Red Blood Cells

Question 1

Describe an erythrocyte (RBC)

Answer 1

most numerous blood cell, small, biconcave, easily deforms, contains oxygen carrying hemoglobin

Question 2

Where are RBC produced and what is their life span?

Answer 2

myeloid or bone marrow stem cells, live for 120 days

Question 3

What are the 3 general causes of anemia?

Answer 3

excessive blood loss, excessive destruction of rbc’s and deficient production.

Question 4

What is a reticulocyte and how does it look on a smear?

Answer 4

It’s a premature RBC and is larger and contains a blue staining nucleus

Question 5

How long does it take for RBC to develop from stem cell to reticulocyte?

Answer 5

1 week

Question 6

How long for reticulocyte to mature?

Answer 6

24-48hrs

Question 7

Where is oxygen sensed and what hormone stimulates RBC production?

Answer 7

sensed in the kidneys 90% and liver 10%, erythropoietin

Question 8

What is erythropoiesis?

Answer 8

RBC production

Question 9

What governs erythropoiesis?

Answer 9

tissue oxygen needs, anything that decreases oxygen transported in the blood will stimulate RBC production

Question 10

What causes loading and unloading of O2 on hemoglobin?

Answer 10

when the pressure of O2 is high(lungs), O2 binds to hemoglobin, when the pressure is low (capillaries) the O2 unloads

Question 11

How does erythropoietin act on the bone marrow?

Answer 11

Binds to receptors on committed stem cells to promote maturation, promotes hemoglobin synthesis, increases membrane proteins

Question 12

What does an iron deficiency do to RBC production?

Answer 12

hemoglobin production is deficient, percentage of hemoglobin in the cells falls and the volume of the rbc decreases, smaller cells microcytic.

Question 13

How many polypeptide chains are in one hemoglobin and what 2 types are there?

Answer 13

4 chains, 2 each of Beta and Alpha chains (called hemoglobin A)

Question 14

Where and in what % is iron distributed in the body?

Answer 14

80% in the heme complex of hemoglobin in the blood, 20% stored in the bone marrow, liver, spleen and other organs

Question 15

What is the carrier for Iron in the plasma?

Answer 15

Transferrin

Question 16

How is Iron stored in the liver?

Answer 16

on ferritin

Question 17

How is the Iron of dead RBC recycled?

Answer 17

The hemoglobin is phagocytized by macrophages and the iron is released back into the blood stream where it is carried by transferrin to the bone marrow for use in new RBC or to the liver for storage on ferritin

Question 18

What is another by-product of macrophages recycling hemoglobin?

Answer 18

bilirubin

Question 19

How many molecules of Iron are on a hemoglobin?

Answer 19

4, 1 on each chain

Question 20

What is hemolytic anemia?

Answer 20

premature destruction of RBC’s

Question 21

What are the two general hemoglobinopathies that can cause RBC hemolysis?

Answer 21

1. Abnormal substitution of an amino acid in the hemoglobin molecule (sickle cell anemia)
2. Defective synthesis of one of the polypeptide chains that form globin (Thalassemias)

Question 22

Describe sickle cell trait vs sickle cell disease

Answer 22

trait is heterozygote (40-45% of hemoglobin affected)-virtually asymptomatic. disease is homozygote (80-95% of hemoglobin affected)

Question 23

Describe the pathophysiology of sickle cell disease`

Answer 23

At low O2 HbS becomes sickled, there’s a formation of elongated crystals inside the rbc, rbc can’t pass through small capillaries, and spiked ends of crystals rupture membranes

Question 24

Where do old RBC self destruct?

Answer 24

In the spleen by passing through small spaces that split the cells.

Question 25

How sickle cell manifested?

Answer 25

severe hemolytic anemia, chronic hyperbilirubinemia, acute pain episodes, infarction, atypical pneumonia from pulmonary infarction, bone crises from marrow infarcts and swelling, neurologic complications, and organ failure from vessel occlusion (spleen very susceptible)

Question 26

What increases sickling?

Answer 26

Anything that reduces the affinity of hemoglobin to oxygen (hypoxia, cold, stress, exertion, acidosis)

Question 27

How do you manage sickle cell disease?

Answer 27

No cure, avoid hypoxia, pain control, hydration, control infections, blood transfusions in crises. For children prophylactic antibiotic (Penicillin) from 2mo-5yo and vaccinations

Question 28

What are thalassemias?

Answer 28

inherited disorders of hemoglobin synthesis from defective synthesis of the alpha or beta chains of adult hemoglobin

Question 29

What affect does spleen damage have on the patient?

Answer 29

predisposed to life-threatening infections by encapsulated organisims (strep, pneumoniae, HIB, klebsiella)

Question 30

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

Answer 30

Acute chest syndrome-sickling causes pulmonary vessel occlusion-pulmonary infarction-pneumonia-sob, fever, cp, cough-respiratory insufficiency with hypoxia

Question 31

What are the two types of thalassemia?

Answer 31

either impaired alpha or beta chain production, excess of the other one, overall reduced hemoglobin production

Question 32

What population is beta type thalassemia most common in?

Answer 32

Mediterranean descent

Question 33

What population have higher prevalence of both types of thalassemia?

Answer 33

African descent

Question 34

What will a peripheral smear of thalassemia look like and what are expected MCHC/MCV results?

Answer 34

hypochomic microcytic anemia. MCHC-measures color-will be lower (hypochromic). MCV-size of RBC-will be smaller (microcytic)

Question 35

What does beta thalassemia cause build up of?

Answer 35

Heinz bodies is the bone marrow (excess alpha chains)

Question 36

What are the different levels of alpha thalassemia?

Answer 36

1-chain coding gene deleted-asymptomatic
2-mild hemolytic anemia
3-chronic moderate hemolytic anemia
4-Hb Bart’s-death in utero or after birth

Question 37

What are the levels of beta thalassemias?

Answer 37

heterozygous-usually enough hemoglobin to prevent severe anemia. homozygous-transfusion dependent anemia evident at 6-9 months

Question 38

What are the complications of beta thalassemias?

Answer 38

severe growth retardation if not treated early due to increased hematopoiesis-bone marrow expansion that impairs bone growth and causes abnormalitites. spenomegaly, iron overload. manage with frequent transfusions and iron chelation therapy to remove iron. bone marrow transplant is potential cure

Question 39

What is the most prevalent thalassemia?

Answer 39

beta thalassemia trait minor

Question 40

What does the red cell distribution width (RDW) tell us?

Answer 40

it’s the dispersion of values about the mean, the greater the number the larger variation in cell sizes.
you can have a normal RDW and still have abnormal sized RBC, (all larger or all smaller, small variance)

Question 41

What does mean corpuscular volume (MCV) tell us?

Answer 41

the average size of the RBC’s

Question 42

What is deficiency of G6PD?

Answer 42

an inherited enzyme RBC defect. RBC’s are vulnerable to oxidants and denature easily forming Heinz bodies. hemolysis occurs as RBC’s move through the spleen

Question 43

How does carbon monoxide cause problems?

Answer 43

CO binds to hemoglobin with much greater affinity than O2 forming COHb resulting in impaired oxygen transport

Question 44

What happens to lead when it enters the body?

Answer 44

it is stored in the bone and eliminated by the kidneys.

Question 45

What problems does lead cause?

Answer 45

inactivated enzymes, competes with calcium for incorporation into the bone, interferes with nerve transmission and brain development.

Question 46

What are the major targets of lead toxicity?

Answer 46

RBC’s, GI tract, Kidneys, Nervous system

Question 47

How does lead cause anemia?

Answer 47

competes with enzymes required for hemoglobin synthesis and iron recycling. Resulting RBC’s are microcytic and hypochromic similar to iron defficiency. Basophil strippling-dots on basophils, decreases RBC lifespan

Question 48

What are lead poisoning symptoms/signs?

Answer 48

acute abdominal pain, lead lines on bones, diffuse kidney damage, Burton’s line (dark line on teeth), nervous system effects (lower IQ, poor school performance)

Question 49

What is the most severe acute manifestation of lead poisoning?

Answer 49

acute encephalopathy-persistent vomiting, ataxia, seizures, papilledema, impaired consciousness, coma

Question 50

What is the criteria for lead poisoning on a screening?

Answer 50

> 5ug/dL is considered positive, do a blood smear to identify microcytic hypochromic anemia

Question 51

How do you treat lead poisoning?

Answer 51

REMOVE THE SOURCE and use chelating agents to remove the lead ( d-penicillamine, succimer, dimercaprol, edetate disodium calcium)

Question 52

How does acidosis affect hemoglobin?

Answer 52

It lowers the affinity of hemoglobin to oxygen

Question 53

What is the normal body blood pH range?

Answer 53

7.35-7.45

Question 54

What are normal hemoglobin levels in a lab test?

Answer 54

13.5-16.5 males, 12-15 females

Question 55

What does a hematocrit test tell us?

Answer 55

volume of red cell mass in 100ml of plasma

Question 56

What does MCHC tell us?

Answer 56

concentration of hemoglobin in RBC’s, Color

Question 57

Describe hypochromic anemia?

Answer 57

RBC are pale with increased central pallor, HgB is lower (what adds the pigment), RBC’s normally small, caused by Fe deficient anemia and thalassemia

Question 58

What lab results are seen with microcytic anemia?

Answer 58

small RBC’s, MCV is decreased, normally MCHC decreased too

Question 59

What lab results are seen with macrocytic anemia?

Answer 59

large RBC’s, hemoglobin is down

Question 60

What is anisocytosis?

Answer 60

RBC’s are unequal size, RDW larger (more variance in size), differentiates btw FE deficiency anemia and thalassemia

Question 61

What is polycythemia?

Answer 61

Too many RBC’s, either more RBC’s or decreased plasma volume, caused by bone marrow problems, malignancy, low O2. Can be secondary to increased EPO, high altitudes, hypoxia from sleep apnea or COPD

Question 62

What are the types of normochromic anemias?

Answer 62

aplastic, post-hemorrhagic, hemolytic and anemias of chronic disease

Question 63

What is poikilocytosis?

Answer 63

abnormal shaped RBC’s, disks are thinner than normal especially in the middle, abnormal if greater than 10% of cells