Blood (B1-B3)

Question 1

what are the two major components of plasma

Answer 1

water & solids (proteins, glucose, etc)

Question 2

the chemical composition of plasma is very similar to this fluid in most tissues

Answer 2

interstitial fluid

Question 3

these are the two extracellular fluids, one is intravascular and the other in extravascular

Answer 3

plasma and interstitial fluid

Question 4

this is the process by which formation and development of all blood cells takes place

Answer 4

hematopoiesis

Question 5

where does hematopoiesis take place in adult mammals

Answer 5

marrow of flat bones and ends of long bones

Question 6

where does hematopoiesis take place in neonate and juvenile mammals

Answer 6

bone marrow of long bones

Question 7

what 3 essential physiologic components are required for hematopoiesis

Answer 7

1. stem cell pool
2. hematopoietic inductive microenvironment
3. hematopoietic cytokines

Question 8

these are the hormones that regulate hematopoiesis

Answer 8

hematopoietic cytokines

Question 9

the first step in hematopoietic differentiation involves a commitment of the stem cell to one of these two large pathways

Answer 9

myeloid or lymphoid

Question 10

what is the earliest recognizable erythroid precursor

Answer 10

rubriblast

Question 11

during the mitosis divisions of rubriblast to late precursors metarubricytes, what 3 things change on the progressive maturation of the nucleus and cytoplasm

Answer 11

1. decreasing cell size
2. increasing proportion of the cell occupied by cytoplasm (N:C ratio decreases)
3. decreased cytoplasmic basophilia (decr in organelles, incr in hemoglobin content)

Question 12

this is an immature, but non-nucleated RBC; larger than a mature RBC (higher MCV) and contain less Hb (low MCHC)

Answer 12

reticulocyte

Question 13

this is the principle hormone regulating erythropoiesis; stimulates the increase of RBCs therefore increasing the oxygen-carrying capacity of the blood

Answer 13

Erythropoietin (EPO)

Question 14

where is Erythropoietin (EPO) produced?

Answer 14

kidney (by the peritubular interstitial cells)

Question 15

what are 4 major functions of Erythropoietin (EPO)

Answer 15

1. proliferation of committed erythroid cells
2. increases hemoglobin synthesis
3. increases erythroid cell maturation rate
4. stimulates early release of reticulocytes

Question 16

what are the 3 major function of mature erythrocytes (RBCs)

Answer 16

1. transport oxygen to tissues
2. transport CO2 to lungs
3. buffer hydrogen ions

Question 17

how are the energy needs of RBCs met?

Answer 17

anaerobic glycolysis (no mitochondria)

Question 18

what is the principle energy source for RBCs

Answer 18

glucose

Question 19

the anaerobic glycolytic pathway produces a net gain of these 2 things

Answer 19

ATP & NADH

Question 20

what is ATP used for in RBCs

Answer 20

to maintain osmotic stability

Question 21

what is NADH used for in RBCs

Answer 21

in the process to keep iron molecules in a reduced state

Question 22

this is a side pathway associated to anaerobic glycolysis which generates other products for erythrocyte metabolism:
produces 2,3-DPG which modulates affinity of hemoglobin for O2

Answer 22

DPG shunt

Question 23

this is a side pathway associated to anaerobic glycolysis which generates other products for erythrocyte metabolism:
generates NADH, involved in maintenance of Fe and GSH in reduced states; GSH involved in protecting from oxidative injury

Answer 23

pentose phosphate pathway

Question 24

the rate of iron absorption is influenced by the need for Fe in the body, and is controlled by this peptide secreted by hepatocytes

Answer 24

hepcidin

Question 25

in plasma, nearly all Fe is bound to this

Answer 25

transferrin

Question 26

this is a large tetramer protein formed by 2 alpha and two beta global chains, each linked to a heme molecule

Answer 26

hemoglobin

Question 27

each Hb molecule has the capacity to carry this many oxygen molecules

Answer 27

4

Question 28

why is the binding of the first oxygen molecule to hemoglobin difficult but then easier for the 2nd, 3rd, and 4th

Answer 28

conformational change in Hb structure with oxygenation

Question 29

Hb (Fe3+) is referred to as this, which is non-functional as it is incapable of binding oxygen

Answer 29

methaemoglobin

Question 30

what 2 things are needed in order to reduce methaemoglobin back to functional hemoglobin and prevent accumulation

Answer 30

methemoglobin reductase (Cb5R) and NADH

Question 31

what are the three possible forms of oxidative injury to red cells

Answer 31

1. oxidation of iron to cause methaemoglobinaemia
2. oxidative denaturation of Hb to form Heinz bodies
3. oxidative injury to membrane proteins

Question 32

this is a reversible oxidative injury to RBCs, there is a brown discoloration of the blood and clinical signs of hypoxia

Answer 32

oxidation of iron to cause methaemoglobinaemia

Question 33

this is an irreversible oxidative injury to RBCs, it is due to denaturation of the global part of Hb and is seen as small round projections from the surface of the RBC in blood smears

Answer 33

oxidative denaturation of Hb to form Heinz bodies

Question 34

this is the rarest form of irreversible oxidative injury to RBCs, it is the most subtle and difficult to detect morphologically

Answer 34

oxidative injury to membrane proteins

Question 35

this species have unique Hb structure which increases their sensitivity to oxidative injury; very susceptible to Hb oxidative denaturation and readily develop Heinz bodies

Answer 35

cats

Question 36

what is the approximate erythrocyte lifespan in horse/cattle

Answer 36

150 days

Question 37

what is the approximate erythrocyte lifespan in dogs

Answer 37

100 days

Question 38

what is the approximate erythrocyte lifespan in cats

Answer 38

70 days

Question 39

Heme breakdown leads to the formation of these 3 things

Answer 39

1. bilirubin
2. CO
3. iron

Question 40

unconjugated bilirubin (uBil) is transported in the blood, associated with albumin, to these cells where it is conjugated

Answer 40

hepatocytes

Question 41

uBil is conjugated with this to form conjugated bilirubin (cBil)

Answer 41

glucuronide

Question 42

conjugated bilirubin (cBil) is transported to the intestines with bile where it is degraded to this

Answer 42

urobilinogen

Question 43

urobilinogen can either be absorbed by the intestine and excreted in urine or through bile - or it can be degraded to this and excreted in feces

Answer 43

stercobilinogen

Question 44

this is the easiest and cheapest way to evaluate erythrocytes in blood; obtained by microcapillary tube centrifugation to measure the percentage of blood composed of RBCs

Answer 44

packed cell volume (PCV)

Question 45

this is often used interchangeably with PCV (packed cell volume) and is quite similar but is calculated by automated analyzers based upon average RBC size and number

Answer 45

hematocrit (Htc)

Question 46

as a rule of thumb, hemoglobin in mammals should e roughly this fraction of the hematocrit (Hct)

Answer 46

1/3

Question 47

a decrease in PCV, RBC, and Hb is termed this and could be due to RBC loss or lysis, or to decreased bone marrow production of RBCs

Answer 47

anaemia

Question 48

an increase in PCV, RBC, and Hb is termed this and is most frequently due to dehydration

Answer 48

erythrocytosis

Question 49

this is the average volume of erythrocytes

Answer 49

mean corpuscular volume (MCV)

Question 50

this means that the size of erythrocytes (the mean corpuscular volume-MCV) is within reference interval for the species

Answer 50

normocytic

Question 51

this means the size of erythrocytes is increased, so MCV is low

Answer 51

macrocytic

Question 52

this means the size of erythrocytes is decreased, so MCV is high

Answer 52

microcytic

Question 53

this means the size of erythrocytes is decreased, so MCV is low

Answer 53

microcytic

Question 54

this is the average concentration of RBC Hb on a weight per volume basis

Answer 54

mean corpuscular hemoglobin concentration (MCHC)

Question 55

this means the cell Hb content (color), or MCHC value, is within the reference interval for the species

Answer 55

normochromic

Question 56

this means the cell Hb (color) is decreases, so MCHC is low - reticulocytes have a slightly lower Hb content

Answer 56

MCHC

Question 57

what are the two main categories of leukocytes

Answer 57

granulocytes and mononuclear cells

Question 58

these are leukocytes with granules in their cytoplasm, the granules have different staining characteristics allowing them to be distinguished

Answer 58

granulocytes

Question 59

what is the other name used for granulocytes bc they have lobulated nucleus

Answer 59

polymorphonuclear cells

Question 60

what are the 3 types of granulocytes

Answer 60

neutrophils, eosinophils, basophils

Question 61

what are the two types of mononuclear cells

Answer 61

lymphocytes and monocytes

Question 62

what are the two most common leukocytes

Answer 62

neutrophils and lymphocytes

Question 63

where does the majority of leukopoiesis for granulocytes and monocytes occur

Answer 63

bone marrow

Question 64

where does the majority of leukopoiesis for lymphocytes occur

Answer 64

extra medullary sites (spleen, lymph nodes, GALT)

Question 65

what are leukocyte precursors (and all hematopoietic cells) derived from

Answer 65

stem cells

Question 66

what 3 major marrow pools are neutrophil precursors present in

Answer 66

1. mitotic pool
2. maturation pool
3. storage pool

Question 67

what is the mitotic pool in relation to where neutrophil precursors are present in the bone marrow

Answer 67

where cells divide while maturing

Question 68

what is the maturation pool in relation to where neutrophil precursors are present in the bone marrow

Answer 68

where cells continue maturation but have lost ability to multiply

Question 69

what is the storage pool in relation to where neutrophil precursors are present in the bone marrow

Answer 69

where mature neutrophils are stored

Question 70

this gives the total number of leukocytes

Answer 70

total white blood cell count

Question 71

what is it called if there is an increase in total WBCs

Answer 71

leukocytosis

Question 72

what is is called if there is a decrease in total WBCs

Answer 72

leukopenia

Question 73

this represents the differentiation of leukocytes in the 5 categories (neutrophils, eosinophils, basophils, lymphocytes, and monocytes)

Answer 73

differential count

Question 74

what are the 3 aspects that must be involved when evaluating the leukocytes in blood?

Answer 74

1. total white blood cell count
2. differential count
3. morphology

Question 75

when in the blood vessels, what are the two main pools neutrophils are present in

Answer 75

marginal pool and circulating pool

Question 76

these leukocytes’ nuclei have condensed dark purple chromatin that is segmented into lobes connected by filaments; cytoplasm is generally colorless and granules do not stain

Answer 76

neutrophils

Question 77

this is an immature neutrophil with a curved (C or S-shaped) nucleus

Answer 77

band neutrophil

Question 78

what does a “left shift” refer to in terms of circulating neutrophils

Answer 78

increase in circulating band neutrophils

Question 79

what is the presence of left shift (increase in circulating band neutrophils) indicative of?

Answer 79

inflammation or infection in the body

Question 80

what 4 things can represent toxic changes (morphological abnormalities of the cytoplasm) of neutrophils

Answer 80

1. increased cytoplasmic basophilia
2. Döhle bodies
3. foamy cytoplasm
4. toxic granules

Question 81

what are Döhle bodies (toxic change in neutrophil cytoplasm)

Answer 81

aggregates of rough ER

Question 82

what is an increase in the absolute numbers of neutrophils called

Answer 82

neutrophilia

Question 83

what are 3 common causes of neutrophilia

Answer 83

1. catecholamine-mediated stress
2. corticosteroid-induced
3. inflammation

Question 84

what is a decrease in the absolute numbers of neutrophils called

Answer 84

neutropenia

Question 85

what are 4 common causes of neutropenia

Answer 85

1. acute severe inflammation
2. endotoxemia
3. reduced neutrophil production in the marrow
4. increased peripheral destruction

Question 86

acute severe inflammation can lead to this, which is characterized by presence of an absolute number of immature neutrophils that exceeds the absolute number of segmented neutrophils

Answer 86

degenerative left shift

Question 87

these reproduced by some gram-negative bacteria and can cause a rapid shift of neutrophils from the circulating to the marginal pool in blood vessels by promoting adhesion to endothelial cells, leading to neutropenia

Answer 87

endotoxins

Question 88

these are sophisticated immune cells involved in both cellular and humoral immunity, arise from pluripotent stem cells that diverge at an early stage

Answer 88

lymphocytes

Question 89

where does lymphopoiesis mainly take place

Answer 89

peripheral lymphoid tissue

Question 90

what are the 3 types of lymphocytes

Answer 90

T lymphocytes, B lymphocytes, NK (natural killer) cells

Question 91

these leukocytes are small round cells with a round nucleus, dense chromatin, and a scant rim of clear to pale blue cytoplasm

Answer 91

lymphocytes

Question 92

these lymphocytes are larger with deeply basophilic (blue) cytoplasm and course (mature) chromatin patter; nuclei can appear convoluted; associated with immune response and are fairly common in young animals

Answer 92

reactive lymphocytes

Question 93

an increase in the absolute numbers of lymphocytes is called this

Answer 93

lymphocytosis

Question 94

name 5 causes of lymphocytosis

Answer 94

1. catecholamine-mediated stress
2. young animals
3. chronic inflammation
4. endocrine disorders
5. lymphoid neoplasia

Question 95

a decrease in the absolute numbers of lymphocytes is called this

Answer 95

lymphopenia

Question 96

name 3 causes of lymphopenia

Answer 96

1. corticosteroid-induced
2. acute inflammation
3. excess loss

Question 97

monocytes are produced here

Answer 97

bone marrow

Question 98

monocytes migrate to tissues where they differentiate into these two cells

Answer 98

macrophages and dendritic cells

Question 99

what are the 3 major functions of monocytes (& macrophages/dendritic cells)

Answer 99

1. phagocytosis
2. antigen presentation
3. immunomodulation

Question 100

these leukocytes have variably-shaped nuclei (rounded, bean-shaped, band-shaped or convoluted), chromatin is less dense compared to neutrophils, and moderate amount of blue-grey cytoplasm frequently containing variably-sized vacuoles

Answer 100

monocytes

Question 101

an increase in the absolute numbers of monocytes is called this

Answer 101

monocytosis

Question 102

what are 2 causes of monocytosis

Answer 102

1. inflammation
2. corticosteroid-mediated

Question 103

these leukocytes are primarily involved in the defense against parasites, and in allergic reactions

Answer 103

eosinophils

Question 104

these leukocytes have a segmented nucleus and orange/pink granules in the cytoplasm

Answer 104

eosinophils

Question 105

this is the process which forms a blood clot at areas of endothelial damage or vascular injury to stop bleeding and facilitate repair of the injured site

Answer 105

haemostasis

Question 106

primary hemostasis consists of these two phases

Answer 106

vascular phase and platelet phase

Question 107

what two components are involved with primary hemostasis

Answer 107

blood vessels and platelets

Question 108

these are small anucleated cytoplasmic fragments of megakaryocytes

Answer 108

platelets

Question 109

the main growth factor that regulates production of platelets is this

Answer 109

thrombopoietin (TPO)

Question 110

this is the main initial response following injury to a blood vessel to reduce and slow blood flow; it is caused by contraction of smooth muscle of the vessel wall due to local natural reflexes

Answer 110

vasoconstriction

Question 111

reduced blood flow allows these to accumulate at the site of injury in blood vessels

Answer 111

platelets

Question 112

the platelet phase of primary hemostasis consists of a series of processes that lead to the formation of this

Answer 112

platelet plug

Question 113

this is one of the main components involved in platelet adhesion; found in plasma and in the sub-endothelium

Answer 113

von Willebrand factor (vWF)

Question 114

what two things happen when platelets are activated

Answer 114

1. undergo a shape change
2. release their granular content

Question 115

name 2 anticoagulant factors synthesized by normal endothelial cells to prevent coagulation

Answer 115

nitric oxide (NO) and prostaglandin I2 (PGI2)

Question 116

coagulation factors during secondary hemostasis are mostly produced by this organ and circulate in the blood in their inactive forms

Answer 116

liver

Question 117

what element is required for nearly all the reactions in the coagulation cascade

Answer 117

calcium

Question 118

this is the final product of the coagulation cascade, which strengthens the platelet plug and stops further hemorrhage

Answer 118

cross-linked fibrin

Question 119

what are the two branches or pathways of the coagulation cascade

Answer 119

intrinsic and extrinsic coagulation pathways

Question 120

in vivo coagulation is mainly initiated by exposure of this, expressed on sub-endothelial cells such as fibroblasts and smooth muscle cells

Answer 120

tissue factor (TF)

Question 121

in this pathway of coagulation, small amount of thrombin amplifies its own production by activation of factor XI

Answer 121

intrinsic pathway

Question 122

this pathway of coagulation rapidly generates small amounts of thrombin

Answer 122

extrinsic pathway

Question 123

in this pathway of coagulation, there is generation of thrombin, which then cleaves circulating fibrinogen to generate fibrin monomers - activate factor XIII which catalyzes the formation of bonds between adjacent fibrin monomers to generate cross-linked fibrin

Answer 123

common pathway

Question 124

this is an important anticoagulant factor that is complexed with heparin molecules produced and associated with endothelial cells ; it is the major thrombin inhibitor

Answer 124

antithrombin (AT)

Question 125

this causes dissolution of the fibrin clot once the damaged blood vessel is repaired, which re-establishes normal vascular potency

Answer 125

fibrinolysis (tertiary hemostasis)

Question 126

fibrinolysis is mostly activated by this, which is released by damaged endothelial cells - it activates plasminogen to plasmin

Answer 126

tissue plasminogen activator (tPA)