Answer 22

bright red

Question 23

deoxygenated Hb is ____ ____.

Answer 23

dark red

Question 24

Erythrocytes have no:

Answer 24

• DNA
• RNA
• organelles
• no division of mature RBCs

Question 25

Describe the life span of erythrocytes.

Answer 25

short life span = 120 days

Question 26

We replace ______ RBCs/sec, which = ______ /day

Answer 26

• 2-3 million RBCs/sec

- = 200 billion/day

Question 27

Where are erythrocytes synthesized?

Answer 27

red bone marrow

Question 28

What is the process of erythrocyte synthesis called?

Answer 28

erythropoiesis

Question 29

What happens to old RBCs?

Answer 29

• filtering and destruction of erythrocytes
• spleen filters and removes old erythrocytes
• liver metabolizes by-products

Question 30

_____ triggers differentiation of stem cells to erythrocytes.

Answer 30

erythropoietin

Question 31

Developing erythrocytes produce _____.

Answer 31

hemoglobin

Question 32

Developing erythrocytes lose ____ and _____.

Answer 32

nuclei and organelles

Question 33

_____ and _____ develop from the same stem cells in bone marrow. What are these stem cells called?

Answer 33

• erythrocytes and leukocytes

- hematopoietic stem cells

Question 34

Erythrocyte synthesis is stimulated by _____.

Answer 34

erythropoietin

Question 35

Erythropoietin is secreted from:

Answer 35

kidneys under conditions of low oxygen levels in blood flowing to kidneys

Question 36

What are the 3 requirements for erythrocyte production?

Answer 36

• iron
• folic acid
• vitamin B12

Question 37

Iron is a component of ______.

Answer 37

hemoglobin (heme portion)

Question 38

Normal hemoglobin content of blood for men is:

Answer 38

13-18 g/dL

Question 39

Normal hemoglobin content of blood for women is:

Answer 39

12-16 g/dL

Question 40

Folic acid is necessary for:

Answer 40

DNA replication and thus cell proliferation

Question 41

Vitamin B12 is necessary for:

Answer 41

DNA replication and thus cell proliferation

Question 42

Spleen macrophages filter blood by:

Answer 42

phagocytosis of old, fragile RBCs

Question 43

Describe how hemoglobin is catabolized in the spleen.

Answer 43

• After iron removed, heme → bilirubin
• Bilirubin is released into bloodstream
• Travels to liver for further metabolism
• Products of bilirubin catabolism are (1) secreted in bile and travel to the intestinal tract or (2) released into the bloodstream and excreted in urine

Question 44

What happens to iron afterwards?

Answer 44

recycled for synthesis of new hemoglobin

Question 45

Iron is transported in blood bound to ______. From ___ to ____ _____.

Answer 45

• transferrin
• From GI tract to bone marrow
• From liver to bone marrow

Question 46

Iron is stored bound to _____, in where?

Answer 46

• ferritin
• liver
• spleen
• small intestine

Question 47

What happens when there is damage to a blood vessel?

Answer 47

• vessel constricts to minimize blood loss (vascular spasm)
• intrinsic vascular response
• sympathetic innervation
• endothelial layer becomes sticky

Question 48

Platelets=

Answer 48

thrombocytes

Question 49

What is the function of the platelet (thrombocytes) plug?

Answer 49

• forms around the site of vessel damage
• decreases blood loss
• necessary for production of a blood clot

Question 50

What 2 things prevent the spread of a platelet plug?

Answer 50

• Prostacyclin (PGI2)

- nitric oxide

Question 51

Prostacyclin (PGI2) is ____ ___ healthy endothelial cells.

Answer 51

produced in

Question 52

Nitric oxide is ____ ___ healthy endothelial cells.

Answer 52

released by

Question 53

Describe the steps of the platelet plug: platelet adhesion.

Answer 53

1. blood vessel damage
2. exposure of subendothelium
3. Von Willebrand factor binds to collagen fibres
4. Platelets bind to vWf
5. platelet adhesion, sticky, secretions

Question 54

vWf is found in:

Answer 54

• plasma

- endothelial layer = increased stickiness

Question 55

Secretions for the platelet plug causes:

Answer 55

vasoconstriction

Question 56

Aggregated platelets release 5 secretory products. What are they?

Answer 56

• ADP
• serotonin
• epinephrine
• coagulation chemicals
• thromboxane A2 (positive feedback)

Question 57

What does ADP do for the platelet plug?

Answer 57

increases stickiness (positive feedback)

Question 58

What does serotonin do for the platelet plug?

Answer 58

vasoconstriction

Question 59

What does epinephrine do for the platelet plug?

Answer 59

vasoconstriction

Question 60

Aggregation of platelet plugs is a _____ feedback mechanism.

Answer 60

positive

Question 61

Clotting =

Answer 61

coagulation

Question 62

Describe coagulation.

Answer 62

• gel-like (thrombus)

- occurs around platelet plug

Question 63

Signals by what lead to formation of blood clot?

Answer 63

aggregated platelets + fibrin

Question 64

The coagulation cascade is ____ feedback.

Answer 64

positive feedback (thrombin regulates its own activation)

Question 65

What do plasminogen activators do?

Answer 65

convert plasminogen to plasmin

Question 66

Give an example of plasminogen activators.

Answer 66

• tissue plasminogen activator
• Secreted by endothelial cells during clot formation
• Activated by fibrin

Question 67

Clotting factors produced by the _____.

Answer 67

liver

Question 68

Clotting factors are secreted into ______ in _____ form.

Answer 68

blood in inactive form

Question 69

Clotting factors are activated during ______.

Answer 69

cascade

Question 70

Name a factor that limits clot formation.

Answer 70

anticoagulants

Question 71

What are anticoagulants?

Answer 71

proteins in plasma and on the surface of endothelial cells

Question 72

How does aspirin affect platelet aggregation in low doses?

Answer 72

• anitcoagulant

- decreases platelet aggregation

Question 73

How does aspirin affect platelet aggregation in high doses?

Answer 73

• increases platelet aggregation

- limits formation of prostaglandin (a clot inhibitor) and can induce clot formation

Question 74

EPO =

Answer 74

erythropoietin

Question 75

_____ and _____ increase with exercise (endurance training). Increases of ___% over sedentary individuals are reported.

Answer 75

• plasma volume and red cell volume

- 30%

Question 76

High blood volume =

Answer 76

high VO2 max (regardless of training)

Question 77

Heavy intensity exercise increases the stimulus for both _____ and ______.

Answer 77

plasma volume and RBC expansion

Question 78

Albumin increase =

Answer 78

• greater movement into vessels
• increased synthesis by the liver
• decreased movement out of vessels (impact on osmotic pressure gradient)

Question 79

Increased aldosterone, ADH =

Answer 79

increased sodium and water retention following exercise and reduced excretion of water and sodium

Question 80

EPO increases by ____x’s value (sea level vs altitude >4000m) after ___ days. New RBCs at _____ days

Answer 80

• 8x
• 3 days
• 5-7 days

Question 81

Why does blood volume change occur at sea level?

Answer 81

• due to hormones
• GH
• intensity and duration dependent

Question 82

What are the 5 types of leukocytes?

Answer 82

• neutrophils
• eosinophils
• basophils
• monocytes
• lymphocytes

Question 83

Describe the synthesis of leukocytes.

Answer 83

• Hematopoietic stem cells
• Full maturity in bone marrow (Except: T cells)
• To thymus

Question 84

All types of leukocytes are formed from:

Answer 84

hematopoietic stem cells

Question 85

Describe neutrophils.

Answer 85

• Represent 50–80% of leukocytes in blood
• Phagocytes
• Circulate in blood for 7–10 hours
• Migrate to tissues for a few days
• numbers increase during infections

Question 86

Describe eosinophils.

Answer 86

• Represent 1–4% of leukocytes
• Phagocytes (but not main mechanism of action)
• Defend against parasitic invaders (e.g., parasitic worms)
• Granules contain toxic molecules that attack parasites

Question 87

Describe basophils.

Answer 87

• Represent less than 1% of leukocytes
• Nonphagocytic
• May defend against large parasites by releasing toxic substances
• Contribute to allergic reactions
• Histamine
• Heparin

Question 88

Describe monocytes.

Answer 88

• Represent 5% of leukocytes
• Phagocytes
• New monocytes circulate in blood for a few hours
• Migrate to tissues and become macrophages (wandering and fixed macrophages)

Question 89

Describe lymphocytes.

Answer 89

• Represent 30% of leukocytes

- Represent 99% of interstitial fluid cells

Question 90

What are the 3 types of lymphocytes?

Answer 90

• B lymphocytes (B cells)
• T lymphocytes (T cells)
• Null cells (most are Natural Killer cells (NK))

Question 91

Leukocytes function in:

Answer 91

defence of body

Question 92

Leukocytes are part of the ___ _____.

Answer 92

immune system

Question 93

Leukocytes defend against:

Answer 93

pathogens

Question 94

Leukocytes identify and destroy _____ _____.

Answer 94

cancer cells

Question 95

Leukocytes perform ______ of debris from dead or injured cells.

Answer 95

phagocytosis

Question 96

B cells are associated with _____.

Answer 96

antibodies

Question 97

What do antibodies do?

Answer 97

mark invaders for destruction

Question 98

What secretes antibodies?

Answer 98

plasma cells

Question 99

Describe T cells.

Answer 99

• Directly damage foreign cells
• Contact infected, mutant, or transplanted cells
• Develop into cytotoxic T cells that destroy target cells
  (Takes several days)
• Secretory products form pores in the target cell’s membrane
  Lysis occurs

Question 100

Describe Null cells.

Answer 100

• Most are natural killer cells
• Important against viral infections
• Attack virus-infected cells, causing lysis
• Fast acting—early immune response