Blood

Question 1

What is blood?

Answer 1

Blood is the internal transport system of the body.

Question 2

What is the composition of blood?

Answer 2

Blood is composed of blood plasma and formed elements.

Question 3

What are the formed elements of blood?

Answer 3

The formed elements of blood include erythrocytes, leukocytes, and platelets.

Question 4

What is the function of erythrocytes?

Answer 4

Erythrocytes are responsible for carrying oxygen to the body’s tissues.

Question 5

What is the function of leukocytes?

Answer 5

Leukocytes are responsible for fighting infections and diseases.

Question 6

What is the function of platelets?

Answer 6

Platelets are responsible for blood clotting.

Question 7

What happens when a blood vessel breaks?

Answer 7

When a blood vessel breaks, platelets form a clot to stop the bleeding.

Question 8

How is blood replaced in an emergency?

Answer 8

Blood is replaced in an emergency through blood transfusions.

Question 9

What can the study of blood tell us about a patient?

Answer 9

The study of blood can help clinicians determine the cause of disease in their patients.

Question 10

What are the protective functions of blood?

Answer 10

Preventing blood loss and preventing infection.

Question 11

What are the transport functions of blood?

Answer 11

Delivering oxygen and nutrients to body cells, transporting metabolic waste products from cells to elimination sites, and transporting hormones from endocrine organs to their target organs.

Question 12

What are the regulatory functions of blood?

Answer 12

Maintaining appropriate body temperature, maintaining normal pH in body tissues, and maintaining adequate fluid volume in the circulatory system.

Question 13

What is the composition of whole blood?

Answer 13

Living blood cells called formed elements suspended in a nonliving fluid matrix called plasma.

55% Plasma
45 % RBC
<1% buffy Coat (Leukocytes & Platelets)

Question 14

What is plasma?

Answer 14

The liquid component of blood that makes up 55% of whole blood and contains dissolved fibrous proteins.

Question 15

What are the formed elements in blood?

Answer 15

Erythrocytes (red blood cells), leukocytes (white blood cells), and platelets.

Question 16

What is the function of erythrocytes?

Answer 16

Transporting oxygen.

Question 17

What is the buffy coat in blood?

Answer 17

A thin, whitish layer at the erythrocyte-plasma junction that contains leukocytes and platelets.

Question 18

Why is blood classified as a connective tissue?

Answer 18

Because it contains living blood cells suspended in a nonliving fluid matrix.

Question 19

What are the three formed elements of blood?

Answer 19

Erythrocytes, leukocytes, and platelets.

Question 20

What is the hematocrit?

Answer 20

The percentage of erythrocytes in a blood sample, which is normally about 45%.

Question 21

What is the normal hematocrit range for healthy males and females?

Answer 21

Males: 47% ± 5%, Females: 42% ± 5%.

Question 22

What is blood plasma?

Answer 22

A straw-colored, sticky fluid that makes up about 55% of whole blood and contains over 100 different dissolved solutes.

Question 23

What are the major plasma components?

Answer 23

Water, electrolytes, plasma proteins, nonprotein nitrogenous substances, nutrients, respiratory gases, and hormones.

Question 24

What is the most abundant plasma protein and what is its function?

Answer 24

Albumin, which accounts for 60% of plasma protein, acts as a carrier to shuttle certain molecules through the circulation and is the major blood protein contributing to the plasma osmotic pressure.

Question 25

What is the normal blood volume in healthy adult males and females?

Answer 25

Males: 5-6 L, Females: 4-5 L.

Question 26

What happens when the number of red blood cells increases or decreases beyond the normal range?

Answer 26

When the number of red blood cells increases beyond the normal range, blood becomes more viscous and flows more slowly. When the number of red blood cells drops below the lower end of the range, the blood thins and flows more rapidly.

Question 27

What are the three types of formed elements in human blood?

Answer 27

Erythrocytes, leukocytes, and platelets.

Question 28

What is the structure of erythrocytes?

Answer 28

They are small, disc-shaped cells with a biconcave shape.

Question 29

What is the function of erythrocytes in the blood?

Answer 29

They play a crucial role in oxygen and carbon dioxide transport.

Question 30

What is the chemical composition of hemoglobin?

Answer 30

Hemoglobin is a protein that contains iron and binds to oxygen in the lungs and releases it in the tissues.

Question 31

What are some disorders caused by abnormalities of erythrocytes?

Answer 31

Examples include anemia, sickle cell disease, and polycythemia.

Question 32

What is hematocrit?

Answer 32

Hematocrit is the percentage of blood volume occupied by erythrocytes. The normal value is around 45% for men and 40% for women.

Question 33

What problems would reduced synthesis of plasma proteins cause in a patient with liver failure due to chronic alcoholism?

Answer 33

Reduced synthesis of plasma proteins can cause fluid accumulation in the tissues, leading to edema and ascites.

Question 34

What is the shape of erythrocytes and what gives them their shape?

Answer 34

Erythrocytes are biconcave disc-shaped cells, and their shape is maintained by a network of proteins, especially spectrin, attached to the cytoplasmic face of RBC plasma membranes.

Question 35

What is the function of hemoglobin in erythrocytes?

Answer 35

Hemoglobin binds easily and reversibly with oxygen, and most oxygen carried in blood is bound to hemoglobin. It transports respiratory gases (oxygen and carbon dioxide).

Question 36

What is the normal range of hemoglobin in adult males and females?

Answer 36

The normal range of hemoglobin is 13-18 grams per 100 milliliters of blood (g/100 ml) in adult males, and 12-16 g/100 ml in adult females.

Question 37

How many hemoglobin molecules are present in a single red blood cell and how much oxygen can they transport?

Answer 37

A single red blood cell contains about 250 million hemoglobin molecules, and each of these tiny cells can transport about 1 billion molecules of oxygen.

Question 38

What are the three structural characteristics that contribute to erythrocyte gas transport functions?

Answer 38

The small size and shape of erythrocytes provide a huge surface area relative to volume, erythrocytes are over 97% hemoglobin, and they lack mitochondria and generate ATP by anaerobic mechanisms, making them very efficient oxygen transporters.

Question 39

What is the process of oxygen loading and unloading in the body?

Answer 39

Oxygen loading occurs in the lungs and oxygen-deficient blood moves through the lungs, where oxygen diffuses from the air sacs of the lungs into the blood and then into the erythrocytes, where it binds to the iron in hemoglobin. In body tissues, oxygen detaches from iron, hemoglobin resumes its former shape, and the resulting deoxyhemoglobin, or reduced hemoglobin, becomes dark red. The released oxygen diffuses from the blood into the tissue fluid and then into tissue cells.

Question 40

What is hematopoiesis?

Answer 40

Hematopoiesis is the process of blood cell formation.

Question 41

Where does hematopoiesis occur in the body?

Answer 41

Hematopoiesis occurs in the red bone marrow.

Question 42

What is the function of erythrocytes?

Answer 42

The function of erythrocytes is to transport oxygen from the lungs to the body tissues and to transport carbon dioxide from the body tissues to the lungs.

Question 43

What is the lifespan of erythrocytes?

Answer 43

The lifespan of erythrocytes is about 120 days.

Question 44

What is the final stage of erythropoiesis?

Answer 44

The final stage of erythropoiesis is the reticulocyte, which is essentially a young erythrocyte that still contains a scant reticulum of clumped ribosomes.

Question 45

What is the function of reticulocytes?

Answer 45

The function of reticulocytes is to enter the bloodstream and mature into erythrocytes.

Question 46

What is the average amount of new blood cells produced by the red bone marrow every day?

Answer 46

The red bone marrow turns out some 30 ml of new blood containing 100 billion new cells every day.

Question 47

What triggers the synthesis and release of erythropoietin?

Answer 47

The drop in normal blood oxygen levels.

Question 48

What are the possible causes of reduced blood oxygen levels that trigger EPO formation?

Answer 48

Reduced numbers of red blood cells due to hemorrhage or excessive RBC destruction, insufficient hemoglobin per RBC, reduced availability of oxygen.

Question 49

What happens when there are too many erythrocytes or excessive oxygen in the bloodstream?

Answer 49

Erythropoietin production is depressed.

Question 50

What controls the rate of erythropoiesis?

Answer 50

The ability of erythrocytes to transport enough oxygen to meet tissue demands.

Question 51

How does bloodborne erythropoietin stimulate red marrow cells?

Answer 51

It causes them to mature more rapidly.

Question 52

What is the role of kidneys in erythropoietin production?

Answer 52

They play the major role in EPO production.

Question 53

What happens when kidney cells become hypoxic?

Answer 53

Oxygen-sensitive enzymes are unable to carry out their normal functions of degrading an intracellular signaling molecule called hypoxia-inducible factor (HIF).

Question 54

What is the consequence of abusing recombinant EPO?

Answer 54

It can cause thick, sticky ‘sludge’ that can cause clotting, stroke, or heart failure.

Question 55

What stimulates the kidneys to produce erythropoietin?

Answer 55

Low O2 levels in blood.

Question 56

What is the function of erythropoietin in the blood?

Answer 56

To promote erythropoiesis in red bone marrow.

Question 57

Where are aged and damaged red blood cells engulfed and broken down?

Answer 57

By macrophages of spleen, liver, and bone marrow.

Question 58

What happens to the hemoglobin of dying erythrocytes?

Answer 58

It is split off from globin, and its core of iron is salvaged and stored for reuse.

Question 59

What is bilirubin and how is it eliminated from the body?

Answer 59

Bilirubin is a yellow pigment that is released to the blood and eliminated from the body in feces as stercobilin.

Question 60

What are the raw materials required for erythropoiesis?

Answer 60

Nutrients (amino acids, lipids, and carbohydrates), vitamin B12, folic acid, and iron.

Question 61

What is the average lifespan of red blood cells?

Answer 61

100 to 120 days.

Question 62

What happens to the protein (globin) part of hemoglobin?

Answer 62

It is metabolized or broken down to amino acids, which are released to the circulation.

Question 63

Define anemia.

Answer 63

Anemia is a condition in which the blood’s oxygen-carrying capacity is too low to support normal metabolism.

Question 64

What are the three groups of causes of anemia?

Answer 64

Blood loss, not enough red blood cells produced, or too many of them destroyed.

Question 65

What is hemorrhagic anemia?

Answer 65

Hemorrhagic anemia is caused by blood loss.

Question 66

What is iron-deficiency anemia?

Answer 66

Iron-deficiency anemia is a result of inadequate intake of iron-containing foods or impaired iron absorption.

Question 67

What is pernicious anemia?

Answer 67

Pernicious anemia is an autoimmune disease that most often affects the elderly.

Question 68

What is renal anemia?

Answer 68

Renal anemia is caused by the lack of EPO, the hormone that controls red blood cell production.

Question 69

What is aplastic anemia?

Answer 69

Aplastic anemia may result from destruction or inhibition of the red marrow by certain drugs and chemicals, ionizing radiation, or viruses.

Question 70

What is hemolytic anemia?

Answer 70

Hemolytic anemia is a condition in which erythrocytes rupture, or lyse, prematurely.

Question 71

What are thalassemias?

Answer 71

Thalassemias are a group of genetic disorders in which one of the globin chains is absent or faulty, and the erythrocytes are thin, delicate, and deficient in hemoglobin.

Question 72

What is sickle-cell anemia?

Answer 72

Sickle-cell anemia is a genetic disorder in which the globin part of hemoglobin is abnormal, causing the erythrocytes produced to be fragile and rupture prematurely.

Question 73

What is polycythemia?

Answer 73

An abnormal excess of erythrocytes that increases blood viscosity, causing it to flow sluggishly.

Question 74

What is blood doping?

Answer 74

Artificially induced polycythemia, practiced by some athletes competing in aerobic events.

Question 75

How does blood doping work?

Answer 75

Some of the athlete’s red blood cells are drawn off and stored. The body quickly replaces these erythrocytes because removing blood triggers the erythropoietin mechanism. Then, when the stored blood is reinfused a few days before the athletic event, a temporary polycythemia results.

Question 76

What are the risks associated with blood doping?

Answer 76

The risk of stroke and heart failure due to high hematocrit and high blood viscosity.

Question 77

What is sickle-cell anemia?

Answer 77

A genetic disorder caused by a single amino acid change in the beta chain of hemoglobin, resulting in sickled erythrocytes.

Question 78

How is sickle-cell anemia treated?

Answer 78

Hydroxyurea, a drug used to treat chronic leukemia, switches the fetal hemoglobin gene back on. This drug dramatically reduces the excruciating pain and overall severity and complications of sickle-cell anemia (by 50%). In children who are severely affected, bone marrow stem cell transplants offer a complete cure, but carry high risks.

Question 79

What is diapedesis?

Answer 79

The process by which white blood cells slip out of the capillary blood vessels and enter areas of the body where they mount inflammatory or immune responses.

Question 80

What are the signals that prompt WBCs to leave the bloodstream at specific locations?

Answer 80

Cell adhesion molecules displayed by endothelial cells.

Question 81

What are neutrophils and what percentage of WBC population do they account for?

Answer 81

Neutrophils are the most numerous white blood cells and account for 50-70% of the WBC population.

Question 82

What is the size of neutrophils compared to erythrocytes?

Answer 82

Neutrophils are about twice as large as erythrocytes.

Question 83

What is the color of neutrophil cytoplasm and why are they called neutral-loving?

Answer 83

Neutrophil cytoplasm has a lilac color due to the presence of granules that take up both basic and acidic dyes. They are called neutral-loving because of this property.

Question 84

What is the role of neutrophils in the body?

Answer 84

Neutrophils are our body’s bacteria slayers and their numbers increase explosively during acute bacterial infections. They are chemically attracted to sites of inflammation and are active phagocytes.

Question 85

What is the process of respiratory burst and how do neutrophils kill bacteria?

Answer 85

Respiratory burst is a process during which neutrophils metabolize oxygen to produce potent germ-killer oxidizing substances such as bleach and hydrogen peroxide. Defensin-containing granules merge with the microbe-containing phagosome and form peptide ‘spears’ that pierce holes in the membrane of the ingested bacteria, causing it to lyse.

Question 86

What are eosinophils and what percentage of leukocytes do they account for?

Answer 86

Eosinophils account for 2-4% of all leukocytes.

Question 87

What is the role of eosinophils in the body?

Answer 87

The most important role of eosinophils is to lead the counter-attack against parasitic worms that are too large to be phagocytized. They also have complex roles in many other diseases including allergies and asthma.

Question 88

What are granulocytes and what are the types of granulocytes?

Answer 88

Granulocytes are a type of leukocyte that contain obvious membrane-bound cytoplasmic granules. The types of granulocytes are neutrophils, eosinophils, and basophils.

Question 89

What is leukocytosis and when does it occur?

Answer 89

Leukocytosis is a condition in which the white blood cell count is over 11,000 cells/μl and it occurs as a normal response to an infection in the body.

Question 90

What are the two major categories of leukocytes and how are they grouped?

Answer 90

The two major categories of leukocytes are granulocytes and agranulocytes. They are grouped on the basis of structural and chemical characteristics.

Question 91

What is the relative percentage of leukocytes in normal blood and what is the order of leukocytes from most abundant to least abundant?

Answer 91

Leukocytes and platelets together account for the remaining 21% of formed elements in normal blood. The order of leukocytes from most abundant to least abundant is neutrophils, lymphocytes, monocytes, eosinophils, and basophils.

Question 92

What are the three sizes of leukocytes based on their diameter?

Answer 92

Small (5-8 μm), medium (10-12 μm), and large (14-17 μm).

Question 93

What is the function of T lymphocytes (T cells)?

Answer 93

Acting directly against virus-infected cells and tumor cells in the immune response.

Question 94

What do B lymphocytes (B cells) give rise to?

Answer 94

Plasma cells, which produce antibodies (immunoglobulins) that are released to the blood.

Question 95

What is the average diameter of monocytes?

Answer 95

18 μm.

Question 96

What happens to circulating monocytes when they leave the bloodstream and enter the tissues?

Answer 96

They differentiate into highly mobile macrophages with prodigious appetites.

Question 97

What is the function of macrophages?

Answer 97

They are actively phagocytic and are crucial in the body’s defense against viruses, certain intracellular bacterial parasites, and chronic infections such as tuberculosis.

Question 98

What is leukopoiesis?

Answer 98

The production of white blood cells.

Question 99

What is the function of basophils?

Answer 99

They contain histamine, an inflammatory chemical that acts as a vasodilator and attracts other white blood cells to the inflamed site.

Question 100

What is the most numerous leukocyte in the blood?

Answer 100

Neutrophils.

Question 101

What is the second most numerous leukocyte in the blood?

Answer 101

Lymphocytes.

Question 102

What is the lifespan of monocytes and lymphocytes?

Answer 102

Monocytes may live for several months, whereas the life span of lymphocytes varies from a few hours to decades.

Question 103

What are the two families of hematopoietic factors?

Answer 103

Interleukins and colony-stimulating factors (CSFs).

Question 104

What is the function of hematopoietic factors?

Answer 104

Hematopoietic factors prompt the white blood cell precursors to divide and mature, and enhance the protective potency of mature leukocytes.

Question 105

What is the difference between lymphoid stem cells and myeloid stem cells?

Answer 105

Lymphoid stem cells produce lymphocytes, while myeloid stem cells give rise to all other formed elements.

Question 106

What is the ratio of granulocytes to erythrocytes produced in the body?

Answer 106

The normal ratio of granulocytes to erythrocytes produced is about 3:1.

Question 107

What is leukopenia?

Answer 107

Leukopenia is an abnormally low white blood cell count.

Question 108

What is leukemia?

Answer 108

Leukemia is a group of cancerous conditions involving overproduction of abnormal white blood cells.

Question 109

What are the symptoms of infectious mononucleosis?

Answer 109

The affected individual complains of being tired and achy, and has a chronic sore throat and a low-grade fever.

Question 110

How is the bone marrow stimulated in cancer patients receiving chemotherapy?

Answer 110

Hematopoietic hormones such as EPO and several of the CSFs are used to stimulate the bone marrow of cancer patients who are receiving chemotherapy.

Question 111

What are hematopoietic stem cells also known as?

Answer 111

Hemocytoblasts.

Question 112

What are the two main types of stem cells that hematopoietic stem cells can differentiate into?

Answer 112

Myeloid stem cells and lymphoid stem cells.

Question 113

What are the three types of myeloblasts that granular leukocytes develop from?

Answer 113

Eosinophilic myeloblasts, neutrophilic myeloblasts, and basophilic myeloblasts.

Question 114

What is the precursor for B lymphocytes?

Answer 114

B lymphocyte precursor.

Question 115

What is the precursor for T lymphocytes?

Answer 115

T lymphocyte precursor.

Question 116

What are the two main types of leukocytes?

Answer 116

Granular leukocytes and agranular leukocytes.

Question 117

What are the three types of granular leukocytes?

Answer 117

Eosinophils, neutrophils, and basophils.

Question 118

What is the developmental pathway for granular leukocytes?

Answer 118

Myeloblasts → promyelocytes → myelocytes → band cells → mature cells.

Question 119

What is the developmental pathway for monocytes?

Answer 119

Myeloid stem cell → monoblasts → promonocytes → monocytes.

Question 120

What is the developmental pathway for lymphocytes?

Answer 120

Lymphoid stem cell → B lymphocyte precursor or T lymphocyte precursor → mature B or T lymphocytes.

Question 121

What are platelets?

Answer 121

Fragments of megakaryocytes that help in the clotting process when blood vessels are ruptured or their lining is injured.

Question 122

What is the function of platelets?

Answer 122

To form a temporary plug at the site of injury to help seal the break and prevent blood loss.

Question 123

What regulates the formation of platelets?

Answer 123

A hormone called thrombopoietin.

Question 124

What is a megakaryocyte?

Answer 124

An extraordinarily large cell that gives rise to platelets and has a huge, multilobed nucleus and a large cytoplasmic mass.

Question 125

What is the structure of platelets?

Answer 125

They are roughly disc-shaped with a diameter of 2-4 μm and contain granules that stain purple and contain chemicals that act in the clotting process.

Question 126

What limits clot formation and prevents undesirable clotting?

Answer 126

Several factors, including molecules secreted by endothelial cells lining the blood vessels and anticoagulant proteins in the plasma.

Question 127

What is hemostasis?

Answer 127

The process that stops bleeding when a blood vessel wall breaks.

Question 128

What are the three steps that occur during hemostasis?

Answer 128

Vascular spasm, platelet plug formation, and coagulation (blood clotting).

Question 129

Name the three steps involved in hemostasis.

Answer 129

Vascular spasm, platelet plug formation, and coagulation.

Question 130

What is the role of platelets in hemostasis?

Answer 130

Platelets play a key role in hemostasis by aggregating and forming a plug that temporarily seals the break in the vessel wall. They also help orchestrate subsequent events that form a blood clot.

Question 131

What is the role of von Willebrand factor in platelet plug formation?

Answer 131

Von Willebrand factor stabilizes bound platelets by forming a bridge between collagen and platelets.

Question 132

What are the chemicals released by activated platelets during platelet plug formation?

Answer 132

Activated platelets release adenosine diphosphate (ADP), serotonin, and thromboxane A2.

Question 133

What is coagulation or blood clotting?

Answer 133

Coagulation or blood clotting is the third step in hemostasis that reinforces the platelet plug with fibrin threads that act as a ‘molecular glue’ for the aggregated platelets.

Question 134

What is the role of clotting factors in coagulation?

Answer 134

Clotting factors work together to form a clot by transforming dissolved blood proteins into fibrin threads. Most clotting factors are plasma proteins synthesized by the liver.

Question 135

What is the role of vitamin K in coagulation?

Answer 135

Vitamin K is required for synthesizing four of the clotting factors involved in coagulation.

Question 136

What happens to the blood clot after hemostasis?

Answer 136

The clot retracts and dissolves as it is replaced by fibrous tissue that permanently prevents blood loss.

Question 137

Name two things that can help cope with the complexity of blood clotting.

Answer 137

Realizing that activation turns clotting factors into enzymes and recognizing that coagulation occurs in three phases.

Question 138

What is the first strategy to cope with the complexity of blood clotting?

Answer 138

Realizing that activation turns clotting factors into enzymes by clipping off a piece of the protein, causing it to change shape.

Question 139

What is the second strategy to cope with the complexity of blood clotting?

Answer 139

Recognizing that coagulation occurs in three phases.

Question 140

How many phases are there in blood clotting?

Answer 140

Three.

Question 141

What are the two pathways that can initiate coagulation?

Answer 141

The intrinsic and extrinsic pathways.

Question 142

What is the common intermediate towards which the intermediate steps of each pathway cascade?

Answer 142

Factor X.

Question 143

What is the slowest step of the blood clotting process?

Answer 143

Formation of prothrombin activator.

Question 144

How long does it take for the clot to form once prothrombin activator is present?

Answer 144

10 to 15 seconds.

Question 145

Why is the intrinsic pathway called intrinsic?

Answer 145

Because the factors needed for clotting are present within (intrinsic to) the blood.

Question 146

What triggers the intrinsic pathway?

Answer 146

Negatively charged surfaces such as activated platelets, collagen, or glass.

Question 147

Why is the intrinsic pathway slower than the extrinsic pathway?

Answer 147

Because it has many intermediate steps.

Question 148

What is the role of platelet-derived growth factor (PDGF) in blood vessel healing?

Answer 148

PDGF stimulates smooth muscle cells and fibroblasts to divide and rebuild the vessel wall.

Question 149

What is the process of fibrinolysis?

Answer 149

Fibrinolysis is the process of removing unneeded clots when healing has occurred.

Question 150

What is the critical natural ‘clot buster’?

Answer 150

Plasmin, a fibrin-digesting enzyme.

Question 151

What is the role of tissue plasminogen activator (tPA) in fibrinolysis?

Answer 151

tPA is secreted by endothelial cells in response to the presence of a clot and activates plasminogen to break down the clot.

Question 152

What are the factors that limit normal clot growth?

Answer 152

Swift removal of clotting factors and anticoagulants that prevent clotting.

Question 153

What is the extrinsic pathway of the clotting cascade?

Answer 153

The extrinsic pathway is triggered by exposing blood to tissue factor (TF) found on cells in tissues surrounding the blood vessel, and it bypasses several steps of the intrinsic pathway.

Question 154

What is the end point of phase 3 of the clotting cascade?

Answer 154

The end point of phase 3 is a fibrin mesh that traps blood cells and effectively seals the hole until the blood vessel can be permanently repaired.

Question 155

What is the role of anticoagulants in preventing clotting?

Answer 155

Anticoagulants inhibit clotting and normally dominate to prevent clotting, but when a vessel is ruptured, clotting factor activity in that area increases dramatically and a clot begins to form.

Question 156

What is clot retraction and how does it stabilize the clot?

Answer 156

Clot retraction is a platelet-induced process that further stabilizes the clot by contracting and pulling on the surrounding fibrin strands, squeezing serum from the mass, compacting the clot, and drawing the ruptured edges of the blood vessel more closely together.

Question 157

What are some antithrombic substances secreted by endothelial cells?

Answer 157

Nitric oxide, prostacyclin, and others.

Question 158

What is the role of vasoconstriction in clot formation?

Answer 158

To assist clot formation by preventing the washout of activated clotting factors.

Question 159

What is the role of fibrin in preventing clot enlargement?

Answer 159

By binding thrombin, fibrin effectively acts as an anticoagulant, preventing the clot from enlarging and thrombin from acting elsewhere.

Question 160

What is the role of antithrombin III in preventing clot formation?

Answer 160

Antithrombin III, a protein present in plasma, quickly inactivates any thrombin not bound to fibrin.

Question 161

What is the role of heparin in preventing clot formation?

Answer 161

Heparin, the natural anticoagulant contained in basophil and mast cell granules, inhibits thrombin by enhancing the activity of antithrombin III and protein C.

Question 162

What is thrombocytopenia?

Answer 162

Thrombocytopenia is a condition characterized by a low number of circulating platelets in the blood, which can lead to spontaneous bleeding from small blood vessels all over the body.

Question 163

What can cause thrombocytopenia?

Answer 163

Thrombocytopenia can arise from any condition that suppresses or destroys the red bone marrow, such as bone marrow malignancy, exposure to ionizing radiation, or certain drugs.

Question 164

How is thrombocytopenia treated?

Answer 164

Transfusions of concentrated platelets provide temporary relief from bleeding.

Question 165

What happens when the liver is unable to synthesize its usual supply of clotting factors?

Answer 165

Abnormal and often severe bleeding occurs.

Question 166

What causes impaired liver function?

Answer 166

The causes can range from an easily resolved vitamin K deficiency (common in newborns) to nearly total impairment of liver function (as in hepatitis or cirrhosis).

Question 167

What is the role of vitamin K in clotting factors production?

Answer 167

Liver cells require vitamin K to produce clotting factors.

Question 168

What is hemophilia?

Answer 168

Hemophilia refers to several hereditary bleeding disorders that have similar signs and symptoms.

Question 169

What is the difference between Hemophilia A and Hemophilia B?

Answer 169

Hemophilia A results from a deficiency of factor VIII (antihemophilic factor), while Hemophilia B results from a deficiency of factor IX.

Question 170

Who is more likely to be affected by Hemophilia A and B?

Answer 170

Hemophilia A and B occur primarily in males.

Question 171

What is the role of factor XI in Hemophilia C?

Answer 171

Hemophilia C, a less severe form seen in both sexes, is due to a lack of factor XI.

Question 172

What are the symptoms of hemophilia?

Answer 172

Even minor tissue trauma causes prolonged and potentially life-threatening bleeding into tissues. Commonly, the person’s joints become the blockage and lead to death of those tissues.

Question 173

What is an embolus?

Answer 173

If the thrombus breaks away from the vessel wall and floats freely in the bloodstream, it becomes an embolus (plural: emboli).

Question 174

What is an embolism?

Answer 174

An embolus becomes an embolism when it obstructs a blood vessel.

Question 175

What are the risk factors for thromboembolic disease?

Answer 175

Conditions that roughen the vessel endothelium, such as atherosclerosis or inflammation, cause thromboembolic disease by allowing platelets to gain a foothold. Slowly flowing blood or blood stasis is another risk factor, particularly in bedridden patients and those taking a long flight without moving around.

Question 176

What are some anticoagulant drugs used clinically to prevent undesirable clotting?

Answer 176

Aspirin, heparin, and warfarin are used clinically to prevent undesirable clotting.

Question 177

How does aspirin prevent clotting?

Answer 177

Aspirin is an antiprostaglandin drug that inhibits thromboxane A2 formation (blocking platelet aggregation and platelet plug formation).

Question 178

What is the anticoagulant most used in the hospital?

Answer 178

Heparin, administered in injectable form, is the anticoagulant most used in the hospital (for heart patients undergoing various procedures and to prevent or treat venous thrombosis).

Question 179

What is warfarin and how does it work?

Answer 179

Warfarin interferes with the action of vitamin K in the production of some clotting factors. Because treatment with warfarin is difficult to manage, the introduction of direct oral anticoagulants using other mechanisms has been welcomed.

Question 180

Name the two ways the human cardiovascular system minimizes the effects of blood loss.

Answer 180

Reducing the volume of affected blood vessels and stepping up production of red blood cells.

Question 181

What is the preferred choice for replacing lost blood volume?

Answer 181

Normal saline or a multiple electrolyte solution that mimics the electrolyte composition of plasma.

Question 182

What is disseminated intravascular coagulation (DIC)?

Answer 182

DIC involves both widespread clotting and severe bleeding. Clotting occurs in intact blood vessels and the residual blood becomes unable to clot. Blockage of blood flow accompanied by severe bleeding follows. DIC most commonly happens as a complication of pregnancy or a result of septicemia or incompatible blood transfusions.

Question 183

What is the shelf life of collected blood?

Answer 183

About 35 days.

Question 184

What are packed red blood cells (PRBCs)?

Answer 184

Whole blood from which most of the plasma and leukocytes have been removed.

Question 185

What are the consequences of losing more than 30% of blood volume?

Answer 185

Severe shock, which can be fatal.

Question 186

What is the ABO blood group system?

Answer 186

A system of blood classification based on the presence or absence of specific antigens on the surface of red blood cells.

Question 187

What is the basis of transfusion reactions?

Answer 187

Incompatibility between the donor’s blood and the recipient’s blood, which triggers an immune response.

Question 188

What is the key difference between prothrombin and thrombin?

Answer 188

Prothrombin is an inactive precursor to thrombin, which is an active enzyme that catalyzes the conversion of fibrinogen to fibrin.

Question 189

What is the preferred treatment for hemophilias?

Answer 189

Transfusions of fresh plasma or injections of the appropriate purified clotting factor.

Question 190

What are agglutinogens and agglutinins in blood groups?

Answer 190

Agglutinogens are antigens present on the surface of red blood cells that determine blood type, while agglutinins are preformed antibodies present in plasma that act against RBCs carrying ABO antigens that are not present on a person’s own red blood cells.

Question 191

What is the most common ABO blood group in North America?

Answer 191

The O blood group.

Question 192

What is the Rh blood typing system named after?

Answer 192

It is named after one Rh antigen (agglutinogen D) that was originally identified in rhesus macaques.

Question 193

What happens if an Rh- person receives Rh+ blood?

Answer 193

The immune system becomes sensitized and begins producing anti-Rh antibodies against the foreign antigen soon after the transfusion.

Question 194

Why is blood typing for ABO and Rh antigens always done before blood transfusion?

Answer 194

Because transfusion reactions can occur when foreign erythrocytes are improperly transfused.

Question 195

How many naturally occurring RBC antigens (blood groups) are found in humans?

Answer 195

At least 30 groups.

Question 196

What is the frequency of AB blood group in the U.S. population?

Answer 196

4%.

Question 197

What is the ‘universal donor’ blood type?

Answer 197

O blood group.

Question 198

What is the ‘universal recipient’ blood type?

Answer 198

AB blood group.

Question 199

What is the focus of treatment for transfusion reactions?

Answer 199

Preventing kidney damage by administering fluid and diuretics to increase urine output, diluting and washing out the hemoglobin.

Question 200

Which blood group is considered the universal donor and why?

Answer 200

Group O, because it bears neither the A nor the B antigen.

Question 201

Which blood group is considered the universal recipient and why?

Answer 201

Group AB, because its plasma is devoid of antibodies to both A and B antigens.

Question 202

What is the risk associated with pooled blood transfusions?

Answer 202

Transmission of life-threatening infections, particularly with HIV.

Question 203

What is autologous transfusion?

Answer 203

When the patient predonates his or her own blood, and it is stored and immediately available if needed during surgery.

Question 204

Why is it crucial to determine the blood group of both the donor and the recipient before blood is transfused?

Answer 204

To ensure blood groups are compatible.

Question 205

What is a transfusion reaction?

Answer 205

When the recipient’s plasma antibodies attack the donor’s red blood cells.

Question 206

What are the consequences of hemoglobin that escapes into the bloodstream during a transfusion reaction?

Answer 206

Circulating hemoglobin passes freely into the kidney tubules, causing cell death and kidney shutdown.

Question 207

What is hemolytic disease of the newborn?

Answer 207

A condition where the mother’s antibodies cross through the placenta and destroy the baby’s RBCs, producing anemia and hypoxia.

Question 208

What is RhoGAM and why is it used?

Answer 208

RhoGAM is a serum containing anti-Rh antibodies used to prevent sensitization of Rh- women carrying Rh+ babies, which can lead to hemolytic disease of the newborn.

Question 209

What is the purpose of blood testing?

Answer 209

To evaluate a person’s health and diagnose various disorders.

Question 210

What are some examples of blood tests and what information do they provide?

Answer 210

Blood glucose tests indicate how well a diabetic is controlling diet and blood sugar levels. Leukocytosis signals infections

Question 211

What is a CMP and CBC?

Answer 211

A CMP (comprehensive metabolic panel) and a complete blood count (CBC) are two batteries of tests that are routinely ordered during physical examinations and before hospital admissions. CMP is a blood chemistry profile that measures various electrolytes, glucose, and markers of liver and kidney disorders. The CBC includes counts of the different types of formed elements, the hematocrit, measurements of hemoglobin content, and size of RBCs.

Question 212

What is a bone marrow biopsy used for?

Answer 212

To diagnose disorders of blood-cell formation, leukemia, various marrow infections, and anemias resulting from damage to or failure of the marrow.

Question 213

What is an exchange transfusion?

Answer 213

A technique of removing the patient’s blood and infusing donor blood until a large fraction of the patient’s blood has been replaced

Question 214

What is hematoma?

Answer 214

Accumulated, clotted blood in the tissues usually resulting from injury

Question 215

What are the most common blood diseases that appear during aging?

Answer 215

Chronic leukemias, anemias, and clotting disorders.

Question 216

What is hemoglobin F and why is it important?

Answer 216

Hemoglobin F is a unique hemoglobin that has a higher affinity for oxygen than does adult hemoglobin (hemoglobin A) so that the fetus can effectively transfer oxygen from the mother to itself. It contains two alpha and two gamma (g) polypeptide chains per globin molecule, instead of the paired alpha and beta chains typical of hemoglobin A.

Question 217

Define Plasmapheresis.

Answer 217

A process in which blood is removed, its plasma is separated from formed elements, and the formed elements are returned to the patient or donor. It is used to remove antibodies or immune complexes from the blood of individuals with autoimmune disorders and to collect plasma for burn victims and therapeutic use.

Question 218

What is Septicemia?

Answer 218

Excessive and harmful levels of bacteria or their toxins in the blood. It is also called blood poisoning.

Question 219

What is Hemochromatosis?

Answer 219

An inherited disorder of iron overload in which the intestine absorbs too much iron from the diet. The iron builds up in body tissues, where it oxidizes to form compounds that poison those organs (especially joints, liver, and pancreas).

Question 220

What is Myeloproliferative disorder?

Answer 220

It is an all-inclusive term for a group of proliferative disorders (disorders in which normal cell division controls are lost) including leukoerythroblastic anemia involving fibrosis of the bone marrow, polycythemia vera, and leukemia.

Question 221

What are the transport functions of blood?

Answer 221

The transport functions of blood include delivering oxygen and nutrients to body tissues, removing metabolic wastes, and transporting hormones.

Question 222

What are the regulation functions of blood?

Answer 222

The regulation functions of blood include maintaining body temperature, constant blood pH, and adequate fluid volume.

Question 223

What are the protective functions of blood?

Answer 223

The protective functions of blood include hemostasis and prevention of infection.

Question 224

What is the composition of blood?

Answer 224

Blood is composed of formed elements and plasma. The hematocrit is a measure of one formed element, erythrocytes, as a percentage of total blood volume.

Question 225

What is the function of plasma proteins?

Answer 225

Plasma proteins, most made by the liver, include albumin, globulins, and fibrinogen. Albumin is the most important contributor to the osmotic pressure of blood and carries certain molecules through the blood.

Question 226

What are the formed elements of blood?

Answer 226

Formed elements, accounting for 45% of whole blood, are erythrocytes, leukocytes, and platelets. All formed elements arise from hematopoietic stem cells in red bone marrow.

Question 227

What are erythrocytes?

Answer 227

Erythrocytes (red blood cells, RBCs) are small, biconcave cells containing large amounts of hemoglobin. They have no nucleus and few organelles. Spectrin allows the cells to change shape as they pass through tiny capillaries.

Question 228

What is the major function of erythrocytes?

Answer 228

The major function of erythrocytes is oxygen transport. In the lungs, oxygen binds to iron atoms in hemoglobin molecules, producing oxyhemoglobin. In body tissues, oxygen dissociates from iron, producing deoxyhemoglobin.

Question 229

What is erythropoiesis?

Answer 229

Erythropoiesis is the process by which erythrocytes are produced from hematopoietic stem cells and proceed through several stages of differentiation, accumulating hemoglobin and extruding organelles and nucleus.

Question 230

What are leukocytes?

Answer 230

Leukocytes are white blood cells (WBCs) that have crucial roles in defending against disease. Two main categories exist: granulocytes and agranulocytes.

Question 231

What are platelets?

Answer 231

Platelets are fragments of large megakaryocytes formed in red marrow. When a blood vessel is damaged, platelets form a plug to help prevent blood loss and play a central role in the clotting cascade.

Question 232

What is hemostasis?

Answer 232

Hemostasis is the prevention of blood loss. The three major steps of hemostasis are vascular spasm, platelet plug formation, and blood coagulation.

Question 233

1. What is the average blood volume in an adult?

Answer 233

5 L.

Question 234

2. Which organ releases erythropoietin hormone to promote RBC formation?

Answer 234

Kidney.

Question 235

3. Which of the following is true of RBCs?

Answer 235

They contain hemoglobin.

Question 236

4. What is the most abundant plasma protein?

Answer 236

Albumin.

Question 237

5. Which white blood cells can differentiate into macrophages and lead the attack against parasitic worms?

Answer 237

Monocytes.

Question 238

6. Which blood cells do not mature in the bone marrow before being released into the blood?

Answer 238

Lymphocytes.

Question 239

7. What is the common intermediate in the intrinsic and extrinsic clotting pathways?

Answer 239

Factor X.

Question 240

8. What is the normal pH of the blood?

Answer 240

7.4.

Question 241

9. What does AB positive blood type mean?

Answer 241

Agglutinogens A and B are present on red blood cells, and there are no anti-A or anti-B antibodies in plasma, and the blood is Rh+.

Question 242

10. List the three major categories of formed elements. Which is least numerous? Which comprise(s) the buffy coat in a hematocrit tube?

Answer 242

a) Red blood cells, white blood cells, and platelets. b) Platelets. c) White blood cells and platelets.

Question 243

11. What is a transfusion reaction and why does it happen? What are its possible consequences?

Answer 243

a) A transfusion reaction is an immune response to transfused blood that is not compatible with the recipient’s blood type. b) Possible consequences include clumping of red blood cells, blockage of blood vessels, and kidney shutdown.

Question 244

12. If you had a high hematocrit, would you expect your hemoglobin determination to be low or high? Why?

Answer 244

High, because hematocrit measures the percentage of RBCs in the blood, and hemoglobin is the protein in RBCs that carries oxygen.

Question 245

13. Describe the process of erythropoiesis. What name is given to the immature cell type released to the circulation? How does it differ from a mature erythrocyte?

Answer 245

Erythropoiesis is the process of RBC formation. The immature cell type released to the circulation is called a reticulocyte, which still contains some organelles and ribosomes. A mature erythrocyte has no organelles or ribosomes.

Question 246

14. Besides the ability to move by amoeboid motion, what other physiological attributes contribute to the function of white blood cells in the body?

Answer 246

Phagocytosis and the production of antibodies.

Question 247

15. If you had a severe infection, would you expect your WBC count to be closest to 5000, 10,000, or 15,000/μl? What is this condition called?

Answer 247

10,000/μl. This condition is called leukocytosis.

Question 248

16. Describe the appearance of platelets and state their major function. Why should platelets not be called “cells”?

Answer 248

Platelets are small, irregularly shaped cell fragments. Their major function is to form blood clots. Platelets should not be called “cells” because they lack a nucleus and other organelles.

Question 249

17. What is fibrinolysis? What is the importance of this process?

Answer 249

Fibrinolysis is the process of breaking down blood clots. It is important to prevent abnormal clotting and to dissolve clots after they have served their purpose.

Question 250

18. How is clot overgrowth usually prevented? List two conditions that may lead to unnecessary (and undesirable) clot formation.

Answer 250

Clot overgrowth is usually prevented by removal of coagulation factors in contact with rapidly flowing blood and by inhibition of activated blood factors. Two conditions that may lead to unnecessary clot formation are thrombocytopenia and liver disease.

Question 251

19. What are the abnormalities associated with thalassemia?

Answer 251

Thalassemia is a genetic disorder that results in abnormal hemoglobin production and anemia.

Question 252

20. What are the major blood-related problems associated with aging?

Answer 252

Leukemia, anemia, and thromboembolic disease.

Question 253

21. What are the fetal hematopoietic sites? When does the red bone marrow become the primary blood-forming site?

Answer 253

The fetal hematopoietic sites include the yolk sac, liver, and spleen. By the seventh month of development, the red bone marrow becomes the primary blood-forming site.