8/13- MDS/AML

Question 1

What is MDS?

Answer 1

Myelodysplastic Syndrome

• Aka “refractory anemia”, “preleukemia”, or “smoldering leukemia”

Spectrum of clonal myeloid disorders characterized by:

• Ineffective hematopoiesis
• Cytopenias
• Qualitative disorders of blood cells
• Clonal chromosomal abnormalities
• Variable tendency to evolve into acute leukemia

Question 2

Can divide/organize MDS how? (dkfjadj)

Answer 2

• “Clonal bicytopenia or tricytopenias”
• “Oligoblastic leukemia”

Question 3

Epidemiology of MDS?

Answer 3

Most common clonal hematologic disorder

• 1-10/100,000 /year in Western countries
• 3,000-12,000 cases/year in US

Disease of the elderly – incidence increases logarithmically after the age of 20

Men affected more than women (1.5x)

Question 4

Pathogenesis of MDS?

Answer 4

Clonal expansion of a multipotential hematopoietic cell

Chromosomal deletions or additions involving most frequently:

• Long arms (q) of chromsomes 5 and 7
• Del of 5 and 7
• Del of 11, 12, 13, 20
• Trisomy 8

Major mechanism is ineffective hematopoiesis: defective maturation and death of marrow precursor cells.

• Decreased production/sensitivity to hematopoietic growth factors
• Increased production of hematopoietic inhibitors (TNFa, Ifng) inducing apoptosis
• T-cell mediated immune dysregulation

Question 5

Risk factors for MDS?

Answer 5

Radiation Drugs and toxins

• benzene and other solvents
• alkylating agents (-5, -7)
• topoisomerase II inhibitors (11q23)
• smoking
• hair dyes
• pesticides, herbicides, organic chemicals

Other hematologic disorders

• aplastic anemia, paroxysmal nocturnal hemoglobinuria, congenital neutropenia

Genetic disorders

• Down syndrome Fanconi’s anemia,
• Neurofibromatosis (von Recklinghausen’s disease)

Question 6

Clinical Manifestations of MDS?

Answer 6

• Anemia: weakness, fatigue, palpitations, orthostasis
• Thrombocytopenia: bleeding, bruising
• Leukopenia: increased susceptibility to infection
• Other: Sweet disease, polyarthritis, neuropathy, acquired alpha thalassemia, splenomegaly

Question 7

DDx of MDS?

Answer 7

• Drugs or toxic exposures
• Infections
• Rheumatic disorders
• Deficiencies of vitamins B12, B6, or folic acid
• Hypersplenism
• Metastatic cancer
• Acute leukemia
• Aplastic anemia
• Paroxysmal nocturnal hemoglobinuria
• Myelofibrosis

Question 8

What are features of the PBS in MDS?

Answer 8

Red cells:

• Anisocytosis
• Normocytic or mildly macrocytic indices
• Low reticulocyte count
• Howell-Jolly bodies, Cabot rings, basophilic stippling

White cells:

• Small, poorly granulated neutrophils with hyper- or hypolobulated nuclei
• Increased monocytes

Platelets:

• Large, agranular

Question 9

What is shown here?

Answer 9

Pseudo Pelger-Huet cell

Question 10

What is shown here?

Answer 10

Stodtmeister cell

Question 11

What is shown here?

Answer 11

A: Basophilic stippling

B: Howell-Jolly bodies

C: Cabot’s rings

Question 12

Overview of bone marrow in MDS?

Answer 12

• Erythroid Dysplasia
• Myeloid Dysplasia
• Megakaryocytic Dysplasia

Question 13

What is shown here?

Answer 13

MDS

Question 14

What is shown here? Condition/features? Prognosis?

Answer 14

Refractory Anemia

• Dimorphic population
• Less than 5% blasts in marrow
• AML in 10% at 2 yrs
• Median survival 3-6 yrs

Question 15

What is shown here? Conditions/features? Prognosis?

Answer 15

Refractory Anemia with Ringed Sideroblsats

• > 15% ringed sideroblasts
• Less than 5% blasts in marrow
• AML in 0% at 2 yrs
• Median survival: 3-6 yrs

Question 16

MDS is associated with what genetically?

Answer 16

Isolated del(5q)

Question 17

Epidemiology of MDS?

Answer 17

• Occurs primarily in middle-aged women

Question 18

Characteristics of MDS?

Answer 18

• Characterized by macrocytic anemia and normal or increased platelet count
• Megakaryocytes with hypolobulated nuclei
• Favorable clinical course with absence of leukemic transformation

Question 19

International Prognostic Index (IPI) for MDS?

Answer 19

Question 20

Standard treatment of MDS?

Answer 20

Supportive care:

• Erythropoietin, G-CSF, GM-CSF, IL-11
• Blood transfusion
• Deferoxamine or Exjade (iron chelator)
• Pyridoxine, folic acid
• Danazol Immunomodulation
• Antithymocyte globulin
• Cyclosporine
• Steroids

AML-style chemotherapy

Newer agents affecting DNA methylation

Bone marrow transplantation

Question 21

What are 5-zacytidine (Vdiaza) and Decitabine (Dacogen)?

Response?

Side effects?

Answer 21

• Vidaza is prodrug for Decitabine, which reduces DNA methylation at cytosine residues and allows reactivation of silenced tumor-suppressor genes (demethylating agents)
• Overall response rate 16-17% (CR 7%, PR 16%, improvement in 37%)
• Significant side effects including cytopenias, GI disturbances, fever, fatigue and various aches and pains

Question 22

Organization/Division of the Leukemias?

Answer 22

Question 23

Acute leukemias are a group of disorders characterized how?

Answer 23

• Neoplastic transformation of hematopoietic stem cell (Clonality)
• Malignant cells either do not differentiate or differentiate abnormally
• Abnormal cells accumulate in blood, marrow and tissues
• Normal hematopoiesis is inhibited
• Fatal if untreated

Question 24

Relative frequency of leukemias?

Answer 24

CLL: 32%

AML: 30%

ALL: 13%

Other: 13%

CML: 125

Question 25

TEST TEST TEST

What is shown here?

Answer 25

AML! Acute Myelogenous Leukemia

BE ABLE TO RECOGNIZE THIS

• Can see Auer rods!

Question 26

Epidemiology of AML?

Percentage of acute leukemias in adults/children?

Answer 26

• 15-20% of acute leukemia in children
• 80% of acute leukemia in adults
• 12,000 new cases/yr in the US
• 8,000 deaths/yr in US
• Median age is 63 (Disease of the elderly!)

Question 27

Risk factors for AML?

Answer 27

Genetics:

• Chromsomal abnormalities: Down’s, Klinefelters
• Chromsomal instability: Fanconi’s anemia, Bloom’s

Prior chemotherapy:

• Alkylating agents: Cyclophosphamide, Mechlorethamine
• Topoisomerase II inhibitors: Etoposide, Anthacyclines

Radiation exposure: Hiroshema survivors, Radiologists (before modern shielding)

Environmental exposure: benzene

Prior hematologic abnormalities: Myelodysplasia, MPNs

Question 28

What is shown here?

Answer 28

Question 29

WHO/FAB Classification of AML?

Answer 29

AML with genetic abnormalities

• t(8;21) or inv (16)
• 11q23 abnormalities
• APL with t(15;17) AML with multilineage dysplasia
• Evolution from MDS
• No MDS, but dysplasia in 2 or more cell lines AML secondary to therapy
• Radiation/alkylating agent
• Topoisomerase II inhibitor AML NOS (FAB classification)

Question 30

FAB Classification of AML?

Answer 30

Question 31

M2 (AML with maturation) is associated with what translocation?

Answer 31

t(8:21)

Question 32

M3 (Acute promyelocytic leukemia) is associated with what translocation?

Answer 32

t(15:17)

Question 33

M4 (Acute myelomonocytic leukemia) is associated with what translocation?

Answer 33

inv 16

Question 34

Clinical Presentation of AML?

Answer 34

Cytopenias:

• Anemia (fatigue)
• Leukopenia (infection/fever)
• Thrombocytopenia (bleeding)

Hyperleukocytosis: increased risk of CNS involvement

• Leukostasis (blast count > 50-100K, limited flexibility of blasts, lungs/brain most affected)

Extramedullary disease:

• Gums with M4/M5
• Chloromas with M2
• CNS Coagulopathy
• DIC, especially with M3 (also M4 and M5)

Question 35

Petechiae are usually indicative of what abnormality?

Answer 35

Low platelet count

Question 36

What is shown here?

Answer 36

Hyperleukocytosis in pt with M4

• HUGE buffy coat!

Question 37

Which form of AML is associated with gum infiltration?

Answer 37

M5

Question 38

Which form of AML is associated with M3?

Answer 38

DIC Ex)

• Platelets 5,000
• Fibrinogen 25

Question 39

CNS hemorrhage may occur in pt with what form of AML?

Answer 39

M3 (from DIC)

• Most feared complication (bleed before you can treat the leukemia)

Question 40

CNS leukemia may cause what nerve complications?

Answer 40

CN VII palsy (Bell’s palsy)

Question 41

Diagnosis of AML?

Answer 41

Bone marrow exam

• Wright-Giemsa stain
• Sudan/special stains
• Flow cytometry (aspirate)
• Cytogenetics (aspirate)
• Molecular rearrangements

Question 42

Cytogenetics and prognosis in AML?

Answer 42

Good prognosis:

• t(8:21)
• inv(16)
• t(15:17)

Intermediate:

• Normal

Poor:

• del 5/5q or 7/7q
• Abnormalities of 11q23
• Multiple abnormalities

Question 43

What is the most common subtype of AML?

• Genetics?
• Prognosis?

Answer 43

M2 AML (AML with maturation)

• 50% have t(8:21)
• Better prognosis than average

Question 44

What demographic groups are most commonly affected by M3 AML?

• Genetics?
• Prognosis?
• Treatment?

Answer 44

M3 AML (Acute Promyelocytic Leukemia/APL)

• Seen in younger Hispanic pts
• May see Auer rods or big chunky granules in PBS (emergency!) 80-100% have t(15:17)

Risk of DIC: bleeding, thrombosis

Unique treatment: all-trans-retinoic acid

Question 45

What is this?

Answer 45

M2 AML, t(8:21)

Question 46

What is this?

Answer 46

M3 AML

• May see Auer rods or big chunky granules (emergency!)

Question 47

What is shown here?

Answer 47

Abnormal cell with t(15:17) on FISH

• Indicative of M3 AML

Question 48

Treatment of AML? Complications? Maintenance therapy?

Answer 48

Induction chemotherapy:

• Anthracycline plus
• Cytarabine

Complications:

• Prolonged neutropenia
• infection
• Prolonged thrombocytopenia

Consolidation chemotherapy

No maintenance except M3

Bone marrow transplantation

Question 49

Treatment of APL (M3 AML)?

Answer 49

ATRA (all transretinoic acid) + Chemotherapy

or

ATRA + Arsenic

(ATRA can put pts into remission, but doesn’t keep them there; not enough)

Question 50

Prognosis of AML for children? Adults?

Answer 50

Children:

• 90% complete remission
• 40% long-term cure rate

Adults:

• 65-70% complete remission
• 30% long-term cure

Question 51

Adverse prognostic factors in AML?

Answer 51

• Age > 60 yo
• Poor risk cytogenetics
• Antecedent hematologic disorder
• WBC > 100K
• Presence of multidrug resistance gene 1 (MDR)
• Failure to achieve complete remission with first cycle