Hematological Disease Flashcards

Question 1

Q

What is AML with Normal Cytogenetics

Answer

A

Any non-lymphatic cell lineage can be affected. DNA sequencing required to determine if patients will respond to treatment.

Question 2

Q

AML Normal Cyto (Pharmacology)

Answer

A

Pharmacology:

Treat if less than 60 and no comorbidity.
Low Risk: Daunorubucin, cytarabine (maybe thioguanine)
Gemtuzumab

Question 3

Q

AML Normal Cyto (Presentation)

Answer

A

Any age, pediatrics AML is uncommon, but happens Gingival Hypertrophy

Question 4

Q

AML Normal Cyto (Presentation for all AML)

Answer

A

Bruising, fatigue, bleeding, infection, bone pain

Question 5

Q

AML Normal Cyto (Immunophenotype)

Answer

A

CD34+ + Lineage specific markers.

Question 6

Q

AML with Normal Cyto (Morphology)

Answer

A

Morphology: Undifferentiated

Monocystic/monoblastic
Vacuoles

Question 7

Q

AML t(8;21) (Translocation forms)

Answer

A

ETO-AML1 [RUNX1-RUNX1t1]

Question 8

Q

AML t(8;21) (Common ways translocation causes malignancy)

Answer

A

Bind to DNA as co-repressor; inhibit transcription needed for differentiation
Form constitutively active proproliferation system.

Question 9

Q

AML t(8;21) (Fulfills Gililand Hypothesis?)

Answer

A

Unregulated proliferation (Class I)

2. Differentiation Inhibited (ClassII)

Question 10

Q

AML t(8;21) (Inhibits)

Answer

A

Inhibits Myeloid Differentiation

Question 11

Q

AML t(8;21) (Presentation)

Answer

A

Younger adults (age associated) and kids; pancytopenia symptoms (fatigue, infection, and bleeding).

Question 12

Q

AML t(8;21) (Immunophenotype)

Answer

A

CD13+, CD33+ (Maturing myeloid)

2. CD34+ (Blasts)

Question 13

Q

AML t(8;21) (Morphology)

Answer

A

Morphology: Auer Rods

Crystalized azurophilic granules (MPO); thus only in AML
Large blasts with smooth/smudgy chromatin.

Question 14

Q

Acute Premyelocitic Leukemia (APL)

Translocation

Answer

A

t(15;17) causes fusion protein of transcription factor and retinoic acid receptor: PML-RARA

Question 15

Q

Acute Premyelocitic Leukemia (APL) (t15;17) (Gililand Hypothesis)

Answer

A

Fulfills Gililand Hypothesis: Inhibits granulocyte differentiation

Question 16

Q

Acute Premyelocitic Leukemia (APL) (t15;17) (Pharmacology)

Answer

A

Induction: ATRA + AML Approved
Consolidation: ATRA + Anthracycline
Maintaince: ATRA + 6MP + Methotrexate
Aresenic: BBW: Cardiovascular

Question 17

Q

Acute Premyelocitic Leukemia (APL) (t15;17) (Presentation)

Answer

A

Presentation: Thrombocytopenia, DIC, and leukocytosis.

Question 18

Q

Acute Premyelocitic Leukemia (APL) (t15;17) (Immunophenotype)

Answer

A

Immunophenotype:

CD34-, HLA-DR- (Low Blasts, normal for APL
CD13+, CD33+ (Immature myeloid markers)

Question 19

Q

Acute Premyelocitic Leukemia (APL) (t15;17) (Morphology)

Answer

A

Morphology: Big blasts

Auer Rod Stacks.
Heart-shaped/bat-wing nuclei + Butterfly Nuclei

Question 20

Q

Acute Premyelocitic Leukemia (APL) (t15;17) (Pharmacology)

Answer

A

Pharmacology:

Induction: ATRA + Anthracycline
Consolidation: Methotrexate + Mercaptopurine + ATRA
Maintaince: Same as Consolidation
Aresenic: BBW: Cardiovascular

Question 21

Q

Acute Myelomoncytic Leukemia (AML) inv(16;16) t(16;16) (Translocation forms)

Answer

A

Translocation forms: Fusion protein of transcription factor CBFB-MYH11

Question 22

Q

Acute Myelomoncytic Leukemia (AML) inv(16;16) t(16;16) (Fullfills Gililand Hypothesis?)

Answer

A

Fulfills Gililand Hypothesis

Question 23

Q

Acute Myelomoncytic Leukemia (AML) inv(16;16) t(16;16) (Inhibits)

Answer

A

Inhibits myeloid maturation. AKA” Core binding factor” Leukemia

Question 24

Q

Acute Myelomoncytic Leukemia (AML) inv(16;16) t(16;16) (Diagnostic Tools)

Answer

A

FISH diagnosis for inversion is backwards. Normally, fusion signals are bad, but for inversions they are normal.

Question 25

Q

Acute Myelomoncytic Leukemia (AML) inv(16;16) t(16;16) (Pharmacology)

Answer

A

Pharmacology:

Treat if less than 60 and no comorbidity.
Low Risk: Daunorubucin, cytarabine (maybe thioguanine)

Question 26

Q

Acute Myelomoncytic Leukemia (AML) inv(16;16) t(16;16) (Presentation)

Answer

A

Presentation: Kids, adults

Question 27

Q

Acute Myelomoncytic Leukemia (AML) inv(16;16) t(16;16) (Immunophenotype)

Answer

A

Immunophenotype:

CD34+, CD117+ = blasts
CD13+, CD33+ = maturing/granulocyte
CD14+, CD11b+ = monocyte

Question 28

Q

Acute Myelomoncytic Leukemia (AML) inv(16;16) t(16;16) (Morphology)

Answer

A

Morphology:

Mixed granulocyte-monocyte features(myelomonocytic)
Eosinophilia

Question 29

Q

Acute Myelomoncytic Leukemia (AML) inv(16;16) t(16;16) (Prognosis)

Answer

A

Prognosis: poor, chemo improves.

Question 30

Q

Chronic Myelogenous Leukemia (CML) t(9;22) (Translocation forms)

Answer

A

Translocation forms p210 BCR-ABL1 [Philidelphia Chromosome] increased tyrosine kinase activity.

Question 31

Q

Chronic Myelogenous Leukemia (CML) t(9;22) (Stem cell affected)

Answer

A

Pluripotent stem cell affected (myeloid AND lymphoid)

— If granulocyte/monocyte –> Chronic mylelomonocytic Leukemia (CMML)

Question 32

Q

Chronic Myelogenous Leukemia (CML) t(9;22) (Blast Criss)

Answer

A

Blast Criss (4 - 5 years):
--- Chronic phase --> accelerated phase --> Blast phase --> Leukemia (but blasts have no Auer rods)

Question 33

Q

Chronic Myelogenous Leukemia (CML) t(9;22) (Pharmacology)

Answer

A

Pharmacology:

Acute phase - classical chemo
Chronic phase - imatinib (2ndary: dadatininb, nilotinib)

Question 34

Q

Chronic Myelogenous Leukemia (CML) t(9;22) (Presentation)

Answer

A

Presentation: 
-- 30 - 60 years (age related)
-- asymptomatic
PE: 
-- Hepatosplenomegaly (chronic disease)
Exposure:
-- Ionizing radiation + Benzene

Question 35

Q

Chronic Myelogenous Leukemia (CML) t(9;22) (Morphology)

Answer

A

Morphology:

BM Hypercellular
BM No blasts (pre blast crisis)
Unexplained basophilia (basophils) in PS

Question 36

Q

Chronic Myelogenous Leukemia (CML) t(9;22) (DDx)

Answer

A

DDx:

RT-PCR of BCR-ABL1
Very low LAP b/c non-functional leukocytes (vs. Leukomoid Rxn)
* Leukomoid reaction: normal leukocytosis –> left shift; has high LAP

Question 37

Q

Mastocytosis (Genetics)

Answer

A

Mastocytosis Genetics:

C-KIT mutation
PDGF-RA via F1P1 translocation

Question 38

Q

Mastocytosis: Increased ______ _______ activity in mast cells (pathogenesis)

Answer

A

Mastocytosis: increased tyrosine kinase activity in mast cells

Question 39

Q

Mastocytosis (Where in the body does it present?)

Answer

A

Usually presents outside the bone marrow/lymph nodes

Question 40

Q

Mastocytosis (similar to _______ )

Answer

A

Mastocytosis is similar to Chronic Eosinophilic Leukemia (CEL)

Question 41

Q

Mastocytosis (presentation)

Answer

A

variable, confusing

Question 42

Q

Mastocytosis (Immunophenotype)

Answer

A

Tryptase + (mast cell granule)

2. CD117+ (Blast CKIT, SCF-receptor), CD25+

Question 43

Q

Mastocytosis (Treatment)

Question 44

Q

Primary Mylelofibrosis (Etiology)

Answer

A

Jak2 Mutation on Ch.9 short arm - increased TK signaling via J/K pathway

Question 45

Q

Primary Mylelofibrosis (Pathogenesis)

Answer

A

Abnormal megs secrete cytokines –> deposition of Type 3 collagen –> marrow fibrosis + extra-medullary hematopoiesis (EMH) –> Fibrohematopoietic extra-med. tumors

Question 46

Q

Primary Mylelofibrosis (Pharmacology)

Answer

A

Poor Rx treatment; splenectomy dangerous

2. HSCT is curative, but patients are too old

Question 47

Q

Primary Mylelofibrosis (Presentation)

Answer

A

> 50 years old w/ splenomegaly
portal hypertension
osteosclerosis/bone pain
cytokine-like symptoms (muscle wasting)
Thrombosis

Question 48

Q

Primary Mylelofibrosis (Morphology)

Answer

A

BM - full of type 3 collagen

2. Peripheral blood - bizarre megs, abnormal platelets, tear drop RBC, nucleated RBC

Question 49

Q

Primary Mylelofibrosis (DDx)

Answer

A

Reticulin Stains for Fibers

Question 50

Q

Primary Mylelofibrosis (Treatment)

Answer

A

Supportive care (blood transfusion)

Question 51

Q

Polycythemia Vera (Etiology)

Answer

A

Jak2 Mutation on Ch. 9 short arm - increased effect of growth factors (95%)

Question 52

Q

Polycythemia Vera (Pathogenesis)

Answer

A

Erythroid lineage is primarily affected > megs > others

Increased RBC/HCT –> sludgy RCB movement –> bad

Question 53

Q

Polycythemia vera vs. secondary polycythemia

Answer

A

PV is NOT secondary polycythemia (hypoxia/anemia induced EPO-related RBC production). That’s altitude sickness, atrial-septal defect, smoking, COPD, and Pickwickian syndrome.

Question 54

Q

Polycythemia Vera (Presentation)

Answer

A

Thrombosis
CNS symptoms
Itchiness after hot bath
facies
blurred vision (retinal distention)
splenomegaly

Question 55

Q

Polycythemia Vera (Labs)

Answer

A

Decreased EPO (best to rule out reactive polycythemia)

Question 56

Q

Polycythemia Vera (Morphology)

Answer

A

Erythroid hyperplasia (BM)
Increased RBC (PS)

Question 57

Q

Polycythemia Vera (Treatment)

Answer

A

Phlebotomy, deplete iron, aspirin, myelosuppressive

Question 58

Q

Polycythemia Vera (Prognosis)

Answer

A

Progress to MDS, AML, Myelofirbrosis

Question 59

Q

Essential Thrombocythemia (Genetics)

Answer

A

Jak2 Muations (50% of cases)

Question 60

Q

Essential Thrombocythemia (Pathogenesis)

Answer

A

Excess of dysplastic/abnormally functioning platelets from Megs

Question 61

Q

Essential Thrombocythemia vs. Secondary Thrombocythemia

Answer

A

Have to differentiate ET from Secondary Thrombocythemia:
– Bleeding, inflammation, iron deficiency, or asplenia will cause secondary thrombocytemia. Platelet count will not extremely high. TPO will be high.

Question 62

Q

Essential Thrombocythemia (Treatment/pharm)

Answer

A

Hydroxyurea

Question 63

Q

Essential Thrombocythemia (Presentation)

Answer

A

Thrombosis OR bleeding (GI), splenomegaly

Question 64

Q

Essential Thrombocythemia (Morphology)

Answer

A

Increased megs, large/abnormal megs, clustering megs

2. Bizarre platelets = Meg Fragment

Answer 64

A

Extremely elevated platelets

2. Normal TPO

Answer 65

A

10 yr survival, but can progress to myelofibrosis, MDS, acute leukemia

Answer 66

A

Refractory Cytopenia with Unilineage Dysplasia
Refractory Anemia w/ ring sideroblasts
MDS with Isolated del(5q)
Refractory Cytopenia with Multilinage Dysplasia
Refractory anemia with Excess Blast

Answer 67

A

- Clonally expanded acquired mutation of stem cell for one lineage
- Monosomies/trisomies may be present

Answer 68

A

Diagnosis is made on morphological findings: Megaloblastoid features; binucleated RBC w/ irregular nuclei; hypercellular marrow

Answer 69

A

Unexplained cytopenia in elderly population (>65 yo)

Answer 70

A

Abnormal markers

Answer 71

A

Megaloblastoid features; binucleated RBC w/irregular nuclei; hypercellular marrow

Answer 72

A

Survival normal for age

Answer 73

A

Clonally expanded acquired mutation in erythroid cell line

Monosomies/trisomies may be present

Answer 74

A

Morphological findings + Iron studies

Answer 75

A

Ring sideroblasts with dyspoietic features in red cells only

Answer 76

A

Unexplained cytopenia iin elderly (>65yo)

Anemia + associated symptoms

Answer 77

A

Abnormal markers

Answer 78

A

Survival normal for age

Answer 79

A

Loss of large arm of chromosome 5

ALL megakaryocytes fail to divide nuclei –> mononuclear megs

Answer 80

A

Anemia (severe), elderly (>65), women

Answer 81

A

All megs are mononucleated

Answer 82

A

Good survival
Treat with lenalidomide
10% progress to AML

Answer 83

A

Clonally expanded acquired mutation in MULTIPLE cell lineages
50% show non-specific cytogenic abnormalities

Answer 84

A

Granulocytes lacking normal granules; abnormal lobulation
– Morphology based upon lineages affected
If granulocytic expect abnormal granules
If erythroid, expect nRBC, etc.

Answer 85

A

Anemia (severe), elderly (>65), women

Answer 86

A

Abnormal markers

Answer 87

A

Median survival 30 months

Answer 88

A

RAEB-1: 5 - 9% morphological blasts
RAEB-2: 10 - 19% morphological blast
50% show nonspecific abnormal cytogenics

Answer 89

A

> 20% –Acute leukemia

Answer 90

A

AMLs develop basts from translocated mutation that halts differentiation. Here, a mutation occurs that is clonally expanded and takes over as a cell line. This is more like a TRUE malignancy.

Answer 91

A

Cytopenia in elderly patient (65+yo)

Answer 92

A

CD34+

2. CD117+

Answer 93

A

Blasts and dyspoeitic maturation

Answer 94

A

RAEB-1 – 25% progression to AML

RAEB-2 –33% progression to AML

Answer 95

A

B-Cell ALL t(9;22)
B-Cell ALL t(11;19)
B-Cell ALL t(12;21)
Hairy Cell Leukemia
T-Cell ALL

Answer 96

A

Fusion protein of BCR-ABL 1

Fusion protein of serine-threonine kinase (BCR) to tyrosine kinase (ABL1) — equivalent to Class I mutation
IKZF1 transcription factor inhibited (Differentiation inhibited) — equivalent to Class II mutation

Answer 97

A

Different than CML t(9;22);

Different break in oncogene
Different fusion protein

Answer 98

A

Induction: Anthracycline, vincristine, prednisone
Maintenance: methotrexate + 6MP
CNS (intrathecal) prophylaxis: methotrexate

Answer 99

A

Kids and older adults

Answer 100

A

Immunophenotype: (early B cell)

CD10+
CD19+
TdT+

Answer 101

A

Big agranular blasts

Answer 102

A

poor prognosis

Answer 103

A

Induction: Anthracycline, vincristine, prednisone
Maintenance: methotrexate + 6MP
CNS (intrathecal) prophylaxis: methotrexate
Note: This is tyrosine so imatinib is also and option

Answer 104

A

Rearranged MLL

Fusion of transcription regulator (histone methyl transferase) to many chromosomes (Class II)
FLT3 mutations (Class II)

Answer 105

A

MLL becomes transcriptional repressor –> decrease differentiation

Answer 106

A

Poor prognosis

Answer 107

A

Kids <1yo, most common form in very young children

Answer 108

A

Early B cell

CD10- (differentiate between t(9;22)ALL)
CD19+
TdT+

Answer 109

A

Big agranular blasts

Answer 110

A

B-Cell ALL t(9;22) = CD10+

B-Cell ALL t(11;19) = CD10-

Answer 111

A

Fusion protein of TEL-AM1 [ETV6-RUNX1]
1. Dominant negative transcription factor (Class II)
2. Pax5 Mutation inhibits differentiation (Class II)
Gilliand hypothesis not supported

Answer 112

A

Good - 90% cure

Answer 113

A

Kids - 25% of all prediatric B-ALL

Answer 114

A

CD34+
CD20-
TdT+

Answer 115

A

Big agranular blasts

Answer 116

A

BRAF V600F mutation

Answer 117

A

Only leukemia without lymphadenopathy

Answer 118

A

Resistant to Tartrate-resistant acid phosphatase (TRAP)

Answer 119

A

Thrombocytopenia
Splenomegaly
Dry bone marrow
*Common in middle aged men

Answer 120

A

CD19
CD20
B cell marker

Answer 121

A

Rituximab
Interferon alpha 2-a, b
Cladribine
Pentostatin

Answer 122

A

Oncogenic translocation to Ch.14

Answer 123

A

Oncogene is translocated to Ig or TCR promoter on Ch 14

Answer 124

A

High risk

Answer 125

A

Kids - 25% of all pediatric
Thymic, lymph mass
Splenomegally (where T cells go)

Answer 126

A

CD3+ CD5+ (T cell markers)
TdT+ (marker f T/B cell precursors)
B-cell/myeloid CDs/ antigens

Answer 127

A

Big agranular blasts

Answer 128

A

Three fold etiology:

No Ig expressison
Anti-apoptosis (via NFkB or EBV)
Genetically unstable, more mutations

Answer 129

A

B-Lymphocye –> R-S Cell

Answer 130

A

Nodular lymphocyte predominant (best prognosis)
Nodular sclerosing (women>men)
Mixed cellularity (most ass. w/ EBV)
Leukocyte depleted (worst prognosis)

Answer 131

A

Older men (except nodular sclerosing)
cervical adenopathy
B-like symptoms
rare extranodal involvement
EBV infection

Answer 132

A

Lymphocyte dominant HL
1.  CD15.CD30 - (few RS cells)
2.  CD20+
3.  Pax5+
All other HL types
1.  CD15/30+ = RS Cells
2.  CD20+
3.  Pax 5+

Answer 133

A

RS cells over diverse cellular backdrop

Answer 134

A

Ig is EXPRESSED
Anti-apooptosis (NFkB, EBV)
Genetically unstable, more mutations

Answer 135

A

B-cell –> lympho-histocytic (L/H variant)

Answer 136

A

Best prognosis of all HL types

Answer 137

A

CD15.CD30 - (few RS cells)
CD20+
Pax5+

Answer 138

A

RS cells with collar of T-Lymphocytes

Popcorn cell

Answer 139

A

Chronic Lymphocytic Leukemia/Chronic Lymphocytic Lymphoma
Mantle cell Lymphoma
Follicular Lymphoma
Diffuse Large B Cell Lymphoma
Burkitt’s Lymphoma
Angioimmunoblastic T-Cell Lymphoma
Peripheral T-Cell Lymphoma not otherwise specified
Mycosis Fungiocides and Sezary Syndrome

Answer 140

A

Deletion in chromosome 13 (good prognosis)
Trisomy 12
Deletion in Chromosome 11
Deletion in Chromosome 17 (p53 - bad prognosis)

Answer 141

A

Hypogammaglobulinemia - look for recurrent infections

Answer 142

A

Memory cell

Answer 143

A

Older men w/ recurrent infections (hypogammaglobulinemia)
Warm helolytic anemia
Diagnostic features based on staging:
0 - lymphocytosis
1 - nodal involvement, both sides of diaphragm
2 - hepatosplenomegaly
3 - <10Hg (anemia)
4 - thrombocytopenia

Answer 144

A

Light chain restricted (clonal)

C 20+ (weak)
CD 5+ (odd, but characteristic phenotype of CLL/SLL)
* ZAP-70 expression is bad
* CD38 expression is bad

Answer 145

A

Effaced lymph node = Pseudofollicular

Answer 146

A

Small lymphocytes, SMUDGE CELLS

Answer 147

A

IV Ig; Combination (rituximab, fludrabine)

Answer 148

A

t(11,14) - CyclinD1-IgH

Answer 149

A

Affected Cell: B cell in (pregerminal center) mantle zone or memory cell in periphery
Cyclin D1 expression pushes cells: G1 –> s

Answer 150

A

Similar presentation to CLL; worst prognosis

Answer 151

A

Light chain restricted

CD20+ (strong)
CD5+
K1g7+ = marker for fast growth

Answer 152

A

Effacement = Starry Sky

Answer 153

A

SMUDGE CELLS

Answer 154

A

Combination (Fludrabine + Rituximab; CVP, CHOP, CHOP-R)

Answer 155

A

t(14;18) IgH-BCL-2

Answer 156

A

Grade 1: shows lots of centrocytes > least aggressive
Grade 2: mixture of centrocytes/centroblasts
Grade 3: lots of centroblasts > aggressive

Answer 157

A

older, w/painless lymphadenopathy (if painful = reactive (flu))

Answer 158

A

Follicular hyperplasia
Effacement of architecture
slow mitosis + few tingible body macrophages (indolent, slow growing)

Answer 159

A

CD19+, CD20+ (B cell)
CD 10+
BCL-2

Answer 160

A

Immunohistochemistry + immunophenotyping (BCL-2 stain)

Answer 161

A

See grade: progress to diffuse large B cell lymphoma

Answer 162

A

T(V;3) - BCL-6

t(14;18) - BCL2-IgH

Answer 163

A

Most common NHL in Adults; poorly defined group

Answer 164

A

Extranodal involvement

2. RAPID DIVISION

Answer 165

A

Older patients (few pediatric cases)
Most common NHL in Adults

Answer 166

A

CD19+, CD20+
CD10+
BCL-6/BCL-2+

Answer 167

A

Immature (Large B) cells with high mitotic rate

Answer 168

A

CHOP + R-CHOP

Answer 169

A

t(8;14)
t(2;8)
t(8;22)
MYC gene + IgH, IgL, IgK

Answer 170

A

African Burkitt’s: Malaria belt, EBV

Sporadic case: Everywhere else, NOT EBV associated

Answer 171

A

Endemic: Jaw Lesions
Sporadic: Abdomen or pelvic lesions

Answer 172

A

CD19+, CD20+
CED22+
CD79+
Ki-67+

Answer 173

A

Starry Sky appearance w/ sheets of lymphocytes/blasts containing empty spaces of tingible body macrophages

Answer 174

A

Usually curable in children; long term care not likely

Answer 175

A

Clonal expansion of abnormal T-Helper cells in pericortical region of lymph node

Answer 176

A

CD10+ Immunophenotype

Answer 177

A

CD4 Follicular T-cell

Answer 178

A

Rapid critical illness
Adenopathy
Hepatosplenomegaly
Compromised immunity

Answer 179

A

CD3+
CD4+
CD10+

Answer 180

A

Expansion of pericortical area

Prominent vessels - look for eosinophilia
Effacement of overall architecture
Immunoblasts

Answer 181

A

Poorly defined group of AGGRESSIVE T-cell Lymphoma

Answer 182

A

Aggressive; survival <5 years

Answer 183

A

Lymphadenopathy
Paraneoplastic syndromes (hemolytic anemia
B-type syndrome

Answer 184

A

T-cell markers + abnormal markers (B-cell, random)

Answer 185

A

Cells too uniform for the lymph node

Expanded paracortex
Effacement of architecture
Paracortical Epithelioid Histocytes

Answer 186

A

Both involve Neoplastic CD4 T Cells

Answer 187

A

Sezary syndrome is mycosis fungiosies with leukemic phase - circulating cells are called Sezary cells

Answer 188

A

Skin rash
Pruritis
Psoriasis
Neoplastic cells in the epidermis are called Putrier’s microabcesses

Answer 189

A

Aplastic Anemia
Multiple Myeloma
Waldenstrom’s Hyogammaglobulinemia
Amyloidosis

Answer 190

A

Of all the causes, autoimmune destruction of stem cells is the PRIMARY CAUSE OF APLASTIC ANEMIA

Answer 191

A

Reduction or deletion of hematopoietic stem cells because:

Cells are damages
Immunosuppression of hematopoiesis
Bad BM environment

Answer 192

A

Congenital: Faconi’s + Familial Aplastic
Acquired: Benzene, ionizing radiation, infections, PNH

Answer 193

A

Aplastic Anemia is NOT a malignancy

It is anemia cause by BM failure

Answer 194

A

Variable
Anemic (normocytic)
Bleeding
Infections

Answer 195

A

Pancytopenia
Maybe leukocytosis (relative)
Decreased reticulocyte count (BM failure)

Answer 196

A

Hypocellular

Yellow Marrow

Answer 197

A

Remove causative agent
Supportive care
Immunosupressive
HSCT

Answer 198

A

Abnormal plasma cell clonal expansion leading to multiple lytic bone lesions

Answer 199

A

Bone lesions caused by myeloma cell production of DKK1 –> IL6 –> RANK-L –> stimulates osteoclasts, inhibits osteoblasts

Answer 200

A

Stage 1 - Normal Bence Jones; Hg, few lesions
Stage 2 - not 1 or 3
Stage 3 - Lots of Bence Jones, multiple lesions, anemic

Answer 201

A

Old
African American
Arthritis
Pain
CRAB  
Cytopenia (plasma cell infiltration)
Low Ig levels (other than IgG)

Answer 202

A

Serum plasma E-Phoresis –> Immunofixation

|&raquo_space; M-Spike (monoclonal protein)

Answer 203

A

CD38
CD138 (Plasma Cell)
CD19
CD20

Answer 204

A

Rouleax formation in blood

Answer 205

A

Holes in bones

Packed w/ irregular plasma cells

Answer 206

A

Deletion of Ch.17 is key genetic (negative) predictor

Answer 207

A

Bortezumib (proteosomes), lanilomide (immunomodulator), HSCT

Answer 208

A

Lymphoma producing excess IgM paraprotein caused by maturation arrest etween mature B-cell and plasma cell

Answer 209

A

It acts like myeloma, but as a mass they are lymphoma

Answer 210

A

Hyperviscosity syndrome becaue of pentameric IgM

NO BONY DESTRUCTION

Answer 211

A

SPEP, Immunofixation

Answer 212

A

Rituximab
Borezamib
Lanalidomide

Answer 213

A

Abnormal protein caused by light chain build up

Answer 214

A

Chronic inflammation
Familial (Transtyretin)
Secondary to myeloma

Answer 215

A

Any organ affected by amyloid
- Heart
- Liver
- Kidney
Macroglossitis - swollen tongue
Neuropathies

Answer 216

A

CONGO RED STAIN –> APPLE RED BIREFRINGENCE

Answer 217

A

Borizamib
Lanilomide
*If familial (transthyretin) –> bone marrow transplant

Answer 218

A

Not usually caused by translocation (except ALK + Anaplastic Large Cell Lymphoma - t(2;5))
Early odd number CDs
Thymus: TdT+, cytoplasmic CD3, CD4 and CD8
Peripheral: CD4 or CD8, surface
CD3
Determine clonality

Answer 219

A

These are all centroblasts or centrocytes (centroblasts are worse b/c less differentiated)
Clonal expansion of centroblasts or centrocytes that have evaded apoptosis in the lymph node by upregulating BCL-2/BCL-6
Fewer tingible body macrophages

Answer 220

A

Myeloid Lineage (Myeloid, Erythroid, Megs)
Lymphoid Lineage (B, T and NK cells)
Other Bone Diseases

Answer 221

A

Acute Myeloblastic Leukemia
Chronic Myeloproliferative Diseases
Myelodysplastic Syndrome

Answer 222

A

Acute Myeloblastic Leukemia
- – Clonal expansion of abnormal immature cells = BLASTS
Chronic Myeloproliferative Diseases
- – Clonal expansion of differentiated cell types
Myelodysplastic Syndrome
- – Either too few or expansion of ineffective cell types

Answer 223

A

B, T and NK cells

Answer 224

A

Leukemia and Lymphoma

Answer 225

A

Leukemia
— Clonal expansion of abnormal immature cells = BLASTS
Lymphoma
— Clonal expansion of abnormal cell type within lymph tissue, mostly node

Answer 226

A

Aplastic Anemia
Multiple myeloma
Waldenstrom’s Macroglobulinemia
Amyloidosis

Brainscape's Knowledge GenomeTM

Hematological Disease Flashcards

Brainscape's Knowledge Genome^TM