HEMA

Question 1

Factor of hemophilia A

A. VIII
B. VI
C. X
D. XI

Answer 1

A. VIII

Question 2

Total white cell count is the estimate of the total number of WBC’s in

A. Cubic millimeter
B. Cubic micrometer
C. Millimeter
D. None

Answer 2

A. Cubic millimeter

Question 3

According to Landsteiner, when a specific antigen is present on blood cells, the corresponding antibody

A. Is absent from the serum
B. Is present in the blood cells
C. Is present in the serum
D. May or may not be present depending on the agglutinogens present

Answer 3

A. Is absent from the serum

Question 4

Strong Antigen:

A. Vitamin
B. Carbohydrate
C. Protein
D. Glycoprotein

Answer 4

Protein

Question 5

Storage Temperature of platelets

A. 37C
B. 35-40C
C. 22-27C
D. -4C

Answer 5

22-27C

Question 6

High total count is termed as

A. Leukopenia
B. Leukocytosis
C. Hypercytosis
D. Hypocytosis

Answer 6

Leukocytosis

Question 7

What is the minimum number of bone marrow blast needed for the diagnosis of acute leukemia?

A. 29%
B. 50%
C. 5%
D. 30%

Answer 7

30%

Question 8

Which of the following Fisher-Race phenotypes is the same as Rz

A. Dce
B. DCe
C. DcE
D. DCE

Answer 8

DCE

capital R correlates to capital D
z correlates to capital C and E

Question 9

Insufficient centrifuge will result in:

A. A false increase in hematocrit (Hct) value
B. A false decrease in Hct value
C. No effect on Hct value
D. All of these options, depending in the patient

Answer 9

A false increase in hematocrit (Hct) value

insufficient centrifugation does not pack down the red blood cells; therefore, the Hct which is the volume of packed cells, will increase

Question 10

what is the normal WBC differential lymphocyte percentage (range) in the adult population?

A. 5-10%
B. 10-20%
C. 20-44%
D. 50-70%

Answer 10

20-44%

Question 11

The general blood donor is

A. A blood group
B. B blood group
C. O blood group
D. AB blood group

Answer 11

O blood group

Question 12

To what extent changes of hemoglobin in a day said to be normal?

A. 1.5 gm/dl
B. 2.5 gm/dl
C. 3 gm/dl
D. 3.5 gm/dl

Answer 12

1.5 gm/dl

Question 13

Myeloid leukemia is

A. High Leukocyte
B. Low Leukocyte
C. Normal Leukocyte

Answer 13

High Leukocyte

Question 14

The battlement scan pattern is employed in an eye-count differential examination of wedge blood film because:

A. Small lymphocytes will be concentrated in the feather edge
B. Large leukocytes occur more frequently in the feather edge
C. Eosinophils occur more frequently in the center of the film.
D. Leukocytes are distributed evenly throughout the film.

Answer 14

Eosinophils occur more frequently in the center of the film.

Question 15

Pelger-Huet anomaly is neutrophil characterized by

A. Hyposegmented
B. Hypersegement
C. Toxic granules
D. All

Answer 15

Hyposegmented

Question 16

Prolonged bleeding time commonly occurs in

A. Damage to vascular endothelium
B. Defect platelets function
C. Reduction Platelet number
D. Disorder of blood coagulation
E. All

Answer 16

All

Question 17

Hb range in adult

A. 13.5-17.5 gm/dl
B. 12-16 gm/dl
C. 13.5-17.5 mg/dl
D. 11-15 gm/dl

Answer 17

13.5-17.5 gm/dl

Question 18

The principle involved in some automated blood cell counters is based on the

A. Value of the cell indices
B. Weight of the hemoglobin in the red cell
C. Size of the particle being counted
D. Amount of hemoglobin in the red cell

Answer 18

Size of the particle being counted

Question 19

The following are index sensitive and will measure iron deficiency anemia:

A. Transferrin
B. Ferritin
C. TIBC
D. Hb Concentration
E. All of the above

Answer 19

All of the above

Question 20

The person should not have donated blood within the previous

A. 3 months
B. 5 months
C. 2 months
D. 1 year

Answer 20

3 months

Question 21

Which is the major Hgb found in the RBCs of patients with sickle cell trait?

A. Hgb S
B. Hgb F
C. Hgb A2
D. Hgb A

Answer 21

Hgb A

Question 22

Anti-Lea can react with:

A. Le (a+b+) cells
B. Le (a-b-) cells
C. Le (a+b-) cells
D. Le (a-b+) cells

Answer 22

Le (a+b+) cells
Le (a+b-) cells

Question 23

A 7.0ml ethylenediaminetetraacetic acid (EDTA) tube is received in the laboratory containing only 2.0 ml of blood. If the laboratory is using manual techniques, which of the following tests will most likely be erroneous?

A. RBC count
B. Hemoglobin (Hgb)
C. Hct
D. WBC count

Answer 23

Hct

excessive anticoagulant causes shrinkage of cells, thus the Hct will be affected RBC and WBC counts remain the same as does the Hgb content.

Question 24

The following index sensitive and will measure the total of iron deficiency anemia

A. Transferrin
B. Ferritin
C. TIBC
D. Hb electrophoresis
E. All of the above

Answer 24

All of the above

Question 25

Diluting fluid for Manual platelet count

Answer 25

1% ammonium oxalate

Question 26

What is the effect of prolonged tourniquet application to the level of VWF in the specimen?

Answer 26

False increase

Question 27

The megakaryocyte progenitor that undergoes endomitosis is

A. MK-I
B. BFU-Meg
C. CFU-Meg
D. LD-CFU-Meg

Answer 27

LD-CFU-Meg

Both A and D performs endomitosis LD-CFU-Meg is a progenitor while MK-I is a precursor

Question 28

Cellular Unltrastructural component unique to the platelet.
Absorb albumin, fibrinogen, and other plasma protein through endocytosis

Answer 28

Glycocalyx

Question 29

PAR 1 and 4 receptor
Activates what ligand?

Answer 29

Thrombin

Question 30

Protein that form MICROTUBULES

Answer 30

Tubulin

Question 31

Protein form MICROFILAMENTS

Answer 31

Actin

Question 32

Which of the following platelet granules contain coagulation factors?

A. Alpha
B. Dense
C. Lysosome
D. Nota

Answer 32

ALPHA GRANULES

Question 33

Which of the eosinophil granules contain cyclooxygenase?

Answer 33

Lipid bodies

Question 34

Other name of ASPIRIN

Answer 34

Acetylsalicylic acid

Question 35

Ideal length of blood smear (wedge method)

Answer 35

2/3 to 3/4

Question 36

Process of replacing red marrow by yellow marrow during development?

Answer 36

RETROGRESSION

Question 37

M:E ratio

Answer 37

1.5:1 to. 3.3:1

Question 38

Leukemia M:E ratio

Answer 38

10:1

Question 39

Total mass of RBCs circulating in the peripheral blood and the bone marrow RBC precursors

Answer 39

Erythron

Question 40

Erythrocytes in the circulation

Answer 40

RBC mass

Question 41

A term that describes the dynamics of RBC creation and destruction

Answer 41

Erythrokinetics

Question 42

Immature Hematopoietic cell that is committed to a cell line but CANNOT be identified morphologically?

Answer 42

Progenitor cells

Question 43

Immature Hematopoietic cell that is morphologically INDENTIFIABLE as belonging to a given cell line

Answer 43

PRECURSOR CELLS

Question 44

earliest marker of eryrhroid differentiation; transferrin receptor

Answer 44

CD71

Question 45

How many days for the BFU-E to mature to an erythrocyte?

Answer 45

18-21 days

BFU-E to CFU-E : 1week
CFU-E to Rybriblast : 1 week

Question 46

Last stage with a NUCLEOLUS
First stage of HEMOGLOBIN SYNTHESIS

absence of nucleuli
Gives rise to 4 rubricyte

Answer 46

Prorubricyte (basophilic normoblast)

Question 47

Last stage capable of MITOSIS
first stage in which the cytoplasm becomes PINK

Gives rise to 2 metarubricyte
Checkerboard
Muddy or gray color

Answer 47

Rubricyte / Polychromatic normoblast

Question 48

Nucleus is extruded at this stage, and the cells becomes a reticulocyte.

Nucleus: pyknotic (dense mass of degenerated chromatin)

Cytoplasm: salmon-pink

Last stage with a NUCLEUS

Answer 48

Metarubricyte / Orthochromatic normoblast

Question 49

Last stage of HEMOGLOBIN SYNTHESIS
Spends 2 to 3 days in the bone marrow and 1 day in the peripheral blood before developing into a mature RBC.
Cytoplasm: Salmon pink

Answer 49

RETICULOCYTE

Question 50

Anion transporter, supports ABH antigens

Answer 50

Band 3

Question 51

Glucose transporter, supports ABH antigen

Answer 51

GLUT-1

Question 52

Primary cytoskeletal proteins

Answer 52

Alpha spectrin
Beta spectrin

Question 53

Increase MCHC (35 & 38)
Autosomal Dominant

Defect in protein that disturbs vertical membrane interaction between transmembrane protein and underlying cytoskeleton; loss of membrane and decreased surface area to volume ration

Answer 53

Hereditary Spherocytosis

Question 54

A flow cytomertry based test
Most sensitive and specific test to confirm the diagnosis of hereditary spherocytosis

Answer 54

Ema Binding test

Question 55

Glucose penetrates the red blood cell with no energy expenditure via GLUT-1 (a transmembrane protein)

Produce 2 molecule of ATP

Answer 55

Embden-Meyerhof Pathway

Question 56

Most common enzyme deficiency of the EMP and is the most common form of hereditary nonspherocytic hemolytic anemia

Has ACANTHOCYTES, BURR CELLS

Answer 56

Pyruvate kinase deficiency

Pk fluorescent spot tets - recommended screening test
AUTOHEMOLYSIS - screening
QUANTITATIVE PK ASSAY - Confirmatory

Question 57

Most common enzyme deficiency in the pentose Phosphate pathway and is also the most common RBC enzyme defect (prevalence of 5% of the global population, or approximately 400 M people worldwide)
PBS: HEINZ BODIES, BITE CELLS

Answer 57

Glucose 6 Phosphate dehydrogenase

G6PD FLUORESCENT SPOT TEST - recommended screening
AUTOHEMOLYSIS - screening
QUANTITATIVE G6PD ASSAY - Confirmatory

Question 58

Severe, episodic acute hemolytic anemia associated with infections, certain drugs and fava beans; not self-limited and may require transfusion during hemolytic episodes

Favism
G6PD Mediterranean variat

Answer 58

G6PD TYPE II

Question 59

Prevent the denaturation of the GLOBIN by oxidation
Functionally dependent on G6PD

Answer 59

Hexose Monophosphate shunt

Question 60

Maintains iron in the HEME in it’s reduced state (ferrous)

Answer 60

Methemoglobin reductase pathway

Question 61

Increase PH
Decrease PCO2
Decrease 2,3 BPG
Decrease TEMP
Increase O2 AFFINITY

Answer 61

Shift to the left

Question 62

Decrease PH
Increase PCO2
Increase 2,3 BPG
Increase TEMP
Decrease O2 AFFINITY

Answer 62

Shift to the right

Question 63

RBC with slit like central pallor

Rh Deficiency Syndrome, alcoholism,
Electrolyte imbalance,
Dehydrated hereditary, syomatocytosis (a. k. a. Hereditary Xerocytosis), overhydrated hereditary

Answer 63

Stomatocyte / Mouth cell

Question 64

Abetalipoproteinemia (a.k.a. Bassen-Kornzweig syndrome & Hereditary Acanthocutosis)
McLeod syndrome
Pyruvate kinase deficiency
Hepatic hemangioma
Neonatal hepatitis
After heparin administration
Postspkenectomy
Cirrhosis

RBCs with irregular spiculated surface

Answer 64

ACANTHOCYTES
Thorn cell
Spur cell

Question 65

RBCs with regularly spiculated surface
Uremia
Pyruvate kinase deficiency

Answer 65

BURR cell
Echinocyte

Question 66

Pear-shaped or teardrop shaped RBCs

Primary Myelofibrosis (a.k.a. Myelofibrosis with myeloid metaplasia)
Megaloblastic anemia,
Thalassemia,

Answer 66

Dacrayocyte
Teardrop cells

Question 67

Fragmented RBCs

Patient with artificial heart valves, Uremia, severe burns, MAHAs

Answer 67

Schistocyte / Schizocyte

Question 68

Two forms of drepanocytes

1. Cresent shaped, with long projections, when reoxygenated they fragment
2. Have less pronounced projections, when reoxygenated they return to the original, biconcave disk shape

Answer 68

1. Irreversible sickle cell
2. Oat shaped cells