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CLL, HCL, CML

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... (ie, acute myeloid leukemia, AML). Prior therapy with alkylating agents has not been clearly implicated in causation of terminal leukemia. – PowerPoint PPT presentation

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Title: CLL, HCL, CML


1
CLL, HCL, CML
  • Mirzania.MD
  • pathophysiology

2
Epidemiology and clinical manifestations of
chronic lymphocytic leukemia
3
  • Chronic lymphocytic leukemia (CLL) is one of the
    chronic lymphoproliferative disorders (lymphoid
    neoplasms).
  • It is characterized by a progressive
    accumulation of functionally incompetent
    lymphocytes, which are monoclonal in origin.

4
EPIDEMIOLOGY
  •  CLL is the most common leukemia in Western
    countries
  • The disorder is more common in men with a male to
    female ratio of approximately 1.71.
  • CLL is considered to be mainly a disease of the
    elderly, with a median age at diagnosis of 70
    years.
  • Genetic rather than environmental factors are the
    most likely explanation for these differences.
  • higher incidence among Caucasians as compared
    with African Americans or Asian Pacific Islanders

5
CLINICAL PRESENTATION
  • Symptoms 
  • painless swelling of lymph nodes, often in the
    cervical area, which spontaneously wax and wane,
    but do not altogether disappear.
  • Approximately 25 percent of patients feel
    entirely well with no symptoms when a routine
    blood count reveals an absolute lymphocytosis,
    leading to a diagnosis of CLL.
  • Five to 10 percent of patients present with the
    typical "B" symptoms .

6
Symptoms 
  • an acquired immunodeficiency disorder,
    manifested by infections,
  • autoimmune complications such as hemolytic
    anemia, thrombocytopenia or pure red cell
    aplasia, or exaggerated reactions to insect
    stings or bites (especially mosquito).

7
Signs
  • Lymphadenopathy  The most common abnormal
    finding present in 50 to 90 percent of patients
    among various series.
  • enlargement may be generalized or localized
  • The most commonly affected sites are cervical,
    supraclavicular, and axillary.
  • enlarged nodes in CLL are firm, rounded,
    discrete, nontender, and freely mobile upon
    palpation.

8
Signs
  • Splenomegaly  The spleen is the second most
    frequently enlarged lymphoid organ, being
    palpably enlarged in 25 to 55 percent of cases.
  • usually painless, and nontender to palpation,
    with a sharp edge and a smooth firm surface.
  • Hepatomegaly  Enlargement of the liver may be
    noted at the time of initial diagnosis in 15 to
    25 percent of cases.

9
Signs
  • Skin  Infiltration in the skin (leukemia cutis)
    is the most commonly involved non-lymphoid organ.
    These lesions most commonly involve the face and
    can manifest as macules, papules, plaques,
    nodules, ulcers, or blisters
  • Nonspecific secondary cutaneous lesions may be
    due to infection, bleeding, vasculitis, or
    paraneoplastic pemphigus.
  • Membranoproliferative glomerulonephritis  Membran
    oproliferative glomerulonephritis (MPGN) has
    occasionally been described in CLL, and appears
    to be a paraneoplastic phenomenon mediated by
    deposition and possibly processing of
    cryoprecipitating or noncryoprecipitating
    M-components .

10
Signs
  • Other organ involvement  Virtually any lymphoid
    tissue may be enlarged at diagnosis, including
  • Waldeyer's ring in the pharynx.
  • In contrast to other lymphomas, gastrointestinal
    mucosal involvement is rarely seen in CLL.
  • Similarly, meningeal leukemia is unusual at the
    time of initial presentation.

11
LABORATORY ABNORMALITIES
  • Lymphocytosis   the absolute blood lymphocyte
    threshold for diagnosing CLL has been placed at
    gt5000/microL 5 x 10(9)/L B lymphocytes , a
    significant proportion of patients present with
    counts as high as 100,000/microL 100 x 10(9)/L.
  • Cytopenias  Neutropenia, anemia and
    thrombocytopenia may be observed at the time of
    initial diagnosis, and are usually not severe.
    These can be related to autoimmune hemolytic
    anemia, pure red cell aplasia, autoimmune
    thrombocytopenia, or agranulocytosis.

12
LABORATORY ABNORMALITIES
  • Immunoglobulin abnormalities  Hypogammaglobulinem
    ia is present in approximately 8 percent of
    patients at the time of initial diagnosis and may
    develop in up to two-thirds of patients later in
    the course of the disease. Usually all three
    immunoglobulin classes (IgG, IgA, and IgM) are
    decreased.
  • Polyclonal increases in gamma globulins can be
    seen in up to 15 percent of patients, while a
    monoclonal protein, usually of the same class as
    the surface membrane immunoglobulin, is present
    in up to 5 percent of patients.

13
LABORATORY ABNORMALITIES
  • Other abnormal findings 
  • elevated levels of serum lactate dehydrogenase
    (LDH) and beta-2 microglobulin were found in 60
    percent of patients in one series.
  • Elevations of uric acid, hepatic enzymes (ALT or
    AST) and, rarely, calcium may also be observed.

14
immunophenotype
  • Expression of one or more B-cell associated
    antigens as demonstrated by CD19, CD20, CD21,
    CD23, and CD24.
  • Expression of CD5, a T-cell associated antigen

15
Staging and prognosis of chronic lymphocytic
leukemia
  • NATURAL HISTORY 
  •  prolonged (ie, 10 to 20 years) clinical
    course(1/3).
  • Some patients die rapidly, within two to three
    years from diagnosis.
  • Other patients live for 5 to 10 years with an
    initial course that is relatively benign followed
    by a terminal phase lasting one to two years.
    During this terminal phase there is considerable
    morbidity, both from the disease itself and from
    complications of therapy.
  • during the terminal phase the performance status
    is poor, with recurring need for hospitalization.
    The most frequent causes of death are severe
    systemic infection (especially pneumonia and
    septicemia), bleeding, and inanition with
    cachexia.

16
CLINICAL STAGING AND PROGNOSIS
  •   the natural history of CLL is extremely
    variable, with survival times from initial
    diagnosis that range from 2 to 20 years, and a
    median survival of approximately 10 years.

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Rai stage
  • Stage 0 150 months
  • Stage I 101 months
  • Stage II 71 months
  • Stages III and IV 19 months

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HISTOLOGIC TRANSFORMATION 
  • Prolymphocytic leukemia 10 percent
  • Aggressive or highly aggressive lymphoma
    (Richter's transformation) 3 percent
  • Hodgkin lymphoma 0.5 percent
  • Multiple myeloma 0.1 percent

21
Prolymphocytoid transformation
  •  In approximately 10 percent of patients with
    CLL, the terminal event is a morphological
    transformation of blood lymphocytes
  • from the typical small, mature-appearing cell
  • to somewhat larger cells with distinct nucleoli
    and a less dense nuclear chromatin. This event,
    called prolymphocytoid transformation, occurs
    slowly over years and is associated with
    refractoriness to the usual chemotherapeutic
    agents.

22
Richter's syndrome or Richter's transformation
  •  In 1 to 10 percent of patients with CLL,
    transformation to a highly aggressive non-Hodgkin
    lymphoma supervenes.
  • This transformation is heralded by sudden
    clinical deterioration, characterized by
    increasing lymphadenopathy, splenomegaly,
    worsening "B" symptoms, a rapidly progressive
    downhill clinical course, and a median survival
    of 5 to 8 months.

23
transformation
  • Acute leukemic transformation  Acute leukemia is
    a rare terminal event in CLL and, when it does
    occur, is usually one of the myeloid variants
    (ie, acute myeloid leukemia, AML).
  • Prior therapy with alkylating agents has not been
    clearly implicated in causation of terminal
    leukemia.
  • Second malignancies  Patients with CLL are at a
    higher risk than the general population to
    develop another cancer, usually of the lung,
    skin, and bone

24
INDICATIONS FOR TREATMENT 
  • With the possible exception of allogeneic
    hematopoietic cell transplantation (HCT), CLL
    cannot be cured by current treatment options.
  • Prospective, randomized trials evaluating
    immediate versus delayed treatment strategies
    have found no improvement in long-term survival
    with early treatment.

25
Therapy is indicated for patients with the
following disease-related complications
  • Weakness, night sweats, weight loss, painful
    lymphadenopathy, or fever.
  • Symptomatic anemia and/or thrombocytopenia.
  • Autoimmune hemolytic anemia and/or
    thrombocytopenia poorly responsive to
    corticosteroid therapy.
  • Progressive disease, as demonstrated by
    increasing lymphocytosis with a lymphocyte
    doubling time less than six months, and/or
  • rapidly enlarging lymph nodes, spleen, and liver.
  • Repeated episodes of infection.
    Hypogammaglobulinemia without repeated episodes
    of infection is not a clear indication for
    therapy.

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Clinical features and diagnosis of hairy cell
leukemia
  • named HCL in the 1960s because of the prominent
    irregular cytoplasmic projections of the
    malignant cells.
  • The clinical features and diagnosis of HCL, which
    is now considered one of the indolent non-Hodgkin
    lymphomas.

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INCIDENCE AND PATHOGENESIS 
  • Hairy cell leukemia is an uncommon malignancy,
    representing about 2 percent of all leukemias.
  • The median age at onset is 52
  • there is a strong male predominance of about
    four to one.
  • The incidence is about three times higher in
    Caucasians than in Blacks

31
  • The pathogenesis of HCL is unknown, although
  • exposure to ionizing radiation,
  • Epstein-Barr virus,
  • organic chemicals,
  • woodworking, and
  • farming

32
  • The cell expresses pan B cell surface antigens
    (CD19, CD20, and CD22) and an early plasma cell
    marker (PCA-1). It does not express CD21, a
    marker for the immature B cell.
  • The cell also expresses surface antigens that are
    not common on B cells, such as CD11c (monocytes
    and neutrophils), CD25 (activated T cells), and
    CD103 (intraepithelial T cells).
  • Clonal karyotypic abnormalities are present in
    approximately two-thirds of patients.
    Abnormalities of chromosome 5 are present in
    approximately 40 percent

33
CLINICAL PRESENTATION
  • Approximately one-quarter present with abdominal
    fullness or discomfort due to splenomegaly, which
    may be massive. Spontaneous splenic rupture may
    occur, which constitutes a medical emergency.
  • Another one-quarter present with systemic
    complaints such as fatigue, weakness, and weight
    loss. Patients do not usually complain of fever
    or night sweats.

34
CLINICAL PRESENTATION
  • Another one-quarter present either with bruising
    and bleeding secondary to severe
    thrombocytopenia, or with recurrent infections,
    which may be life-threatening, secondary to
    granulocytopenia and monocytopenia.
  • The remaining one-quarter are generally
    asymptomatic and come to the clinician's
    attention because of an incidental finding of
    splenomegaly or cytopenias during evaluation for
    an unrelated cause.
  • Occasional patients have vasculitis, usually
    polyarteritis nodosa or cutaneous
    leukocytoclastic vasculitis, or other autoimmune
    manifestations

35
Physical examination
  •  palpable splenomegaly in 80 to 90 percent of
    cases, with the splenic edge extending more than
    8 cm below the left costal margin in 25 percent.
  • Hepatomegaly and lymphadenopathy are not major
    features of HCL, being present in about 20 and 10
    percent of patients, respectively.
  • Rare physical findings include soft tissue
    infiltration, vasculitic skin rash, ascites, and
    pleural effusion.

36
Laboratory findings
  •  Sixty to 80 percent of patients with HCL present
    with pancytopenia, with hematocrits in the range
    of 20 to 35 percent, a total white blood cell
    count usually below 4000/microL, and platelet
    counts in the range of 20,000 to 100,000/microL.
  • Abnormal liver function tests 20 percent
  • Hypergammaglobulinemia 20 percent
  • Leukocytosis (total WBC gt10,000/microL) 10 to
    20 percent

37
DIAGNOSIS
  • The abnormal cell in HCL about 90 percent of
    patients.
  • Bone marrow examination  . Because of fibrosis,
    the BM is often inaspirable, resulting in a "dry
    tap.
  • Reticulin  Staining of the BM trephine biopsy
    for reticulin almost always shows a moderate to
    marked increase in reticulin fibers.
  • Cytochemical findings  Historically,
    demonstration of tartrate-resistant acid
    phosphatase (TRAP) activity on peripheral blood
    films, marrow aspirate smears, or touch
    preparations of BM was routinely used to confirm
    the diagnosis of HCL. TRAP-positive cells are
    found in almost all cases of HCL at diagnosis

38
  • Hairy cells strongly express pan-B cell antigens
    including CD19, CD20, CD22, and CD25, and
  • usually lack expression of CD5, CD10, CD21, and
    CD23.
  • Hairy cells characteristically express CD11c,
    CD103, CD123, cyclin D1, and annexin A1.

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INDICATIONS FOR TREATMENT
  •  Many patients with HCL are asymptomatic and can
    be observed for months or years after the
    diagnosis is established before requiring
    treatment.
  • Significant cytopenias typical peripheral blood
    counts that warrant treatment include an absolute
    neutrophil count lt1000/microL with repeated
    infections, symptomatic anemia with a hemoglobin
    concentration lt11.0 g/dL, or bleeding due to a
    platelet count lt100,000/microL
  • Symptomatic splenomegaly (common) or symptomatic
    adenopathy (uncommon)
  • Constitutional symptoms (eg, fever, night sweats,
    fatigue, weight loss)

41
chronic myeloid leukemiaCML
42
chronic myeloid leukemiaCML
  • A myeloproliferative neoplasm characterized by
    the dysregulated production and uncontrolled
    proliferation of mature and maturing granulocytes
    with fairly normal differentiation.

43
INTRODUCTION
  • CML is associated with the fusion of two genes
    BCR (on chromosome 22) and ABL1 (on chromosome 9)
    resulting in the BCR-ABL1 fusion gene.
  • This abnormal fusion typically results from a
    reciprocal translocation between chromosomes 9
    and 22, t(922)(q34q11), that gives rise to an
    abnormal chromosome 22 called the Philadelphia
    (Ph) chromosome.
  • It is this derivative chromosome 22 which
    harbors the BCR-ABL1 fusion gene.

44
INTRODUCTION
  • The BCR-ABL1 fusion gene results the BCR-ABL1
    fusion protein.
  • This protein product includes an enzymatic domain
    from the normal ABL1 with tyrosine kinase
    catalytic activity, but relative to ABL1, whose
    kinase activity is tightly regulated 1,
  • the kinase activity of BCR-ABL1 is elevated and
    constitutive 2 due to fusion with a portion of
    BCR.
  • It is this deregulated tyrosine kinase that is
    implicated in the pathogenesis of CML.

45
INTRODUCTION
  • The clinical hallmark of CML is the uncontrolled
    production of mature and maturing granulocytes,
    predominantly neutrophils, but also basophils and
    eosinophils.
  • In the absence of treatment, CML has a triphasic
    or biphasic clinical course as it progresses from
    a chronic phase to an accelerated phase and on to
    a terminal blast crisis.
  • Sometimes it goes from chronic phase directly to
    blast crisis, particularly when the blast phase
    is lymphoid.

46
EPIDEMIOLOGY 
  • CML accounts for approximately 15 to 20 percent
    of leukemias in adults.
  • It has an annual incidence of 1 to 2 cases per
    100,000, with a slight male predominance.
  • The median age at presentation is approximately
    50 years for patients enrolled on clinical
    studies.
  • Exposure to ionizing radiation is the only known
    risk factor.
  • There is no known familial predisposition.

47
CLINICAL MANIFESTATIONS 
  • CML has a triphasic or biphasic clinical course
  • a chronic phase, which is present at the time of
    diagnosis in approximately 85 percent of
    patients
  • an accelerated phase, in which neutrophil
    differentiation becomes progressively impaired
    and leukocyte counts are more difficult to
    control with treatment and
  • blast crisis, a condition resembling acute
    leukemia in which myeloid or lymphoid blasts
    proliferate in an uncontrolled manner.

48
CLINICAL MANIFESTATIONS
  • Twenty to 50 percent of patients are
    asymptomatic, with the disease first being
    suspected from routine blood tests.
  • Among symptomatic patients,
  • fatigue (34 percent),
  • malaise (3 percent),
  • weight loss (20 percent),
  • excessive sweating (15 percent),
  • abdominal fullness (15 percent), and
  • bleeding episodes due to platelet dysfunction
    (21 percent) are common.

49
CLINICAL MANIFESTATIONS
  • Abdominal pain and left upper quadrant pain
    (sometimes referred to the left shoulder) and
  • early satiety, due to the enlarged spleen with or
    without
  • splenic infarction.
  • Tenderness over the lower sternum, due to an
    expanding bone marrow, is sometimes seen.
  • Acute gouty arthritis may also present at this
    time, due to overproduction of uric acid.

50
CLINICAL MANIFESTATIONS
  • splenomegaly (present in 48 and 76 percent in
    two series),
  • anemia (45 and 62 percent),
  • white blood cell count above 100,000/microL (52
    and 72 percent), and
  • platelet count above 600,000 to 700,000/microL
    (15 and 34 percent).
  • Involvement of extramedullary tissues such as the
    lymph nodes, skin, and soft tissues is generally
    limited to patients with blast crisis.

51
Peripheral blood
  •  The peripheral smear typically demonstrates a
    leukocytosis with a median white count of
    approximately 100,000/microL (range 12 to
    1000/microL).
  • The white blood cell differential typically shows
    virtually all cells of the neutrophilic series,
    from myeloblasts to mature neutrophils with peaks
    in the percent myelocytes and segmented
    neutrophils

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Peripheral blood
  • Blasts typically account for less than 2
    percent.
  • The presence of a greater percent of myelocytes
    than the more mature metamyelocytes ("leukemic
    hiatus" or "myelocyte bulge") is one of the
    classic findings in CML.
  • The granulocytes of chronic phase are
    morphologically normal with no evidence of
    dysplasia, but dysplasia can develop in more
    advanced disease, and particularly in accelerated
    phase.

54
leukocyte alkaline phosphatase (LAP, )
  • The neutrophils in CML are cytochemically
    abnormal. The cytochemical reaction called
    leukocyte (or neutrophil) alkaline phosphatase
    (LAP, or NAP) when scored is low.
  • The low LAP score is useful in excluding a
    reactive leukocytosis or "leukemoid reaction,"
    typically due to infection, in which the score is
    typically elevated or normal.
  • Low LAP activity was also classically used to
    exclude polycythemia vera (PV) in the
    differential diagnosis of CML, in which LAP
    activity is also often increased.

55
Peripheral blood
  • The platelet count can be normal or elevated.
    Platelet counts above 600,000/microL are seen in
    15 to 30 percent of patients.
  • A normochromic, normocytic anemia is seen in 45
    and 60 percent of patients.

56
disease stage
  • The peripheral blood and bone marrow aspirate
    differential count are key components of
    determining the disease stage. In general,
    peripheral blood and bone marrow
  • blasts between 10 and 19 percent are diagnostic
    of accelerated phase disease, while
  • blasts over 20 percent are diagnostic of blast
    crisis.

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59
Genetic
  • Patients whose cells lack evidence of BCR-ABL1
    gene fusion by FISH or RT-PCR do not have CML

60
Leukemoid reaction
  •  The peripheral blood count may be as high as
    50,000/microL and can easily mimic CML. However,
    the following features are more commonly found in
    a leukemoid reaction and help to distinguish it
    from CML
  • toxic granulation in the neutrophils,
  • a high LAP score,
  • lack of a "myelocyte bulge", and
  • most importantly, the presence of an obvious
    cause for the neutrophilia.
  • Bone marrow examination is often not helpful.
  • Cytogenetic or molecular testing is definitive
    for CML if the distinction cannot be made
    clinically.

61
The accelerated phase
  • 10 to 19 percent blasts in the peripheral blood
    or bone marrow
  • Peripheral blood basophils 20 percent
  • Platelets lt100,000/microL, unrelated to therapy
  • Platelets gt1,000,000/microL, unresponsive to
    therapy
  • Progressive splenomegaly and increasing white
    cell count, unresponsive to therapy
  • Cytogenetic evolution (defined as the development
    of chromosomal abnormalities in addition to the
    Philadelphia chromosome)

62
The blastic phase
  • 20 percent peripheral blood or bone marrow
    blasts.
  • Large foci or clusters of blasts on the bone
    marrow biopsy.
  • Presence of extramedullary blastic infiltrates
    (eg, myeloid sarcoma, also known as granulocytic
    sarcoma or chloroma)

63
OVERVIEW OF TREATMENT OPTIONS 
  • Potential cure with allogeneic hematopoietic cell
    transplantation (HCT)
  • Disease control without cure using
    tyrosine kinase inhibitors (TKIs)
  • Palliative therapy with cytotoxic agents
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