Multiple Myeloma
What is Multiple Myeloma
Multiple myeloma is a cancer of plasma cells in the bone marrow.
Normally, plasma cells form part of the immune system. They produce immunoglobulins (antibodies) which help fight infection. In multiple myeloma, abnormal plasma cells in the bone marrow multiply too fast. They take up too much space in the bone marrow and prevent the normal production of other blood cells, such as red and white blood cells. The plasma cells of multiple myeloma also produce large quantities of abnormal immunoglobulins, which cannot fight infection and which can cause damage to the kidneys.
The type of abnormal protein (called paraprotein) produced may be of any of the immunoglobulin types. (Immunoglobulins are specifically shaped antibodies made of protein.) The commonest are IgG (50%) and IgA (20%) with 20% also being of the "light chain" (part of the antibody) type. The rest are made up of a mixture of IgM, IgD and IgE myeloma while only 1 in 10 000 are non-secretory (i.e. has malignant cells in the bone marrow which do not produce any protein).
Who gets Multiple Myeloma?
Worldwide, the incidence of multiple myeloma is approximately 4 cases per every 100,000 people. In Australia, approximately 1200 new patients are diagnosed with multiple myeloma every year.
Multiple myeloma affects men more commonly than women. It is generally a disease of the elderly, with most patients being diagnosed at around 60 years of age. Multiple myeloma is rare before the age of 40.
Multiple myeloma is found more commonly in black African populations, and only rarely in Asian populations.
Predisposing Factors
There are a number of associations with multiple myeloma. Most of these are observed, rather than explained.
Occupations which may be associated with a higher risk of multiple myeloma include:
* Farming
* Woodworking
* Leather working
* Any occupation involving exposure to petroleum products.
In addition, exposure to high levels of ionising radiation may predispose to the development of multiple myeloma.
One factor which has been associated with a definite increase in risk of multiple myeloma is the presence of monoclonal gammopathy of undetermined significance (MGUS) in the blood. This is a condition which is seen in approximately 3-5% of people over 80 years of age. It is normally benign (not cancerous), but the presence of MGUS carries an annual 1-1.5% risk of developing active myeloma.
Progression
There are three major features of multiple myeloma:
* Bone destruction: the expansion of the abnormal plasma cells in the bone marrow causes destruction of normal bone. This causes bone pain, and may lead to fractures where the bone has been weakened.
* Bone marrow infiltration: the bone marrow is infiltrated by plasma cells. This means that normal blood cells cannot be produced, leading to low levels of red blood cells (anaemia), white blood cells (neutropaenia) and platelets (thrombocytopenia). Patients with multiple myeloma are at increased risk of developing infections, partly due to their impaired white cell production.
* Kidney impairment: the kidneys may be damaged in multiple myeloma in a number of ways. Bone destruction by plasma cells leads to increased levels of calcium in the blood (hypercalcemia), which is harmful to the kidneys. In addition, the abnormal immunoglobulins produced by the plasma cells can be deposited in the kidney tubules and cause damage. Overall, kidney failure occurs in approximately one quarter of multiple myeloma patients.
Tumour spread in multiple myeloma is usually confined to the bones and bone marrow only. Rarely, the tumour may spread to the spleen, lymph nodes, or other organs.
Probable Outcomes
There are a number of features which have been identified as being associated with a poor prognosis in multiple myeloma:
* Older age at diagnosis
* Poor performance status.
* Anaemia or low platelet count at presentation.
* Renal failure.
* Raised B2-microglobulin.
Overall, approximately 15% of patients will die within 3 months of diagnosis, with a subsequent death rate of 15% per year. Causes of death include progression of myeloma, renal failure, or sepsis (overwhelming infection). With treatment, the average survival is approximately 5 years. One in ten patients will have a very slow (indolent) course, with only gradual progression of disease.
How Will Multiple Myeloma Affect Me?
Common symptoms of multiple myeloma include:
* Bone pain
* Symptoms of anaemia, such as fatigue or dizziness
* Recurrent infections
* Symptoms of hypercalcemia (excess calcium in the blood), such as nausea, vomiting, constipation or confusion
* Symptoms of renal failure, such as fatigue, weakness, breathlessness or ankle swelling.
Some patients have no symptoms, and are diagnosed incidentally on routine blood tests.
How is Multiple Myeloma Diagnosed?
For the diagnosis of multiple myeloma to be made, 2 out of the following 3 criteria have to be met:
1. Monoclonal immunoglobulin in the blood and/or urine. (An abnormal single protein produced by abnormal plasma cells. The protein is of the type which in normal circumstances would be an antibody).
2. Infiltration of bone marrow by malignant plasma cells.
3. Osteolytic bone lesion (holes eroded in bone by the malignant cells).
Blood tests:
* Full blood picture: haemoglobin, white cell count and platelet counts are normal to low.
* ESR / CRP: raised.
* Urea and electrolytes: may show evidence of kidney impairment.
* Calcium: normal or raised.
* Uric acid: normal or raised.
* Serum B2 microglobulin, serum LDH: these may be useful when predicting the course of disease (prognosis).
* Total protein: normal or raised. Serum albumin will be normal or low.
* Serum protein electrophoresis: a monoclonal band is usually seen.
Imaging investigations:
* A skeletal survey is required for baseline evaluation. Additional x-ray imaging of specific areas of concern, such as ribs, may be helpful.
* CT: to investigate areas of concern, particularly if radiotherapy or surgery is being considered.
* MRI: this may be used to assess disease bulk, or if spinal cord compression is suspected.
A bone marrow biopsy may also be necessary.
How is Multiple Myeloma treated?
Treatment depends upon the stage and form of myeloma, but most people require both systemic chemotherapy and supportive symptomatic care.
Chemotherapy
The standard treatment chemotherapeutic regime for multiple myeloma includes an alkylating agent (melphalan, cyclophosphamide or chlorambucil) and prednisone administered for 4 to 7 days every 4 to 6 weeks. This is continued for one to two years.
While around 50% of patients respond well to this treatment, relapse of disease usually occurs within a year of stopping treatment.
In patients under 65 years who are otherwise healthy, autologous bone marrow transplant is a standard treatment option. This involves 3-6 months of 'induction' chemotherapy, designed to reduce the number of myeloma cells in the body, and remove myeloma cells from the blood. Healthy bone marrow stem cells are then 'harvested' from the patient's blood, before intensive high-dose chemotherapy is given to kill any remaining cancer cells. The patient's own harvested stem cells are then returned to the patient to 'rescue' the depleted bone marrow.
Newly developed drugs offer alternative treatment options, particularly for patients with relapsed refractory disease. Bortezomib is a new type of drug which is able to kill myeloma cells which are resistant to dexamethasone, alkylating agents, and anthracycline. When used alone in the treatment of refractory disease, bortezomib has a response rate of approximately 30%; when combined with dexamethasone, the response rate is 60-70%.
Thalidomide is an older drug which has found a new role in the treatment of multiple myeloma. When combined with dexamethasone in treating refractory myeloma, thalidomide has a response rate of 26-48%. With chemotherapy, the response rate is higher, at 44-86%.
Supportive care
Supportive care includes treatment of anaemia, pathological bone fractures, bone pain (eg. by radiation therapy), strengthening the skeleton (vitamin D, calcium and fluorides), treatment of electrolyte disturbances and antibiotics to prevent infections. Information on other types of leukaemia:
* Chronic Myeloid Leukaemia
* Promyelocytic leukaemia
* Myelodysplastic syndrome
* Chronic lymphocytic leukaemia
* Acute lymphoblastic leukaemia
* Acute myeloid leukaemia
Multiple Myeloma References
1. Braunwald, Fauci, Kasper, Hauser, Longo, Jameson. Harrison's Principles of Internal Medicine. 16th Edition. McGraw-Hill. 2001
2. Cotran RS, Kumar V, Collins T. Robbins Pathological Basis of Disease Sixth Ed. WB Saunders Company 1999.
3. Durie BGM et al. Myeloma management guidelines: a consensus report from the Scientific Advisors of the International Myeloma Foundation. Hematology Journal 2003; 4(6): 379-98.
4. Joshua DE. Multiple myeloma: the present and the future. MJA 2005; 183(7): 344.
5. Kumar P, Clark M. Clinical Medicine. WB Saunders 2002.
6. Sirohi B, Poles R. Multiple myeloma. Lancet. 2004. 363: 875-87.
Regimens Used in the Treatment of This Disease:
* Carmustine
* Interferon
* Melphalan + Prednisolone
Symptoms of This Disease:
* Hypercalcaemia
Treatments Used in This Disease:
* Bone Marrow Transplant
* Blood Transfusion
Drugs/Products Used in the Treatment of This Disease:
* Vincristine sulfate injection
(Vincristine sulfate)
* Vincristine Sulfate Injection (DBL)
(Vincristine sulfate)
* Alkeran
(Melphalan)
* Alkeran Injection
(Melphalan)
* Aredia
(Disodium pamidronate)
* Bonefos
(Sodium clodronate)
* Cycloblastin
(Cyclophosphamide)
* Endoxan
(Cyclophosphamide)
* Pamisol
(Disodium pamidronate)
* Thalidomide Pharmion
(Thalidomide)
* Velcade
(Bortezomib)
* Zometa
(Zoledronic acid)
Chronic Myeloid Leukaemia
What is Chronic Myeloid Leukaemia
Chronic Myeloid Leukaemia usually arises from the precursors of myeloid cells which would subsequently, in normal circumstances, evolve into normal white cells.Bone marrow is found inside most of the bones in the body. By adulthood, a large proportion of bone marrow has become relatively inactive. Generally speaking, it is the marrow inside the vertebra, ribs and pelvis, which is responsible for producing the blood cells in adults. In times of crisis or when these areas of bone marrow are damaged, marrow activity may switch on in the other bones.
The bone marrow is a collection of cells inside a connective tissue and fatty stroma. It is necessary to understand the different types of cell found within the bone marrow.
Stem cells are the ultimate origin of the other cells. Stem cells differentiate to form 3 main types of 'progenitor' cells. Each of these cells is then responsible to produce red cells, white cells and megakaryocytes (which produce platelets).
There are a number of proteins, which stimulate production of blood cells. These include erythropoietin, (EPO) granulocyte-macrophage colony stimulating factor (GM-CSF), granulocyte-CSF (G-CSF), Interleukin 3, 5 and 6 (IL-3, IL-5, IL-6). Generally speaking, these proteins interact with receptors on the surface of the primitive bone marrow cells and stimulate them to produce the adult cells.
Who gets Chronic Myeloid Leukaemia?
It is relatively uncommon and occurs in approximately 1 in 100,000 people, rarely affecting those below the age of 20 and usually occurring in the 40-50 year age group, with sex incidence being slightly more common in males.
Geographically, the tumour is found worldwide.
Predisposing Factors
The characteristic feature of CML is the presence of certain genetic translocation in affected stem cells in the bone marrow - the translocation between chromosomes 9 and 22 (9;22)(q34;q11) - the so called Philadelphia chromosome. This translocation is believed to be the cause of the unchecked proliferation of the stem cells, with further chromosomal transformations important for further progression of the disease.
The only real predisposing factor for this type of leukaemia is exposure to high doses of radiation such as that caused by nuclear accidents. Most cases occur with no obvious cause. Cigarette smoking has been shown to accelerate the progression to blast crisis.
Progression
This type of tumour spreads by expansion within the marrow space and the marrow of the bones in the body.
Probable Outcomes
Chronic myeloid leukaemia can be quite variable in terms of its natural history. The relatively stable chronic phase of this leukaemia averages approximately 4 years. Having said that, some patients have had prolonged chronic phases of more than 15 years, although this is much less common.
Following the chronic phase, an accelerated phase, sometimes called transformation can occur, with the development of a rapidly increasing number of blasts in the peripheral circulation. Once this occurs, survival is normally between 2 and 6 months.
How is Chronic Myeloid Leukaemia Diagnosed?
General investigations may show anaemia or low platelet count. The peripheral white blood cell count can vary between 50-200 x 10/9 per litre. The peripheral blast count is less than 10% in the chronic phase.
How is Chronic Myeloid Leukaemia treated?
The exact treatment given can depend upon the initial white cell count. Initial treatment may be with single agent chemotherapy such as Hydroxyurea or Busulphan.
Younger patients with the disease may be suitable for bone marrow transplantation.
There are a number of newer targeted biological therapies which are showing promise for the treatment of chronic myeloid leukaemia. Interferon can be used and has a reasonable response rate. Specific tyrosine kinase inhibitors can also have an excellent result .
Improvement in symptoms is an important measurement. Specific monitoring may be by measurement of the peripheral white blood cell count. If transformation is thought to have taken place, the peripheral blast count will rise to greater than 15% of the circulating white cell count and bone marrow examination can confirm the presence of a large number of blasts.
The symptoms that may require attention are infection, bleeding and anaemia.
Anaemia may be treated with blood transfusion. Patients may require platelet transfusions. Bacterial infections due to low neutrophil counts usually require urgent treatment with intravenous antibiotics. Care should also be taken to treat more unusual infections such as candida (thrush) in the mouth.
Particularly during chemotherapy, the destruction of the leukaemic cells can produce large amounts of uric acid and prophylactic treatment with Allopurinol is mandatory.
Pain from massive enlargement of the spleen can cause visceral pain and if infarction of the spleen occurs and the peritoneum becomes irritated, somatic pain can also ensue.
Information on other types of leukaemia:
* Promyelocytic leukaemia
* Multiple myeloma
* Myelodysplastic syndrome
* Chronic cymphocytic leukaemia
* Acute lymphoblastic leukaemia
* Acute myeloid leukaemia
Regimens Used in the Treatment of This Disease:
* Interferon
* Mitozantrone
Treatments Used in This Disease:
* Bone Marrow Transplant
* Blood Transfusion
Drugs/Products Used in the Treatment of This Disease:
* Euhypnos
(Temazepam)
* Glivec
(Imatinib mesylate)
* Navelbine
(Vinorelbine tartrate)
* Quadramet
(Samarium-153 Ethylenediaminetetramethylene Phosphate (EDTMP))
* Sprycel
(Dasatinib)
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