RBC abnormalities/Hemoglobin disorders

Question 1

Main function of RBC??

Answer 1

transport hemoglobin

Question 2

What are the three classes of Anemia?

Answer 2

excessive blood loss
Excessive destruction
Deficient production

Question 3

What are common causes of excessive blood loss?

2

Answer 3

Ulcers
GI bleeds
Large intestine= colon cancer-slow
esophageal varices = most rapid blood loss from the GI tract

Question 4

What are common causes of excessive destruction of RBCs?

5

Answer 4

spleen(hemolytic anemias)-
sickle cell,
thalassemias,
autoimmune hemolytic anemia, membrane disorders,

Question 5

What are the three common causes of deficient production of RBCS?

Answer 5

Deficiency in Iron
B12
Folate

Question 6

What are the three types of morphologic classifications for anemia?

Answer 6

1. Microcytic hypochromic (iron def- less heme-not as colorful)
2. Normocytic normochromic- (anemia of chronic disease)
3. Macrocytic normochromic (b12 and folate)

Question 7

What are the three types of etiologic classifications for anemia?

Answer 7

Decreased production
Increased loss or destruction
Increased plasma volume (pregnancy)

Question 8

Types of polycythemia?

3

Answer 8

1. Primary polycythemia (Polycythemia vera-slow growing bone cancer that makes to many RBCs)
2. Secondary polycythemia- altitude
3. Benign erythrocytosis- regular amount of blood cells but decreased volume

Too many RBCs

Question 9

Someone comes in with signs and symptoms of anemia (SOB and Fatigued). How do we diagnose it?

Why does this help with our diagnosis?
6

Answer 9

CBC w/ diff and smear

Tells us:

1. number of RBCs
2. amount of hemoglobin along
3. size
4. Smear looks at morphology
5. First look at size, then kinetics (microcytic vs. macrocytic with MCV)
6. Reticulocyte (precursor of mature RBCs) count….looks at destruction vs. production problem
   - reticulocytes are normal or increases then its a destruction problem

Question 10

What stage does hemoglobin synthesis start in RBC growth?

Answer 10

early erythroblast stage

-during its transformation from normoblast to reticulocyte

Question 11

What color is a reticulocyte?

Answer 11

darker red

Question 12

What color is a normal erythrocyte?

Answer 12

yellowish red

Question 13

How long does it take for the stem cell to turn into a reticulocyte?

Answer 13

one week

Question 14

Maturation of reticulocyte to erythrocyte takes how long?

How much of the body’s total red blood cells is generated each day?

Answer 14

24-48 hrs

1%

Question 15

What is erythropoiesis governed by?

Answer 15

tissue oxygen needs

Question 16

What is oxygen content sensed by and what does it do to regulate the changes?

Answer 16

Oxygen content is sensed by the kidneys, which produce the hormone erythropoietin

Question 17

How does Erythropoietin act in the bone marrow?

Answer 17

by binding to receptors on committed stem cells

Question 18

What are epo’s three functions?

3

Answer 18

1. Promote hemoglobin synthesis, 2. increases membrane proteins, 3. causes differentiation of erythroblasts.

Question 19

Why is hemoglobin’s binding of carbon dioxide a good thing and also a bad thing?

Answer 19

hemoglobin also binds carbon dioxide which is a problem because its similar to carbon monoxide which binds extremely tightly blocking O2.

important that it bonds CO2 so it can get it out of your system

Question 20

When hemoglobin formation is defiecient what will happen to the cells?
2

Answer 20

iron deficiency for example.

1. percentage of hemoglobin in the cell may fall considerably and 2. the volume of the cell may decrease

Question 21

When pressure of oxygen is high (as inthe pulmonary capillaries) what does hemoglobin bind?

When pressure of oxygen is low (as in the systemic tissue) what does hemoglobin bind?

Answer 21

oxygen and releases CO2

CO2 and releases Oxygen

Question 22

What are all factors that affect hemoglobin function?

3

Answer 22

pH, Temp, and CO2 concentration

Question 23

What are some conditions that favor the unloading of oxygen?

Answer 23

chronic lung disease/hypoxic pts- COPD

Question 24

TEST QUESTION: Who binds to oxygen?

How many oxygen molcules does each hemoglobin carry?

Answer 24

iron, not heme

4

Question 25

What is a hemoglobin chain made of?

What kind of chains does our hemoglobin have?

Answer 25

Heme + polypeptide

2 alpha chains + 2 beta chains => Hemoglobin A molecule

Question 26

What kind of hemoglobin is found in fetuses?

Why do they have this?

When is this replaced?

Answer 26

hemoglobin F which is compased of 2 alpha and 2 gama chains

gamma instead of beta- has to have a higher affinity for oxygen-facilitates oxygen across the placenta

6 months replaced with hemoglobin A

Question 27

Where is most of our iron at?
80%

Where is the other 20%?

Where does iron come from?

Answer 27

complexed to heme in hemoglobin

20% is stored in the bone marrow, liver, spleen, and other organs

get iron from diet (meat, fish, beans and legumes, iron), store it in your cells, body will recycle them

Question 28

What is iron being transported through the blood called?

Answer 28

tranferrin

Transported in the plasma

Question 29

What is iron being stored called?

Where is it stored?

Answer 29

ferritin

liver

Question 30

Describe the breakdown and recycling of iron?

3

Answer 30

RBCs are destroyed in the spleen

iroin is released into circulation
and returns to bone marrow

for incorporation into new cells or stored in the liver

Question 31

What happens to the cell as it ages?

Where does this occur?

Answer 31

becomes more and more fragile and can rupture in tight spots in circulation.

In the spleen because the spaces in the red pulp are very small (trabecular network)

Question 32

What happens to the heme unit of the destroyed RBC?

Answer 32

bulk of heme is converted to bilirubin- removed from blood by liver to make it water soluable and excreted in the bile

Question 33

How is the hemoglbin group transported to the right location after the RBC is destroyed?

Answer 33

macrophages of the spleen and bone marrow and kupffer cells of the liver.

These macrophages slowly release iron from the hemoglobin where it is carried by transferrin to the bone marrow or liver

Question 34

What kind of bilirubin causes jaundice?

Answer 34

indirect, unconjugated and insoluable to plasma= jaundice

Question 35

What is Hemolytic Anemia?

Answer 35

premature destruction of red cells

Question 36

Two main types of hemoglobinopathies can cause red blood cell hemolysis. What are they?

Answer 36

1. Abnormal substitution of an amino acid in the hemoglobin molecule, as in sickle cell anemia
2. Defective synthesis of one of the polypeptide chains that form the globin portion of hemoglobin, as in the thalassemias

Question 37

Genetic pathology of sickle cell disease?

Answer 37

Results from point mutation in Beta chain of hemoglobin molecule, with abnormal substitution of a single amino acid, valine, for glutamic acid.

Question 38

How is sickle hemoglobin transmitted?

What are the two ways it can manifest?

Answer 38

recessive inheritance

Sickle cell trait (heterozygote with one HbS gene) or…
Sickle cell disease (homozygote with two HbS genes)

Question 39

Describe the pathophysiology of sickle cell anemia?

Answer 39

At low oxygen tension (really important to remember) HbS becomes sickled

—Sickling occurs as a result of the formation of elongated crystals inside the red blood cells (can be as long as 15 micrometers in length)

Question 40

Sickling causes two major problems. What are they?

Answer 40

1. Makes it almost impossible for the red blood cell to pass through many small capillaries
2. Spiked end of crystals rupture membranes, leading to sickle cell anemia

Question 41

What are the factors that lead to sickling?

5

Answer 41

Anything that may reduce affinity of hemoglobin for oxygen can cause sickling

1. Hypoxia from altitude and infection,
2. cold,
3. stress,
4. physical exertion, or
5. acidosis

Question 42

What can affected sickle cell pts suffer from/how does the disease manifest?
9

Answer 42

Affected patients can suffer from
1. Pain and organ failure due to vessel occlusion
2. Severe hemolytic anemia
3. Chronic hyperbilirubinemia (how might this manifest? jaundice)
4. Acute pain episodes can occur suddenly in almost any part of the body. Common sites include:
Abdomen, chest, bones, and joints
5. Infarction (lack of oxygen to tissue) may cause chronic damage to liver, spleen, heart, kidneys, retina, and other organs
6. Acute chest syndrome: atypical pneumonia resulting from pulmonary infarction
7. Painful bone crises from marrow infarcts of the bones of hands and feet with associated swelling
8. Stroke
9. Spleen damage

Question 43

What is the leading cause of death in sickle cell disease?

Answer 43

acute chest syndrome

Question 44

How do we diagnose and screen for sickle cell disease?

Answer 44

Prenatal diagnosis done by analysis of fetal DNA obtained by amniocentesis

Question 45

How do we manage sickle cell disease?

Answer 45

No cure

1. avoid situations that could cause sickling
2. Reduce symptoms
   - pain control
   - hydration
3. agressive treatment of infections (Even prohylactic use of penecillin until 5 yrs) and blood transfusion in chronic pts

Question 46

We can treat sickle cell disease with hydroxyurea. What does this do?

Answer 46

Hydroxyurea (a cytotoxic drug) allows synthesis of more Fetal hemoglobin HbF and less HbS, thereby decreasing sickling

Question 47

What is thalassemia caused by?

Answer 47

Cause by absent or defective synthesis of the alpha or the beta chains of adult hemoglobin

Question 48

What does alpha-thalassemia disease cause?

How about beta?

Answer 48

Impaired production of alpha globin chains, which leads to a relative excess of beta globin chains

Impaired production of beta globin chains, which leads to a variable excess of alpha globin chains.

Question 49

How will be heterozygous or homozygous for the disease affect presentation?

Answer 49

hertozygous and have moderate form of the disease

homozygous is severe form of disease

Question 50

Why does excess of either alpha or beta chain affect the function of the RBC?

Answer 50

imblance of chain production- wont carry oxygen well spleen eats it up
decrease production

Question 51

Another name for beta thalassemia?

Answer 51

Mediterranean anemia

Question 52

Alpha thalassemia is most common among what race?

Answer 52

Asians

Question 53

How does anemia occur in thalassemias?

3

Answer 53

1. Reduced hemoglobin synthesis
2. Imbalance in globin chain production leading to deficient hemoglobin synthesis
3. Manifests as hypochromic microcytic anemia (so what would you see with the mean corpuscular hemoglobin concentration [MCHC] and the mean corpuscular volume [MCV]?)
   SMALLER and PALE

Question 54

You would see bone aspirations in beta thalassemias. What is a sign of this?

Answer 54

heinz bodies

Question 55

What happens if only one alpha-globin gene is deleted in aplha thalassemia?

What about two?

What about three?

What about all four?

Answer 55

1. Silent carriers have a deletion of a single alpha-globin gene and are asymptomatic
2. Deletion of two genes (Alpha thalassemia trait)? Mild hemolytic anemia
3. Unstable aggregates of Beta chains (lots of em) called Hemoglobin H (HbH) => most persons with HbH have chronic moderate hemolytic anemia and may require transfusions in time of fever or illness or with certain medications
4. Hb Bart’s, which has extremely high oxygen affinity, cannot release oxygen in the tissues. This disorder usually results in death in utero or shortly after birth.

Question 56

Whats the difference in Beta thalassemia heterozygous and homozygous?

Answer 56

1. usually results in sufficient normal hemoglobin synthesis to prevent severe anemia
2. severe, transfusion-dependent anemia that is evident at 6-9 months of age

Question 57

Management of severe homozygous beta thalassemia?

3

Answer 57

Management includes frequent transfusions and iron chelation therapy; bone marrow transplantation is a potential cure

Question 58

What is the most prevelent form of thalassemia?

And what is it associated with?

Answer 58

Most prevalent form is Beta thalassemia trait/minor, which is associated with increased hemoglobin A2, increased HbF

Question 59

What is beta thalaseemia major associated with?

Answer 59

persistence of HbF

Question 60

What is alpha thalasseima associated with?

Answer 60

silent carrier state: normal HbA, no clinical manifestations

Question 61

The majority of the time a microcytic anemia will be caused by iron deficiency.
We do not typically order hemoglobin electrophoresis when working up a microcytic anemia, therefore, specific lab tests that help you to suspect a thalassemia
are what?
3

Answer 61

normal RDW,
a decreased RBC count, and
a normal Ferritin (best marker for iron)

Question 62

The combination of a normal RDW and a low MCV has what type of specificity and sensitivity for detecting thalassemia?

Answer 62

high specificity

low sensitivity

Question 63

A low MCV and an elevated RDW is more suggestive of what?

Answer 63

iron deficiency anemia

Question 64

What does gene G6PD do?

What would an inherited enzyme defect of G6PD cause?

Answer 64

protects red blood cells

make red blood cells vulnerable to oxidants and causes them to denature forming Heinz Bodies

Question 65

What medications should we avoid if we have G6PD deficiency?

6

Answer 65

1. Primaquine,
2. the sulfonamides,
3. Nitrofurantoin,
4. aspirin,
5. phenacetin and some
6. chemotherapeutics can cause hemolysis

Question 66

How would we diagnose inherited G6PD enzymes defect?

Answer 66

G6PD assay

Question 67

What is G6PD defiency characterized by?2

Answer 67

epidsodic anemia, G6PD deficiency, predominantly in males

Question 68

What does CO form when it binds to hemoglobin?

Answer 68

carboxyhemoglobin (COHb)

Question 69

What are the signs of carbon monoxide poisoning?

Answer 69

sleepy fatigue headache hazy
horrible headache in morning- gets better during the day

CNS toxicities, most of the symtppoms will present this way

Question 70

Where is lead stored and eliminated?

Answer 70

stored in bone and eliminated by the kidneys

Question 71

the half life of lead is hours to days so how does small amounts accumulated over time lead to toxicity?

Answer 71

bone deposits serve as a repository, or “sink,” from which blood levels are maintained
In a sense, bone protects other tissues, but the slow turnover maintains blood lead levels for months or years

Question 72

A deficiency of what will lead to an absorption of lead?

3

Answer 72

deficiency in calcium iron or zinc

Question 73

What does lead toxicity do to the body?

3

Answer 73

1. Inactivates enzymes
2. Competes with calcium for incorporation into the bone
3. Interferes with nerve transmission and brain development

Question 74

What are the 4 major targets of lead toxicity?

Answer 74

RBCs- check CBC
GI tract
Kidneys
Nervous system- long term problems

Question 75

What is the cardinal sign of lead toxicity?

Answer 75

anemia

-competes with enzymes required for hemoglobin synthesis

Question 76

The resulting RBCS in lead toxicity are described as what?

Answer 76

MICROCYTIC and HYPOCHROMIC (similar to iron deficiency anemia)
Decreased life expectancy too

Question 77

What is the hallmark sign of lead toxicity?

Answer 77

basophilic stippling!

Question 78

Where is the main source of symptoms in lead toxicity and what does it present as?

Answer 78

GI tract is the main source of symptoms
“Lead colic”
A severe and poorly localized form of acute abdominal pain

Question 79

What in the bones is a symptoms of lead poisoning?

Seen in two places in the body
2

Answer 79

Lead line”
May be seen at the

1. metaphysis in the long bones of growing children…caused by disrupted calcium metabolism

Formed by precipitated lead sulfite may appear along the

2. gingival margins…more often seen in adults

Question 80

Why is the kidney affected and what is an early sign of kidney failure due to lead toxicity?

Answer 80

Major route of excretion
Lead exposure can lead to renal failure
Hypertension may be an early sign

Question 81

Nervous system symptoms due to lead poisoning are characterized by what?

Answer 81

demyelination of cerebral and cerebellar white matter and death of cortical cells

Question 82

How can these neuro symptoms of lead poisining affect children?

Answer 82

Lower IQ

Poor classroom performance

Question 83

Whats the most serious symptom of lead poisening?

Signs of this symptom occuring?
6

Answer 83

Acute encephalopathymay present suddenly, or be preceded by behavioral changes or abdominal complaints

Persistent vomiting
Ataxia
Seizures
Papilledema
Impaired consciousness
Coma

Question 84

What is a high lead level?

Answer 84

5ug/dL

Question 85

How does lead cause elevated levels of free erythrocyte protoporphyrin (EP)?

Answer 85

result from the inhibition by lead of the enzymes required for heme synthesis in RBCs

Question 86

How would we treat lead poisoning?

3

Answer 86

1st: Remove the lead source!
2nd: Chelating agents (bind and excrete)-for severe toxicity
3rd: Asymptomatic children with blood lead levels of 45-69 ug/dL usually are treated
- D-penicillamine
- Succimer
- Dimercaprol
- Edetate disodium calcium

Question 87

How does acidosis cause anemia?

Answer 87

reduces the affinity of hemoglobin for oxygen

Question 88

What laboratory tests woudl we do for acidosis?

6

Answer 88

1. RBC count: total number
2. % of Reticulocytes: rate of production
3. Hemoglobin: grams of HgB per 100 mL of blood
4. Hematocrit: volume of red cell mass in 100 mL of plasma volume
5. MCV: volume or size
6. MCHC: concentration of hemoglobin in each cell (color)

Question 89

What is normochromic anemia?

What kind of anemias does this encompass?
4

Answer 89

Concentration of hemoglobin in the cell is in the normal range
However, there are not enough red blood cells

1. aplastic,
2. post-hemorrhagic,
3. hemolytic anemias, and
4. anemia of chronic disease

Question 90

What is the most frequent type of anemia?

Answer 90

Normocytic Anemia

Question 91

What is Normocytic Anemia?

What does the pathology of this lead to?
5

Answer 91

MCV is in normal range
Hematocrit and Hemoglobin are decreased

Decreased production of rbcs
Increased production of HgS
Increased destruction
Increase in plasma volume
B2 and B6 deficiency

Question 92

What is hypochromic anemia?

What kind of anemias are associated with this?
2

Answer 92

1. Red blood cells are pale
   - -Increased central pallor
   - -HgB is what adds the red pigment
   - -Red Blood Cells are also usually small

Fe deficient Anemia and Thallasemia

Question 93

What is Microcytic Anemia?

What kind of anemias are associated with this?

Answer 93

Small Red Blood Cells
MCV Decreased
Also, MCHC, because usually goes with hypochromic

Fe deficiency and Thallasemia

Question 94

What is macrocytic anemia?

What kind of anemias is this seen in?3

Answer 94

Red Blood Cells are large
Hemoglobin also down
Folate, B12, Codocytes (target cells)

Question 95

What is anisocytosis?

And what kind of anemia is this seen in?

Answer 95

RBCs are of unequal size
RDW - high
FE DEFICIENCY ANEMIA AND THALLASEMIA

Question 96

What is Poikilocytosis?

What kind of anemia is this seen in?
2

Answer 96

Abnormal shaped RBCs
Flattened disks that are thinner in the middle than at the edges
Abnormal if make up >10%

Membrane abnormalities and trauma