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OBJECTIVE@#To establish 10-color fluorescent antibody combination panels for the detection of minimal residual disease (MRD) of acute myeloid leukemia (AML) in our laboratory and discuss the value of clinical application.@*METHODS@#According to the antigen expression characteristics of leukemia cells of incipient AML patients, MRD in bone marrow were detected by multiparameter flow cytometry, and the test results were compared with both bone marrow cell morphology and PCR results, then 10-color fluorescent antibody combination panels in our lab for MRD detection was determined.@*RESULTS@#The immunophenotypic characteristics of 392 incipient patients with AML in the First Affiliated Hospital of Zhengzhou University were analyzed, among them 357 (91.07%) cases showed abnormal immunophenotypes, which mainly included cross-lineage expression, cross-stage expression, deficiency of antigen expression or abnormal antigen intensity and other abnormal expression. The 10-color fluorescent antibody combination panels established according to abnormal immunophenotypic characteristics of leukemia cells were applied for detecting MRD in 156 patients with AML, the positive rate (43.6%) was higher than 26.8% of morphology, and the results were highly consistent with PCR detection results (96.49%), moreover, the recurrence rate of MRD positive patients (86.96%) was significantly higher than 5.75% of MRD negative patients. Therefore, this method could truly reflect the load of leukemia cells and prompt change of disease condition.@*CONCLUSION@#Multiparameter flow cytometry can detect various abnormal immunophenotypes of AML. The 10-color fluorescent antibody combination panels in our lab based on the characteristics of antigens expression in leukemia cells can well detect MRD of leukemia cells, so as to predict relapse and provide basis for clinical treatment.
Subject(s)
Humans , Bone Marrow , Flow Cytometry/methods , Immunophenotyping , Leukemia, Myeloid, Acute/diagnosis , Neoplasm, Residual/diagnosisABSTRACT
OBJECTIVES@#To study the prognostic value of measurable residual disease (MRD) for childhood acute myeloid leukemia (AML) by analyzing MRD-guided risk stratification therapy.@*METHODS@#A total of 93 children with AML were prospectively enrolled in this study. Chemotherapy with the 2015-AML-03 regimen was completed according to the risk stratification determined by genetic abnormality at initial diagnosis and MRD and bone marrow cytology after induction therapy I. Multiparameter flow cytometry was used to dynamically monitor MRD and analyze the prognostic effect of MRD on 3-year cumulative incidence of recurrence (CIR) rate, event-free survival (EFS) rate, and overall survival (OS) rate.@*RESULTS@#The 93 children with AML had a 3-year CIR rate of 48%±6%, a median time to recurrence of 11 months (range 2-32 months), a 3-year OS rate of 65%±6%, and a 3-year EFS rate of 50%±5%. After induction therapy I and intensive therapy I, the MRD-positive children had a significantly higher 3-year CIR rate and significantly lower 3-year EFS and OS rates than the MRD-negative children (@*CONCLUSIONS@#MRD has predictive value for the prognosis of children with AML. Based on the MRD-guided risk stratification therapy, reasonable application of chemotherapy may improve the overall prognosis of children with AML.
Subject(s)
Child , Humans , Disease Progression , Flow Cytometry , Leukemia, Myeloid, Acute/drug therapy , Neoplasm, Residual , PrognosisABSTRACT
Objective@#To evaluate the prognostic value of kinetic changes in minimal residual disease (MRD) status, as well as its relationship with risk stratification, therapeutic response and treatment in patients with newly-diagnosed multiple myeloma (MM) .@*Methods@#A total of 135 patients with newly-diagnosed MM were screened, and 105 patients who achieved VGPR or more as the best responses were included into this study. The MRD status was determined by multiparameter flow cytometry (MFC) at multiple intervals after two cycles of treatment until clinical relapse, death, or last follow-up. The statistical methods included Kaplan-Meier analysis, Cox regression, etc.@*Results@#①In all 135 patients, 57.8% (78/135) patients achieved MRD negativity (MRD-) after treatment. In 105 patients who achieved VGPR and thus included in this study, the MRD- rate was 72.4% (76/105) , with a median interval of 3 months from starting treatment to achievement of MRD- status. ②The 2-year PFS rate of patients with MRD- status was significantly higher than that of MRD+ status (62.2% vs 41.3%, P=0.001) , while MRD persistence (MRD+) was an independent factor for poor prognosis (multivariate analysis for PFS: P=0.044, HR=3.039, 95%CI 1.029-8.974) . ③Loss of MRD- status (i.e., MRD reappearance) showed inferior outcomes compared with MRD sustained negative ones, the PFS was 18 months versus not reach (P<0.001) and the OS was not reach for both (P=0.002) . ④The 2-year PFS and OS rates of patients with duration of MRD-status≥12 months were significantly higher than those of the control group (PFS: 77.7% vs 36.7%, P<0.001; OS: 96.4% vs 57.9%, P<0.001 respectively) . Duration of MRD- status was associated with a marked reduction in risk of relapse or death (univariate analysis for PFS: P<0.001, HR=0.865, 95%CI 0.815-0.918; for OS: P=0.001, HR=0.850, 95%CI 0.741-0.915 respectively) . ⑤Moreover, even in patients carrying high-risk cytogenetic abnormalities (CA) or ineligible for ASCT, MRD negativity remained its prognostic value to predict PFS (high-risk CA medianPFS: not reach vs 19 months, P=0.006; ineligible for ASCT medianPFS: not reach vs 25 months, P=0.052 respectively) . ⑥Last, treatment with the bortezomib-based regimens contributed to prolonged MRD- duration (median MRD- duratio: 25 months vs 10 months, P=0.034) .@*Conclusion@#Our findings supported MRD+ status as an independent poor prognostic factor in MM patients, which implicated that duration of MRD- status also played a significant role in evaluation of prognosis, while loss of MRD-status might serve as an early biomarker for relapse. Therefore, monitoring of MRD kinetics might more precisely predict prognosis, as well as guide treatment decision, especially for when to start retreatment in relapsed patients.
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Objective@#To assess the feasibility and prognostic value of the minimal residual disease (MRD) evaluated by multiparameter flow cytometry (MFC) in the newly diagnosed multiple myeloma (MM) patients of China.@*Methods@#Clinical data of 106 consecutively newly diagnosed MM patients with MRD data were retrospectively analyzed in a single center in China from June 2013 to June 2015.@*Results@#① Of 106 patients, 48 (45.3%) achieved MRD negativity. The median time to MRD-negative was 3 months. More patients undergoing autologous stem cell transplantation (ASCT) achieved MRD negativity compared with non-ASCT patients (62.2% vs 36.2%, χ2=6.536, P=0.011). ② Of 48 patients in complete remission (CR), 7 (14.6%) was MRD positive, 5 of them showed disease progression (PD) during the follow-up, and 3 died. The median progression free survival (PFS) was 19 months, and the median overall survival (OS) was 28 months, both were significantly shorter than the CR patients with MRD-negative (P<0.05). ③At a median follow-up of 38 months, MRD-negative patients showed significantly superior outcomes compared with MRD positive ones, the PFS was not reach versus 17 months and the OS was not reach for both (P<0.001). Patients were grouped into 4 categories according to their MRD levels: 1% or higher, 0.1% to less than 1%, 0.01% to less than 0.1%, or negative. It showed that the outcomes (PFS and OS) tended to be improved along with the tumor depletion. ④ Multivariate prognostic analysis showed that MRD was a powerful independent prognostic factor for PFS[HR=0.133 (95% CI 0.062-0.288) , P<0.001] and OS[HR=0.156 (95% CI 0.050-0.484) , P=0.001]. According to MRD and cytogenetics, the patients were classified into 4 groups. High risk patients with MRD negative presented a significantly better outcome than high risk patients with MRD-positive, and a similar one to the standard risk patients with MRD-negative.@*Conclusions@#MRD negativity by MFC was more popular in MM patients undergoing ASCT. MRD was an independent prognostic factor in MM. And the prognosis of MM patients can be stratified according to the level of MRD. MRD-negative patients with high risk cytogenetics presented a similar outcome to the standard risk ones. MRD by MFC should therefore be considered more widely applied in the clinic.
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Objective To discuss the clinical application of minimal residual disease in acute myelogenous leukemia(AML) by wt1 mRNA quantitative combined with multi-parameter flow cytometry (FCM).Methods Real time quantitative polymerase chain reaction (qRT-PCR) method was established for detecting wt1 gene expression level in 35 AML patients.The indexes were detected by different subtypes;And 9 cases of ease and 4 cases of recurrence in patients was followed-up and detected the wt1 level.The multiparameter flow cytometry was used to analyze the minimal residual disease in AML.Results The expression of wt1 gene was significantly higher than that of the control group.Significant difference was found(P<0.05).In the newly diagnosed AMLs, wt1 was the highest in M2 and the lowest in M6.Follow-up of 4 AML patients showed that wt1 gene expression level was markedly decreased after CR, but obviously increased after relapse.The proportion of abnormal myeloid cells in different phases significantly changed by FCM.There was no difference of minimal residual disease in AML by qRT-PCR and multiparameter flow cytometry.The ROC curve was used to analyze the recurrent cases to get the threshold value(3.33%).Conclusion The quantitative analysis of wt1 combined with multi-parameter flow cytometry can be used to monitor minimal residual disease in leukemia patients, assess the treatment efficacy and prognosis, and predict the risk of recurrence.
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Objective@#To investigate the impact of minimal residual disease (MRD) by multiparameter flow cytometry (MPFC) during aplasia on efficacy and prognosis of de novo acute myeloid leukemia (AML) (non M3) patients.@*Methods@#The MRD data by 8-color MPFC during aplasia (day 14-15 of induction therapy) in 85 de novo AML (non M3) patients and the MRD impact on efficacy and prognosis were retrospectively analyzed.@*Results@#Data of 85 patients, including 42 males (49.4%) and 43 females (50.6%) , were collected, with a median age of 35 (15-54) years. The median MRD by MPFC during aplasia was 0.58% (0-81.11%) , and 70 (82.4%) patients achieved complete remission (CR) after first induction chemotherapy. The cutoff of MRD by receiver operating characteristic (ROC) analysis was 2.305% (Se= 0.867, Sp=0.800) . The CR rate after one course was significantly higher in patients with MRD<2.305% [96.6% (56/58) ]than in patients with MRD≥2.305%[51.9% (14/27) ] (χ2=22.348, P<0.001) ; no significant difference with respect to relapse-free survival rate (χ2=1.08, P=0.299) or overall survival rate (χ2=0.42, P=0.516) could be demonstrated for the comparison of the two groups. Multivariates analysis showed MRD divided by 2.305% was the only independent prognostic factor for CR after one course (OR= 21.560, 95% CI 4.129-112.579, P<0.001) .@*Conclusion@#Flow cytometric MRD divided by 2.305% during aplasia could be a predictor of efficacy after first induction therapy in AML patients.
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Objective To discriminate morphology and immunophenotype differences between hematogones and lymphoblast to provide some references for the correct identification of hematogones and minimal residual leukemia cells.Methods Immunophenotypes were detected by flow cytometry in a total of 132 bone marrow from 58 patients with acute B lymphoblastic leukemia during diagnosis,remission and relapse.Hematogones were identified based on combination of CD34/CD10/CD19/CD45 or CD34/CD10/CD45/CD19/CD20/CD38.Results Among 132 specimens,45 (34 %) were identified hematogones,the detection range was 0-36 %.Three specimens appeared in diagnosis patients,one in relapse,and the remaining 41 cases in remission.The detection rate of hematogones was 62 % (41/66) in the remission cases.More than 5 % leukemia cells of nucleated cells were detected in diagnosis and relapse,and less than 5 % residual leukemia cells was in 24 specimens from remission patients.In 28 specimens,the co-existence of hematogones and leukemia cells was found,including three in diagnosis,one in relapse and the remaining 24 in remission.Hematogones were characterized in term of variable expression of CD45 and very low side scatter.The early hematogones expressed CD34.With maturation increasing,hematogones gradually lacked CD34.CD19 and CD10 were presented in whole hematogones stage.Early hematogones had expression of CD10.Lymphoblasts showed maturation arrest and more homogeneous populations.SSC values of hematogones were higher than that of normal B cell progenitors.Antigen overexpression or underexpression was not found in normal hematopoietic progenitor B cells,and hematopoietic progenitor B cells did not appear cross-lineage markers,CD20+ cells exhibited continuous distribution from negative to weak positive for normal hematogones.Conclusions Hematogones were present in diagnosis,remission and relapse cases with acute B lymphoblastic leukemia,especially abundant in bone marrow after chemotherapy.It should be careful to diagnose and discriminate the malignant cells from benign cells.By comprehending continuous and complete maturation spectrum of antigen expression for normal hematogones,knowing phenotype of leukemia cells drift change patterns and using multiparameter flow cytometry and optimal antibody combination,it is significant in identifying residual lymphoblasts from hematogones and improving the detection accuracy in minimal residual disease.
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La hemoglobinuria paroxística nocturna (HPN) es un trastorno clonal severo y raro no maligno y adquirido de la célula madre hematopoyética. Es el único trastorno hemolítico adquirido causado por una anomalía de la membrana eritrocitaria como resultado de una mutación somática clonal de un gen, el fosfatidilinositol glucano clase A (PIG-A) situado en el brazo corto del cromosoma X. Se han identificado una serie de proteínas reguladoras del complemento, entre las que se destacan: el factor acelerador de la degradación (CD55) y el factor inhibidor de la lisis reactiva de la membrana (CD 59) deficientes en esta enfermedad. La HPN se clasifica en clásica, asociada a otro trastorno medular y en subclínica. Su diagnóstico se apoya en estudios hematológicos, bioquímicos, pruebas serológicas especiales, estudios eritroferrocinéticos e imagenológicos. La electroforesis de proteínas de membrana de alta resolución y la citometría de flujo multiparamétrica constituyen técnicas de elección para el diagnóstico. El tratamiento de la anemia, de los episodios trombóticos y de las infecciones constituyen los pilares terapéuticos básicos. Dentro de los agentes farmacológicos más utilizados se destacan: los esteroides. los andrógenos, la eritropoyetina recombinante humana y el factor estimulador de colonias granulocíticas. Recientemente, el anticuerpo monoclonal eculizumab ha aumentado la expectativa de vida de estos pacientes con una mejoría de su calidad de vida
Paroxysmal nocturnal hemoglobinuria (PNH) is a non malignant and acquired clonal disease of the hematopoietic stem cell. It is a severe and rare disease. It is the only acquired hemolytic disturbance that is caused for an erythrocyte membrane anomaly. It is a result of a somatic clonal mutation of one gene that is located in the short arm of X chromosome called phosphatidyl inositol glycan class A (PIG-A). Regulated complement proteins are identified: the decay accelerated factor (CD55) and the membrane inhibitor or reactive lysis (CD 59); the abnormal blood cells of PNH have deficiency of these two proteins. PNH is classified in: classic PNH, PNH associated with another bone marrow disturbance and PNH sub clinic. Diagnosis is obtained by hematological, biochemical, kinetics and imagenologics studies and serologic special tests. High resolution membrane protein electrophoresis and flow cytometry are the elective tests. Treatments for anemia, thrombotic episodes and infections are important in the management of these patients. Steroids, androgens, human recombinant erythropoietin and granulocytic colony stimulating factor (CSF-G) are the more used pharmacology agents. Recently, the monoclonal antibody eculizumab has increased the life expectation in these patients with a better quality of life
Subject(s)
Humans , Hemoglobinuria, Paroxysmal/complications , Hemoglobinuria, Paroxysmal/diagnosis , Hemoglobinuria, Paroxysmal/history , Antibodies, Monoclonal, Humanized/therapeutic useABSTRACT
ObjectiveTo monitor the treatment effect of acute leukemia by multiparmeter flow cytomtry(MPFC), MethodsThe patientswith acute leukemia all achieved complete remission after remission induction therapy.Before the chemotherapy,the bone marrow cell morphology and MPFC inspection were used for each patient. Through statistical analysis, the relationship between morphological feature andrecurrence,as well as time duration till recurrence were obersved. ResultsThe 122 specimens from 30 patients were observed.The specimens were analyzed by morphological examination of bone marrow cells,and the other 61 specimen through MPFC. There were 8 positive specimen(13.11%)through morphological examination,while 18 positive specimen(29.51% )through MPFC. There was a significant difference between the two groupes by x2 test (x2=4.33,P<0.05).The 18 MPFC-positive specimens were from 10 patients.In the follow-up period, there were 6 patients whose morphological examination also prompted the recurrence in 1-4 months. Three patients were failed to follow up because of 2 patients became negative and 1 patient died. ConclusionMPFC is more sensitive and able to assess the effect of acute leukemia treatment more objectively and detect the recurrence earlier than morphological examination.