Hematology

Question 1

Hematology

Answer 1

-the study of blood and blood-forming elements

Question 2

Blood: facts

Answer 2

-4-6 liters
-approx. 7-8 % of your body weight

Question 3

Red blood cells: facts

Answer 3

-approx. 97 % of the formed elements in blood
-erythrocytes: RBCs

Question 4

Hematology and its branches

Answer 4

-flow cytometry
-coagulation
-urinalysis
-body fluids
-CBC plus differential

Question 5

Flow cytometry

Answer 5

-used to analyze individual cells for the presence of antigens
-Count cells with a particular immunophenotype
-This is a specialized lab

Question 6

coagulation

Answer 6

-Think of hemostasis on a scale, if it is tipped in one direction bleeding occurs. If it is tipped in the other direction, thrombosis occurs
-Normal hemostasis is both rapid and localized

Question 7

urinalysis

Answer 7

-is used to detect and manage a wide range of disorders, such as urinary tract infections, kidney disease, and diabetes

Question 8

body fluids

Answer 8

-can indicate localized infections or systemic conditions depending on cellular quantities and distributions

Question 9

CBC and Differential

Answer 9

-complete blood count/differential
-the most common hematology test
-a panel consisting of WBC, RBC, Hgb, HCT, MCH, MCHC, MCV, RDW, PLT, Retic, and Differential

Question 10

What test do you run using a lavender tube?

Answer 10

-flow cytometry
-CBC/D
- body fluids
-contains EDTA

Question 11

What test do you run using a light blue tube?

Answer 11

-coagulation
-contains sodium citrate

Question 12

What test do you run in a syringe?

Answer 12

body fluids

Question 12

What test do you run in a sterile cup?

Answer 12

-urinalysis
-body fluids

Question 13

Circulating blood is divided into

Answer 13

45% cells (RBC, WBC, platelets)
55% plasma

Question 14

Hematopoiesis

Answer 14

-blood cell production, hematopoiesis begins in embryonic development, progresses to the fetal liver, and later occurs in the red bone marrow
-CD34+ pluripotent stem cells give rise to the earliest myeloid and lymphoid precursors

Question 15

Hemoglobulin molecules

Answer 15

-heme mostly consists of one protoporphyrin ring (4 pyrrole rings are joined to each other with a single iron atom)
-a complete hemoglobulin molecule contains 4 heme groups
-an adult hemoglobin (A) consists of four heme groups and four globulin chains-two alpha chains and two beta chains

Question 16

Hemoglobin S

Answer 16

-Sickle cell trait will have hemoglobin S and A
-When Glu in an amino acid sequence is substituted with val it becomes a hemoglobin A
-Hemoglobin S is not soluble while A is soluble

Question 17

Mean corpuscular volume

Answer 17

MCV (fL) = Hct *10/ RBC
-where MCV is the mean corpuscular volume, Hct is the hematocrit, and RBC is red blood cell count
-The reference range is 80-96 fL

Question 18

Mean corpuscular hemoglobin

Answer 18

MCH (pg) = Hb *10/ RBC
-where Hb is hemoglobin
-reference range is 27-33 pg

Question 19

Mean corpuscular concentration

Answer 19

MCHC (g/dL) = MCH/MCV *100
-The reference range is 33-36 g/dL

Question 20

Red cell distribution width

Answer 20

-is a measurement of the degree of anisocytosis present, or the degree of variability in RBC size, in a blood specimen
RDW % = Standard deviation of MCV/ Mean MCV *100
-reference range is 11%-15%

Question 21

Anisocytosis

Answer 21

-any significant variation in size
-corresponds to an RDW > 14.5 increased
-can be found in leukemia, anemias, dysplasias

Question 22

normal erythrocytes

Answer 22

-biconcave disc
-MCV: 80-100 dL
-MCH: 28-34 pg
-MCHC: 32-36%
-Lifespan: 120 days
- 7-8 um

Question 23

Macrocytes

Answer 23

-Larger than normal RBCs (MCV>100)
-associated with B12 or folate deficiencies

Question 24

Microcytes

Answer 24

-smaller than normal RBCs (MCV <80)
-associated with iron deficiency, thalassemia, and lead poisoning

Question 25

Hypochromic

Answer 25

-central pallor > 2/3rd of the cell
-less than normal amount of Hgb (MCHC <32)
-associated with iron deficiency

Question 26

Hyperchromic

Answer 26

-RBCs with decreased or absent central pallor (slightly elevated MCHC)
- associated with hemolytic anemias, burns

Question 27

polychromasia (reticulocytes)

Answer 27

-premature RBC that contain residual RNA
-blue-gray in color

Question 28

poikilocytosis

Answer 28

-general term used to describe variation in RBC shape

Question 29

target cells (codocytes)

Answer 29

-associated with hemoglobinopathies, thalassemias, IDA, and liver disease

Question 30

spherocytes

Answer 30

-decreased surface: volume ratio resulting in no central pallor
-associated with hereditary spherocytosis, autoimmune hemolytic anemia, severe burns

Question 31

stomatocytes

Answer 31

-can be an artificial or artifact of chemical reagents, commonly an artifact of albumin
-associated with hereditary stomatocytosis (rare)

Question 32

ovalocytes

Answer 32

-egg-shaped, vary in Hgb content
- often in conjunction with macrocytes (macroovalocytes)
-associated with myelodysplastic syndromes (MDS). B12, or folate deficiencies

Question 33

elliptocytes

Answer 33

-lack of central pallor
-associated with hereditary elliptocytosis, iron deficiency, and idiopathic myelofibrosis

Question 34

Burr Cells (Echinocytes)

Answer 34

-many small undulations evenly space around the RBC surface
-often an artifact of contamination
-associated with uremia, peptic ulcers, heparin therapy, liver disease

Question 35

Acanthocytes (spur cells)

Answer 35

-often hyperchromic
-few (3-5) blunt spicules of uneven length
-associated with congenital abetalipoproteinemia or acquired with severe hepatic disease

Question 36

teardrop (dacrocytes)

Answer 36

-associated with idiopathic myelofibrosis can be seen in thalassemia, iron deficiency, and in any disorder with RBC inclusions

Question 37

Schistocytes (fragments/ bite cells)

Answer 37

-results of trauma to the RBC membrane

Question 38

Sickle cells (drepanoncytes)

Answer 38

-triggered by low O2 tension
-Pt can be homozygous or heterozygous for Hgb S
-Dense elliptocytes are often in conjunction with SS

Question 39

Nucleated RBCs (NRBCs)

Answer 39

-immature RBC that has not yet ejected the nucleus
-normal finding for bone marrow, abnormal in peripheral blood
-indicates extreme RBC regeneration or myeloproliferative disorder

Question 40

Howell-Jolly Bodies

Answer 40

-DNA remnants
-can be associated with absent or non-functioning spleen

Question 41

Basophilic stipling

Answer 41

-RNA and mitochondrial remnants
-can be found in any condition with defective or accelerated heme synthesis: alcoholism, thalassemias, megaloblastic anemias, and lead poisoning

Question 42

Pappenheimer bodies (Siderotic granules)

Answer 42

-composed of non-heme iron, resulting from excess iron in the body
-small irregular inclusions along the periphery of RBCs and usually appear in clusters
-Wright stain - pappenheimer bodies
Prussian blue stain - siderotic granules

Question 43

Heinz bodies

Answer 43

-denatured or precipitated Hgb
-cannot be seen on wrights stain (only via crystal violet or brilliant cresyl blue)
-associated with thalassemia, G6PD, or RBC injury due to chemicals

Question 44

Cabot rings

Answer 44

-rare
-may be found in megaloblastic anemias, erythropoiesis and homozygous thalassemia

Question 45

RBC inclusions

Answer 45

-Hemoglobin CC crystals (bars of gold)
-Hemoglobin SC crystals (SC Crystals)

Question 46

Protozoan inclusions

Answer 46

-malaria
-babesia

Question 47

water artifacts

Answer 47

-non-pathological
-slide was not completely dry when staining

Question 48

albuminized slides (artifacts)

Answer 48

-stomatocytes
-Never do RBC morphology on an albuminized slide

Question 49

stain precipitation (artifacts)

Answer 49

-appears as dark granules on top of and next to RBCs
-can mimic bacteria

Question 50

Anemia

Answer 50

-not a specific disease, but a condition in which there is a decrease in the competence of blood to carry oxygen to tissues, thereby causing tissue hypoxia.
-in clinical medicine refers to a decrease in the normal concentration of hemoglobin and or erythrocytes

Question 51

Anemia symptoms

Answer 51

-fatigue, shortness of breath, faintness, heart palpitation, headache
-severity depends on the hemoglobin concentration

Question 52

laboratory diagnostic criteria for anemia include

Answer 52

-decreased HGB
-decreased HCT
-decreased RBC
-erythrocyte indices used in morphological classification of anemia

Question 53

reticulocyte count

Answer 53

indicates the degree of effective bone marrow erythropoietic activity and is one of the most useful lab tests in monitoring anemia in response to therapy

Question 54

How can anemia be classified?

Answer 54

-according to either the appearance of the RBCs (morphologic classification) or the physiologic cause of anemia (etiology or pathogenic)

Question 55

Microcytic hypochromic

Answer 55

-associated with defective Hgb synthesis. Serum Iron studies and Hgb electrophoresis are usually adequate tests