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H39 Hematology Toronto Notes 2023

Hematologic Malignancies and Related

Disorders Leukemia:malignant cells arise in 8M

that may spread elsewhere (including

blood, lymph nodes,and lymphoid

tissue)

Lymphoma:malignant cells arise in

lymph nodes and lymphoid tissues that

may spread elsewhere (including blood

and 8M)

BUT the location where the malignant

cells are found does not solely define

the type of hematologic malignancy -

classified based on the characteristics

of the cell (histology,histochemistry,

immunophenotyping,cytogenetics,

molecular changes)

Chronic

Lymphocytic

Leukemia (CLL)

NaTve

MATURATION Acute

Lymphocytic Leukemia (ALL)

Multiple Myeloma

(MM)

Lymphomas OF

CELLS

Germination

») •

B-lymphocytes

Hematopoietic

stem cell

Lymphoid

progenitor

Plasma cell

T-lymphocytes

MATURATION Acute Myelogenous Leukemia (AML) Myeloproliferative Disorders Acute Leukemia

Definition (WHO):presence of 20%

blast cells or greater in the peripheral

blood or BM at presentation

Classification:divided into myeloid

(AML) and lymphoid (ALL) depending

on whether blasts are myeloblasts or

lymphoblasts,respectively

01

> Neutrophils

" Eosinophils

Basophils

CELLS

Granulocytes

Chronic Myelogenous

Leukemia (CML)

Monocytes

. >’

K

- , > Platelets

>

^^

Red Cells

if w Chronic Myelomonocytic

Leukemia (CMML)

Hematopoietic

stem cell

Myeloid

progenitor

Typical Age of Presentation of

Leukemias

ALL:Children and older adults

CML: 40-60 yr

AML, CLL:>60 yr

>

Essential Thrombocytosis --

Polycythemia Vera

Figure 15. Hematopoietic derivation of hematologic disorders

( Hematological Malignancies and Related Disorders)

Auer rods are pathognomonic for AML

( Lymphoid Disorders ) ( Myeloid Disorders )

Bask Initial Workup for all Hematologic

Malignancies:

1. ALL WOMEN OF CHILDBEARING AGE

must have a b-HCG before initiation of

treatment of any cancer diagnosis

2.ALL PATIENTS MUST HAVE Hepatitis

8 surface antibody (HBsAb),Hepatitis

B surface antigen (HBsAg),Hepatitis

B core antibody (HBcAb) collected

irrespective of cancer diagnosis and

must be treated to avoid reactivation

3. All aggressive lymphoma patients

must be screened for HIV

4.All patients must be screened for TB

risk factors

I I t

Lymphomas

• Hodgkin

• Non-Hodgkin

• B Cell

• T Cell

• Other cell origin

le g NK)

• Waldenstrom's

macroglobulinemia

Plasma Cell Dyscrasias

• Multiple myeloma

• MGUS

Leukemia

• ALL

• CLL

Leukemia

•AML

MPNs

•PV

•ET

•CML

•IMF

Figure 16. Overview of hematologic malignancies and related disorders

Myeloid Malignancies

Cure: survival that parallels agematched population

Complete Remission:tumour load

below threshold of detectable disease

(normal peripheral blood film,normal BM

with<5% blasts,normal clinical state)

Acute Myeloid Leukemia

Definition

• rapidly progressive malignancy characterized by failure of myeloid cells to differentiate beyond blast

stage

Epidemiology

• incidence increases with age; median age of onset is 65 yr; 80% of acute adult leukemias

• accountsfor 10-15% of childhood leukemias

Risk Factors +

• male, older age,smoking, obesity, MDS, benzene, radiation, Down Syndrome, alkylating agents, and

radiation therapy astreatment for previous malignancy

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Pathophysiology

• etiology subdivided into:

primary:de novo

secondary:hematologic malignancies (e.g.myeloproliferative disorders and MDS) or previous

chemotherapeutic agents(e.g.alkylating agents)

• uncontrolled growth of blastsin marrow leads to:

suppression of normal hematopoietic cells

appearance of blasts in peripheral blood -risk of leukostasis

accumulation of blasts in other sites (e.g.skin, gums)

• metabolic consequences; T'

LS

Clinical Features

• signs and symptoms develop over a period of weeks

• manifestations of BM failure

• anemia, thrombocytopenia (associated with DIC in APL), neutropenia (and infection/fever)

• accumulation of blast cells in marrow

skeletal pain,bony tenderness (especially sternum)

• organ infiltration

gingival hypertrophy (particularly myelomonocytic leukemia) - may present to dentist first

CNS extramedullary involvement:confusion or altered mentalstatus

hepatosplenomegaly (also present in ALL)

lymphadenopathy

• skin:leukemia cutis

eyes: hemorrhages and/or whitish plaques, Roth spots, cotton wool spots, and vision changes

(uncommon)

• leukostasis/hyperleukocytosis syndrome (medical emergency)

large numbers of blasts interfere with circulation and lead to hypoxia and hemorrhage - can

cause diffuse pulmonary infiltrates, CNS bleeding, respiratory distress, altered mental status, and

priapism

more commonly associated with AML than ALL

• metabolic effects (aggravated by treatment)

-

T'

LS

increased uric acid -» nephropathy, gout

release of phosphate -> decreased Ca - decreased Mg -

’

release of procoagulants -> DIC (higher risk in APL)

hyperkalemia pre-treatment from blastic proliferation and spontaneous T'LS,further

hyperkalemia after treatment (from lysed cells). Note -some forms of AML can present with

hypokalemia due to secreted muramidase that causes K+ wasting from renal tubules

Investigations

• blood work

• CBC: anemia, thrombocytopenia, variable VVBC (most often cytopenias + blasts)

• INR, aPT T , I DP,fibrinogen (in case of DIC)

increased LDH, increased uric acid, increased POr

^

-(released by leukemic blasts), decreased Ca 2 t

,

increased/decreased K*

baseline renal and liver function tests

if considering treatment:screen for HBV, HCV, HIV,CMV serology

• peripheral blood film - circulating blasts with Auer rods (azurophilic granules) are pathognomonic

for AML

• BM aspirate for definitive diagnosis

• blast count:AML >20% (normal is <5%)

morphologic, cytogenetic, and/or immunophenotypic features are used to establish lineage and

maturation

• CXR to rule out pneumonia; ECCi, MUCiA scan prior to chemotherapy (cardiotoxic)

Treatment

• mainstay of treatment is chemotherapy (rapidly fatal without treatment)

• patients who are not eligible for intensive chemotherapy can be treated with low-dose cytarabine and

hvpomethylating agents in combination with venetodax (BCL-2 inhibitor)

• all AML subtypes are treated similarly, except APL with t(15:17) translocation

1. induction:chemotherapy to induce complete remission of AML

several possible regimens

patients with poor response to initial induction therapy - worse prognosis

supportive care - management ofTLS and DIC,febrile neutropenia/infections, transfusion

support (including platelet transfusions if <10 x I0’/L)

2. consolidation: to prevent recurrence

intensive consolidation chemotherapy

stem cell transplantation - allogeneic (younger patients with better performance status and/

or adverse cytogenetics)

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Hi1 Hematology Toronto Notes 2023

•supportive care

fever: pan-cultures,CXR,and start broad-spectrum antibiotics

• platelet and RBC transfusions

prevention and treatment of metabolic abnormalities

* allopurinol,rasburicase for prevention/management of hyperuricemia

• leukostasis

needs immediate cytoreductive therapy (i.e. hydroxyurea)

treatment strategy for APL

APL is an emergency as 13IC is often present at diagnosis

*

ATRA added to induce differentiation (should be started ASAP if APL is in the differential);

arsenic trioxide and ATRA combination therapy for APL issuperior to traditional

chemotherapy

%

MDS is a cause of macrocytic anemia

Efficacy of AiacitidineCompared with that ol

Conventional Caro Rojimeasin the Treatment

of Higher-risk Myelodysplastic Syndromes:a

Randomized, Open-label, Phase III Study

Uncet Oncol 2009;10:223-32

Purpose:la compare the efficacy of aiacitidine to

conventional core regimens (CMs) in patientswith

high- risk MDS.

Methods: 3'

J8 patients were randomly assigned

to receive aiacitidine (75 mg/npfd lor J days every

28days)or CCR (intensive chemo therapy, low-dose

cytarabine.orsipportive care atone).

Results:At median follow-up of 21.1 months,

aracitidinf treatment was associated with

significantly gieater median overall survival as

compared to OCRs (24.S months vs.1S.0 months,

respectirely: hazard ratio 0.58:85% Cl 0.43-0.77;

P’

0.0001).50.8% of patientsreceiving aiacitidine

were alive at 2 yearsas compared to 26.2% of

patients receiving CCRs(p<0.000l).Ihe most

frequent grade 3-4 adrerse event for all treatments

were peripheral cylopenias.

Conclusion: In patients mti high -risk M0S.

azacitidme treatmentsignificantly increases overall

survival as compared to conventional care.

Prognosis

•achievement of first remission

• 70-80% if S60 y/o, 50% if >60 y/o

median survival 12-24 mo

prognosis depends on cytogenetics, age, performance status, prior cytotoxic agents, or radiation

therapy

Myelodysplastic Syndromes

Definition

• heterogeneous group of malignant stem cell disorders characterized by dysplastic and ineffective

blood cell production resulting in peripheral cytopenias, and a variable risk of transformation to acute

leukemias

• syndromes defined according to WHO classifications

Pathophysiology

• disordered maturation:ineffective hematopoiesis despite presence of adequate numbers of progenitor

cells in BM (usually hypercellular); formed elements sometimes exhibit morphological and functional

defects

• intramedullary apoptosis: programmed cell death within BM

• both processeslead to reduced mature cells in periphery

• <30% develop AML

Risk Factors

• elderly, post-chemotherapv, exposures (benzene, tobacco, radiation), inherited genetic abnormalities

• incidence: 50 persons per million per year, rises to 200- 400 per million per year for age 70 or older

Clinical Features

• highly variable, commonly presents with symptoms of anemia (fatigue and dyspnea),

thrombocytopenia (bruising, bleeding, or petechiae), and neutropenia (recurrent infections) over

months-years

Investigations

• diagnosed by:

anemia ± thrombocytopenia ± neutropenia

• CBC and peripheral blood film

RBC: usually macrocytic with oval shaped red cells (macro-ovalocytes),decreased reticulocyte

count

• WBC:decreased granulocytes and abnormal morphology (e.g. bi-lobed or unsegmented nuclei

=

Pelger abnormality)

platelets: thrombocytopenia, abnormalities of size, and cytoplasm (e.g. giant hypogranular

platelets)

• BM aspirate and biopsy with cytogenetic analysis required for definitive diagn

BM: dysplastic and often normocellularfhypercellular

• cytogenetics: high-risk (partial or total loss of chromosome 7) and complex (>3 abnormalities)

Treatment

• low-risk of transformation to acute leukemia (Revised International Prognostic Scoring System

(IPSS-R) Very Low or Low)

EPO stimulating agents weekly is first line in reducing transfusion requirements (EPO level must

be <500 IU/L)

• if 5q deletion based on cytogenetics:lenalidomide PO

• supportive care:RBC and platelet transfusion (consider iron chelation if frequent RBC

transfusions)

• high-risk of transformation to acute leukemia (IPSS-R intermediate, high or very high)

supportive care (transfusion support)

• epigenetic therapy: DNA methyltransferase inhibitors (e.g. 5-azacltidine)

consider stem cell transplantation according to patient factors (age, frailty, overall health)

osis

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II 12 Hematology Toronto Notes 2023

Prognosis

• IPSS-R uses 5 factors to estimate mean survival:

cytology,% BM blasts, Hb, platelets, and ANC

based on the calculated score, a patient’s \1DS prognostic risk is “Very Low”, “Low",

“Intermediate”, “High", or “Very High" with a mean survival of 8.7, 5.3, 3.0, 1.6, and 0.8 yr,

respectively

Myeloproliferative Neoplasms

Definition

• clonal myeloid stem cell abnormalities leading to overproduction of one or more cell lines

(erythrocytes, platelets,and other cells of myeloid lineage)

Epidemiology

• mainly middle-aged and older patients (peak 60-80 yr)

Prognosis

• may develop marrow fibrosis with time

• all disorders may progress to AML

Table 31. Chronic Myeloproliferative Disorders

Use of Epoetin and Darbepoetin in Patients witii

Cancer

Bond 2008111:25-41

Clinical practice guideline update by American

Societies of Kematu'ogy and Clinical Oncology (2010).

Initial Becommcndatiors

1. Initiate an ESA when Hb Is 100 gll

(10 gdl) in patients with palbalive chemotherapy

associated anemia lo decrease the need loi

transfusions

2. DscoctmuelSts when patient not respondmg to

treatment beyond 6-8 wk

3. Homtor iron stores and supplement lion intake for

ESA-treated patients when necessary

4. Use ESAs cautiously with chemotherapy orin

patients with an derated risk for thromboembolic

complications

5.1is Ml recommended that ESAbeused for therapy

in patients with cancel who are not recenmg

chemotherapy, asit increases thromboembolic

inks and lowerssurvival late. Patients with low

ink myelodysplasia are an cicepbon

CML PV IMF ET

Hct IN 1 1 a H

WBC t eta N

*

Pit t / a t /a n t

Marrow Fibrosis

Splenomegaly

Hepatomegaly

Genetic Association

2 i +++ t

+++

++

BCR ABlmut. JAK2 mut.|96%) JAK2 mut. (“50%)

CALR mut. ("30%)

JAK2 mut.("50%)

CALR mut.("30%)

MDS ineffective maturation

MPN overproduction of mature cells Chronic Myeloid Leukemia

Definition

• myeloproliferative disorder characterized by increased proliferation of the granulocytic cell line

without the loss of their capacity to differentiate

Epidemiology

• occurs in any age group (mostly middle age to elderly) with a median age of 65 yr

Pathophysiology

• Rh chromosome

• translocation between chromosomes 9 and 22 is necessary and sufficient to result in CML

• the c-Abl proto-oncogene is translocated from chromosome 9 to “breakpoint cluster region”

(BCR) of chromosome 22 to produce BCR-ABL fusion gene, a constitutively active tyrosine kinase

Clinical Features

• 3 clinical phases

chronic phase: 85% diagnosed here

few blasts(<10%) in peripheral film

± slightly elevated eosinophils and basophils

no significant symptoms

• accelerated phase:impaired neutrophil differentiation

circulating blasts (10-20%) with increasing peripheral basophils (pruritus)

CBC: thrombocytopenia <100 x lO’/L or thrombocytosis

cytogenetic evidence of clonal evolution

worsening constitutional symptoms and splenomegaly (extramedullary hematopoiesis)

• blast crisis: more aggressive course, blasts fail to differentiate

blasts (>20%) in peripheral blood or BM; reflective of acute leukemia (1/3 ALL, 2/3 AML)

• clinical features

20-50% of patients are asymptomatic when diagnosed (incidental lab finding)

nonspecific symptoms

fatigue, weight loss, malaise, excessive sweating, fever

Basophilia is uncommon in other medical

conditions

Chronic Myeloproliferative Neoplasias:11-Year

Follow-Up ol Patients Receiving Imatinib lor the

first-line Treatment olCMl

NEJM 2012:376:917 927

Study long- term outcomes ol imatnnb treatment for

throait myeloid Itukemla.

Methods 1106 patients with Pn positive CML in

the cbionic phase were randomiied 1:1to unatinib

or interferon alpha plus cytaiabine.Crossover to

imatnnb was at lowed if no response by 6 mo or major

cytogenetic response by12 mo.

Resnlts:Assessing the unatinib arm after a median

of II yearsof follow- up.the complete cytogenetic

response rate was 83V Among patients who atta ned

a major molecular response alter 18 moot imatinib

tbeiapy.the overall survival at 10 yeais was 93% and

freedom lion CMl-related deaths was100%.

Conclusion : this 11-year update ol IRIS demonstrates

Ibe efficacy and safely of imatinib asliist-line therapy

for CMl patients.

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H43 Hematology Toronto Notes 2023

secondary tosplenic involvement

early satiety, LUQ pain/fullness,shoulder tip pain (referred)

splenomegaly (most common physical finding)

• anemia

bleeding:secondary to platelet dysfunction

• pruritus, PUD:secondary'to increased blood histamine

leukostasis, priapism,encephalopathy (rare):secondary to very elevated WBC (rare)

Investigations

•CBC with differential

elevated WBCs, decreased/normal RBCs, increased/decreased platelets, increased basophils

WBC differential shows a bimodal distribution, with predominance of myelocytes and

neutrophils

•peripheral blood film

leukoerythroblastic picture (immature red cells and granulocytes present, e.g. myelocytes and

normoblasts)

presence of different mid-stage progenitor cells differentiates it from AML

•BM biopsy

myeloid hyperplasia with left shift, increased megakaryocytes, mild fibrosis

•molecular and cytogenetic studies of BM or peripheral blood for Ph chromosome (or BCR-ABL

transcripts)

•abdominal imaging for spleen size

Treatment

•prophylactic:allopurinol

•chronic phase

imatinib mesylate inhibits proliferation and induces apoptosis by inhibiting tyrosine kinase

activity in cells positive for BCR-ABL. 2nd/3rd generation can be used as first line therapy

if loss of response or intolerance (~40%), trial of 2nd or 3rd generation TKls: dasatinib,

nilotinib,or bosutinib. Note:ponatinib only provided for theT3151 mutation

interferon-a: may improve response to TKls; typically now only used for pregnant patients

hydroxyurea in palliative setting to reduce WBCs

•accelerated phase or blast phase

for imatinib-naive patients, use imatinib

refer for clinical trial or 2nd/3rd generation TK1 and prepare for allogeneic stem cell transplant

patients, in blast phase typically get standard induction for acute leukemia

•stem cell transplantation may be curative: to be considered in young patients who do not meet

therapeutic milestones

•treatmentsuccessis monitored based on therapeutic milestones

hematologic: improved WBC and platelet counts, reduced basophils

cytogenetic: undetectable Rh chromosome in the BM

molecular:reduction/absence of BCR-ABL transcripts in periphery and marrow

Prognosis

•survival dependent on response

those achieving complete cytogenetic response (CCR) on imatinib by 18 mo of therapy:6 yr

overall survival >90%

those who do NOT'

achieve CCR on imatinib: 6 yr overall survival of 66%

•acute phase (blast crisis - usually within 3-5 yr of presentation if untreated CML)

2/3 acute phase CML have cellular featuressimilar to AML

unresponsive to remission induction

1/3 acute phase CML have cellular featuressimilar to ALL

remission induction (return to chronic phase) achievable

Erythromelalgia is a pathognomonic

miciovascular thrombotic complication

in PV and ET

Polycythemia Vera Cardiovascular Events and Intensity of Treatment

in Polycythemia Vera

NEJM 2013:368:22-33

Study:Prospective.PCI.mean follow-up of 283mo.

8hnding not described.

Population: 355 patients with MK2- posrtne

polycythemia sera being treated with phlebotomy,

hydrosyuiea.or both.

Intervention: Patients were randomned to a target

hematocrit <45% (low-hematocrit groopt or 45-50%

(high-hematocrit group).

Outcome:Composite of time unbl death from

cardiovascular causes of major thrombotic events.

Results:(he hazard ratio (Hi) for the primary

outcome was 3.91(95% Cl 1.45-10.53.P-0.00J).

while the HR for the primary outcome plussuperficial

venousthrombosis was 2.59 (95% Cl1.19-5.12.

P*

0.02|lor the high-hematocrit vs.low-hematocrit

group.

Conclusions:The hematocrit target of <45% was

associated with a lower incidence of CV death,mayor

thrombotic events,and supetheial venousthrombosis

in patientswith polycythemia vera.

Definition

• stem cell disorder characterized by elevated RBC mass (erythrocytosis) ± increased white cell and

platelet production

• diagnosis (WHO 2016) requires meeting either all 3 major criteria, or the first 2 major criteria and the

minor criterion

Major Criteria

1. Hb >165 g/L in men, >160 g/L in women, OR Hct >49% in men or >48% in women,OR

increased red cell mass (>25% above mean normal predicted value)

2. BM biopsy showing hypercellularity for age with trilineage growth ( panmyelosis) with

prominent ervthroid, granulocytic, and megakaryocytic proliferation

3. presence of )AK2 V617F or|AK2 exon 12 mutation

• Minor Criterion

1.serum EPO level below reference range for normal (must have the first two major criteria if

using EPO level) +

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H*H Hematology Toronto Xotes 2023

Clinical Features

• symptoms are secondary to high red cell mass and hyperviscosity (see Erythrocytosis, H7 )

• thrombotic complications:DVT, PE,Budd-Chiari (hepatic vein thrombosis), portal vein thrombosis,

thrombophlebitis, increased incidence ofstroke/TIA, and Ml

due to increased blood viscosity, increased platelet number,and/or activity

bleeding complications: epistaxis, gingival bleeding, ecchymoses, and Cil bleeding

if high platelet counts:associated with acquired VWD (although seen more with ET)

• erythromelalgia (burning pain in hands and feet and erythema of the skin)

associated with platelets >400 x 10*/L

pathognomonic microvascular thrombotic complication in PV and ET

• pruritus, especially after warm bath orshower (40%) due to cutaneous mast cell degranulation and

histamine release

• epigastric distress, PUD

due to increased histamine from tissue basophils, alterations in gastric mucosal blood (low due to

increased blood viscosity

• gout (hyperuricemia), due to increased cell turnover

• characteristic physical findings

plethora (ruddy complexion) of face (70%), palms

» splenomegaly (70%), hepatomegaly (40%)

Efficacy andSafety ollowiios« Aspirin:

in

Polyeythenaia Vera

NEJM 2004:350:114124

Study: Do.S e blind, placebo coitiolled. RC1.

Participants:518 patientswith polycythemia vera

(PV) with nodear indication for.ot contraindication

MSA therapy.

Intervention : Patients received either tow-dose ASA

100 mg daily|n*2S3|or placebo|a*265) and were

followed for uptoSyr.

Primary Outcome:Cumulative rate of (II nonfatal Ml,

nonfatalstroke,or death from cardiovascular causes

and the cumulative lateof|ll) the perilus 3 plus PE

and major venousIhiombosis.

•suits:Prunary outcomes(I) ard (II) were reduced

with treatment compared to placebo (RR 0,41; P-0.09

and PR 0.4;N1.03,respectively),there were no

differences in overall orcardiovascutar mortality and

major bleedmg episodes.

Conclusion low dose ASA can safely prevent

thrombotic complicationsin patients with PV.

Investigations (see Eryllirocylosis, H7)

• must rule outsecondary polycythemia if high EPO level

Treatment

• phlebotomy to keep hematocrit <45%

• hydroxyurea (prior thrombosis orsymptoms,severe coronary artery disease, refractory to

phlebotomy)

• ruxolitinib for those with insufficient response or intolerance to hydroxyurea

• low-dose ASA (for antithrombotic prophylaxis, will also treat erythromelalgia)

• allopurinol: as needed

• antihistamines:as needed

Ruxolitinib Versus Standard therapy for the

Treatment of Polycythemia Vera

HIM 2015:372:426-35

Purpose:To evaluate the efficacy andsafety of

ruxolitinib vs.standardtherapy in patents with PV

who had insufficient responses or eitoleiible side

elfects with hydroxyurea.

Methods: 232 phlebotomy-dependent patients with

splenomegaly were randomly assigned to receive

ruxolitinib or standard therapy.

Primary Outcome:Hematocrit control through week

32 and spleen volume reduced >35% at week 32.

Results: 213, ol patients on ruxolitinib vs.1% of those

on standard -therapy achieved the primary outcome

(P<0.001|.C03i of patientson ruxolitinib and 20% on

standard therapy achieved henatocrit control. >35%

reduction in spleen volumewasseen in 30% and 1%

of patients in the two groups, respectively.Compared

to standard-therapy,ruxohtiinbwas associated with

a significantly greater rate of complete hematologic

remission (24% vs.9%;P-0.003).

Conclusion:Ruxolitinib wassuperior to standard

therapy m controlling hematocrit,reducing the spleen

volume, and improving symptomsassociated with

PV in patientswho had insufficient responsesor

intolerable side effects with hydroiyurea.

Prognosis

• 10-20 yr survival with treatment

• complicated by thrombosis, hemorrhage, leukemic transformation (AML)

Idiopathic Myelofibrosis

Definition

• excessive BM fibrosis leading to marrow failure

• characterized by anemia,extramedullary hematopoiesis,leukoerythroblastosis,teardrop red cells in

peripheral blood, and hepatosplenomegaly

Epidemiology

• rare, median age at presentation is 65 yr

Pathophysiology

• abnormal myeloid precursor postulated to produce dysplastic megakaryocytes that secrete fibroblast

growth factors

stimulates fibroblasts and stroma to deposit collagen in marrow

• increasing fibrosis causes early release of hematopoietic precursorsleading to:

leukoerythroblastic blood film (see below)

migration of precursorsto other sites: extramedullary hematopoiesis (leading to

hepatosplenomegaly)

Clinical Features

• anemia (severe fatigue is most common presenting complaint, pallor on exam in >60%)

• weight loss, fever, night sweats -> secondary to hypermetabolic state

• splenomegaly (90%) > secondary to extramedullary hematopoiesis; may cause early satiety and severe

left upper quadrant pain.

• hepatomegaly (70%) -> may develop portal hypertension

• bone and joint pain > secondary to osteosclerosis, gout

• signs of extramedullary hematopoiesis (depends on organ involved)

Investigations

• CBC: anemia, variable platelets, variable WBC

• biochemistry: increased ALP (liver involvement, bone disease), increased LDH (2°to ineffective

hematopoiesis), increased uric acid (increased cell turnover), increased Bit (2°to increased neutrophil

mass)

• blood film:leukoerythroblastosis with teardrop RBCs, nucleated RBCs, variable polychromasia, large

platelets, and megakaryocyte fragments

• molecular test: )AK2 (70%) and CALR(25%) mutations

• BM aspirate:

“dry tap"

in as many as 50% of patients(no marrow spicules aspirated)

• BM biopsy (essential for diagnosis):fibrosis, atypical megakaryocytic hyperplasia,thickening and

distortion of the bony trabeculae (osteosclerosis)

Myelofibrosis can be either primary

(idiopathic) or occur as a transformation

of an antecedent PV or ET

A "leukoerythroblastic" blood film (RBC

and granulocyte precursors) implies

BM infiltration with malignancy (eg.

leukemias,solid tumour metastases) or

fibrosis (e.g.IMF)

IMF typically has a dry BM aspirate

and teardrop RBCs (aspiration gives no

blood cells)

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H15 Hematology Toronto Notes 2023

Treatment

• allogeneic stem cell transplant is potentially curative

• )AK2 inhibitors(ruxolitinib, fcdratinib, or hydroxyurea)

• symptomatic treatment

• transfusion for anemia

• EPO: 30-50% of patients respond

androgensfor anemia (e.g.danazol has shown transient response with response rates of <30%)

hydroxyurea forsplenomegaly, thrombocytosis, leukocytosis,and systemic symptoms

interferon-a (assecond line therapy)

splenectomy (as third line therapy;associated with high mortality and morbidity)

• radiation therapy for symptomatic extramedullary hematopoiesis, and symptomatic

splenomegaly

« Double 8lind. Placebo Controlled Trial of

Ruxolilinib for Myelofibrosis

NE JM 2012:356:799-807

Study: Oouble-bliodedRCI of 309 patients wits

myelofibrosis raodomued to ruiolitinib or placebo.

Outcome:Primary outcomewas reduction in spleen

volume of »35% at 24*

rtSecondary outcomeswere

durability of response,symptom burden, and overall

survival.

Results: l greater proportion of patients an

ruiolitinib bad reduction in spleen volume >35%

(41.9% vs.0.7%|and Ibiswassustained in tJ%

at 41wk. tusobtimb also led to greatersymptom

improvement(45% vs.5.3%) and less mortality (13 vs.

24).There was no difference in rateof discontinuation

doe toadverse events(11.0% vs.10.6%) but anemia

and thrombocytopenia were more common with

ri.nr till b

Conclusions: luiolihiubreducedspleen sue,and

Improved symptoms and survival, compared with

placebo.

Prognosis

• Dynamic International Prognostic Scoring System (D1PSS) Plusfor IMF uses 5 risk factors along with

karyotype, platelet count, and transfusion statusto predict survival

presence of constitutionalsymptoms; age >65; Hb <100 g/L;leukocyte count >25000/mm 3,

circulating blast cells 21%

• based on the calculated score, a patient'

s IMF is categorized as “low", “intermediate I

",

“intermediate 2",or "high"with a mean survival of 185, 78, 35, and 16 mo, respectively

eligible patients with intermediate 2 or high risk DIPSS are considered for allogeneic stem cell

transplant

risk of transformation to AML (8-10%)

Essential Thrombocythemia

Definition

• overproduction of platelets in the absence of recognizable stimulus

• must rule outsecondary thrombocythemia

Epidemiology

• increases with age; F:M=2:1, but F=M at older age

Diagnosis (2008 WHO Criteria Revised in 2016) requires meeting all four criteria

1.sustained platelet count >450 x 10’/L

2. BM biopsy specimen showing proliferation mainly of the megakaryocytic lineage with increased

number of enlarged, mature megakaryocytes; no significant increase or left shift of neutrophil

granulopoiesis or erythropoiesis

3. not meeting WHO criteria for PV, primary myelofibrosis, BCR-ABL CML, or MDS or other myeloid

neoplasms

4. most patients have a mutation in|AK 2 V617F, CALR, or MPL. A minority (~ I0%) have a mutation in

some other gene, which causes proliferation (hence “clonal marker")

Etiology of Secondary

Thrombocythemia

Infection

Inflammation (1BQ arthritis)

Malignancy

Hemorrhage

Iron deficiency

Hemolytic anemia

Post-splenectomy

Post-chemotherapy

Drugs (vinca alkaloids)

Clinical Features

• often asymptomatic

• vasomotorsymptoms (40%)

• headache (common), dizziness,syncope

• crythromelalgia (burning pain of hands and feet, dusky colour, usually worse with heat, caused

hy platelet activation -> microvascular thrombosis)

• thrombosis (arterial and venous)

• bleeding (often GI; associated with platelets >1000 x 107L)

• constitutionalsymptoms,splenomegaly

• pregnancy complications; increased risk of sp

• risk of transformation to AML (0.6-5%),myelofibrosis

ontaneous abortion

Investigations

• CBC:increased platelets:may have abnormal platelet aggregation studies or V WD studies

•|AK2 (and other) mutational assays

• BM hypercellularity, megakaryocytic hyperplasia, giant megakaryocytes

• increased K +,increased P043-(2°to release of platelet cytoplasmic contents)

diagnosis:exclude other myeloproliferative disorders and reactive thrombocytosis

Treatment

• low dose ASA

• cytoreductive therapy if thrombosis or thrombotic symptoms: hydroxyurea (HU) (lst-line therapy),

anagrelide, interferon-a, or 32P (age >80 or lifespan <10 yr)

There Is an asymptomatic “benign" form

of essential thrombocythemia with a

stable or slowly rising platelet count:

treatment includes observation, ASA.

sulfinpyrazone,or dipyridamole

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H46 Hematology Toronto Notes 2023

Lymphoid Malignancies

Acute Lymphoblastic Leukemia 75%of ALL occurs in children <6yn

second peak at age 40

Definition

• malignant disease of the BM in which early lymphoid precursors proliferate and replace normal

hematopoietic cells

• WHO subdivides ALL into two types depending on cell of origin

I. B-cell: precursor B lymphoblastic leukemia

2. T-cell: precursor T lymphoblastic leukemia

• the l-

'

rench-American-British (LAB) classification (LI, L2, L3) is no longer encouraged, as morphology

is not prognostic

Clinical Features

• see Acute Myeloid Leukemia, H39 for full list ofsymptoms

• distinguish ALL from AML based on Table 32

• clinical symptoms usually secondary to:

• BM failure: anemia, neutropenia (50% present with fever; also infections of oropharynx, lungs,

perianal region), and thrombocytopenia

organ infiltration: tender bones, lymphadenopathy. hepatosplenomegaly, meningeal signs

(headache, N/ V, visual symptoms; especially in ALL relapse)

Investigations

• >20% BM or peripheral blood lymphoblasts, with samples collected for flow cytometry,q'togenetics,

and molecularstudies

• Ph chromosome in ~25% of adult ALL cases

• CBC:increased leukocytes >100 x 109/L (occurs in 50% of patients); neutropenia, anemia, or

thrombocytopenia

• screen for TLS: increased uric acid, K '

, POTJ-, low Ca1

,

, high LDH

• screen for DIC: FT, aPTT,fibrinogen

• CXR: patients with ALL may have a mediastinal mass

• CT C/A/P and testicular ultrasound to screen for extranodal disease

• mandatory lumbar puncture to assessfor CNS involvement (ensure adequate platelet count and PT7

FITand delay until blasts have cleared from peripheral blood) at the time treatment is initiated

• HIV, HBV, HCV serologies,CMV Ab testing

Treatment

• eliminate abnormal clonal cells

1. induction chemotherapy:to induce complete remission, <5% blasts (restore normal hematopoiesis)

2. consolidation and/or intensification of chemotherapy

consolidation: continuing same chemotherapy to eliminate subdtnlcal leukemic cells

intensification: high doses of different (non-cross-reactive) chemotherapy drugs to eliminate

cells with resistance to primary treatment

3. maintenance chemotherapy:low dose intermittent chemotherapy over prolonged period (1 yr) to

prevent relapse

4.prophylaxis:CNS radiation therapy or methotrexate (intrathecal orsystemic)

• hematopoietic stem cell transplantation (for certain indications):potentially curative (due to pretransplant myeloablative chemoradiation and post-transplant graft-versus-leukemia effect) but relapse

rates and non-relapse mortality high

if BCK-ABL positive, tyrosine kinase inhibitors started up front and given continuously

• in relapse setting,CAR T-cell therapy, inotuzumab,or blinatumomab

Prognosis

• depends on response to initial induction, minimal residual disease testing or if remission is achieved

following relapse

• good prognostic factors: young, WBC <30 x 109/L,T-cell phenotype, absence of Ph chromosome, early

attainment of complete remission

• achievement of first remission:60-90%

• childhood ALL:75% long-term remission (>5 yr)

higher cure rates in children because of better chemotherapy tolerance, lower prevalence of BCRABL fusion gene (associated with chemotherapeutic resistance)

• adult ALL: 30-40% 5 yr survival

Treatment

m

ot ALL vs. AML

No proven benefit of maintenance

chemotherapy in AML

No routine CNS prophylaxis In AML

Table 32. Differentiating AML From ALL

<

*

>

AML ALL

Big people (adults)

Big blasts

Big mortality rate

Lots of cytoplasm

Lots of nucleoli(3-5)

Lots of granules and Auer rods

Myeloperoxidase. Sudan black stain

Maturation delect beyond myeloblast or promyelocyte

Small people (kids)

Small blasts

Small mortality rate (kids)

Less cytoplasm

Few nucleoli (1-3)

No granules andno Auer rods

PAS (periodic acid-Schlff)

Maturation defect beyond lymphoblast

To Differentiate AML from ALL

Remember Big andSmALL

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Hi7 Hematology Toronto Notes 2023

Lymphomas

Definition

• collection of lymphoid malignancies in which malignant lymphocytes accumulate in lymph nodes

and lymphoid tissues

• leading to Ivmphadenopathy, extranodal disease, and constitutional symptoms

Table 33. Ann Arbor System for Staging Lymphomas

American Society of Hematology

Choosing Wisely Recommendation

Limit surveillance CT scans in

asymptomatic patients after curativeintent treatment for aggressive

lymphoma

Stage Description

I Involvement of a single lymph node region or extralymphatic oigan/site (Stage IE)

Involvement ol:2 lymph node regions or an extralymphatic site and lymph node regions on same side of diaphragm

Involvement of lymph node regions on both sides of the diaphragm;may or may not be accompanied by single extra lymphatic site

or splenic involvement

Diffuse involvement of one or more extralymphatic organs includingBM

II

III

IV

• subtypes

A = absence of B-symptoms(tec Approach to Lymphaclcnopathy, H 12 )

B = presence of B-symptoms

Table 34. Chromosome Translocations

• Ann Arbor staging can be used for

both Hodgkin and non-Hodgkin

lymphoma,but gradefhistology is

more important for non-Hodgkin

lymphoma because the outcome

differs significantly depending on

type of lymphoma

• Prognostic scores are different for

indolent vs.aggressive lymphomas

• Highly aggressive lymphomas act like

acute leukemias

Translocation Gene Activation Associated Neoplasm

«(2:5) ALK1 mutation Anaplastic large celllymphoma

Burkitt's lymphoma

Follicular lymphoma

Mantle cell lymphoma

Mucosa-associated lymphoid tissue (MAlt)

t(8;14)

t(14;18)

c-Myc activation

Bcl-2 activation

Overexpression of cyclin D1 protein

MAlfl activation

1(11:14)

« (11:18)

Hodgkin Lymphoma

Definition

• malignant proliferation of lymphoid cells with Reed-Sternberg cells

Epidemiology

• bimodal distribution with peaks at 20 yr and >50 yr

• association with Lpstein-Barr virus in up to 50% of cases and causal role not determined

Clinical Features

• asymptomatic Ivmphadenopathy (70%)

non-tender,rubbery consistency

cervical/supraclavicular (60-80%), axillary (10-20%), inguinal (6-12%)

• splenomegaly (50%) ± hepatomegaly

• mediastinal mass

• found on routine CX R, may be symptomatic (cough)

rarely may present with superior vena cava syndrome and pleural effusion

• systemic symptoms

B-symptoms (>1 of: unintentional weight loss >10% of body weight within previous 6 mo,

temperature >38°C,or night sweats for 2 wk without evidence of infection), extreme fatigue

especially in widespread disease, and pruritus

• non-specific/paraneoplastic

• starts at a single site in lymphatic system ( node) and spreadsfirst to adjacent nodes

disease progresses in contiguity with lymphatic system

Hodgkin Is distinguished from nonHodgkin lymphoma by the presence of

Reed-Sternberg cells

Hodgkin lymphoma classically presents

as a painless,non-tender,firm,rubbery

enlargement of superficial lymph nodes,

most often in the cervical region

Investigations

• CBC

anemia (chronic disease,rarely hemolytic), eosinophilia, lymphopenia, platelets normal or

increased early disease, and decreased in advanced disease

•

biochemistry

• HIV, HBV. HCV serologies

liver enzymes and/or LI is(liver involvement)

renal function tests (prior to initiating chemotherapy)

• ALP,Ca 2*(bone involvement)

ESR (prognosis), LLtH (staging, monitor disease progression)

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HI8 Hematology Toronto Notes 2023

•imaging

CT chest (lymph nodes, mediastinal mass),CT abdomen/pelvis (liver orspleen involvement), and

PET scan

• cardiac function assessment (MUGA scan or echocardiography): for patients at high-risk of pretreatment cardiac disease (age >60, history of HTN, CHE, PUD,CAD, Ml, CVA), treatment can be

cardiotoxic

PETs:if history of lung disease (COPD,smoking, and previous radiation to lung)

•excisional lymph node or core biopsy confirms diagnosis

•BM biopsy to assess marrow infiltration (only necessary if B-symptoms, PET'

positive marrow on

imaging, nr cytopenia)

Treatment

•stage 1-11: chemotherapy (ABVD (adriamycin, bleomycin, vinblastine, dacarbazine)) followed by

involved field or involved site radiotherapy (XRT)

•stage 111-1V:chemotherapy (ABVD or BEACOPP (bleomycin, etoposide, adriamycin,

cyclophosphamide, vincristine, procarbazine, and prednisone)) ± XRT for bulky disease

•relapse, resistant to therapy: high dose chemotherapy and autologous stem cell transplant, anti

-CD30

Ab therapy

• PE T scan results essential in assessing disease response

Complications of Treatment

•cardiac disease:secondary to XRT, adriamycin cardiomyopathy (1% of patients)

•pulmonary disease:secondary to bleomycin (interstitial pneumonitis)

•infertility: <3% with ABVD (important to discusssperm banking/egg retrieval prior to initiation of

chemotherapy)

•secondary malignancy in irradiated field

• <2% risk of MDS, AML (secondary to treatment, usually within 8 yr)

solid tumours of lung or breast (>8yr after treatment)

• non-Hodgkin lymphoma

•hypothyroidism: post XRT

Prognosis

•Hasendever adverse prognostic factors:

1.serum albumin <40 g/L

2. Hb <105 g/L

3.male

4.stage IV disease

5. age S45 yr

6. leukocytosis (VVBC >15 x I0’/L)

7. lymphocytopenia (lymphocytes <0.06 x I0*/L or <8% of WBC count or both)

•each additional adverse prognostic factor decreasesfreedom from progression at 5 yr (EEP)

Treatment of HL depends on stage:

treatment of NHL depends on histologic

subtype

International Prognostic Factors

Project 1998

Prognostic Factors FFP

84%

1 77%

2 67%

3 60%

4 51%

5-7 42%

FFP -freedom from progression at 5yr

Non-Hodgkin Lymphoma

Definition

• malignant proliferation of lymphoid cells of progenitor or mature B- or T-cells

Classification

• can originate from both B- (85%) and T- or NK- (15%) cells

• B-cell NHL: e.g. diffuse large B-cell lymphoma,follicularlymphoma, Burkitt’

slymphoma, and

mantle cell lymphoma

WHO/REAL classification system:3 categories of NHLs based on natural history

1. indolent (35-40% of NHL):e.g. follicular lymphoma,small lymphocytic lymphoma/CLL, and

mantle cell lymphoma

2. aggressive (

-50% of NHL): e.g. diffuse large B-cell lymphoma

3. highly aggressive (

-5% of NHL):e.g.Burkittslymphoma

'

1-cell NHL:e.g. mycosisfungoides(indolent TCL of the skin), peripheral T-cell lymphoma-not

otherwise specified (PTCL-NOS), and anaplastic large cell lymphoma

Clinical Features

• painless superficial lymphadenopathy, usually >1 lymph node region, rapid growth in aggressive

lymphomas

• can have localized or widespread adenopathy (more common in indolent NHL)

• constitutionalsymptoms are less common in Hodgkin lymphoma

• cytopenia: anemia ± neutropenia ± thrombocytopenia can occur when BM is involved

• abdominal signs ± hepatosplenomegaly, retroperitoneal, and mesenteric involvement

• oropharyngeal involvement in 5-10% with sore throat and obstructive apnea

• extranodal involvement: most commonly Gl tract, testes, bone, and kidney

• CNS involvement in 1% (often with HIV, testicular DLBCL or >2 extranodal sites)

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H49 Hematology Toronto Notes 2023

Investigations

. C;BC;

normocytic normochromic anemia

autoimmune hemolytic anemia rare (more common in CLL)

advanced disease: thrombocytopenia, neutropenia, and leukoerythroblastic blood him

• peripheral blood film may show lymphoma cells

• flow cytometry of peripheral blood only if lymphocytosis is present

. biochemistries, HIV, HBV, HCV serologies

• increase in uric acid

abnormal Ll'Tsin liver metastascs

increased LDH (rapidly progressing disease and poor prognostic factor)

• SPEP and immunoglobulin quantitation (screen for high IgM monoclonal protein and hyperviscosity

in indolent lymphomas,specifically lymphoplasmacytic lymphoma)

• staging:CT neck, chest, abdomen, pelvis, and BM biopsy

• PET imaging pre- and post-therapy to ensure post treatment remission

• diagnosed by:

lymph node biopsy:excisional biopsy is preferred,core biopsy (ENA is unreliable)

BM biopsy:sub-optimal mode of diagnosis as BM is involved in only 30% of high-grade

lymphomas

Treatment

indolent NHL,localized disease (e.g.stage 1or II)

radiotherapy to primary site and adjacent nodal areas

splenectomy:splenic marginal zone lymphoma

• goal of treatment in stage 111 or IV indolent NHL is symptom management

watchful waiting

• radiation therapy for localized symptomatic disease

• bendamustine plus rituximab, an anti-CD20 Ab, is superior to CHOP and rituximab (CHOP-R)

for advanced stage disease

• obinutuzumab ( novel anti-CD20 Ab) issuperior to rituximab for advanced stage follicular

lymphoma (GALLIUM Trial)

• aggressive lymphoma:goal of treatment is curative

combination chemotherapy:CHOP is mainstay, plus rituximab if B-cell lymphoma

• radiation for localized / bulky disease

CNS prophylaxis with high-dose methotrexate if certain sites involved (e.g. testes)

relapse,resistant to therapy: high dose chemotherapy, autologous SCT,CAR T-cell therapy in

second relapse

• highly aggressive lymphoma

• Burkin lymphoma:short bursts of intensive chemotherapy:"CODOX-M” chemotherapy regimen

also often used ± IVAC with rituximab

CNS prophylaxis and (TLS) prophylaxis

Complications

• hypersplenism

• infection

• autoimmune hemolytic anemia and thrombocytopenia

• vascular obstruction (from enlarged nodes)

• bowel perforation

• (TLS particularly in very aggressive lymphoma):sec Tumour Lysis Syndrome, H 54

Prognosis

• follicular lymphoma: Follicular Lymphoma International Prognostic Index is used: age >60; >4 nodal

areas; >6 cm nodal areas;elevated LDH; Lugano stage 11I-1V; Hb <120 g/L; high p-2 microglobulin;

BM involvement

based on calculated risk, mean 5 yr survival ranges from 53-91%

rarely curative, typically relapsing and remitting course with risk of transformation to aggressive

lymphoma such as diffuse large B-cell lymphoma

• diffuse large B-cell lymphoma:

'

Ihe International Prognostic Factor Index is used (5 adverse prognostic

factors):age >60; Ann Arborstage (Ill

-IV ); performance status (ECOG/Zubrod 2-4); elevated LDH; >1

extranodal site

based on calculated risk, mean 5 yr survival ranges from 26-73%

-40% rate of cure

NHL:Associated Conditions

Immunodeficiency (e.g.HIV)

Autoimmune diseases(e.g.SLE)

Infections(e.g.EBV)

Common Chemotherapeutic Regimens

R-CHOP:cyclophosphamide,

hydroxydoxotubicin (Adriamycin!

),

vincristine (Oncovin1), prednisone

ABVO:adriamycin, bleomycin,

vinblastine, dacarbazine

BEACOPP:bleomycin,etoposide,

adriamycin. cyclophosphamide,

vincristine, procarbazine, and

prednisone

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