Multiple myeloma is one of the most common malignancies of the hematologic system. In recent years, rapid progress has been made in the diagnosis, treatment, and efficacy criteria of multiple myeloma due to the emergence of new drugs that have improved efficacy. In view of this, the Hematologist Branch of the Chinese Medical Association has convened some experts from across China to develop this guideline.
I. Definition
Multiple myeloma is a malignant proliferative disease of plasma cells in which clonal plasma cells in the bone marrow proliferate abnormally and secrete monoclonal immunoglobulins or their fragments (M proteins) and cause related organ or tissue damage (ROTI). Common clinical manifestations are bone pain, anemia, renal insufficiency, and infection.
II. Clinical manifestations
The most common symptoms of multiple myeloma are those associated with anemia, renal insufficiency, infection or bone destruction. Commonly, there are.
1. Skeletal symptoms: bone pain, local masses, pathological fractures, and may be combined with paraplegia.
2. Decreased immunity: recurrent bacterial pneumonia and/or urinary tract infections, sepsis; viral infections with herpes zoster are common.
3. Anemia: orthocytic orthochromic anemia; rarely combined with leukopenia and/or thrombocytopenia.
4. Hypercalcemia: vomiting, weakness, confusion, polyuria or constipation.
5. Renal impairment: Light chain tubular nephropathy is the most common cause of renal failure.
6. Hyperviscosity syndrome: there may be dizziness, vertigo, blurred vision, tinnitus, and sudden onset of impaired consciousness, finger numbness, insufficient coronary artery blood supply, and chronic heart failure. In addition, the M component of some patients is cold globulin, which causes microcirculatory disorders and Raynaud’s phenomenon.
7. Others: Those with amyloid lesions may show hypertrophy of the tongue, enlarged parotid glands, enlarged heart, diarrhea or constipation, enlarged liver and spleen and peripheral neuropathy; advanced patients may also have bleeding tendency.
III. Diagnostic criteria, typology, staging and differential diagnosis
(A) Diagnosis
1.Diagnostic criteria
Main criteria.
①Tissue biopsy proves the presence of plasmacytoma or bone marrow smear examination: plasma cells > 30%, often accompanied by morphological changes.
② Monoclonal immunoglobulin (M protein): IgG>35g/L, IgA>20g/L, IgM>15g/L, IgD>2g/L, IgE>2g/L, monoclonal K or λ light chain in urine>1g/24 hours, and exclude amyloidosis.
Secondary criteria.
①Bone marrow examination: 10%-30% plasma cells.
② Presence of monoclonal immunoglobulin or its fragments, but below the above criteria.
③ X-ray examination with osteolytic damage and/or extensive osteoporosis.
④Decreased amount of normal immunoglobulins: IgM<0.5g/L, IgA<1.0g/L, IgG<6.0g/L.
MM can be diagnosed when any of the following conditions are met.
Major criterion No. 1 + No. 2; or No. 1 major criterion + one of the secondary criteria ② ③ ④; or No. 2 major criterion + one of the secondary criteria ① ③ ④; or one of the secondary criteria ① ② + secondary criteria ③ ④.
2.Minimum diagnostic criteria (meet two of the following)
① bone marrow malignant plasma cells ≥10% or <10% but confirmed to be clonal and/or biopsied as plasmacytoma and monoclonal M protein in serum and/or urine; if M protein is not detected, then bone marrow malignant plasma cells ≥30% and/or biopsied as plasmacytoma
② Myeloma-associated impairment of organ function (at least one, see Table 1 for details) [Other types of end-organ damage may occasionally occur and require treatment. If these organ damages are confirmed to be related to myeloma, they can also be used for the diagnosis of myeloma]
3. Diagnostic criteria for symptomatic MM.
①Meet the diagnostic criteria of MM.
②The presence of any ROTI.
4. Diagnostic criteria for asymptomatic MM.
①Meet the diagnostic criteria of MM.
②No signs and symptoms of ROTI.
(II), typing
According to the type of increased abnormal immunoglobulin can be divided into the following eight types.
IgG type, IgA type, IgD type, IgM type, IgE type, light chain type, biclonal type and non-secretory type. According to the light chain type, they are divided into κ and λ types.
(iii) Staging
Durie-Salmon staging system and international staging system (ISS) are available.
(iv) Differential diagnosis
Differentiate from the following conditions: reactive plasmacytosis (RP), primary macroglobulinemia (WM) and osteolytic lesions of metastatic carcinoma, and other diseases in which M protein can be present, such as monoclonal gammopathy of undetermined significance (MGUS), light chain amyloidosis, isolated plasmacytoma (bone or extramedullary), non-Hodgkin’s lymphoma, and chronic lymphocytic leukemia.
1, reactive plasmacytosis (reactive plasmacytosis).
① presence of primary disease: such as chronic inflammation, typhoid, systemic lupus erythematosus, cirrhosis, metastatic cancer, etc.;
② Plasma cells ≤ 30% and no morphological abnormalities;
③Immunophenotype: reactive plasma cells have an immunophenotype of CD38+CD56-, while MM is CD38+CD56+;
④M protein identification: no monoclonal immunoglobulin or its fragments;
⑤ Cytochemical staining: plasma cell acid phosphatase as well as 5’nucleotidase reactions were mostly negative or weakly positive, while MM patients were positive;
⑥IgH gene clonal rearrangement negative.
2. Primary macroglobulinemia (Waldenström “s macroglobulinemia, WM).
①IgM type immunoglobulin in blood is monoclonal increased, while other immunoglobulins are normal or mildly suppressed.
②Imaging: osteoporosis is less commonly seen on X-ray, and osteolytic lesions are extremely rare.
③Plasma cell morphology: lymphocytes and plasma cell-like lymphocytes are prevalent in the bone marrow. Biopsies of lymph nodes, liver and spleen suggest diffuse well-differentiated or plasma-like lymphocytic lymphoma.
Immunophenotype: mostly IgM+, IgD-, CD19+, CD20+, CD22+, CD5-, CD10- and CD23-.
3.Osteolytic lesions of metastatic cancer.
①Bone pain is obvious at rest and at night;
②Serum alkaline phosphatase is often elevated;
(3) Osteogenic manifestations are mostly accompanied by increased bone density around the osteolytic defect;
④Bone marrow smear or biopsy may show heaps of cancer cells;
⑤ Most patients can find the primary foci, but some patients can not find the primary foci.
4, monoclonal gammopathy of undetermined significance (MGUS) diagnostic criteria (meet the following three)
① blood M protein <30g/L;
②Bone marrow clonal plasma cells <10%;
(3) No ROTI, no other B-cell proliferative disorders or light chain-related amyloidosis or other light chain, heavy chain or immunoglobulin-related tissue damage.
5. Diagnostic criteria for isolated plasmacytoma (bone or extramedullary) (three of the following criteria are met)
(1) Biopsy confirmed monoclonal plasmacytoma at a single site with no positive findings on X-ray, MRI and/or FDG PET except for the primary site, and low serum and/or urine M protein levels;
(ii) Normal plasma cell count on multi-site bone marrow aspiration smear or bone biopsy with no evidence of clonal proliferation by flow cytometry or PCR of the specimen;
③No myeloma-related organ function impairment, etc.
IV. Treatment
(I) Treatment principles
1. Patients with asymptomatic myeloma or D-S stage I can be observed and reviewed once every 3 months.
2. Patients with symptomatic MM or myeloma without symptoms but with myeloma-associated sexual organ failure should be treated early.
3. Those aged ≤65 years who are suitable for autologous stem cell transplantation should avoid alkylating agents and nitrosoureas.
4. Those who are suitable for clinical trials should be considered to enter clinical trials.
(B) Treatment of patients with symptomatic MM or D-S stage II or above (see Annex II for details of chemotherapy regimen)
1. Induction therapy: serum immunoglobulin quantification and M protein quantification, blood cell count, BUN, creatinine, blood calcium, bone marrow aspiration (bone marrow biopsy can be reviewed if clinically necessary) are reviewed once a month during induction therapy; serum free light chain detection is recommended (X-ray skeletal photos, MRI, PET/CT can be reviewed for more than six months if no new site of bone pain occurs or the degree of bone pain worsens). General chemotherapy regimen at 3~4 courses (including new drug regimen can be earlier) need to evaluate the efficacy of the disease, when the efficacy reaches MR or above (those who do not reach MR or above are primary drug resistance or NC, need to change the treatment regimen) can be used to continue the treatment with the original regimen until the disease turns into the plateau.
Those aged ≤65 years or suitable for autologous stem cell transplantation: one of the following regimens can be selected for induction therapy for 4 courses, or for those who have achieved PR and better efficacy for less than 4 courses, stem cell mobilization collection can be performed. Anticoagulation may be used prophylactically in high-risk patients.
Ø VAD±T (vincristine + adriamycin + dexamethasone ± thalidomide)
Ø TD (thalidomide + dexamethasone)
Ø BD (bortezomib + dexamethasone)
Ø PAD (bortezomib + adriamycin + dexamethasone)
Ø DVD (liposomal adriamycin + vincristine + dexamethasone)
Ø BTD (bortezomib + thalidomide + dexamethasone)
Age > 65 years or not suitable for autologous stem cell transplantation, along with blood Cr ≥ 176 mmol/L: one of the following regimens can be chosen until PR and above is achieved
Ø VAD (adriamycin + dexamethasone ± vincristine)
Ø TD (thalidomide + dexamethasone)
Ø PAD (bortezomib + adriamycin + dexamethasone)
Ø DVD (liposomal adriamycin + vincristine + dexamethasone)
Age > 65 years or not suitable for autologous stem cell transplantation, blood Cr ≤ 176 mmol/L: In addition to the above regimens, one of the following regimens can be chosen until PR and above is achieved
Ø MP (Marfalan + prednisone)
Ø M2 (cyclophosphamide + vincristine + capsaicin + mafran + prednisone)
Ø MPV (mafran + prednisone + bortezomib)
Ø MPT (mafran + dexamethasone + thalidomide)
2.Treatment of primary drug-resistant MM
① Switch to a new regimen that has not been used, and if PR or above can be obtained, autologous stem cell transplantation should be performed as soon as possible if conditions are suitable;
②For those who are eligible for clinical trials, enter clinical trials;
3.Treatment of MM relapse
Relapse after chemotherapy
① Relapse within six months after remission, switch to a new regimen that has not been used before;
②For relapse more than six months after remission, the original remission-inducing regimen can be tried; if it is ineffective, the new regimen that has not been used before should be used instead;
(iii) Stem cell transplantation (autologous or allogeneic) if conditions are suitable;
Relapse after transplantation
① Relapse after allogeneic transplantation: donor lymphocyte infusion with a previously unused regimen containing a new drug;
② Relapse after autologous stem cell transplantation: use a previously unused regimen containing new drugs, and consider allogeneic hematopoietic stem cell transplantation;
4.Maintenance therapy
The significance of maintenance therapy is unclear. The timing of maintenance therapy is after 2 courses of consolidation for patients who do not undergo transplantation after achieving optimal efficacy; after patients who undergo autologous HSCT after achieving VGPR and above. Response arrest 50-200 mg/d, QN, combined with prednisone 50 mg/d, QOD; interferon 3 MU, QOD can be used.
If there is no evidence of ROTI in the maintenance phase, the above indexes will be reviewed every 3 months in the first year and every 6 months in the second year.
5.Autologous stem cell transplantation
①Autologous HSCT is often performed after 3-4 courses of effective chemotherapy; avoid alkylating agents and nitrosoureas in patients who are likely to undergo autologous HSCT.
(ii) Patients who obtained less than VGPR after the first autologous stem cell transplantation can undergo a second autologous stem cell transplantation, and the second transplantation is usually performed within 6 months after the first transplantation.
③Patients who obtained efficacy above VGPR after the first autologous stem cell transplantation can undergo observation or maintenance treatment, or can be tested for the second autologous stem cell transplantation, but the patient does not necessarily benefit.
6.Allogeneic stem cell transplantation
Allogeneic stem cell transplantation with autologous-reduced pretreatment regimen can be performed in patients with multiple myeloma; allogeneic stem cell transplantation with reduced pretreatment regimen is usually performed within six months after autologous stem cell transplantation.
Clear myeloid allogeneic stem cell transplantation can be performed in young patients and is commonly used in patients with refractory relapse.
7.Supportive therapy: on the basis of chemotherapy
Treatment of bone disease
① Use oral or intravenous bisphosphonate drugs: including disodium clodronate, disodium pamidronate, zoledronic acid, ibandronate. Strictly control the infusion time when using intravenous preparations, pay attention to monitoring renal function before and after use, and do not use them for more than 2 years in total; if there is still active bone damage after 2 years, they can be used intermittently. Disodium pamidronate or zoledronic acid may cause osteonecrosis of the jaw and aggravate renal impairment;
②Surgical treatment is feasible in the presence of pathological fractures of long bones or spinal fractures compressing the spinal cord, and kyphoplasty is feasible in symptomatic spinal compression fractures;
③In case of severe pain and poor pain relief, local low-dose radiotherapy can be used, and whole-body radiotherapy can be avoided before stem cell collection.
Hypercalcemia
① hydration, diuresis: daily rehydration 2000-3000ml; keep urine volume >1500ml/day;
②Use of bisphosphonates;
③Glucocorticoids and/or calcitonin.
Anemia: erythropoietin treatment can be considered.
Renal insufficiency
①hydration diuretic; reduce uric acid formation and promote uric acid excretion;
②In case of renal failure, dialysis should be actively used;
③Caution in the use of non-steroidal anti-inflammatory and analgesic drugs;
④Avoid intravenous pyelogram.
Infection: actively treat all kinds of infections and treat according to the principle of immune depression.
Hyperviscosity: plasma replacement can be used for patients with symptomatic hyperviscosity syndrome.
V. Prognosis
The natural course of MM is highly heterogeneous, with a median survival of about 3-4 years, and some patients can survive for more than 10 years. The prognostic factors affecting MM are: age, C-reactive protein (CRP) level, degree of bone marrow plasma cell infiltration and Durie-Salmon clinical stage (including renal function), and ISS stage. Cytogenetic alterations are important factors in determining the efficacy response and survival of MM. Fluorescent in-situ hybridization (FISH) detected high-risk MM with t(4;14), t(14;16), del(17p), and interphase cytogenetic detection of 13q- are also among the high-risk factors. In addition, the degree of plasma cell differentiation, circulating plasma cell count, and serum lactate dehydrogenase (LDH) levels are all independent prognostic factors for MM survival; performance status (PS) is most likely a strong predictor of MM survival.
Chinese Multiple Myeloma Working Group: Huang Xiaojun (People’s Hospital of Peking University, Institute of Hematology, Peking University), Hou Jian (Changzheng Hospital, Shanghai), Li Juan (The First Hospital of Sun Yat-sen University), Chen Wenming (Chaoyang Hospital, Capital Medical University, Beijing), Chen Xiequn (Xijing Hospital, Fourth Military Medical University), Shen Zhixiang (Ruijin Hospital, Second Medical University, Shanghai), Liu Ting (West China Hospital, Sichuan University) Y. Q. Zhao (Peking Union Medical College Hospital, Chinese Academy of Medical Sciences), J. Ma (Harbin Institute of Hematology and Oncology), P. Zou (Union Hospital of Tongji Medical College, Huazhong University of Science and Technology), D. P. Wu (The First Affiliated Hospital of Soochow University), L. G. Qiu (Tianjin Institute of Hematology, Chinese Academy of Medical Sciences), L. Yu (General Hospital of the Chinese People’s Liberation Army), J. Jin (The First Affiliated Hospital of Zhejiang University School of Medicine), J. Lu ( People’s Hospital of Peking University, Peking University Institute of Hematology), You Suning.