Kharkov Regional Centre of Cardiovascular surgery V.N. Karazin Kharkov National University Department of Internal Medicine

Multiple Myeloma

Associate professor Abduyeva F.M., MD, PhD 2014

Definition
Multiple myeloma is a neoplastic plasma-cell disorder that is characterized by clonal proliferation of malignant plasma cells in the bone marrow microenvironment, monoclonal protein in the blood or urine, and associated organ dysfunction.

http://www.nejm.org/doi/pdf/10.1056/NEJMra1011442

Epidemiology
• It accounts for approximately 1% of neoplastic diseases and 13% of hematologic cancers. In Western countries, the annual age adjusted incidence is 5.6 cases per 100,000 persons. • The median age at diagnosis is approximately 70 years; 37% of patients are younger than 65 years, 26% are between the ages of 65 and 74 years, and 37% are 75 years of age or older. • In patients presenting at an age under 60 years, 10-year survival is approximately 30%

Age-adjusted Incidence per 100,000
Male Female

White

6.2

4.1

Black

11.8

10.0

Normal Ig structure

Different secreting patterns

15%

3%

A crystal of Bence Jones protein
A crystal of Bence Jones protein created for X-ray crystallography, which can reveal detailed, three-dimensional protein structures The proteins are immunoglobulin light chains (paraproteins) and are produced by neoplastic plasma cells. They can be kappa (most of the time) or lambda.

http://en.wikipedia.org/wiki/File:Bence_Jones_Protein_MLE1.jpg

Henry Bence-Jones (1813-73). British Physician (St George’s Hospital)

Patients & friends included Charles Darwin, Florence Nightingale, Thomas Huxley, Michael Faraday Thomas McBean’s urine was boiled. A protein precipitated at 60o and redissolved on boiling

World Health Organization Classification
• Monoclonal gammopathy of undetermined significance (MGUS) • Plasma cell myeloma (multiple myeloma) variants: • Indolent myeloma • Smoldering myeloma • Osteosclerotic myeloma (POEMS syndrome) • Plasma cell leukemia • Non-secretory myeloma

Monoclonal gammopathy of undetermined significance
• MGUS is defined as having serum M-protein < 3 g/dL, clonal plasma cell population in bone marrow < 10%, and absence of endorgan damage (CRAB criteria of multiple myeloma) and has an average multiple myeloma progression risk of 1% per year.

Natural development of myeloma

Lymph Nodes

Pathogenesis

Multiple myeloma is a malignancy of plasma B cells caused by alterations to genetic material following B cell activation in the germinal centres of secondary lymphoid organs. Myeloma plasma B cells also express CXCR4 receptors for SDF-1 α, a chemokine that regulates homing to the bone marrow where bone disease develops.

Pathogenesis
•B cells are primed by B cell receptor recognition of antigens presented by follicular dendritic cells in the germinal centres of secondary lymphoid organs. •CD4+ helper T cell interaction activates B cells to differentiate into plasma cells and also induces isotype switching and affinity maturation. During this process abnormal DNA recombination events translocate heavy and light immunoglobulin genes to other chromosomes and generate a malignant phenotype. •The myeloma plasma B cells continue to produce immunoglobulins resulting in a gammopathy and ultimately home to the bone marrow where bone disease develops.

Pathogenesis

•Bone destruction is mediated by the bone resorption activity of multinucleated osteoclasts. RANKL is a required activation signal for osteoclasts. RANKL is secreted along with other growth factors by myeloma plasma B cells.. •Activated osteoclasts secrete IL-6 that promotes the survival of myeloma plasma B cells

Pathogenesis

To improve oxygen and nutrient supply to the myeloma plasma B cells, the formation of new blood vessel is promoted by soluble factors secreted by both bone marrow stromal cells and myeloma plasma B cells. In addition, blood vessel endothelial cells also secrete growth factors that promote the survival of the myeloma plasma B cells.

The clinical picture
Proliferation of plasma cells

M-protein secretion

1.Hyperviscosity syndrome 1. Osteolysis and osteodestruction 2.Myeloma nephropathy Neurological disorders 3.Disproteinemia 2. Syndrome of hypercalcemia Elevated levels of B2-microglobulin Renal failure Increased levels of IL6 and CRP 3. Inhibition of normal hematopoiesis 4. Reduction of normal Ig (anemia, pancytopenia) Recurrent bacterial infections

Clinical features of bone disease
• Bone disease occurs in 80-90% of myeloma patients. The development of bone disease, either focal or diffuse, can result in pain, pathological fractures/spinal cord compression and hypercalcaemia • Radiotherapy is useful to improve pain control and may also promote healing of the fracture site.

Hypercalcaemia
•Acute hypercalcaemia can present with central nervous system dysfunction (confusion, coma and obtundation), muscle weakness, pancreatitis, constipation, thirst, polyuria, shortening of the Q-T interval on ECG and acute renal insufficiency. •All patients with moderate to severe hypercalcaemia should receive a bisphosphonate.
http://window.edu.ru/window_catalog/files/r70210/metod_mieloma.pdf

Hyperviscosity syndrome
• Hyperviscosity syndrome may develop in patients with high serum paraprotein levels, particularly those of IgA and IgG3 type. • Symptoms include blurred vision, headaches, mucosal bleeding and dyspnoea due to heart failure. • All patients with high protein levels should undergo fundoscopy which may demonstrate retinal vein distension, haemorrhages and papilloedema. • Patients usually have raised plasma viscosity that usually corresponds to a serum IgM level of at least 30 g/l, an IgA level of 40 g/l and an IgG level of 60 g/l )

• Renal impairment is a common and potentially serious complication of myeloma occurring at presentation in 20-25% of patients and in up to 50% of patients at some time during their disease. • Renal failure occurs as a result of damage caused to renal tubules by free light chains (cast nephropathy, or “myeloma kidney”). A variety of other nephrotoxic processes may also contribute to this damage including dehydration, hypercalcaemia, nephrotoxic drugs, and infection

Renal impairment

Myeloma Kidney

Protein cast obstructs tubule with syncitial giant cell reaction around it

Diagnostic criteria for MGUS, asymptomatic myeloma and symptomatic myeloma
(International Myeloma Working Group, 2003) MGUS Asymptomatic myeloma M-protein in serum >30 g/l and/or Symptomatic myeloma

M-protein in serum <30 g/l

M-protein in serum and/or urine** Bone marrow (clonal) plasma cells or biopsy proven plasmacytoma

Bone marrow clonal Bone marrow clonal plasma cells <10 % and low plasma cells >10 % level of plasma cell infiltration in a trephine biopsy (if done) No related organ or tissue impairment ((no end organ damage including bone lesions) No related organ or tissue impairment (no end organ damage including bone lesions) or symptoms

Myeloma-related organ or tissue impairment (including bone lesions)

Myeloma-related organ or tissue impairment (MWG, 2003)
Helpful Mnemonic: • C - calcium • R - renal • A-anemia • B - bone
Clinical effects due to myeloma Definition

Increased calcium levels Renal insufficiency
Anaemia Bone lesions

Corrected serum calcium >0.25mmol/l above the upper limit of normal or >2.75mmol/l Creatinine>173mmol/l
Haemoglobin 2 g/dl below the lower limit of normal or haemoglobin <10 g/dl Lytic lesions or osteoporosis with compression fractures (MRI or CT may clarify) Symptomatic hyperviscosity, amyloidosis, recurrent bacterial infections (> 2 episodes in 12 months)

Other

International Staging System (ISS) for multiple myeloma (adapted from Greipp et al, 2005)
Stage Criteria Median survival in

I

II III

Serum ß2 microglobulin < 3.5 mg/l (296 nmol/l) and serum albumin > 3.5 g/dl (35g/l or 532 μmol/l) Neither I or III* Serum ß2 microglobulin > 5.5 mg/l (465 nmol/l)

62 months

45 months 29 months

Upper normal value for serum ß2 microglobulin is 2.0 mg/L The normal range for serum albumin is 3.5 to 5.5 g/dL

Imaging techniques in myeloma
• The skeletal survey should include a postero-anterior (PA) view of the chest, antero-posterior (AP) and lateral views of the cervical spine, thoracic spine, lumbar spine, humeri and femora, AP and lateral view of the skull and AP view of the pelvis; other symptomatic areas should be specifically visualized with appropriate views CT scanning or MRI should be used to clarify the significance of ambiguous plain radiographic findings such as equivocal lytic lesions, especially in parts of the skeleton that are difficult to visualize on plain radiographs, such as ribs, sternum and scapulae Urgent MRI is the diagnostic procedure of choice to assess suspected cord compression in myeloma patients with or without vertebral collapse Urgent CT scanning is an alternative, when MR imaging is unavailable, intolerable or contraindicated CT or MR imaging is indicated to delineate the nature and extent of soft tissue masses and where appropriate, tissue biopsy may be guided by CT scanning

•

• • •

“Punched out” lesions in the bones

Поражение черепа (симптом «перечницы»)

http://www.aic.cuhk.edu.hk/web8/myeloma%20skull.htm

http://www.aboutcancer.com/myeloma_images.htm

Radiography of the humerus

http://www.aboutcancer.com/mm_1209_4sah.jp

CT at the level of the thoracic spine

http://www.aboutcancer.com/mm_1209_2sah.jpg

MRI of the thoracic spine

http://trialx.com

http://www.aboutcancer.com/myeloma_spine_bmc

Serum protein electrophoretic pattern in multiple myeloma

The normal plasm protein electrophoretic pattern shows a heavy albumin band (to the left) and lighter bands which are alpha, beta and gamma mobility globulins. The serum from the patient with multiple myeloma shows a heavy band which is the abnormal monoclonal immunoglobulin (referred to as a paraprotein). Because it is monoclonal (all molecules identical) it is a very narrow discrete band, which in this patient has gamma mobility.
http://www1.imperial.ac.uk/departmentofmedicine/divisions/experimental medicine/haematology/morphology/bain/images/slide47/

Rouleaux formation

Excess Ig in the peripheral blood may result in Rouleaux formation in which immunoglobulin coated RBCs cling together (resembling overlapping pennies). The ESR may be increased secondary to hyperviscosity

Rouleaux

• Bone marrow aspirate demonstrating plasma cells of multiple myeloma. Note the blue cytoplasm, eccentric nucleus, and perinuclear pale zone (or halo).
• All images and text are (c) 2002 by the American Society of Hematology. All rights reserved

Cells containing multiple immunoglobulin globules are known as Mott cells

Treatment options
• • • • • • • • Chemotherapy (Bortezomib, melphalan, thalidomide) Dexamethasone High-dose chemotherapy with transplantation Radiation Alpha-interferon Erythropoietin Bisphosphonates Supporting therapy: antibiotics Emergency care (eg dialysis, plasmapheresis, surgery or radiation), pain management, growth factors, corsets/fixation, exercises, diet.

Indications for starting therapy
• Chemotherapy is only indicated in patients with symptomatic myeloma based on the presence of ROTI • Early intervention in patients with asymptomatic myeloma is not required • Patients with asymptomatic myeloma should be monitored under the supervision of a Consultant Haematologist • Monitoring of patients with asymptomatic myeloma should include regular (typically 3 monthly) clinical assessment for the emergence of ROTI and measurement of serum and urinary M-protein

Till we meet again