BSI 2 Lecture 1: Hematology

Question 1

What is the total body fluid volume?

Answer 1

42 liters

Question 2

Out of the total body fluid volume, how much is inside the cell (intracellular)?

Answer 2

28 liters

Question 3

Out of the total body fluid volume, how much is outside the cell?

Answer 3

The remaining 14 liters

Question 4

What can the 14 liters outside the cell be divided into?

Answer 4

11 liters of interstitial fluid and 3 liters of plasma

Question 5

Where is plasma contained?

Answer 5

In the cardiovascular system, but it exchanges freely with the extracellular fluid which in turn exchanges with the intracellular fluid

Question 6

In the breakdown of plasma, what is the major component of plasma?

Answer 6

Phospholipids (280 mg/dl)

Question 7

Osmotic pressure from proteins is called _______ pressure

Answer 7

Oncotic

Question 8

What is the most common plasma protein?

Answer 8

Albumin ( 5 g/dl)

Question 9

What is the function of albumin?

Answer 9

It is responsible for 80% of plasma’s oncotic pressure, preventing excess fluid loss from circulation

Question 10

Regardless of the route of administration, what are virtually all drugs circulated by?

Answer 10

The plasma

Question 11

Where are plasma proteins primarily synthesized?

Answer 11

The liver (except for antibodies which are gamma globulins secreted by plasma cells)

Question 12

Apart from their physical effect (oncotic pressure), what are plasma proteins crucial for?

Answer 12

The transport of certain molecules like steroids hormones. Binding to plasma proteins helps prevent inappropriate metabolism and/or excretion

Question 13

What type of drug interacts with receptors?

Answer 13

Free

Question 14

Plasma albumin is the most significant plasma protein due to its concentration. What types of drugs does it usually bind with?

Answer 14

Acidic drugs

Question 15

What do basic drugs bind to, in the plasma?

Answer 15

Beta-globulin and acid glycoprotein

Question 16

What happens once the binding is saturated (all binding sites are occupied)?

Answer 16

There is an increase in the amount of free drug

Question 17

When there is an increase in the amount of free drug, what can happen?

Answer 17

They can compete for binding which can occasionally result in significant drug interactions

Question 18

What are the general functions of plasma?

Answer 18

1) transport of nutrients for energy
2) growth and repair
3) removal of wastes
4) transport of hormones
5) regulation of body temperature

Question 19

What are the cellular components of blood?

Answer 19

Red blood cells, white blood cells, and platelets

Question 20

What are the functions of red blood cells?

Answer 20

To carry oxygen and carbon dioxide

Question 21

What are the functions of white blood cells?

Answer 21

They are part of the immune system

Question 22

What are the functions of platelets?

Answer 22

They are involved with hemostasis (prevention of bleeding by blood clotting)

Question 23

What percentage of total blood volume is plasma?

Answer 23

55%

Question 24

What is plasma composed of by percentage?

Answer 24

91% water, 7% blood proteins, 2% nutrients

Question 25

What are the blood proteins?

Answer 25

Fibrinogen, albumin, and globulin

Question 26

What percentage of total blood volume is made up of cellular components?

Answer 26

45%

Question 27

What is the buffy coat?

Answer 27

A white section in between the plasma and red blood cells that consists of white blood cells and platelets

Question 28

How many red blood cells are there, on average, per cubic millimeter?

Answer 28

about 5-6 million

Question 29

What is a hematocrit?

Answer 29

The ratio of combined RBC, WBC, and platelets cell volume over the total blood volume. (~40% in males, ~36% in females)

Question 30

What is the proper name for a red blood cell?

Answer 30

Erythrocyte

Question 31

What is the description of an Erythrocyte?

Answer 31

A biconcave, enucleate, disc; salmon colored; diameter is 6-8 micrometers

Question 32

How many red blood cells are in a microliter of blood?

Answer 32

4-6 million

Question 33

How long does it take a red blood cell to develop?

Answer 33

5-7 days

Question 34

How long is the lifespan of a red blood cell?

Answer 34

100-120 days

Question 35

What is the proper name for a white blood cell?

Answer 35

A leukocyte

Question 36

What is the description of a leukocyte?

Answer 36

Spherical, nucleated cells

Question 37

How many neutrophils are in a cubic millimeter of blood?

Answer 37

3,000-7,000

Question 38

What is the function of a neutrophil?

Answer 38

To destroy bacteria by phagocytosis

Question 39

What are the functions of an eosinophil?

Answer 39

To turn of allergic responses and kill parasites

Question 40

What is the function of a basophil?

Answer 40

To release histamine and other mediators of inflammation

Question 41

How many lymphocytes are found in a cubic millimeter of blood?

Answer 41

1500-3000

Question 42

What is the function of a lymphocyte?

Answer 42

To mount an immune response by direct cell attack (T cells) or via antibodies (B cells)

Question 43

What are the functions of a monocyte?

Answer 43

Phagocytosis; develop into macrophages in tissues

Question 44

How many platelets are found in a cubic millimeter of blood?

Answer 44

150,000-500,000

Question 45

How long does it take for platelets to develop?

Answer 45

4-5 days

Question 46

How long is the lifespan of a platelet?

Answer 46

5-10 days

Question 47

What are the functions of platelets?

Answer 47

To seal small tears in blood vessels; instrumental in blood clotting

Question 48

What type of protein is hemoglobin (Hb)?

Answer 48

Heterotetrameric ( 4 subunits composed of 2 different pairs)

Question 49

What is special about red blood cells that allows them to squeeze through the smallest capillaries?

Answer 49

They are deformable because of a large excess of plasma membranes

Question 50

How do red blood cells divide?

Answer 50

The can’t. They don’t have a nucleus, mitochondria, or endoplasmic reticulum

Question 51

How do red blood cells produce ATP?

Answer 51

Glycolysis

Question 52

Across the lifespan of a human, where are red blood cells produced?

Answer 52

from 8 months to 5 years they are produced in the long bones (tibia and femur). From then on, the long bones become fattier and stop producing, and the membranous bones (rib, sternum, vertebra) start producing them.

Question 53

When the long bones stop producing red blood cells, what do they start producing?

Answer 53

White blood cells

Question 54

Does the body produce nucleated red blood cells?

Answer 54

Yes, in the embryo, nucleated red blood cells are produced by the yolk sac. By the middle trimester, the liver, spleen, and lymph nodes are the main source

Question 55

Where do all blood cells originate from?

Answer 55

Pluripotential hematopoietic stem cells

Question 56

Describe the colony-forming unit-erythrocyte stage (CFU-E).

Answer 56

This is the point where the cell is committed by differentiation to becoming a red blood cell, and it cannot become any other cell

Question 57

What controls RBC growth and production?

Answer 57

“growth inducers”. For example, interleukin-3 promotes growth and reproduction of virtually all types of committed cells, others are type specific.

Question 58

How is differentiation induced?

Answer 58

by “differentiation inducers” which are controlled by factors outside the bone marrow

Question 59

What is differentiation factor for red blood cells?

Answer 59

Usually decreased oxygen levels

Question 60

What are the stages of development of a red blood cell?

Answer 60

1) Proerythroblast
2) Basophil erythroblast
3) Polychromatophilic erythroblast
4) Orthochromatic erythroblast
5) Reticulocyte
6) Erythrocytes

Question 61

What is an important note about the reticulocyte stage?

Answer 61

This is the point at which the nucleus and endoplasmic reticulum have either been ejected or absorbed because they have no further function

Question 62

How do reticulocytes turn into erythrocytes?

Answer 62

They leave the bone marrow and enter circulation where they mature into erythrocytes

Question 63

As successive stages occur in the formation of red blood cells, what happens to hemoglobin and the nucleus?

Answer 63

The nucleus gets smaller and smaller while hemoglobin continues to increase

Question 64

Through what process do reticulocytes leave the bone marrow?

Answer 64

Diapedesis: reticulocytes enter capillaries by squeezing between endothelial cells

Question 65

Why is the number of red blood cells tightly regulated?

Answer 65

Because you need a sufficient amount for oxygen transport, but if there are too many, it places enormous amounts of stress on the heart

Question 66

What happens in any condition that decreases the amount of oxygen to the tissues?

Answer 66

Increased red blood cell production

Question 67

What is anemia?

Answer 67

Decrease in the ability of blood to carry oxygen

Question 68

What major substance causes increased red blood cell production?

Answer 68

Erythropoietin

Question 69

Where is 90% of erythropoietin formed?

Answer 69

In the kidneys. The rest is formed in the liver

Question 70

What is erythropoietin and what secretes it?

Answer 70

It is a hormone secreted by tubular epithelial cells

Question 71

If there is damage to the kidneys, what happens to erythropoietin?

Answer 71

It doesn’t get created and can result in severe anemia

Question 72

How does erythropoietin increase red blood cell production?

Answer 72

It stimulates production of proerythroblasts and increases the rate of the maturation process by up to ten times the normal level

Question 73

What role does vitamin B 12 and Folic acid play in the life cycle of a red blood cell?

Answer 73

Vitamin B 12 and Folic acid increase DNA synthesis, and a deficiency could result in maturation failure. This can lead to the production of abnormal red blood cells called macrocytes

Question 74

What is a macrocyte?

Answer 74

cells that do not have the correct/strong/deformable shape of a normal red blood cell, and are often fragile with a significantly reduced lifespan

Question 75

How is hemoglobin synthesized?

Answer 75

1) 2 succinyl-CoA from the Krebs cycle combine with 2 glycines to form a pyrrole molecule
2) 4 pyrrole molecules combine to make protoporphyrin IX
3) An iron ion is added to protoporphyrin IX to make heme
4) Heme is added to a polypeptide globin to for a hemoglobin monomer

Question 76

How many types of globin variants are there?

Answer 76

4 (alpha, beta, gamma, delta)

Question 77

What is the most common adult version of Hb?

Answer 77

Hb that contains 2 alpha’s and 2 beta’s

Question 78

Why and how is fetal hemoglobin different from normal adult hemoglobin?

Answer 78

It has a higher affinity for oxygen so that is can be transported from the mother to the fetus

Question 79

In high oxygen concentrations how much oxygen binds to hemoglobin?

Answer 79

Each iron ion binds one oxygen molecule; therefore, a completely saturated molecule can hold 4 oxygen molecules

Question 80

T or F? Higher O2 concentration will cause more O2 to bind to Fe2+

Answer 80

True

Question 81

Fe2+ is important not only for transporting O2 but many other crucial proteins/enzymes such as __________________

Answer 81

Cytochromes

Question 82

The total body Fe is ~4-5gm, 65% of this is found where?

Answer 82

65% Bound to Hb
4% in muscle myoglobin
1% in heme-containing proteins
0.1% found in plasma bound to transferrin
30% stored in the liver bound to Ferritin

Question 83

What is the function of transferrin?

Answer 83

It transfers the Fe from the GI tract to the receptors on the developing erythrocyte membranes., once endocytosed it enters the mitochondria where heme is synthesized. Also, transport carries Fe to the liver to be stored as Ferritin

Question 84

Lack of transferrin can cause _____ anemia where red blood cells contain decreased amounts of Hb.

Answer 84

Hypochromic

Question 85

Where does RBC usually rupture/self-destruct?

Answer 85

In the spleen as the squeeze through the “red pulp” reticular mesh

Question 86

The released Hb is phagocytized by the macrophages of the _______, _______, and _____ cells

Answer 86

spleen, bone marrow, Kupffer

Question 87

When RBC’s are recycled, what happens to the Fe?

Answer 87

It is released back into the blood bound to transferrin

Question 88

What is a necessary component in bile for fat digestion?

Answer 88

Bilirubin (converted from recycled porphyrin from Hb in macrophages)

Question 89

T or F? Anemia due to blood loss may require 3-6 days for full recovery of RBC’s.

Answer 89

False, weeks not days (plasma loss could be replaced in 1-3 days)

Question 90

Lack of functioning bone marrow caused by x-rays and other forms of radiation etc is called ______

Answer 90

aplastic anemia

Question 91

Anemia due to lack of absorption of B12 in the GI tract is called _______________

Answer 91

pernicious anemia

Question 92

Anemia due to lack of absorption of B12 and folic acid in the GI tract is called __________

Answer 92

Sprue

Question 93

What is hemolytic anemia?

Answer 93

An inherited condition in which the body produces fragile red blood cells that can easily burst resulting in a shorter lifespan

Question 94

Sickle cell anemia is due to a single _____ _____ change in a specific position in the globin polypeptide chain of Hb.

Answer 94

amino acid

Question 95

What is erythroblastosis fetalis?

Answer 95

When Rh- mother has a baby with Rh+, where the mother’s antibodies attack the babies RBC’s resulting in a baby with severe anemia.

Question 96

What is the condition called when too many RBC’s are produced caused by a mutation which allows uncontrolled division of cells like cancer and making blood difficult to pump?

Answer 96

Polycythemia Vera

Question 97

What are the principal functions of blood?

Answer 97

O2 and CO2 transport, nutrient and waste transport, hormone distribution, temperature regulation.

Question 98

What protein is required in the GI tract for absorption of Fe and what mechanism is employed?

Answer 98

apotransferrin helping absorption of Fe via signal-mediated endocytosis

Question 99

What is Iron (Fe) used for besides making Hb?

Answer 99

Cytochromes for both ETC and drug metabolizing enzymes