Hematopoietic and Lymphoid 2

Question 1

What is polycythemia (erythrocytosis)? What are normal and abnormal hematocrit and Hb levels?

Answer 1

It is abnormally high red cell count.

Normal HCT in males is 42-52% and in females in 37-47%.

Polycythemia is when HCT is above 52% in males and above 47% in females.

Normal Hb levels are 13.2-16.7 g/dL in males and 11.9-15.0 in females.

Polycythemia is when Hb is above 18.5 in males and above 16.5 in females.

Question 2

What is the difference between relative polycythemia and absolute polycythemia?

Answer 2

Relative is when there is decreased plasma volume (from dehydration or diarrhea, for example) with normal red cell mass, so red cell density is increased.

Absolute in an increase in the total red cell mass.

Question 3

What is the difference between primary and secondary absolute polycythemia?

Answer 3

Primary is when EPO is normal or low, secondary is when EPO levels are high.

Question 4

What disease is associated with autonomous, erythropoietin-independent growth of red cell progenitors?

Answer 4

Polycythemia vera, a myeloproliferative disorder (a type of primary absolute polycythemia)

Question 5

How does primary familial polycythemia cause polycythemia?

Answer 5

Rare EPO receptor mutation –> receptor activation without binding EPO

Question 6

Name three conditions that can induce secondary polycythemia.

Answer 6

1. Lung disease
2. High-altitude living
3. Cyanotic heart disease

All cause a compensatory increase in EPO

Question 7

Renal cell carcinomas, hepatocellular carcinomas, and cerebral hemangioblastomas are three examples of cancers that can cause paraneoplastic syndrome, secreting _______.

Answer 7

EPO –> secondary polycythemia

Question 8

Name three genetic mutations that cause secondary polycythemia.

Answer 8

1. Hb mutations that cause high Hb O2 affinity.
   Inherited defects that increase the stability of HIF-1alpha, leading to increased EPO. These include:
2. Chuvash polycythemia (homozygous VHL mutations)
3. Prolyl hydroxylase mutations

Question 9

What are three clinical manifestations of polycythemia?

Answer 9

1. Viscous blood
2. Cardiac function and peripheral blood flow impairment
3. Skin and mucosae appear dark red

Question 10

What white cell count qualifies as leukopenia?

Answer 10

less than 4300 per uL

Question 11

What neutrophil count qualifies as neutropenia/agranulocytosis?

Answer 11

less than 1600 per uL

Question 12

When absolute neutrophil count drops below 1000 per uL, risk for _______ infections is high, and an absolute count below ______ per uL puts the person at serious risk for infection.

Answer 12

microbial infections below 1000

500 = serious risk

Question 13

Can neutropenia/agranulocytosis be caused by decreased or ineffective neutrophil production from radiation, drugs, viral infections, congenital stuff, megaloblastic anemia, or myelodysplastic syndrome?

Answer 13

Yeah

Question 14

Contrast the causes for neutropenia with bone marrow hypocellularity vs neutropenia with bone marrow hypercellularity.

Answer 14

Hypocellularity in the marrow would be caused by drugs that suppress granulocytopoiesis, whereas hypercellular marrow would occur when there is increased neutrophil degradation and the body is trying to compensate. Hypercellular also occurs when there is ineffective granulocytopoiesis.

Question 15

Describe the clinical manifestations of neutropenia (6).

Answer 15

1. Malaise
2. Fever
3. Marked weakness
4. Fatigue
5. Ulcerating, necrotizing lesions on mucous membranes
6. Infections with microorganism growth.

Easy: feel like shit overall, ulcers on mucous membranes with microorganisms

Question 16

How is someone with infections and neutropenia treated?

Answer 16

With granulocyte colony-stimulating factor

Question 17

What is leukocytosis?

Answer 17

Non-neoplastic increase in blood WBCs

Question 18

What four things does the severity of leukocytosis depend on?

Answer 18

1. Size of myeloid and lymphoid precursor pools in marrow, thymus, circulation, and tissues.
2. Rate of release from pools.
3. The marginal pool of cells adhering to vessel walls.
4. Rate of extravasation of cells from blood into the tissues.

Question 19

Four histologic subtypes of leukocytosis are neutrophilic, eosinophilic, monocytic and lymphocytic. Name what causes each.

Answer 19

Neutrophilic: acute bacterial infections.
Eosinophilic: allergic disorders, parasitic infections.
Monocytic: chronic infections, bacterial endocarditis.
Lymphocytic: chronic immune stimulation as seen in TB, EBV, CMV, infectious mono.

Question 20

Name three histologic characteristics of neutrophils from a peripheral blood smear that would be indicative of leukocytosis.

Answer 20

1. Purple cytoplasmic granules (toxic granulations).
2. Blue cytoplasmic patches of dilated ER.
3. Nuclei looks like an elongated blob - indicates immaturity of neutrophil and increased rate of release.

Question 21

What is lymphadenitis?

Answer 21

Non-neoplastic inflammatory proliferation of the lymph nodes.

Question 22

What gross morphological changes are seen in the case of lymphadenitis? What microscopic changes are seen?

Answer 22

Nodes are swollen, gray-red, and engorged.

Microscopic: large germinal centers with lots of mitotic figures (nonspecific)

Question 23

What cell type can be found in lymph nodes in the case of infection by pyogenic organisms?

Answer 23

Neutrophils

Question 24

In what type of lymphadenitis would you find abcesses in the center of follicles of lymph nodes?

Answer 24

Acute nonspecific lymphadenitis

Question 25

Compare follicular hyperplasia and paracortical hyperplasia. What type of lymphadenitis are these an example of?

Answer 25

These are types of chronic nonspecific lymphadenitis.

Follicular hyperplasia is associated with B cell activation –> germinal center (follicular) reaction

Paracortical hyperplasia is associated with T cell activation

Question 26

Name three stimuli that can cause follicular hyperplasia and three stimuli that can cause paracortical hyperplasia.

Answer 26

Follicular (B cell expansion): RA, toxoplasmosis, early HIV

Paracortical (T cells): Viral infections like EBV, some vaccinations (small pox), certain drugs (phenytoin, dilantin for seizures)

Question 27

What is the difference between a lymphoma and leukemia?

Answer 27

The site of the tumor. Leukemias primarily involve the bone marrow with spillage of neoplastic cells into the blood. Lymphomas are tumors in the lymph nodes, spleen, or extranodal tissues.

Question 28

Name the four types of lymphoid neoplasms.

Answer 28

1. Hodgkin lymphoma
2. Non-Hodgkin lymphoma
3. Lymphocytic leukemia
4. Plasma cell dyscrasias

Question 29

What is a myeloid neoplasm? Name three examples.

Answer 29

Neoplasms arising from stem cells that give rise to blood cells (granulocytes, red cells, or platelets). Monoclonal proliferation crowds out other cells.

Examples

1. Acute myeloblastic leukemia
2. Chronic myeloproliferative disorders.
3. Myelodisplastic syndromes

Question 30

What is acute myelogenous leukemia (AML)?

Answer 30

Clonal proliferation of immature myeloid cells (pre-RBCs or pre-granulocytes like neutrophils) that don’t terminally differentiate (they are stuck as immature cells). The proliferation happens in bone marrow and they end up in blood and tissues

Question 31

What is the most common leukemia type in adults (80%)? What is the median age of onset for this disease?

Answer 31

AML, median onset age is 60

Question 32

Which disease is associated with a mutation in inhibitory transcription factor, leading to excess proliferation of immature myeloid cells?

Answer 32

Acute myelogenous leukemia (AML)

Question 33

Describe the symptoms, prognosis, and common treatment associated with AML.

Answer 33

Symptoms: fatigue, pallor, fever, infections, abnormal bleeding.

Prognosis: chemo –> remission in 50% but 5-year survival is only 30%.

Tx: marrow transplant

Question 34

Name the disease: occurs due to t(15;17) translocation. Leads to the formation of an abnormal PML/RARA fusion protein that blocks myeloid differentiation at the promyelocytic stage

Answer 34

Acute promyelocytic leukemia (a type of acute myelogenous leukemia)

Question 35

What is acute promyelocytic leukemia associated with (4)?

Answer 35

1. Radiation
2. Chemo
3. Benzene exposure
4. Smoking doubles risk

Question 36

How is acute promyelocytic leukemia treated?

Answer 36

trans retinoic acid (allows cells to undergo terminal differentiation) + chemo –> good prognosis

Question 37

What is the main difference between chronic myelogenous leukemia and acute myelogenous leukemia?

Answer 37

In AML, cells CAN’T differentiate but in CML, cells RETAIN the capacity for terminal differentiation

Question 38

Describe the subcellular mechanisms involved in the development of CML.

Answer 38

BCR-ABL fusion –> constitutively active BCR-ABL tyrosine kinase –> constitutive hematopoietic growth signals –> proliferation of MATURE myeloid cells (particularly granulocytes and platelets)

Question 39

What genetic markers are needed to establish the diagnosis of chronic myelogenous leukemia?

Answer 39

The presence of the Philadelphia chromosome, or molecular demonstration of the BCR/ABL fusion gene

Question 40

CML accounts for _____ to _____% of all leukemia cases and is mostly seen in adults between _____ and _____ years old.

Answer 40

15-20%, between 25 and 60 years old

Question 41

How can CML be cured? Name one other treatment and state how it works.

Answer 41

Allogeneic bone marrow transplant early in the disease can cure.

Other tx is imantinib mesylate (Gleevec), which blocks the ATP binding site on the tyrosine kinase.

Question 42

What happens if CML goes untreated?

Answer 42

It inevitably progresses to a BLAST CRISIS that can resemble either AML or lymphoblastic leukemia

Question 43

Describe the major histologic characteristics of CML.

Answer 43

Hypercellular bone marrow due to an increase in granulocytes that are in VARIOUS STAGES of development and also the presence of MEGAKARYOCYTES

Question 44

What is the most common childhood leukemia? What percentage of cases in children under six does it make up?

Answer 44

B-Acute Lymphoblastic Leukemia/Lymphoma - 75% of cases in children under 6

Question 45

What is the difference between B-lymphoblastic leukemia and B-lymphoblastic lymphoma?

Answer 45

Leukemias involve the bone marrow and lymphomas involve the nodes. Remember!?

Question 46

What mutations are associated with B-lymphoblastic leukemia?

Answer 46

Philadelphia chromosome and other numerous chromosomal translocations

Question 47

Describe the histologic characteristics of B-Acute Lymphoblastic Leukemia/Lymphoma (6).

Answer 47

1. Lots of one kind of cell that crowds out others.
2. Increased nuclear to cytoplasmic ratio.
3. Small to medium sized cells
4. Delicate/condensed chromatin
5. Small, inconspicuous nucleoli
6. Scant, agranular cytoplasm

Question 48

What are the clinical features of B-Acute Lymphoblastic Leukemia/Lymphoma (2)?

Answer 48

1. Anemia/thrombocytopenia/neutrophilia

2. Tumors in bone marrow cause mass effect –> bone pain and arthralgias (joint pain)

Question 49

How is B-Acute Lymphoblastic Leukemia/Lymphoma treated and what is the prognosis?

Answer 49

chemo, >90% complete remission rate

Question 50

What type of lymphoma is the most common type in the Western world?

Answer 50

Mature (peripheral) B cell lymphomas

Question 51

What are the two most common types of mature B cell lymphomas?

Answer 51

1. Diffuse large cell lymphomas (30%)

2. Follicular lymphomas (22%)

Question 52

At what ages do mature B cell lymphomas most often occur? Which types can possibly be seen in children?

Answer 52

6th and 7th decades. The ones that can be seen in children are Burkitt lymphoma and large B cell lymphoma. Burkitt lymphoma is mostly seen in children.

Question 53

Which lymphoma is the most important type of lymphoma in ADULTS, accounting for 50% of non-Hodgkin lymphomas? Describe it.

Answer 53

Diffuse large B cell lymphoma - rapidly evolving, multifocal and multinodal B cell neoplasm

Question 54

What are the morphological characteristics of a diffuse large B cell lymphoma (4)?

Answer 54

1. Neoplastic cells look like immunoblasts
2. They exhibit various B cell antigens
3. Cells are large (3-4x normal)
4. Large nuclei with open chromatin and prominent central nucleoli

Question 55

Name the disease: BCL6 and BCL2 rearrangements often seen, asociated with immunodeficiency (like HIV) and is usually positive for EBV.

Answer 55

Diffuse large B cell lymphoma

Question 56

What is the treatment and prognosis for diffuse large B cell lymphoma?

Answer 56

Combination of chemo drugs –> good results (60-80% remission, 50% of those remain disease free for years)

Question 57

Which disease involves a chromosomal translocation of 8q24 (where the MYC oncogene is)?

Answer 57

Burkitt lymphoma

Question 58

What is the most common childhood malignancy in Africa, with a peak incidence at ages 3 to 7?

Answer 58

Burkitt lymphoma

Question 59

How aggressive is Burkitt lymphoma?

Answer 59

It is one of the most rapidly growing malignancies.

Question 60

____ is present in nearly all cases of endemic Burkitt lymphoma but it is seen in less than _____% of the sporadic types.

Answer 60

EBV, 30%

Question 61

Burkitt lymphoma produces ______ tumors and there is a high risk for ______ involvement.

Answer 61

extranodal, high risk for CNS involvement

Question 62

What is the classical presentation of Burkitt lymphoma?

Answer 62

Destructive tumor in the jaws or other facial bones

Question 63

Patients with sporadic Burkitt lymphoma typically present with ______ _____.

Answer 63

abdominal masses

Question 64

What is the prognosis for Burkitt lymphoma?

Answer 64

Both endemic and sporadic are curable in up to 90% of patients

Question 65

Starry sky macrophages

Answer 65

Burkitt lymphoma

Question 66

Name two histologic characteristics of Burkitt lymphoma.

Answer 66

1. Lots of mitotic figures

2. Starry sky macrophages (macrophages with apoptotic tumor cells)

Question 67

What the hell is the difference between Hodgkin and non-Hodgkin lymphomas?

Answer 67

The presence or absence of Reed Sternberg cells. If these are present = Hodgkin.

Reed Sternberg cells (aka lacunar histiocytes) are giant cells usually derived from B lymphocytes, classically considered crippled germinal center B cells, meaning they have not undergone hypermutation to express their antibody.

Question 68

What is the most common malignancy of Americans between the ages of 10 and 30?

Answer 68

Hodgkin lymphoma

Question 69

Name the disease: Young person with a lymphoma without abdominal or cranial masses.

Answer 69

Probably Hodgkin lymphoma

Question 70

The prevalence of Hodgkin lymphoma is ________ with a peak in the late 20s and a gradual increase after age of 50.

Answer 70

bimodal

Question 71

Hodgkin lymphomas arise in a single node or a chain of nodes, therefore _______ is important in making the prognosis. ____ is also another important prognostic factor.

Answer 71

staging, age is also important

Question 72

Describe the histologic characteristics of Reed Sternberg cells.

Answer 72

Binucleate with large, inclusion-like nucleoli and abundant cytoplasm. OWL-EYE APPEARANCE: surrounded by lymphocytes, macrophages, and eosinophils.

Question 73

What are the clinical features of Hodgkin lymphoma?

Answer 73

1. Lymphadenopathy with CERVICAL AND MEDIASTINAL nodes affected in more than half of the cases.
2. Involves lymph nodes, spleen (1/3 of cases), liver (2/3), lungs (1/2) and rarely bone marrow
3. Epidural spread is a frequent neuro complication

Question 74

Multiple myeloma is a neoplasm of ________ cells, a type of ________ _______ B cell.

Answer 74

plasma cell, a type of terminally differentiated B cell

Question 75

What genetic changes are associated with multiple myeloma?

Answer 75

Dysregulation of D cyclin and chromosomal translocations

Question 76

Name four risk factors for multiple myeloma.

Answer 76

1. Genetics: first degree relatives, higher (2x) frequency in blacks.
2. Ionizing radiation
3. Chronic antigenic stimulation
4. Age (increases with age - mean age at Dx is 65)

Question 77

Describe the morphological and histological changes seen in multiple myeloma (3).

Answer 77

1. Multifocal infiltration of the marrow by malignant plasma cells with multiple destructive (lytic) lesions or diffuse demineralization of bone.
2. Punched-out lesions of the skull
3. Plasma cells in marrow aspirate that have multiple nuelci, prominent nucleoli, light spots on the golgi, and cytoplasmic droplets containing Ig.

Question 78

Punched out lesions of the skull

Answer 78

Multiple myeloma

Question 79

In most cases of multiple myeloma, tumor cells secrete a single, homogenous, complete or partial _______, a _______, or most commonly, _____ or _____ light chains (AKA ______ ______ protein).

Answer 79

secrete homogenous complete or partial antibodies, M-component or paraprotein, or most commonly IgG or IgA light chains (Bence Jones protein)

Question 80

Describe the effects of multiple myeloma on bone tissue.

Answer 80

Tumors can secrete osteoclast-activating factor –> vertebral compression fractures, fractures of other bones, chronic pain, hypercalcemia.

Question 81

Can multiple myeloma cause anemia? How?

Answer 81

Yeah! The monoclonal plasma cell crowds out other cells.

Question 82

In which blood cancer is light-chain (AL) amyloidosis seen?

Answer 82

Multiple myeloma

Question 83

What is the prognosis of multiple myeloma?

Answer 83

Incurable - mean survival 6 months (untreated) and 3 years with treatment. Death usually due to infection or renal failure.

Question 84

Infections, immunologic inflammatory disorders like SLE and amyloidosis, hemolytic anemias, immune thrombocytopenia, splenic vein hypertension from right side heart failure, primary or metastatic neoplasms, and storage diseases like Gaucher’s can all cause ________.

Answer 84

splenomegaly

Question 85

What is a thymoma? Are they most often malignant? What age do they occur?

Answer 85

Neoplasm of thymic cortical or medullary epithelial cells. Most often benign (80%). Occur in adulthood.

Question 86

Describe a typical thymoma.

Answer 86

Encapsulated, irregularly shaped mass, firm, gray-to-yellow. Divided into lobules by fibrous septa

Question 87

Thymomas are often associated with __________ syndromes (myasthenia gravis, Graves, Cushing).

Answer 87

paraneoplastic

Question 88

What is the difference between acute myeloid leukemia and acute promyelocytic leukemia?

Answer 88

Acute promyelocytic leukemias are classified as such because they respond to trans-retinoic acid treatment.