he atop anthology_lab_1_2016_anemia s.ppt

Normal blood smear
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CASE 1: A 19-year-old woman with anemia presents with a two day history of fever and joint pain.
She reports experiencing similar episodes 2-3 times/year that respond to hydration and pain
medication. Her history is notable for avascular necrosis of the left femoral head at age 14.
Normal smear stack Patient stack
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CASE 1: A 19-year-old woman with anemia presents with a two day history of fever and joint pain.
She reports experiencing similar episodes 2-3 times/year that respond to hydration and pain
medication. Her history is notable for avascular necrosis of the left femoral head at age 14.
What are the major RBC abnormalities on the smear ?
Many sickle cells and some polychromasia(young RBCs; nucleic acid stains blue, protein red with Wright stain). Marked variability in
red cell shape (poikilocytosis), a few target cells and occasional RBC with small, dark blue inclusions (Howell-Jolly bodies, nuclear
fragments) indicate splenic hypofunction from repeated infarcts(“autosplenectomy”). Occasional activated lymphs (? viral infection
triggered sickle crisis).
A diagnosis of the "process" is readily made by inspection of the smear. What additional test(s) establish etiology?
A patient with multiple sickle crises/year is likely to have a moderate-severe form of the disease and, most likely, would have been
diagnosed in infancy or childhood. Hemoglobin electrophoresis establishes a diagnosis in most cases.
What would you expect the red cell indices to show in this case ?
Generally normochromic and normocytic.
If you just had the CBC and red blood cell indices, what other types of anemia would you consider ?
Differential diagnosis of a normochromic, normocytic anemia includes decreased red blood cell production (e.g., aplastic anemia,
some cases of anemia of chronic disease), acute (uncompensated) blood loss, other hemolytic anemias.
How do the abnormal RBC produce symptoms, signs and complications in this disease ?
Sickled cells are stickier and stiffer than normal RBCs thus "adhere" to endothelium, to one another and to WBCs, particularly in post-
capillary venules, producing thrombosis. During "painful crises" (triggered by hypoxia, infection), sickled fraction increases resulting
in thromboses in many microvascular beds. Ischemia and infarction ensues with cumulative organ damage in multiple organs.

CASE 2: The patient is a 28-year-old woman in the second trimester of pregnancy. Her pregnancy
has been uncomplicated but she tires easily and gets short of breath with exertion. She reports
episodes of light-headedness, though not to the point of fainting. Patient has tachycardia at rest,
pale gums and nail beds.
Normal smear stack Patient stack
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CASE 2: The patient is a 28-year-old woman in the second trimester of pregnancy. Her pregnancy
has been uncomplicated but she tires easily and gets short of breath with exertion. She reports
episodes of light-headedness, though not to the point of fainting. Patient has tachycardia at rest,
pale gums and nail beds.
What are the major RBC abnormalities on the smear ?
Hypochromia, anisocytosis, microcytosis and poikilocytosis.
A diagnosis of the "process" is readily made by inspection of the smear. What additional test(s) establish etiology?
Serum ferritin, iron and iron-binding capacity to confirm iron deficiency anemia (IDA). If IDA confirmed still need to establishcause.
Insufficient intake most common cause in healthy pregnant women but want to rule out occult blood loss.
What would you expect the red cell indices to show in this case ?
Hypochromic, microcytic anemia.
If you just had the CBC and red blood cell indices, what other types of anemia would you consider ?
Differential diagnosis of microcytic, hypochromic anemia includes iron deficiency, thalassemias, anemia of chronic
disease/inflammation, and lead poisoning.
How do the morphologic and biochemical abnormalities produce symptoms, signs and complications in this disease ?
Reduced oxygen carrying capacity. Fatigue, tachycardia, shortness of breath, pale gums and nail beds. Occasionally, bizarre appetites
for substances that are largely non-nutritive (e.g., clay, soil, sand, paper, ice), termed pica.

CASE 3: A 50-year-old woman with a history of Type II diabetes mellitus, hypertension, and chronic
obstructive pulmonary disease felt well until 4 days prior to hospitalization when she developed
crampy abdominal pain and deteriorating mental status. There was no prior history of a
hematologic disorder.
Normal smear stack Patient stack

CASE 3: A 50-year-old woman with a history of Type II diabetes mellitus, hypertension, and chronic
obstructive pulmonary disease felt well until 4 days prior to hospitalization when she developed
crampy abdominal pain and deteriorating mental status. There was no prior history of a
hematologic disorder.
What are the major RBC abnormalities on the smear?
Substantial poikilocytosis including many schistocytes, occasional spherocytes, and some polychromasia. This constellation of
microangiopathic features was found in the context of profound thrombocytopenia.
A diagnosis of the “process” is readily made by inspection of the smear. What additional tests may help to confirm the
morphologic impression and subclassify this process?
Measurements of serum lactate dehydrogenase (LDH), unconjugated bilirubin, and haptoglobin help to confirm the impression of
microangiopathic hemolytic anemia (MAHA). Screening coagulation assays (e.g., prothrombin time, activated partial
thromboplastin time) and other tests (e.g., ADAMTS13 level) can help to refine the diagnosis (e.g., discriminate disseminated
intravascular coagulation (DIC) from thrombotic thrombocytopenic purpura (TTP)).
What would you expect the red cell indices to show in this case?
Generally normocytic and normochromic.
What is the physical basis for the observed red cell morphology?
Shear stress or mechanical trauma disrupts the red cell membrane, resulting in formation of red cell fragments (schistocytes and
microspherocytes). There is laboratory evidence of intravascular hemolysis as red cells are damaged by contact with fibrin/platelet
aggregates. The polychromasia reflects compensatory reticulocytosis. Disorders commonly associated with fragmentation
hemolysis include DIC, TTP, and hemolytic uremic syndrome (HUS). Prosthetic cardiac valves and areas of highly turbulent flow
(e.g., severe aortic stenosis) sometimes cause shear stress on red cells resulting in schistocyte formation.

SUMMARY AND REVIEW
MECHANISTIC CLASSIFICATION OF ANEMIA
I. Blood Loss
Examples:
-Acute –trauma; surgery
-Chronic –lesions of GI or GU tracts
II. Increased RBC destruction (hemolytic anemias)
Examples:
-Hereditary –hemoglobinopathies;RBC membrane or enzymatic defects
-Acquired –autoimmune hemolysis; mechanical trauma to red cells
III. Impaired RBC production
Examples:
-Aplastic anemia
-Defective DNA synthesis (B12/folate)
-Defective hemesynthesis (iron)
REMEMBER THE UTILITY OF THE RETICULOCYTE COUNT IN
DISCRIMINATING THESE CATEGORIES !

SUMMARY AND REVIEW
CLASSIFICATION OF ANEMIA ACCORDING TO MEAN CELL VOLUME (MCV)
I. MICROCYTIC
Examples: iron deficiency; thalassemia; some cases of anemia of chronic
disease/chronic inflammation
II. NORMOCYTIC
Examples: sickle cell anemia; hereditary spherocytosis; some cases of anemia of
chronic disease/chronic inflammation; some cases of hemolytic anemia
III. MACROCYTIC
Examples:vitamin B12 or folic acid deficiency (megaloblasticanemias); liver disease;
hypothyroidism; some cases of hemolytic anemia (e.g., those with a particularly
prominent reticulocytosis; reticulocytes are slightly larger than more mature red cells,
on average, and will raise the MCV)