Haematology JC044: Splenomegaly: Common Causes Of Splenomegaly, Myeloproliferative Diseases

Question 1

Revision: Spleen anatomy

Answer 1

• Intraperitoneal
• LUQ
• Below diaphragm
• Longitudinal axis along 9th-11th rib
• “Normal size” correlate with individual body build: Splenomegaly: 12 cm on USG

Blood supply:
- Splenic artery from Celiac artery
- Splenic vein (join with Superior mesenteric vein) —> ***Portal vein

Question 2

Normal structural organisation of spleen

Answer 2

Function:
1. Blood pool
- store blood

2. Secondary immune organ

White pulp (內):
- PALS (peri-arteriolar lymphoid sheath) (containing mainly CD4 T cells)
- Primary follicles (containing B cells)
- Marginal zone (containing Plasma cells)

Red pulp (外):
- Splenic sinuses (closed circulation)
- Splenic cords (open circulation) —> reticular fibres surrounding sinuses, contain macrophage to filter

Question 3

Normal function of spleen

Answer 3

1. Filtration
   - **Reticuloendothelial macrophages lining splenic sinusoids + Slow blood in narrow splenic sinusoids —> filter + remove “defective” **RBC + **pathogens
   - “defective” RBC: deformed ∵
   —> aging
   —> **complement fixed
   —> opsonised (Ab coated)
   —> Howell-Jolly bodies (RBC with nuclear remnants)
   - occurs in cords of Billroth in red pulp
2. Immunity
   - ***Secondary lymphoid organ
   - B + T cells, Plasma cells mature + resides in white pulp
   - Mature B cells interact with T cells in spleen on exposure to Ag (Ag dependent humoral immunity) —> Ab production (Humoral immune response)
3. Blood pool
   - 5% red cell mass
   - 30-50% WBC margining pool
   - 20-40% total platelet mass (splenectomy in treatment of ITP)
4. Haematopoiesis (only in fetus)
   - shift to axial skeleton except in extra-medullary haematopoiesis in Thalassaemia major / Primary myelofibrosis

Question 4

How do we know that spleen is performing Filtration

Answer 4

Seen in blood films in Post-splenectomy / Hyposplenism:

1. Howell-Jolly bodies
   - basophilic nuclear remnants (clusters of DNA) in circulating RBC
2. Nucleated RBC
   - may be mistaken by machine in CBP test as WBC —> “Spurious Leukocytosis”
3. Spherocytes (in AIHA)
   - RBC marked by autoimmune RBC Ab —> macrophages “pit” RBC membrane —> ↓ SA/V ratio

Question 5

How to examine for Splenomegaly

Answer 5

1. LUQ mass
2. Moves down with respiration along Gardner’s line
3. Cannot get above it (no subcostal gap)
4. Dull to percussion (∵ anterior organ)
5. Splenic notch (medial border)

Question 6

***Major causes of Splenomegaly

Answer 6

1. **Congestive (most common)
   - Pre-hepatic: Thrombosis of portal / hepatic / splenic veins
   - Intra-hepatic: **Cirrhosis (Hep B, Alcohol etc.)
   - Post-hepatic: ***Heart failure
2. Malignancy
   - **Lymphoma
   - **Acute / Chronic Leukaemia
   - **PV, ET, PMF
   - Multiple myeloma (not cause Splenomegaly except Splenic plasmacytoma / **Amyloidosis)
   - Primary / Metastatic tumour
3. Infection
   - Bacterial
   - Viral
   - Parasitic
   - Fungal
   - IE
4. Inflammation
   - Sarcoidosis
   - SLE
   - RA (Felty syndrome)
   - Serum sickness
5. Infiltration by non-malignant disease (Rare, can only seen by Imaging +/- Biopsy)
   - Gaucher disease
   - Niemann-Pick disease
   - Amyloid
6. Haematological disease causing / caused by Hypersplenic state
   - **Acute / Chronic Haemolytic anaemia (e.g. AIHA, Thalassaemia)
   - **Sickle cell disease
   - Following use of recombinant human G-CSF

Question 7

1. Congestive cause of Splenomegaly

Answer 7

1. Pre-hepatic
   - Portal vein thrombosis
   - Splenic vein thrombosis
2. Intra-hepatic
   - Cirrhosis
3. Post-hepatic
   - Budd Chiari syndrome
   - IVC obstruction
   - RH failure

Question 8

Hypersplenism

Answer 8

Hypersplenism: ↑ Blood ***sequestration in enlarged spleen

4 diagnostic criteria:
1. **Pancytopenia
2. Splenomegaly
3. Evidence of **active marrow
4. Reversal of abnormal features on splenectomy (if performed)

NB:
- patients with abnormal marrow may develop pancytopenia due to splenomegaly
—> but should NOT be called hypersplenism

Question 9

Clinical features of Splenomegaly

Answer 9

***Pressure symptoms from Enlarged spleen:
1. Abdominal fullness
2. Early satiety
3. Referred pain to left shoulder

Symptoms related to Pancytopenia:
1. **Bleeding
2. **Infection

Question 10

History taking in Splenomegaly

Answer 10

1. Age, gender, race
2. Residence, travel history
3. Alcohol abuse
4. ***Bleeding tendency (end result)
5. ***Constitutional symptoms: Fever, LOW, Night sweat (find out cause)
6. ***Family history of liver / blood diseases: Hep B, Thalassaemia (find out cause)

Question 11

Physical examination of Splenomegaly

Answer 11

1. Size of spleen
2. Associated Hepatomegaly, Lymphadenopathy
3. Stigmata of chronic liver disease, jaundice
4. Fever / other signs of infection
5. Cardiac murmur / splinter haemorrhage —> IE as a cause

Question 12

***Diagnosis of Splenomegaly

Answer 12

1. Size of Splenomegaly
   - Massive: **CML, **Myelofibrosis
   - Moderate: **Portal hypertension, **Haematological malignancies
   - Minimal: ***Haemolytic anaemia (Thalassaemia intermedia, HbH disease), Autoimmune cytopenia (ITP, AIHA)
2. Geographical location
   - determine possible infective causes of splenomegaly e.g. Malaria

Question 13

Investigations of Splenomegaly

Answer 13

1. CBP
   - ***Cytopenia
   - abnormal cells
2. Clotting profile
   - if suspected liver disease
3. LFT
   - if suspected liver disease
4. HbsAg
   - Hep B common in HK

Imaging
5. USG
6. CT
7. PET-CT
- look for space-occupying lesions

Question 14

Haematological diseases in Splenomegaly

Answer 14

***Blood film to differentiate

Example:
1. CML
- Leukocytosis
- **Bimodal distribution of Neutrophils + Myelocytes
- BM examination: small hypolobated megakaryocytes (*Dwarf megakaryocyte)
- Cytogenetics: Philadelphia chromosome +ve

2. CLL
   - ***Smear / Smudge cells (squashed abnormal CLL cells)
3. PMF
   - **Teardrop RBC
   - **Leukoerythroblastic (LE) blood picture
   - BM examination: ***↑ Reticulin
4. Others
   - e.g. Hairy cell leukaemia (a type of lymphoma), Large granular lymphocyte leukaemia, Splenic marginal zone lymphoma with villous lymphocytes

Question 15

Chronic myeloid leukaemia

Answer 15

Clinical features:
1. Leukocytosis
- **Bimodal prominence of Neutrophils + Myelocytes
- Basophilia
2. Thrombocytosis
3. **Splenomegaly
4. ***Small hypolobated megakaryocytes (Dwarf megakaryocyte) on BM exam

Pathogenesis:
- **Philadelphia chromosome: **t(9;22)(q34.1;q11.2)
—> Translocation of ABL gene on chromosome 9 —> BCR gene on chromosome 22
—> Oncogenic **BCR-ABL fusion protein
—> **Constitutive activated tyrosine kinase
—> Phosphorylation of multiple substrates (e.g. JAK-STAT pathway)
—> Abnormal + Uncontrolled cell proliferation

Natural disease progression (3 phases):
1. Chronic phase
- BCR-ABL1 fusion —> **Expansion of myeloid compartment
- **10-15% blasts
- Asymptomatic

2. Accelerated phase
   - **New cytogenetic abnormalities
   - **15-30% blasts
   - ↑ tiredness, LOW, enlarged spleen
3. Blastic crisis
   - ↑ genomic instability
   - ↑ BM blasts proportion + Constitutional symptoms

Question 16

Diagnosis of CML

Answer 16

1. Blood film
2. BM exam
   - ***Small hypolobated megakaryocytes (Dwarf megakaryocyte) on BM exam
3. ***Demonstration of Philadelphia chromosome
   - Karyotype
   - FISH (demonstration of BCR-ABL fusion gene)
   —> red: BCR
   —> green: ABL
   —> yellow: fusion
   - PCR (demonstration of BCR-ABL fusion gene)

Question 17

Treatment of CML

Answer 17

Past:
- Hydroxyurea
- Chemotherapy
- IFN
- Allogeneic HSCT

Now:
- **Tyrosine kinase inhibitors (Imatinib, Nilotinib, Dasatinib, Ponatinib (newest))
—> bind to **ATP-binding site of BCR-ABL protein
—> ***preventing phosphorylation of substrates
—> block downstream signaling
—> able to induce deep molecular remission (not only morphological remission)

Monitoring treatment response:
1. Measure BCR-ABL1 transcript in peripheral blood
- by quantitative RT-PCR
- 0.1: complete cytogenetic response
- ***0.01: major molecular response
- 0.0001: complete molecular response (undetectable disease)

New treatment of CML:
- Kinase domain mutation in BCR-ABL gene
—> Resistant to TKI
—> ***Asciminib: overcome resistance by Allosteric inhibition of BCR-ABL1 by binding to Myristoyl-binding site (no need bind to ATP-binding site)

Question 18

Chronic lymphocytic leukaemia

Answer 18

• Disease of ***older patients
• Incidental findings of ***Lymphocytosis: Slow-growing
• May transform into **aggressive Large cell lymphoma —> **Richter transformation (difficult to treat)
• ***Abnormal lymphocytes

Clinical presentation:
1. Constitutional symptoms: Fatigue, LOW
2. Lymphadenopathy
3. Hepatosplenomegaly

Question 19

Diagnosis of CLL

Answer 19

No need BM exam to make definitive diagnosis
- but patterns of BM involvement have prognostic significance (diffuse involvement have worse prognosis)

1. **Immunophenotype (Flow cytometry) of **abnormal lymphocytes
   - detect **Ag on abnormal lymphocytes —> can differentiate from other chronic lymphoproliferative disease
   —> **CD5 (T cell marker but now expressed on B cells)
   —> **CD23
   —> **absent of FMC7

Question 20

Treatment of CLL

Answer 20

• No single universal treatment, ***no treatment is curative
• Depends on clinical staging + symptoms (***Rai + Binet staging system) + patients comorbidities
• ***Watch + wait in asymptomatic patients with early stages

Young + Fit:
- Chemotherapy:
1. **Fludarabine (purine analogue)
+
2. **Cyclophosphamide (alkylating agent)
+
3. ***Rituximab (Anti-CD20 Ab)

Old + Frail:
- Chlorambucil + Anti-CD20 Ab

New small molecules:
- **Ibrutinib (BTK inhibitor)
- **Venetoclax (BCL2 inhibitor)

Question 21

Prognosis determination of CLL

Answer 21

1. BM exam
2. FISH
   - poor prognosis: del 11q23, trisomy 12, del 13q14, del 13q34, del 17p

Question 22

Myeloproferative neoplasm (MPN) (formerly known as Myeloproliferative disease)

Answer 22

WHO classification 2017 of MPN:
1. Philadelphia chromosome +ve / BCR-ABL1 +ve
- CML

2. Philadelphia chromosome -ve / BCR-ABL1 -ve
   - PV
   - ET
   - PMF
3. Others
   - Chronic neutrophilic leukaemia
   - Chronic eosinophilic leukaemia
   - MPN unclassified

Question 23

Pathogenesis of MPN

Answer 23

1. **JAK2 mutation on erythropoietin receptor (Tyrosine kinase)
   - normally: Epo bind to erythropoietin receptor —> autophosphorylation of JAK2 kinase —> downstream cell signaling
   - JAK2-V617F mutation: **Constitutively active Tyrosine kinase —> cell signaling ***without Epo —> Uncontrolled proliferation of RBC
2. JAK2 mutation on unknown receptor
   - Epo receptor —> ↑ RBC
   - MPL receptor —> ↑ Megakaryocyte
   - G-CSF receptor —> ↑ Granulocyte

Question 24

Diagnostic flowchart for Polycythaemia

Answer 24

Polycythaemia: ↑ Hb

1. Relative Polycythaemia
   - blood concentration secondary to dehydration
   - red cell mass is normal
2. Absolute Polycythaemia
   - ↑ red cell mass
   —> Primary BM cause: PV
   —> **Secondary BM cause (↑ EPO production): Appropriate (Hypoxia: COPD, cyanotic heart, smoking, high altitude) / Inappropriate (Hepatoma, **Renal tumour)

Question 25

***Polycythaemia Vera (PV)

Answer 25

Clinical features:
1. **Hyperviscosity syndrome
- dizziness
- headache
2. **Pruritus (particularly after hot bath)
3. Risk of arterial + venous ***thrombosis

Investigations:
1. Peripheral blood: ↑ red cell mass
2. BM: ↑ red cell precursors + hyperlobated megakaryocytes
3. Reticulin stain of BM: not present (i.e. no fibrosis)
(4. EPO suppressed)

Question 26

***Diagnosis of PV

Answer 26

1. Clinical criteria
   - ↑ Hb
   - ↑ Hct
   - ***↑ Red cell mass
2. BM morphology
   - **Hypercellular BM
   - Prominent erythroid, granulocytic, megakaryocytic proliferation with **pleomorphic mature megakaryocytes (differences in size)
   - ***記: 唯一一個MPN全部升
3. Genetic mutation (Clonal gene marker)
   - **JAK2 V617F mutation
   or
   - **JAK2 exon 12 mutation

Minor criteria
4. Suppressed serum Epo level

Question 27

Essential thrombocythaemia (ET)

Answer 27

Clinical features:
1. Asymptomatic (usually)
2. Headache, dizziness (∵ disturbance in microcirculation)
3. **Arterial > Venous thrombosis
4. **Paradoxical bleeding in very high platelet (∵ ***acquired VWD, consumption of VW factors due to ↑ platelet)

Investigations:
1. Peripheral blood: ↑ platelets
2. BM: ↑ megakaryocytes + pleomorphic
3. Reticulin stain of BM: not present (i.e. no fibrosis)

Question 28

***Diagnosis of ET

Answer 28

Mainly a diagnosis by exclusion (from other causes of thrombocytosis)

1. Clinical criteria
   - ***↑ Plt >=450
2. BM morphology
   - ***Proliferation of megakaryocyte lineage
   - ↑ no. of enlarged, mature megakaryocyte with hyperlobated nuclei
3. Not meeting criteria of CML, PV, PMF, MDS, other myeloid neoplasms
4. Presence of Clonal gene markers
   - JAK2 mutation
   - CALR mutation
   - MPL mutation
5. No evidence for ***reactive thrombosis

Question 29

Treatment of ET and PV

Answer 29

**Thrombotic risk + Leukaemia transformation (PV 5%, ET 1%) + **Secondary myelofibrosis

Depends of risk of thrombosis:
1. History of thrombosis
2. Age
3. Presence of JAK2 mutation
4. Other CVS risk factors

No risk factors:
- Safely observe

With risk factors:
- ***Antiplatelets (low dose aspirin)

Intermediate / High risk diseases / thrombosis:
- **Cytoreduction (Hydroxyurea / IFN for younger, child-bearing age women)
- **Anticoagulants (in history of thrombosis)

All patients with PV require ***Phlebotomy (Venesection) to Hct <45%

Question 30

***Myelofibrosis (MF)

Answer 30

2 types:
- Primary (PMF)
- Secondary: Post-PV / Post-ET MF

• Highest risk of leukaemic transformation (15%) among all MPN

Clinical features:
1. **Pancytopenia
2. **Leukoerythroblastic (LE) blood picture
3. ***Gross splenomegaly
4. Weight loss (disease induce hypercatabolic state)

Investigations:
1. Peripheral blood
- **Left shift in WBC
- ↑ Myeloid precursors in circulation
- Nucleated RBC
- **Teardrop poikilocytes

2. BM
   - Distorted architecture
3. Reticulin stain
   - ***↑ Reticulin in BM

NB:
- Fibroblasts in PMF are not clonal
- Abnormal **megakaryocytes release cytokines (PDGF, TGFβ) —> stimulate Fibroblast proliferation + Collagen deposition
- Fibrotic BM unable to function —> Myeloid precursors (HSC) move to spleen and liver (i.e. **Extramedullary haematopoiesis) (not contribute to significant haematopoiesis)

Question 31

Treatment of Myelofibrosis

Answer 31

Scoring based on:
1. Cytogenetics
2. Gene mutation profile

Very low risk disease:
- Asymptomatic without high risk gene mutations: Observation
- Symptomatic splenomegaly: **Hydroxyurea / **Ruxolitinib (JAK1/2 kinase inhibitor)

Intermediate risk disease:
- Drug therapy / Allogeneic HSCT

High risk disease:
- Allogeneic HSCT

***Splenectomy:
- sometimes performed to relieve pressure symptoms + ↓ transfusion requirement

***Allogeneic HSCT:
- only potentially curative procedure
- feasibility limited by age + comorbidities

Median survival for intermediate / high risk disease:
- 3-5 years

Question 32

Treatment for Splenomegaly

Answer 32

Splenectomy:
- generally not performed in most cases of splenomegaly

Indications:
1. Diagnostic purpose
- e.g. suspected splenic lymphoma

2. Therapeutic
   - **Symptomatic relief in massive splenomegaly e.g. Myelofibrosis
   - **Refractory ITP / AIHA
   - ***↓ Transfusion requirement in Thalassaemia major

Other non-surgical spleen reduction therapies:
1. ***Splenic irradiation
- in patients with haematological malignancy to relieve pressure symptoms + improve cytopenia

2. ***Hydroxyurea / Ruxolitinib for PMF

Question 33

Complications of Splenectomy

Answer 33

1. Overwhelming post-splenectomy infection (**OPSI)
   - medical emergency
   - caused by **encapsulated bacteria
   - prevented by:
   —> **Pre-op vaccination: Strept. pneumoniae, Hib, N. meningitidis
   —> **long term Post-op antibiotic prophylaxis with Penicillin
   —> patient education to watch out early signs of infection (e.g. fever) + seek early medical help

(From SpC Surg:
2. Thrombocytosis (cause stroke)
3. Portal vein thrombosis (cause liver failure))

Question 34

Summary

Answer 34

High white cell count:
1. Reactive causes are more common in daily clinical practice
2. Ascertainment of abnormal cell type
3. Leukaemia (Acute / Chronic) treatment depends on specific diagnosis, risk of disease, patient comorbidities
4. Look out for haematological emergencies in suspected / newly diagnosed leukaemia —> Neutropenic sepsis, TLS, Leukostasis
5. Allogeneic HSCT reserved for high risk cases / at relapse
6. HLA-matching is crucial in Allogeneic HSCT (probably except Haplo-identical transplantation)

Splenomegaly:
1. Many causes of Splenomegaly
2. Size + How common the diseases are can help narrow down DDx
3. Geographical location determines possible infective causes of Splenomegaly
4. Post-splenectomy infections requires urgent treatment
5. Refer to Haematology if abnormal cells seen on blood film