Chronic Leukaemia

Article Last Updated:19/01/2026

Acute vs chronic leukaemia:

Acute leukaemias (ALL and AML) typically present with rapid onset, and patients are often clinically unwell
Chronic leukaemias (CLL and CML) usually have an insidious onset and are frequently diagnosed incidentally

Clinical features within subtypes of acute and chronic leukaemia (i.e. ALL vs AML, and CLL vs CML) are largely overlapping.

Chronic Lymphoblastic Leukaemia (CLL)

Epidemiology

CLL predominantly affects older adults ^[Ref]

Median age at diagnosis: >70 y/o ^[Ref]

Aetiology

Advanced age is a well-recognised risk factor. ^[Ref]

Genetic factors also play a major role in susceptibility, including: ^[Ref]

Family history
Key genetic mutations (e.g. TP53, IGHV, etc.)

Clinical Manifestation

Many patients are asymptomatic and are diagnosed incidentally. ^[Ref]

If symptomatic, CLL tends to come on and progress gradually: ^[Ref]

Lymphadenopathy – hallmark feature
- Painless, generalised lymphadenopathy is very typical
- Splenomegaly
B symptoms (fever, night sweats, weight loss)
Features of progressive bone marrow failure
- Anaemia → pallor, exertional dyspnoea, fatigue
- Thrombocytopaenia → easy bruising, unexplained bleeding
Hypogammaglobulinaemia → frequent infections (e.g. pneumonia, URTIs)
- This occurs because the dysfunctional mature B lymphocytes do NOT make effective immunoglobulins

Richter transformation occurs in ~5-10% of patients. ^[Ref]

CLL transform into an aggressive high-grade lymphoma, most commonly diffuse large B-cell lymphoma.

It is important to differentiate features suggestive of malignant lymphadenopathy (as seen in Hodgkin lymphoma) from reactive lymphadenopathy.

Feature	Malignant lymphadenopathy	Reactive lymphadenopathy
Mobility	Immobile / fixed to surrounding tissue	Mobile
Consistency	Hard / firm / rubbery	Soft / rubbery
Tenderness	Non-tender	Tender

Referral Guidelines

The following NICE red flags and referral guidance for leukaemia are presentations, but may also identify chronic leukaemias (though they are generally less useful for this purpose)

Suspected leukaemia in children and young people (<24 y/o)	If there is unexplained petechiae OR hepatosplenomegaly → refer for immediate specialist assessment (acute admission / referral within a few hours)
	If there are other clinical features of leukaemia → offer a very urgent FBC (within 48 hours)
Suspected leukaemia in adults	Consider a very urgent FBC (within 48 hours) in adults with clinical features of leukaemia

Investigation and Diagnosis

As suggested above (in the referral guidelines section), the initial test of choice is a FBC

Laboratory Tests

^[Ref]

Test / investigation	Interpretation / supportive findings
FBC	Isolated lymphocytosis is classic Lymphocytosis can be substantially elevated (>400 x 10⁹/L) ↑ Absolute lymphocyte count Cytopaenias are often only seen in advanced disease Anaemia Thrombocytopaenia
Peripheral blood smear	Small, mature-appearing lymphocytes Presence of smudge cells Absence of Auer rods (only seen in AML)

Test / investigation

Interpretation / supportive findings

FBC

Isolated lymphocytosis is classic

Lymphocytosis can be substantially elevated (>400 x 10⁹/L)
↑ Absolute lymphocyte count

Cytopaenias are often only seen in advanced disease

Anaemia
Thrombocytopaenia

Peripheral blood smear

Small, mature-appearing lymphocytes
Presence of smudge cells
Absence of Auer rods (only seen in AML)

CLL is known to cause autoimmune complications: ^[Ref]

Warm haemolytic anaemia (IgG-mediated), which presents as:
- Normocytic anaemia
- ↑ Reticulocytes
- Haemolysis markers (↑ unconjugated bilirubin, ↑ LDH, ↓ haptoglobin)
- Confirmatory test: +ve direct Coombs test (IgG +ve)

In CLL, anaemia can occur due to bone marrow failure OR immune dysregulation, where warm IgG antibodies destroy RBCs

ITP, which presents as:
- Isolated thrombocytopaenia
- Normal coagulation
- Normal haemoglobin

CML vs CLL (FBC findings):

CML: ↑WCC = ↑ myeloid cells (neutrophils + basophilia + eosinophilia); relatively normal lymphocyte count
CLL: ↑WCC = ↑ lymphocytes; relatively normal myeloid cell count

Confirmatory Tests

CLL can be diagnosed with peripheral blood flow cytometry showing: ^[Ref]

↑ Monoclonal B lymphocytes (at least 5 x 10⁹/L), and
Showing B-cell markers (lymphocyte antigens) (e.g. CD19, CD20, CD23 +ve)

Unlike acute leukaemia, where a bone marrow biopsy is typically essential for diagnosis and classification, a bone marrow evaluation is generally not required to diagnose CLL

Management

Most patients do not require specific treatment and are managed with active observation ^[Ref]

Early intervention in asymptomatic patients has not shown survival benefits. ^[Ref]

Treatment

Some treatment indications (non-exhaustive): ^[Ref]

Bone marrow failure (haemoglobin <10 mg/dL or platelet count <100 x 10⁹/L)
Massive or symptomatic splenomegaly
Massive or symptomatic lymphadenopathy
Significant constitutional symptoms
Autoimmune complications (autoimmune anaemia or ITP) that do not respond to standard treatment

1st line treatment often involves either of the following (if indicated): ^[Ref]

BTK inhibitor (e.g. acalabrutinib, zanubrutinib, ibrutinib)
12-month course of venetoclax + obinutuzumab

Before starting any treatment, it is important to establish TP53 status and IGHV mutation status to determine the most effective approach ^[Ref]

TP53 mutated → continuous BTK inhibitor preferred
IGHV mutated → either BTK inhibitor or time-limited venetoclax is appropriate

Prognosis

Key poor prognostic factors: ^[Ref]

Presence of TP53 mutation
ABSENCE of IGHV mutation
>65 y/o
Advanced clinical stage

Chronic Myeloblastic Leukaemia (CML)

Epidemiology

Mainly affects older adults, 70% of cases are diagnosed >65 y/o ^[Ref]

Aetiology

CML is characteristically driven by a specific genetic abnormality: t(9;22) creating the BCR‑ABL1 fusion (Philadelphia chromosome) ^[Ref]

The origin of such genetic abnormality is idiopathic in most cases

By contrast, most other leukaemias (i.e. ALL, AML, CLL)) do not have one universal pathognomonic lesion but instead show heterogeneous combinations of chromosomal abnormalities and gene mutations along with host factors and environmental risks.

Clinical Manifestation

Most patients are through routine blood tests and are often asymptomatic. ^[Ref]

If symptomatic

Often vague constitutional symptoms (e.g. fatigue, weight loss, night sweats, low-grade fever)
Massive splenomegaly is classic (→ LUQ discomfort / mass, early satiety)
Features of leukostasis / hyperviscosity (→ headache, blurred vision, priapism)

Key distinguishing features:

CML classically does NOT present with prominent lymphadenopathy (instead, it is a typical finding in lymphoid malignancies such as CLL and lymphoma)
Recurrent infections is NOT a feature of CML, due to the intact granulocytes (e.g. neutrophils)

Referral Guidelines

The following NICE red flags and referral guidance for leukaemia are presentations, but may also identify chronic leukaemias (though they are generally less useful for this purpose)

Suspected leukaemia in children and young people (<24 y/o)	If there is unexplained petechiae OR hepatosplenomegaly → refer for immediate specialist assessment (acute admission / referral within a few hours)
	If there are other clinical features of leukaemia → offer a very urgent FBC (within 48 hours)
Suspected leukaemia in adults	Consider a very urgent FBC (within 48 hours) in adults with clinical features of leukaemia

Investigation and Diagnosis

As suggested above (in the referral guidelines section), the initial test of choice is a FBC

Laboratory Tests

^[Ref1]^[Ref2]

Test / investigation	Interpretation / supportive findings
FBC	Leukocytosis (often markedly raised) Basophilia – highly sensitive for CML Neutrophilia + left shift (increased immature neutrophil-line cells in the blood) Eosinophilia Thrombocytosis is common (but can be normal / decreased in advanced phases)
Peripheral blood smear	All-stage of granulocyte differentiation visible “Myeloid cells at all stages of maturation are seen” “Granulocytosis with immature forms present” “Increased myelocytes, metamyelocytes, and promyelocytes” Basophilia, neutrophilia, eosinophilia

CML vs CLL (FBC findings):

CML: ↑WCC = ↑ myeloid cells (neutrophils + basophilia + eosinophilia); relatively normal lymphocyte count
CLL: ↑WCC = ↑ lymphocytes; relatively normal myeloid cell count

Confirmatory Tests

Confirmatory test: identification of Philadelphia chromosome (BCR-ABL1) t(9;22) ^[Ref]

This can be detected via cytogenetics (karyotyping), or PCR
Peripheral blood is often sufficient
Bone marrow evaluation is not strictly mandatory in every case, but it is commonly done for full baseline assessment

Management

1st line standard treatment: tyrosine kinase inhibitors ^[Ref]

Imatinib (1st generation)
Dasatinib, nilotinib, bosutinib (2nd generation)

The use of tyrosine-kinase inhibitors have transformed the disease into a manageable condition with a near-normal life expectancy for patients who respond well to treatment.

Prognosis

Response to treatment is monitored by quantifying the BCR-ABL1 transcripts (molecular product of the Philadelphia chromosome) ^[Ref]

A reduction in BCR-ABL1 transcript levels following tyrosine-kinase inhibitor therapy is a critical prognostic factor

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