FARR Hematology/Oncology

Question 1

Four causes of microcytic anemia.

Answer 1

TICS—Thalassemia, Iron deficiency, anemia of Chronic disease, and Sideroblastic anemia.

Question 2

An elderly man with hypochromic, microcytic anemia is asymptomatic. Diagnostic tests?

Answer 2

Fecal occult blood test and sigmoidoscopy; suspect colorectal cancer.

Question 3

Precipitants of hemolytic crisis in patients with G6PD deficiency.

Answer 3

Sulfonamides, antimalarial drugs, fava beans.

Question 4

The most common inherited cause of hypercoagulability.

Answer 4

Factor V Leiden mutation.

Question 5

The most common inherited bleeding disorder.

Answer 5

von Willebrand’s disease.

Question 6

The most common inherited hemolytic anemia.

Answer 6

Hereditary spherocytosis.

Question 7

Diagnostic test for hereditary spherocytosis.

Answer 7

Osmotic fragility test.

Question 8

Pure RBC aplasia.

Answer 8

Diamond-Blackfan anemia.

Question 9

Anemia associated with absent radii and thumbs, diffuse hyperpigmentation, café au lait spots, microcephaly, and pancytopenia.

Answer 9

Fanconi’s anemia.

Question 10

Medications and viruses that lead to aplastic anemia.

Answer 10

Chloramphenicol, sulfonamides, radiation, HIV, chemotherapeutic agents, hepatitis, parvovirus B19, EBV.

Question 11

How to distinguish polycythemia vera from 2° polycythemia.

Answer 11

Both have ↑ hematocrit and RBC mass, but polycythemia vera should have normal O2 saturation and low erythropoietin levels.

Question 12

Thrombotic thrombocytopenic purpura (TTP) pentad?

Answer 12

“FAT RN”: Fever, Anemia, Thrombocytopenia, Renal dysfunction, Neurologic abnormalities.

Question 13

HUS triad?

Answer 13

Anemia, thrombocytopenia, and acute renal failure.

Question 14

Treatment for TTP.

Answer 14

Emergent large-volume plasmapheresis, corticosteroids, antiplatelet drugs.

Question 15

Treatment for idiopathic thrombocytopenic purpura (ITP) in children.

Answer 15

Usually resolves spontaneously; may require IVIG and/or corticosteroids.

Question 16

Which of the following are ↑ in DIC: fibrin split products, D-dimer, fibrinogen, platelets, and hematocrit.

Answer 16

Fibrin split products and D-dimer are elevated; platelets, fibrinogen, and hematocrit are ↓.

Question 17

An eight-year-old boy presents with hemarthrosis and ↑ PTT with normal PT and bleeding time. Diagnosis? Treatment?

Answer 17

Hemophilia A or B; consider desmopressin (for hemophilia A) or factor VIII or IX supplements.

Question 18

An eight-year-old boy presents with hemarthrosis and ↑ PTT with normal PT and bleeding time. Diagnosis? Treatment?

Answer 18

Hemophilia A or B; consider desmopressin (for hemophilia A) or factor VIII or IX supplements.

Question 19

A 14-year-old girl presents with prolonged bleeding after dental surgery and with menses, normal PT, normal or
↑ PTT, and ↑ bleeding time. Diagnosis? Treatment?

Answer 19

von Willebrand’s disease; treat with desmopressin, FFP, or cryoprecipitate.

Question 20

A 60-year-old African-American man presents with bone pain. Workup for multiple myeloma might reveal?

Answer 20

Monoclonal gammopathy, Bence Jones proteinuria, “punched-out” lesions on x-ray of the skull and long bones.

Question 21

Reed-Sternberg cells.

Answer 21

Hodgkin’s lymphoma.

Question 22

A 10-year-old boy presents with fever, weight loss, and night sweats. Exam shows an anterior mediastinal mass. Suspected diagnosis?

Answer 22

Non-Hodgkin’s lymphoma.

Question 23

Microcytic anemia with ↓ serum iron, ↓ total iron-binding capacity (TIBC), and normal or ↑ ferritin.

Answer 23

Anemia of chronic disease.

Question 24

Microcytic anemia with ↓ serum iron, ↓ ferritin, and ↑ TIBC.

Answer 24

Iron deficiency anemia.

Question 25

An 80-year-old man presents with fatigue, lymphadenopathy, splenomegaly, and isolated lymphocytosis. Suspected diagnosis?

Answer 25

Chronic lymphocytic leukemia (CLL).

Question 26

The lymphoma equivalent of CLL.

Answer 26

Small lymphocytic lymphoma.

Question 27

A late, life-threatening complication of chronic myelogenous leukemia (CML).

Answer 27

Blast crisis (fever, bone pain, splenomegaly, pancytopenia).

Question 28

Auer rods on blood smear.

Answer 28

Acute myelogenous leukemia (AML).

Question 29

AML subtype associated with DIC.

Answer 29

M3.

Question 30

Electrolyte changes in tumor lysis syndrome.

Answer 30

↓ Ca2+, ↑ K+, ↑ phosphate, ↑ uric acid.

Question 31

Treatment for AML M3.

Answer 31

Retinoic acid.

Question 32

A 50-year-old man presents with early satiety, splenomegaly, and bleeding. Cytogenetics show t(9,22). Diagnosis?

Answer 32

CML.

Question 33

Heinz bodies?

Answer 33

Intracellular inclusions seen in thalassemia, G6PD deficiency, and postsplenectomy.

Question 34

An autosomal-recessive disorder with a defect in the GPIIbIIIa platelet receptor and ↓ platelet aggregation.

Answer 34

Glanzmann’s thrombasthenia.

Question 35

Virus associated with aplastic anemia in patients with sickle cell anemia.

Answer 35

Parvovirus B19.

Question 36

A 25-year-old African-American man with sickle cell anemia has sudden onset of bone pain. Management of pain crisis?

Answer 36

O2, analgesia, hydration, and, if severe, transfusion.

Question 37

A significant cause of morbidity in thalassemia patients. Treatment?

Answer 37

Iron overload; use deferoxamine.

Question 38

Heparin:

Answer 38

↑ PTT, activates antithrombin III and affects the intrinsic path- way, and ↓ fibrinogen levels; protamine sulfate is the antidote.

Question 39

Warfarin:

Answer 39

↑ PT, inhibits vitamin K and affects the extrinsic pathway, and is teratogenic, since its small size allows it to cross the placenta. Vitamin K is the antidote. Goal INR of 2.0–3.0 (2.5–3.5 in patients with mechanical valves).

Question 40

Enoxaparin

Answer 40

(low-molecular-weight heparin [LMWH]): Inhibits factor Xa and does not have to be monitored; dosing is once or twice daily.

Question 41

Heparin-to-warfarin conversion is necessary because

Answer 41

warfarin inhibits proteins C and S before other vitamin K–dependent factors (II, VII, IX, and X), lead- ing to a transient period of paradoxical hypercoagulability before proper an- ticoagulation.

Question 42

Hemophilia

Answer 42

A deficiency of a clotting factor that leads to a bleeding diathesis.

Question 43

Hemophilia HISTORY/PE

Answer 43

I Presents with spontaneous hemorrhage into the tissues and joints that, if left untreated, can lead to arthropathy and joint destruction.
I Spontaneous intracerebral hemorrhages, renal and retroperitoneal bleed- ing, and GI bleeding may also be seen.
I Mild cases may have major hemorrhage after surgery or trauma but are otherwise asymptomatic.

Question 44

von Willebrand’s Disease (vWD)

Hx/PE

Answer 44

Presents with easy bruising, mucosal bleeding (e.g., epistaxis, oral bleeding), menorrhagia, and postincisional bleeding. Platelet dysfunction is not severe enough to produce petechiae. Symptoms worsen with ASA use.
Platelet count and PT are normal, but a prolonged aPTT may be seen as
a result of factor VIII deficiency.

Question 45

Hypercoagulable States Hx/PE

Answer 45

Presents with recurrent thrombotic complications, including DVT, pul- monary embolism, arterial thrombosis, MI, and stroke. Women may have recurrent miscarriages.
Although patients may have no recognizable predisposing factors, they usually have one or more of the causative factors outlined in Table 2.7-2. They may also have a

Question 46

Disseminated Intravascular Coagulation (DIC)

Answer 46

A common disorder among hospitalized patients, second only to liver disease as a cause of acquired coagulopathy. It is caused by deposition of fibrin in small blood vessels, leading to thrombosis and end-organ damage. Depletion of clotting factors and platelets leads to a bleeding diathesis. May be associ- ated with almost any severe illness.

Question 47

Thrombotic Thrombocytopenic Purpura (TTP)

Answer 47

Part of a spectrum of diseases that includes hemolytic-uremic syndrome (HUS) and HELLP syndrome (see the Obstetrics chapter); thought to be due to platelet microthrombi that block off small blood vessels, leading to end- organ ischemia and dysfunction. RBCs are fragmented by contact with the microthrombi, leading to hemolysis (microangiopathic hemolytic anemia). The cause of initial microthrombus formation is unknown but may be infec- tious (bacterial toxins), drug related, autoimmune, or idiopathic.

Question 48

TPP Hx/Pe

Answer 48

A clinical syndrome characterized by five signs/symptoms: low platelet count, microangiopathic hemolytic anemia, neurologic changes (delirium, seizure, stroke), impaired renal function, and fever.

Treat with corticosteroids to ↓ the formation of microthrombi along with plasma replacement and plasmapheresis.

Question 49

Overlapping conditions of TPP are

Answer 49

I HUS: Characterized by renal failure, hemolytic anemia, and low plate- lets. Severe elevations in creatinine are more typical of HUS than of
TTP.
I HELLP syndrome: Affects pregnant women, often occurring in con-
junction with preeclampsia (see the Obstetrics chapter).
I DIC: Distinguished from TTP by prolonged PT and aPTT.

Question 50

Idiopathic Thrombocytopenic Purpura (ITP)

Answer 50

A relatively common cause of thrombocytopenia. IgG antibodies are formed against the patient’s platelets. Bone marrow production of platelets is ↑, with ↑ megakaryocytes in the marrow. The most common immunologic disorder in women of childbearing age. May be acute or chronic.

Question 51

Idiopathic Thrombocytopenic Purpura (ITP)

Answer 51

present with no systemic symptoms
associated with lymphoma, leuke- mia, SLE, HIV, and HCV.
Acute (2-6years) or Chronic (20-40years with infection)
A diagnosis of exclusion

Question 52

Iron deficiency anemia in an elderly patient could be due to

Answer 52

colorectal cancer and needs to be evaluated to rule out malignancy.

Question 53

Causes of microcytic anemia—

Answer 53

TICS
Thalassemia
Iron deficiency Chronic disease Sideroblastic anemia

Question 54

APLASTIC ANEMIA

Answer 54

A rare condition caused by failure of blood cell production due to destruc- tion of bone marrow cells. It may be hereditary, as in Fanconi’s anemia; may have an autoimmune or a viral etiology (e.g., HIV, parvovirus B19); or may result from exposure to toxins (e.g., drugs, cleaning solvents) or radiation.

Question 55

Polycythemia

Answer 55

Patients present with “hyperviscosity syndrome,” which consists of easy bleeding/bruising, blurred vision, neurologic abnormalities, plethora, pruritus (especially after a warm bath), hepatomegaly, splenomegaly, and CHF.

Phlebotomy relieves symptoms

Question 56

Porphyria

Answer 56

I Signs and symptoms vary with the type of porphyria. In general, however, porphyrias are characterized by a combination of photodermatitis, neu- ropsychiatric complaints, and visceral complaints that typically take the form of a colicky abdominal pain and seizures.
I Physical exam reveals tachycardia, skin erythema and blisters, areflexia, and a nonspecific abdominal exam.

Question 57

the most common child- hood malignancy.

Answer 57

ALL

Question 58

ALL and AML are treated primarily with

Answer 58

chemotherapeutic agents, al- though transfusions, antibiotics, and colony-stimulating factors are also used. Patients with unfavorable genetics or those who do not achieve re- mission may be candidates for bone marrow transplantation.

I Prior to therapy, patients should be well hydrated, and if their WBC counts are high, they may be started on allopurinol to prevent hyperuricemia and renal insufficiency resulting from blast lysis (tumor lysis syndrome).

I Leukostasis syndrome may be treated with hydroxyurea +/– leukapheresis to rapidly ↓ WBC count.

Question 59

AML type (FAB) M3—acute promyelocytic leukemia (APL)—has a good prognosis because

Answer 59

it is responsive to all-trans-retinoic acid (ATRA) therapy.

Question 60

Philadelphia chromosome t(9,22).

Answer 60

CML

Question 61

Leukocyte alkaline phosphatase is low; LDH, uric acid, and B12 levels are elevated. CML or CLL

Answer 61

CML

Question 62

Most NHLs (almost 85%) are of xxx-cell origin. NHL is the most common xxx neoplasm and is xxx times more common than Hodgkin’s lymphoma.

Answer 62

B
hematopoietic
five