Lymphoma & Myeloma

Question 1

What is the product of antigen-independent B-cell differentiation?

what surface markers does it have?

Answer 1

naïve B-cell which is capable of responding to antigen

it expresses:

complete surface IgM and IgD

pan B-cell markers - CD 19, 20, 22, 40, 79a

complement receptors

CD23 and some express CD5

Question 2

What type of antibody gene do naïve B-cells have?

Answer 2

they have a rearranged but unmutated Ig gene

each B cell is committed to a single light chain (kappa or lambda)

Question 3

In which locations does B cell development occur?

Answer 3

B cell activation occurs in the secondary lymphoid organs, such as the spleen and lymph nodes

After B cells mature in the bone marrow, they migrate through the blood to the SLOs

Question 4

By which 2 ways can mature antigen-naïve B cells be activated?

Answer 4

they can be activated by antigens directly

(they apoptose or differentiate into short-lived plasma cells with production of IgM antibody of the primary immune response)

or with the input of T cells

Question 6

What is a germinal centre?

What type of cells are present here and where do they originate from?

Answer 6

naïve B-cells develop into proliferating IgM expressing B-cell blasts

these have encountered antigen in the paracortex or T-cell zone

they migrate into the centre of the primary follicle to form a germinal centre

the germinal centre is formed from 3-10 naïve B-cells and eventually contains 10,000 - 15,000 B-cells

Question 8

What are the 4 steps involved in naïve B-cells becoming plasma or memory B cells?

Answer 8

1. proliferation
2. immunoglobulin somatic hypermutation and class switch
3. selection
4. differentiation

Question 9

What happens to the naive B cell following antigen stimulation?

What is the rate of the cell cycle like in the product?

Answer 9

B cells differentiate into centroblasts

these accumulate in the dark zone of the germinal centre

they are highly proliferative with a cell cycle that is completed within 6 - 12 hours

Question 10

What genes are downregulated within centroblasts?

What is the result of this?

Answer 10

anti-apoptotic genes are downregulated

e.g. BCL-2

pro-apoptotic molecules are present

e.g. CD95

this means only cells which generate highly specific receptors to the antigen in the germinal centre will survive

Question 11

What is the purpose of somatic hypermutation of centroblasts?

Where does this occur?

Answer 11

somatic hypermutation of the Ig V-region genes of centroblasts occurs within the germinal centre

this increases intraclonal diversity

Question 12

what do centroblasts mature into?

Where are they found and which process occurs here?

Answer 12

centroblasts mature to non-proliferating centrocytes

these are found in the light zone of the GC

heavy-chain class switch occurs here to alter the Ig constant regions to IgG, IgA or IgE

Question 13

What happens after heavy chain class switching depending on the centrocytes Ig gene mutation?

Answer 13

if a centrocyte’s Ig gene mutation results in a lower affinity antibody for the antigen, it undergoes apoptosis

if the gene mutation results in increased affinity, the antibody can bind to the antigen

(up until now, this has been trapped by complement receptors on follicular dendritic cells)

Question 14

What happens once the centrocyte antibody has bound to the antigen?

Answer 14

the centrocytes process the antigen and presents it to T-cells

T-cells express the CD40 ligand

this binds to the B-cell CD40 and rescues it from apoptosis

Question 15

what is required for differentiation post-GC?

Answer 15

inactivation of BCL6

Question 16

What step in terminal differentiation is involved in the pathogenesis of Burkitt lymphoma?

Answer 16

downregulation of the myc gene

Question 17

What is the main mechanism which inactivates BCL6?

Answer 17

the CD40 - CD40 ligand interaction stimulates centrocyte expression of IRF4

IRF4 represses BCL6

BCL6 has an inhibitory effect on BLIMP1, so this is upregulated when BCL6 is downregulated

Question 18

WHat is the consequence of upregulation of BLIMP1?

Answer 18

BLIMP1 represses PAX5, enabling plasma cell differentiation

it also upregulates XBP1, which helps to regulate plasma cells in their secretory phenotype

Question 19

What are the different molecules involved in plasma cell development?

Answer 19

• interferon regulatory factor 4 (IRF4)
• B-lymphocyte induced maturation protein 1 (BLIMP1)
• X-box binding protein 1 (XBP1)
• paired box protein 5 (PAX5)
• MYC - a regulatory gene which codes for a transcription factor

Question 20

What are immunoglobulins?

When are they produced?

Answer 20

They are glycoprotein molecules

they are produced by plasma cells in response to an immunogen

Question 21

What is the composition of immunoglobulins like?

Answer 21

they are composed of 2 heavy chains and 2 light chains

they are held together by covalent disulphide bonds

each chain has one variable and one constant region

Question 22

How are immunoglobulins classified?

Answer 22

according to the amino acid sequences in the constant region of the:

heavy chains:

• IgG, IgM, IgA, IgD, IgE

light chains:

• kappa or lambda

Question 23

What is protein electrophoresis?

What 5 major fractions are normally identfied?

Answer 23

the laboratory technique whereby serum is placed in a gel and exposed to an electric current

5 major fractions normally identified:

• serum albumin
• alpha-1 globulins
• alpha-2 globulins
• beta globulins
• gamma globulins

Question 24

When is immunofixation performed?

What can it detect?

Answer 24

it is performed when “M-spike” is seen on electrophoresis

it enables the detection and identification of monoclonal immunoglobulins

Question 25

What is the process involved in immunofixation?

Answer 25

serum or urine is placed on a gel and electric current is applied to separate the proteins

anti-immunoglobulin antisera is added to each migration lane

if the immunoglobulin is present, a complex precipitates

Question 27

What is myeloma?

What is it preceeded by?

Answer 27

an incurable malignant disorder or clonal plasma cells

it is preceeded by asymptomatic MGUS in all patients

Question 28

What is MGUS?

Answer 28

monoclonal gammopathy of undetermined significance

it is a condition in which an abnormal protein (a monoclonal protein) is present in the blood

Question 29

What is the median age at presentation of myeloma?

Which groups have a higher incidence?

Answer 29

median age at presentation is 70 years

higher incidence in Afro-Carribean ethnic groups

Question 30

Where does myeloma lie on a spectrum of plasma cell dyscrasias?

What are these called?

Answer 30

myeloma is one of a spectrum of plasma cell dyscrasias called paraproteinaemias

this is the presence of excessive amounts of myeloma protein or monoclonal gamma globulin in the blood

Question 31

What is the diagnostic criteria used for myeloma?

Answer 31

IMWG diagnostic criteria

clonal bone marrow plasma cells >/= 10% or biopsy-proved bony / extramedullary plasmacytoma

and any one or more of:

CRAB features

MDEs

Question 32

What are the CRAB features in myeloma?

Answer 32

C - hypercalcaemia:

• > 2.75 mmol / L

R - renal insufficiency:

• creatine clearance < 40 ml / min or serum creatinine > 177 micromol / L

A - anaemia:

• Hb < 100 g / L

B - bone lesions:

• one or more osteolytic lesions on skeletal radiography, CT or PET/CT

Question 33

What is meant by MDEs in myeloma?

What are the 3 MDEs?

Answer 33

myeloma defining events

• >/= 60% clonal plasma cells on bone marrow biopsy
• SFLC ratio > 100mg / L provided the absolute level of involved LC is > 100 mg / L
• > 1 focal lesion on MRI measuring > 5mm

Question 34

What % of myeloma patients have renal insufficiency at diagnosis?

How many will develop this and need treatment?

Answer 34

20-25% have renal insufficiency at diagnosis

50% will have renal insufficiency at some point during their disease course

2-12% will require RRT

Question 35

What are the 9 external factors that can influence renal insufficiency?

Answer 35

1. renal vein thrombosis
2. bisphosphonates
3. hypercalcaemia
4. ACE inhibitors
5. dehydration
6. NSAIDs
7. CT contrast
8. hyperviscosity
9. type 1 cryoglobulinaemia

Question 36

What are the clinical features of renal insufficiency as part of myeloma?

Answer 36

• confusion
• poor appetite
• thirst
• chest infections
• breathlessness
• polyuria or oliguria / anuria
• peripheral oedema
• constipation
• pathological fractures
• nausea
• bone pains

Question 37

What are the 3 main blood tests performed when investigating myeloma and why?

Answer 37

full blood count - Hb, WBC, platelets & blood film:

• looking for anaemia? active infection?
• degree of bone marrow infiltration
• rouleaux

U&Es - urea, creatinine, sodium, potassium:

• looks for renal failure & dehydration

calcium:

• is it elevated?

Question 38

What is meant by rouleaux?

Answer 38

stacks or aggregations of red blood cells

they form due to the unique discoid shape of the RBC

Question 39

What other blood tests may be performed when looking for myeloma and why?

Answer 39

c-reactive protein:

• if clinical suspicion of active infection

immunoglobulin levels:

• look for one elevated immunoglobulin subtype with low levels of the others

protein electrophoresis:

• is paraprotein present?

light-chain analysis:

• if no paraprotein is detected but there is clinical suspicion of myeloma

Question 40

What imaging investigations are performed in myeloma?

Answer 40

• skeletal survey
• whole body CT or MRI
• PET scan (not all myelomas are PET positive)

Question 41

What is a medical emergency relating to myeloma?

Answer 41

acute kidney injury with suspected myeloma is a medical emergency

Question 42

What are the stages involved in myeloma management?

How long should it take to complete these stages?

Answer 42

• blood film
• electrophoresis
• immunofixation
• bone marrow biopsy with flow cytometry

should all be expedited within 24 hours

treatment with steroids in the meantime

Question 43

What is the treatment for myeloma?

Answer 43

steroids are given during as an early intervention

hydration, avoid nephrotoxics and appropriate chemotherapy (attenuated dosing)

Question 44

What is the IMWG diagnostic criteria for MGUS?

Answer 44

• serum M-protein < 30 g / L
• < 10% clonal plasma cells in the bone marrow
• absence of end-organ damage (CRAB)

Question 45

What % of people have MGUS?

Is it more common in men or women?

Answer 45

• 3.2% of people > 50 years
• 5.3% of people > 70 years
• 8.9% of people > 80 years
• more common in males than females

Question 46

What are the risks of progression of MGUS?

What can it progress to?

Answer 46

approx 1 % per year will progress

majority will progress to myeloma

others may progress to:

• Waldenstrom’s macroglobulinaemia
• primary AL amyloidosis
• lymphoproliferative disorders

Question 47

What increases the risk of progression of MGUS?

Answer 47

• high vs. low M-protein (15 g/L)
• IgA / IgM vs. IgG PP
• abnormal SFLC ratio vs. normal

Question 48

What may urinary PCR show in MGUS?

Answer 48

nephrotic range proteinuria

apple-green birefringence of congo red stained preparates under polarised light is indicative for the presence of amyloid fibrils

Question 49

What is meant by AL amyloidosis?

Answer 49

amyloid light chain (AL) amyloidosis

light chain fragments misfold and self-aggregate to form beta-pleated fibrils then deposit in organs

Question 50

What organs tend to be involved in AL amyloidosis?

Answer 50

1.5% of native kidney biopsies

cardiac and liver involvement in 30%

peripheral neuropathy in 10%

ESFR in 40%

Question 51

What type of urinary symptoms are present in AL amyloidosis?

Answer 51

nephrotic-range proteinuria

this is mainly albumin

there is a small monoclonal light chain component so classical myeloma symptoms are usually not present

Question 52

what are the clinical features of AL amyloidosis?

Answer 52

• macroglossia
• confusion
• poor appetite
• thirst
• palpitations
• breathlessness
• peripheral neuropathy
• oliguria / anuria
• peripheral oedema
• constipation
• ascites
• nausea
• PND or orthopnoea

Question 53

What are lymphomas caused by?

How are they classfied?

Answer 53

lymphomas are caused by malignant proliferations of lymphocytes

they are classified according to the presence or absence of Redd-Sternberg cells

Question 54

What other organs may be involved in lymphomas?

Answer 54

lymph nodes are predominantly affected in advanced stages

there may be bone marrow and other organ involvement (e.g. gut, skin, CNS)

Question 55

What type of lymphoma is present if Reed Sternberg cells are present?

Answer 55

Hodgkin lymphoma

Question 56

What are the symptoms of Hodgkin lymphoma?

What ages tend to be affected and what is the cure rate like?

Answer 56

• lymphadenopathy
• night sweats
• weight loss
• fatigue
• bone marrow involvement is uncommon

it has a bimodal age distribution (20-29 and 60-70)

excellent cure rates (>90%)

Question 57

What type of lymphoma is present if there are no Reed-Sternberg cells?

Answer 57

either T cell lymphoma or Non-Hodgkin lymphoma

this can be aggressive or indolent

Question 58

What are examples of aggressive non-hodgkin lymphoma?

What are the symptoms?

Is it curable?

Answer 58

e.g. DLBCL, Burkitt lymphoma

• rapid onset lymphadenopathy
• night sweats
• weight loss

it is curable

Question 59

What are examples of indolent non-hodgkin lymphoma?

What are typical symptoms?

Is it curable?

Answer 59

e.g. follicular lymphoma, marginal zone lymphoma

• insidious onset lymphadenopathy
• systemically well

it is usually not curable

Question 60

When someone presents with a lump, what questions are important to ask?

Answer 60

nature of the lump:

• size
• rate of change
• tenderness and skin changes
• history of trauma

additional lumps / lesions elsewhere

• history of weight loss / night sweats
• history of breathlessness / cough / haemoptysis
• past medical history - previous malignancies
• social history - smoking
• family history - bone marrow disorders or malignancies

Question 61

What would a clinical examination for a neck lump focus on?

Answer 61

nature of the lump:

• size
• location
• skin changes & contour
• is it fixed to underlying structures
• evidence of additional neck masses
• presence of palpable lymphadenopathy
• presence of hepatosplenomegaly
• presence of breast lumps
• chest examination - insection, auscultation and percussion

Question 62

what are malignant and non-malignant causes of a neck mass?

Answer 62

malignant:

• lymphoma
• chronic lymphocytic leukaemia
• metastatic cancer of the lung / breast / cervix

non-malignant:

• infective (bacterial, viral, mycobacterial)
• inflammatory (sarcoidosis)
• lipoma
• fibroma
• haemangioma

Question 63

What blood tests should be performed in a neck lump?

Answer 63

• full blood count
• U&Es
• LFTs
• Ca²⁺
• lactate dehydrogenase (LDH)
• immunoglobulins and protein electrophoresis

Question 64

What imaging should be performed in a neck lump?

Answer 64

• chest x-ray
• ultrasound scan of the neck lump
• fine needle aspirate and/or core needle biopsy

Question 65

What is shown here?

Answer 65

follicular lymphoma

Question 66

What other investigations should be performed on a neck lump?

Answer 66

• CT neck, chest, abdomen, pelvis +/- PET scan
• bone marrow biopsy depending on the results of other investigations

Question 67

What is follicular lymphoma?

What is it characterised by?

Answer 67

a neoplastic disorder of lymphoid tissue

it is a type of non-Hodgkin lymphoma characterised by slowly enlarging lymph nodes

Question 68

What % of non-Hodgkin lymphomas are follicular lymphoma?

Which groups are more at risk?

Answer 68

it accounts for around 15% of all non-Hodgkin lymphoma diagnoses

incidence rises with age

it is equally present in males and females

Question 69

What type of chromosomal translocation is present in most cases of follicular lymphoma?

Answer 69

t(14;18)

this brings the BCL2 protooncogene under the influence of the immunoglobulin heavy-chain gene

this leads to over-expression of the BCL2 protein

this confers a survival advantage to the neoplastic lymphoid cells by inhibiting apoptosis

Question 70

What is the median and five-year survival in follicular lymphoma?

Answer 70

median survival is 8 - 10 years

five year overall survival is 72 - 77%

Question 71

what is FLIPI and how is it used to work out prognosis of follicular lymphoma?

Answer 71

follicular lymphoma international prognostic index

• ​age >/= 60 years
• Ann Arbor stage III or IV
• LDH above the limit of normal at diagnosis
• Hb < 120 g / L
• presence of more than four nodal sites of disease

if a patient has 4 or more prognostic factors, 10-year survival rate is 36% compared with 71% for those with 1 or none

Question 72

When a patient presents with breathlessness, what questions should be asked?

Answer 72

nature of breathlessness:

• rate and duration of onset
• variability with activities
• exacerbating and relieving factors

additional symptoms:

• cough
• sputum production
• ankle swelling
• orthopnoea
• weight loss & night sweats

past medical history:

• childhood illnesses

social history:

• smoking, occupational and animal exposure

family history:

• of respiratory and cardiac problems

Question 73

What will a clinical examination of someone with breathlessness focus on?

Answer 73

• chest and cardiovascular examination
• lymphadenopathy

Question 74

What blood tests should be performed in a case of breathlessness?

Answer 74

• full blood count
• U&Es
• LFTs
• lactate dehydrogenase (LDH)
• ACE level
• ESR

(chest X ray also performed)

Question 75

What other investigations may be performed in breathlessness?

What is the worst outcome?

Answer 75

PET-CT scan is done

this may reveal an abnormal lymph node as a result of Hodgkin lymphoma

Question 76

What is hodgkin lymphoma characterised by?

Answer 76

the presence of Hodgkin Reed-Sternberg (HRS) cells

within a cellular infiltrate of non-malignant inflammatory cells

e.g. eosinophils

Question 77

How do HRS cells evade apoptosis?

Answer 77

they fail to express surface immunoglobulin and evade apoptosis through several mechanisms

e.g. activation of NFkB, incorporation of EBV and latent membrane proteins (LMP1 and LMP2)

Question 78

How is Hodgkin lymphoma managed?

Answer 78

chemotherapy and radiotherapy

the doses / number of courses depends on the stage

Question 79

What is the prognosis of Hodgkin lymphoma like?

What are some of the long term effects of therapy?

Answer 79

a high proportion are cured with an 86% 5-year survival

long term effects of therapy:

• increased mortality still seen at >20 years post therapy
• pulmonary toxicity
• cardiovascular disease
• secondary malignancies

Question 80

What are the general differences between acute and chronic leukaemias?

Answer 80

acute:

• rapid onset
• dramatic presentation - severe sepsis & bleeding
• life-threatening without urgent treatment

chronic:

• insidious onset
• can be incidental finding in otherwise asymptomatic patients
• doesn’t always require treatment - “active monitoring”

Question 81

What are the main differences between myeloid and lymphoid leukaemias?

Answer 81

myeloid:

• cells which develop into neutrophils, eosinophils, monocytes & basophils

lymphoid:

• cells which develop into lymphocytes

Question 82

what is chronic lymphocytic leukaemia (CLL)?

Answer 82

a malignant disorder of mature B-cells

it is the most common type of leukaemia in the UK

Question 83

What is the presentation of chronic lymphocytic leukaemia (CLL) like?

Answer 83

presentation ranges from:

incidental finding of lymphocytosis to

widespread lymphadenopathy, splenomegaly, bone marrow failure & systemic symptoms

Question 84

What system is used to stage chronic lymphocytic leukaemia (CLL)?

Answer 84

Binet system

this ranges from A to C

Question 85

What are the criteria and median survival of stage A CLL?

Answer 85

criteria:

• Hb > 100 g / L
• platelets > 100 x 10⁹ / L
• <3 areas of lymphadenopathy

median survival:

• > 10 years

Question 86

What are the criteria and median survival of stage B CLL?

Answer 86

criteria:

• Hb > 100g / L
• platelets > 100 x 10⁹ / L
• 3 or more areas of lymphadenopathy

median survival:

• 8 years

Question 87

What are the criteria and median survival for stage C CLL?

Answer 87

criteria:

• Hb < 100 g/L
• platelets < 100 x 10⁹ / L
• any number of areas of lymphadenopathy

median survival:

• 6.5 years

Question 88

What is shown here?

Answer 88

a bone marrow biopsy showing extensive infiltration with CLL

Question 89

What is the treatment for CLL?

Answer 89

it needs active treatment

this is usually chemo-immunotherapy with Bendamustine and Rituximab

Question 90

What is meant by Richter’s transformation?

Answer 90

a rare complication of CLL (<10% of cases)

it is a transformation of CLL into a fast-growing diffuse large B cell lymphoma (DLBCL)

this is a variety of non-Hodgkin lymphoma

Question 91

What is the prognosis like in DLBCL?

Answer 91

poor prognosis

median survival is < 9 months even with intensive chemotherapy

Question 92

What are other possible complications of CLL?

Answer 92

• recurrent infections secondary to reduced immunoglobulin production
• autoimmune phenomenon
  • ITP
  • haemolytic anaemia
  • pure red cell aplasia
  • autoimmune neutropenia

Question 93

In what different types of ways do plasma cell disorders present?

Answer 93

plasma cell disorders such as MGUS, myeloma and amyloidosis present in a variety of non-specific ways

• incidental finding (MGUS)
• symptoms secondary to hypercalcaemia, anaemia & renal failure
• bone pains
• organ infiltration (amyloidosis)

Question 94

What is meant by lymphadenopathy having a wide differential?

Answer 94

you must take into account:

• distribution
• timing of onset
• systemic symptoms (or lack of)
• bloods (can be normal, particularly in lymphomas)

Question 95

What is important to bear in mind when it comes to progression and prognosis of CLL?

Answer 95

most patients remain asymptomatic for months to years

additional disease genetic features can influence prognosis

(e.g. 17p deletion)

Question 96

What must be monitored in CLL?

Answer 96

a sudden deterioration in symptoms +/- rapidly enlarging lymph node group raises the possibility of transformation to a high-grade lymphoma