Heme Onc

Question 1

Alpha Thal

Answer 1

Defect in alpha chain that leads to decreased production

• 4 in total, 4 mutated leads to Hb Bartz and fetal hydrops
• 3 mutated leads to B4 tetramers of HbH
• Cis mutations on same chromosome are more common in asians and transmutations are more common in blacks

Question 2

Beta Thal

Answer 2

• Splicing or promotor error leads to altered expression level
• Minor usually presents with a slight increase in HbA2 (D) and major usually presents with profound anemia and increased fetal hemoglobin
• Can get secondary hemochromatosis and treat with difuimox

Question 3

Lead Poisoning

Answer 3

• Leads to a sideroblatic anemia with increased Fe deposits in mitochondria
• Inhibits Ferrocheltase
• Basophilic stippling occurs because of dysfunction of An enzyme that degrades ribososmes, basophilic stipplic is ribosomal RNA
• Dementia, belly pain, decreased IQ
• Wrist drop and neurologic signs
• Treat with succimer, EDTA, dimercaperol

Question 4

Sideroblastic anemia

Answer 4

• X linked is defect in ALA dehydratase which leads to decreased heme synthesis in mitochondria leading to Fe accumulation and sideroblastic anemia
• Can also be seen with B6 deficency as B6 is a necessary cofactor for HLA-D
• Decreased B6 from INH, Alcohol, dietary
• Treatment is B6
• There will be elevated Fe and Ferretin with normal TIBC

Question 5

Folate Deficency

Answer 5

Caused by diet, MTX, phenytoin

• Megaloblastic with pancytopenia, no neurologic complaints
• Increased homocysteine with normal methylmalonic acid
• Glossitis

Question 6

B12

Answer 6

Pernicous anemia, D lattum from fish, Crohns, PPI?

• Leads to megaloblastic anemia with neurologic dysfunction
• Elevated homocysteine and methylmalonic acid
• Involves posterior columns, spinocerebellar, and corticospinal
• May also cause dementia

Question 7

Orotic Aciduri

Answer 7

• Impaired UDP synthase, backs up into urea cycle (Carbamoyl P)
• Doesn’t correct with Folate and B12
• Give uridine to bypass enzyme

Question 8

Macrocytosis without megaloblastosis

Answer 8

Think of liver or alcoholic

-Can also be due to drugs which cause reticulocytosis: 5-FU, AZT, hydroxyurea

Question 9

Intravascular

Answer 9

Intrinsic red cell defect and lysis in vasculature, decreased haptoglobin and increased LDH
-PNH and mechanical valve

Question 10

Extravascular

Answer 10

• Most commonly in spleen, stuctural or functional defect

- UCB emia, increased LDH, Jaundice

Question 11

Anemia of chronic disease

Answer 11

Mediated by cytokines IL-6 that increases hepcidin from liver which is master regulator

• Also reduces EPO
• Increased ferretin with decreaed Fe and TIBC, sequester in tissues

Question 12

Aplastic

Answer 12

Viral

• Drugs, Chemo, Radiation
• Fanconi’s syndrome (DNA repair)

Question 13

Spherocytosis

Answer 13

• Defect in anhyrin or spectrin leads to osmotic fragility (band 3)
• increased MCHC
• Overactive spleen that consumes RBC leadin to elevated UCB
• Aplastic crisis

Question 14

G6PD

Answer 14

a

Question 15

Pyruvate Kinase

Answer 15

Defect in glycolysis (PEP synthesis) leads to decreased ATP and fragility of red cells
-Hemolytic disease in newborns is common presentation

Question 16

HbC

Answer 16

Milder than SS

-Add lysine instead of valine

Question 17

PNH

Answer 17

• GPI to DAF leads to hemolysis comlpement mediated
• Increased risk of venous thromboembolus
• PE or Budd Chiari
• Diagnose with flow
• Is a mutation post zygotic, in HSPC

Question 18

Sickle Cell

Answer 18

Gluatmine to valine
-Sickling at low Oxygen tensions
-Splenic sequestration crisis: Massive autoinfarcion of spleen leading to rapid decrease in RBC number
-EMH
Renal papillaryu necrosis

Question 19

Warm Hemolytic Anemia

Answer 19

• IgG
• CLL, Lupus, Methyldopa
• Haptens like penicilin

Question 20

Cold Hemolytic anemia

Answer 20

-CLL, M Pneumonia, Hepatitis, mono

Question 21

Microangiopathic

Answer 21

HUS, TTP, DIC, SLE, Malignant HTN

Question 22

OCP changes to Fe profile

Answer 22

-Increase binding globulins leading to decreased increased ferretin

Question 23

AIP

Answer 23

• Defect in porphobilinogen deaminase, or uroporphyrin synthase
• Leads to increase in uroporphyrin and porphobilinogen
• Psychosis and red urine
• Brought on by drugs (phenobarbitol)
• AD in cytosol

Question 24

PCT

Answer 24

• Skin hypersensitivity

- Uroporphyrin deaminase leads to tea colored urine and skin sens

Question 25

Hemophilia A/B

Answer 25

defect in intrinsic cascade, factors 8 and 9

• Hemarthroses and increased PTT
• Significant bleeding
• XR

Question 26

Vitamin K deficency

Answer 26

-Longterm antibiotics or pancreatic/malabsorption

Question 27

Platelt defects

Answer 27

-Lead to purpura and mucosal bleeding (epistaxis)

Question 28

Bernard Soulier

Answer 28

GP 1b impaired adhesion, increased BT

-Decreased platelt count

Question 29

Glanzmans

Answer 29

GP2b3a impaired aggregation, increased BT. Normal platelt count

Question 30

ITP

Answer 30

Antibody to Gp2b3a leading to consumption of platelts by spleen

• Leads to thrombocytopenia and increased megaK
• Bleeding time
• Commonly young viral

Question 31

TTP

Answer 31

Defect is ADAMSTS13, which is MMP that cleaves vWF multimers

• Leads to increased vWF multimers that elads to abberant clotting and platelet consumpton
• microangiopathic hemolytic anemia and decreased palteltes
• Neurologic and renal symptoms

Question 32

vWF defect

Answer 32

AD decrease in vWF number or function
-Leads to increased bleeding time
Dx with risotcetin assay
-Treat with DDVAP to increase release from WP bodies
-vWF also protects factor 8, so depending on severity, can decrease factor 8 levels and increase PTT
-Most common inherited bleeding disorder AD

Question 33

Factor V lieden

Answer 33

Site on factor 5 can’t be cleaved by protein C

• Activated by thrombomodulin and factor S
• Hypercoagulable

Question 34

PT

Answer 34

-Noncoding region increases expression leading to hypercoag

Question 35

ATIII

Answer 35

• Decreased levels will lead to hypercoag

- Blunted PT response to heparin

Question 36

C/S def

Answer 36

Leads to hypercoag, can have skin necrosis with warfarin administration

Question 37

Transfusions

Answer 37

-Can induce hyperkalemia due to lysed RBC or hypocalcemia due to citrate

Question 38

Leukemoid Vs Leukemia

Answer 38

• Leukemoid will have classic left shift and will have luekocyte acid phosphatase
• Leukemia will not have LAP

Question 39

Hodgkins

Answer 39

• Reed Sternberg cells CD15 and 30
• Involves a single group of nodes
• Constiutional B symptoms
• Greater than 50% arise in the context of EBV

Question 40

Nonhodgkins

Answer 40

• Multiple nodes throughout body, don’t involve Reed Sternberg cells,
• Commonly effect immunosuppressed
• majoirty are B cells and are monocellular

Question 41

Reed Sternberg

Answer 41

• Larg bilobed/binucleate cells, positive for CD 15 and 30

- Secrete cytokines and attract a pleimorphic cell mixture

Question 42

Hodgkins

Answer 42

• Younger and older
• Multiple cell type
• Nodular sclerosing is the most common and has large bands of fibrosus throughout nodes
• Lymphocyte mixed or depleted is a worse prognosis

Question 43

Follicular Lymphoma

Answer 43

14: 18 translocation
- 14 is Ig and 18 is BCL-2
- LEads to lack of death, large germinal celnter appearing B cells that lack macrophages, can turn into DLBCL
- Most common

Question 44

DLBCL

Answer 44

• Loss of normal cellular architecture and germinal center morphology
• USually the end of the road for other cancers
• Aggressive and worse prognosis

Question 45

Burkitts

Answer 45

• t8:14, puts C-Myc onto IgHC gene region
• LEads to massive growth (Jaw/ABdomen) characterized by lots of macrophages and cellular death in starry sky backgound
• Is associated with EBV (Like hodgkins)

Question 46

Mantle

Answer 46

t11: 14

- Move cyclin D onto promotoer leads to overexpressiona dn increased rate of entry into S phase

Question 47

Marginal Zone

Answer 47

• Occurs in the context of chronic inflammation

- H Pylori, Sjogrens, Hashimotos

Question 48

Adult T Cell

Answer 48

Usually has cutaneous involvemtn

-Associated with HTLV-1 and seen most commonly in asians and carribeans

Question 49

Szesary/Mycosis Fungoides

Answer 49

T cell lymphoma that has extensive skin involvment

• Normally can be treated
• Sezeary when enters blood and mycoces when confined to skin

Question 50

Multiple Myeloma

Answer 50

• Leukemia of plasma cells that have a characteritic clock faced nuclei with nucleoli (Produce large ammounts of Ig) and have cytoplasmic inclusions of Ig
• Characterized by M spike of monoclonal Ig on SPEP
• Light chains are excreted into the blood in excess and cause AL amyloid throughout body and especially in kidney. Nephrotic syndrome that may progress to renal failure
• Lytic bone lesions lead to hypercalcemia
• Anemia and pancytopenia due to overdrowding of marrow space
• Increase susceptibility to infection, and is most common cause of death
• Elevated Ig secretion also puts a lot of positive charge and protein into the blodd that breaks the zeta potential between RBC and leads to roleaux formation
• Hyperviscosity also common

Question 51

Waldenstroms

Answer 51

• M spike of IgM, lack of lytic lesions and other signs

- Increaed hyperviscosity syndrome

Question 52

MGUS

Answer 52

-ELevated M spike that is IgG or IgA that does not have other findings consistent with MM

Question 53

Leukemia

Answer 53

• INcrease in wWBC in the blood
• Major problem is a loss of normal marrow function leading to anemia and immunodeficency
• THere will also be hyperviscosity and decrease platelets that can lead to hemorrhage
• Acute is greater than 20 percent blasts
• THere will be no increase in LAP which is how you distingush from leukemoud reactin
• Also look for a monoclonal appearance of Differential

Question 54

ALL

Answer 54

• Leukemia of immature B and T cells, B cells is most common
• Can be identigied with tdt positivity and CALLA
• Commonly seen in downs syndrome
• T ALL may present as a mediastinal mass in teenagers due to involvment of thymus
• If cells enter CNS and testes treatment becomes more difficult becase drugs can’t cross BBB

Question 55

SLL/CLL

Answer 55

• Mature naive lymphocytes that are enter blood or nodes
• SLL has more nodal involvment while CLL has more blood involvment
• SLL may progress to DLBCL
• CLL is noticed by the appearance of smudge cells on a smear
• Increase risk of warm and cold agglutanins due to naive mature cells
• hypogammaglobulinemia and increased risk of infection
• Seen very comonly in older patients, and is indolent unless transformes to other kinds.

Question 56

Hairy Cell

Answer 56

• TRAP positive mature B lymphocytes
• HAve characteristic cytoplasmic extensions
• Treat with clarbarapine, which is an adenosine analog that leads to toxic accumulation and cell death
• Can get a dry tap on marrow aspirate and will see increased EMH and HSM

Question 57

AML

Answer 57

• Acute leukemia with an increased number of blasts, greater than 20 percent
• Many subtypes and distinguished with presence of auer rods which are crystalized MPO, if these cells are ruptured can activate compliment cascade and leads to DIC
• M3 or APL is famous, has 15,17 translocation involving the ATRA receptor. Immautre cells that if treated with ATRA will mature and can be cured
• Can be a consequence of myelodysplastic syndromes
• Monocytes commonly infiltrate gums

Question 58

CML

Answer 58

• Characterized by 9:22 translocation of BCR to ABL
• Treated with imatinib inhibitor of ABL
• Type of myelodysplasia, distinguish from a leukemoid reaction using LAP and also with the presence of basophils and other types of cells
• Immunodeficecny is the biggest risk
• Also can transform to AML

Question 59

Langerhans Cell histiocytosis

Answer 59

• Langerhans cell tumor,
• involves skin and characteristic bierbeck granules
• S-100 positive (neural crest marker) also CD1a positive
• also can have lytic bone lesions

Question 60

Myelodysplasia

Answer 60

• Characterized by JAK-2 mutations

- Increase in all cells and the disease is named for the most prominent one

Question 61

Polycythemia Vera

Answer 61

• Myelodysplasia of RBC leads to increase in hematocrit
• OFten presents as pruritis folling shower, increased mast cell activation
• Hyperviscosity syndromes with blurry visiona dn headache, can also get budd chiari
• JAK 2 mutation is characteristic, needs phlebtemy

Question 62

THrombocytosis

Answer 62

• Seen commonly in downs patients
• Is myelodysplasia of thrombocytes (MEgaK)
• Generaly has JAK-2 mutation
• Rarely transforms to malognancy becaue thrombocytes are anucleate

Question 63

Myelofibrosis

Answer 63

• Burnout of marrow, fibrosis leads to teardrop cells

- See increased levels of EMH and HSM

Question 64

PV causes

Answer 64

• Loss of volume leads to concentration of RBC
• PHysiologic adaptations to low oxygen (heart failure, lung diease, shunts)
• EPO producing tumors: RCC, HCC, VHL, Hydronephrosis and renal disease, wilms