Clinical analysis of father and son both with acute leukemia and father with triple primary malignancies

Yuan Xia, G. Gao, Yongjin Zhi, Zhengdong Wu
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The procedure of this study is accordance with the requirement of the revised World Medical Association Declaration of Helsinki in 2013. \n \n \nResults \n① Case 1 (the son) was admitted to the Department of Hematology, Taizhou People′s Hospital on October 23, 2012, due to \" dizziness, fatigue, and sleep hyperhidrosis for 3 months\" . After admission, the result of bone marrow cell morphology revealed hyper-cellularity with 38.5% of lymphoblasts and prolymphocytes, and immunophenotype analysis of leukemia blasts showed that the neoplastic cells were positive for CD34, human leukocyte antigen (HLA) -DR, CD10, CD20 and CD19. No abnormal karyotype was observed in cytogenetic analysis. The patient was diagnosed with B-cell lymphoma/leukemia. Subsequently, 4 cycles of R+ hyper-CVAD (rituximab+ cyclophosphamide+ vindesine+ epirubicin+ dexamethasone)/R+ MA (rituximab+ methotrexate+ cytarabine) chemotherapy were performed, combined with 8 intrathecal injections (methotrexate combined with dexamethasone or cytarabine). Bone marrow cell morphology revealed complete remission (CR), and MRD were negative during this period of time. On April 26, 2013, autologous hematopoietic stem cell transplantation (auto-HSCT) was performed, and rituximab was used for consolidation treatment twice since then. On November 8, 2013, the result of bone marrow cell morphology reported hypercellularity with 35.0% lymphoma cells, which indicated relapse of the disease. The patient achieved CR again after VDCLP (vindazine+ daunorubicin+ cyclophosphamide+ papeurase+ prednisone) and CA (cyclophosphamide+ cytarabine) chemotherapy, but still relapsed. On March 12, 2014, the patient received haploid hematopoietic stem cell transplantation (haplo-HSCT) and then achieved CR. On April 3, 2015, the result of bone marrow cell morphology showed obviously proliferation of karyote cells with 22.0% of prolymphocyte, and immunophenotype of leukemia blasts was positive for CD34, CD22, CD19, CD33 and HLA-DR. No abnormal karyotype was observed in cytogenetic analysis. These findings led to the diagnosis of B-cell acute lymphocytic leukemia (B-ALL). The patient was then given salvage treatment of decitabine combined with VLP (vintelide+ pemetrex+ dexamethasone) chemotherapy, and CR was achieved with the MRD ratio of 0.13%. Multiple regimens of chemotherapy were given subsequently. On January 27, 2016, the patient was treated with CIOLP (cyclophosphamide+ vindesine+ mitoxantrone+ dexamethasone+ pemetrexase) chemotherapy, which caused grade Ⅳ myelosuppression and led to severe infection afterwards. Efficacy was poor despite of supportive care, and the patient died on February 20, 2016. ② Case 2 (the father) was admitted to Taizhou People′s Hospital for \" abdominal bloating\" in July 2001. Endoscopic biopsy was performed, which indicated poorly differentiated adenocarcinoma. A total gastrectomy was performed subsequently. In April 2018, the patient was admitted to Jiangsu Province Hospital for \" painless gross hematuria\" . Bladder occupied lesions was observed in CT. Then the patient underwent radical cystectomy with orthotopic ileal neobladder, in which the pathological examination showed high grade papillary urothelial carcinoma of the bladder. In November 2018, the patient received postoperative examinations, including a blood routine test in which myeloblasts were inspected, therefore the patient was transfered to the Department of Hematology, Taizhou People′s Hospital for further diagnosis. Proliferation of granulocyte with 19.0% of myeloblasts was observed in bone marrow cell morphology, and the diagnosis of myelodysplastic syndrome (MDS)-excess blasts (EB) 2 was made. On December 26, 2018, the result of bone marrow cell morphology revealed 26.0% of myeloblasts, and these primitive cells were positive for CD7, CD34, CD13, CD33, CD117, CD15, CD64, myeloperoxidase (MPO), HLA-DR by immunophenotype analysis. Normal karyotype was indicated through cytogenetic analysis, and results of fluorescence in situ hybridization (FISH) showed 86% of trisomy cen8 and 85% of TP53 deletion. Thus, the patient was diagnosed as acute myeloid leukemia (AML)-M2. Induction chemotherapy of decitabine combined with HA (homoharringtonine+ cytarabine) was given on December 28, 2018. On January 30, 2019, the result of bone marrow cell morphology showed 7.0% of myeloblasts which suggested partial remission (PR). On February 13, 2019, the patient was treated with an additional induction therapy of decitabine combined with IA (demethoxydaunorubicin+ cytarabine). It is indicated that CR was achieved based on the result of bone marrow cell morphology, performed on March 23, 2019, which showed slightly reduced proliferation of karyote cells with 1.0% of myeloblasts. Thereafter, consolidation chemotherapy of IAG (demethoxydaunorubicin+ cytarabine+ granulocyte colony-stimulating factor) was performed on March 25, 2019, and April 27, 2019, respectively. Result of bone marrow cell morphology indicated CR and negative MRD during this stage. HA chemotherapy was implemented on June 10, 2019, followed by relapse of the disease on July 19, 2019, which was manifested by 25.0% of myeloblasts observed in bone marrow cell morphology. Re-induction chemotherapy of decitabine combined with IA was given on July 20, 2019, and by August 8, 2019, bone marrow cell morphology hasn′t been reexamined. \n \n \nConclusions \nFamilial leukemia is mainly induced by genetic factors. Patients usually suffer from low remission rate, as well as high probability of relapse. The overall survival is generally short. This conclusion is limited to the clinical analysis of 2 cases, and it requires to expand sample size for further study and verification. \n \n \nKey words: \nLeukemia; Heredity; Chromosomal instability; Familial leukemia; Multiple cancer; Retrospective study","PeriodicalId":13774,"journal":{"name":"国际输血及血液学杂志","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2020-01-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"国际输血及血液学杂志","FirstCategoryId":"3","ListUrlMain":"https://doi.org/10.3760/CMA.J.ISSN.1673-419X.2020.01.008","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0

Abstract

Objective To investigate the pathogenesis and clinical characteristics of familial leukemia. Methods In October 2012 and December 2018, 2 patients with acute leukemia(AL) admitted to the Department of Hematology, Taizhou People′s Hospital were included in this study. Two patients were 34 and 65 years old, respectively. Routine blood examination, bone marrow cell morphology examination, chromosome karyotype analysis, leukemia cell immunotyping, minimal residual disease (MRD) detection and fusion gene detection were performed on the 2 patients. The clinical features, diagnosis and treatment of the patients were analyzed retrospectively. The procedure of this study is accordance with the requirement of the revised World Medical Association Declaration of Helsinki in 2013. Results ① Case 1 (the son) was admitted to the Department of Hematology, Taizhou People′s Hospital on October 23, 2012, due to " dizziness, fatigue, and sleep hyperhidrosis for 3 months" . After admission, the result of bone marrow cell morphology revealed hyper-cellularity with 38.5% of lymphoblasts and prolymphocytes, and immunophenotype analysis of leukemia blasts showed that the neoplastic cells were positive for CD34, human leukocyte antigen (HLA) -DR, CD10, CD20 and CD19. No abnormal karyotype was observed in cytogenetic analysis. The patient was diagnosed with B-cell lymphoma/leukemia. Subsequently, 4 cycles of R+ hyper-CVAD (rituximab+ cyclophosphamide+ vindesine+ epirubicin+ dexamethasone)/R+ MA (rituximab+ methotrexate+ cytarabine) chemotherapy were performed, combined with 8 intrathecal injections (methotrexate combined with dexamethasone or cytarabine). Bone marrow cell morphology revealed complete remission (CR), and MRD were negative during this period of time. On April 26, 2013, autologous hematopoietic stem cell transplantation (auto-HSCT) was performed, and rituximab was used for consolidation treatment twice since then. On November 8, 2013, the result of bone marrow cell morphology reported hypercellularity with 35.0% lymphoma cells, which indicated relapse of the disease. The patient achieved CR again after VDCLP (vindazine+ daunorubicin+ cyclophosphamide+ papeurase+ prednisone) and CA (cyclophosphamide+ cytarabine) chemotherapy, but still relapsed. On March 12, 2014, the patient received haploid hematopoietic stem cell transplantation (haplo-HSCT) and then achieved CR. On April 3, 2015, the result of bone marrow cell morphology showed obviously proliferation of karyote cells with 22.0% of prolymphocyte, and immunophenotype of leukemia blasts was positive for CD34, CD22, CD19, CD33 and HLA-DR. No abnormal karyotype was observed in cytogenetic analysis. These findings led to the diagnosis of B-cell acute lymphocytic leukemia (B-ALL). The patient was then given salvage treatment of decitabine combined with VLP (vintelide+ pemetrex+ dexamethasone) chemotherapy, and CR was achieved with the MRD ratio of 0.13%. Multiple regimens of chemotherapy were given subsequently. On January 27, 2016, the patient was treated with CIOLP (cyclophosphamide+ vindesine+ mitoxantrone+ dexamethasone+ pemetrexase) chemotherapy, which caused grade Ⅳ myelosuppression and led to severe infection afterwards. Efficacy was poor despite of supportive care, and the patient died on February 20, 2016. ② Case 2 (the father) was admitted to Taizhou People′s Hospital for " abdominal bloating" in July 2001. Endoscopic biopsy was performed, which indicated poorly differentiated adenocarcinoma. A total gastrectomy was performed subsequently. In April 2018, the patient was admitted to Jiangsu Province Hospital for " painless gross hematuria" . Bladder occupied lesions was observed in CT. Then the patient underwent radical cystectomy with orthotopic ileal neobladder, in which the pathological examination showed high grade papillary urothelial carcinoma of the bladder. In November 2018, the patient received postoperative examinations, including a blood routine test in which myeloblasts were inspected, therefore the patient was transfered to the Department of Hematology, Taizhou People′s Hospital for further diagnosis. Proliferation of granulocyte with 19.0% of myeloblasts was observed in bone marrow cell morphology, and the diagnosis of myelodysplastic syndrome (MDS)-excess blasts (EB) 2 was made. On December 26, 2018, the result of bone marrow cell morphology revealed 26.0% of myeloblasts, and these primitive cells were positive for CD7, CD34, CD13, CD33, CD117, CD15, CD64, myeloperoxidase (MPO), HLA-DR by immunophenotype analysis. Normal karyotype was indicated through cytogenetic analysis, and results of fluorescence in situ hybridization (FISH) showed 86% of trisomy cen8 and 85% of TP53 deletion. Thus, the patient was diagnosed as acute myeloid leukemia (AML)-M2. Induction chemotherapy of decitabine combined with HA (homoharringtonine+ cytarabine) was given on December 28, 2018. On January 30, 2019, the result of bone marrow cell morphology showed 7.0% of myeloblasts which suggested partial remission (PR). On February 13, 2019, the patient was treated with an additional induction therapy of decitabine combined with IA (demethoxydaunorubicin+ cytarabine). It is indicated that CR was achieved based on the result of bone marrow cell morphology, performed on March 23, 2019, which showed slightly reduced proliferation of karyote cells with 1.0% of myeloblasts. Thereafter, consolidation chemotherapy of IAG (demethoxydaunorubicin+ cytarabine+ granulocyte colony-stimulating factor) was performed on March 25, 2019, and April 27, 2019, respectively. Result of bone marrow cell morphology indicated CR and negative MRD during this stage. HA chemotherapy was implemented on June 10, 2019, followed by relapse of the disease on July 19, 2019, which was manifested by 25.0% of myeloblasts observed in bone marrow cell morphology. Re-induction chemotherapy of decitabine combined with IA was given on July 20, 2019, and by August 8, 2019, bone marrow cell morphology hasn′t been reexamined. Conclusions Familial leukemia is mainly induced by genetic factors. Patients usually suffer from low remission rate, as well as high probability of relapse. The overall survival is generally short. This conclusion is limited to the clinical analysis of 2 cases, and it requires to expand sample size for further study and verification. Key words: Leukemia; Heredity; Chromosomal instability; Familial leukemia; Multiple cancer; Retrospective study
父子合并急性白血病和父亲合并三原发恶性肿瘤的临床分析
目的探讨家族性白血病的发病机制及临床特点。方法选取2012年10月和2018年12月在泰州市人民医院血液科住院的2例急性白血病(AL)患者作为研究对象。两例患者年龄分别为34岁和65岁。对2例患者行血常规检查、骨髓细胞形态检查、染色体核型分析、白血病细胞免疫分型、微量残留病(MRD)检测及融合基因检测。回顾性分析患者的临床特点、诊断及治疗方法。本研究的程序符合2013年修订的《世界医学协会赫尔辛基宣言》的要求。结果①病例1(儿子)于2012年10月23日因“头晕、乏力、睡眠多汗症3个月”入住台州市人民医院血液科。入院后骨髓细胞形态学显示淋巴母细胞和前淋巴细胞呈高细胞化,38.5%,白血病母细胞免疫表型分析显示肿瘤细胞CD34、人白细胞抗原(HLA) -DR、CD10、CD20和CD19阳性。细胞遗传学分析未见异常核型。患者被诊断为b细胞淋巴瘤/白血病。随后进行4个周期R+超cvad(利妥昔单抗+环磷酰胺+ vindesine+表柔比星+地塞米松)/R+ MA(利妥昔单抗+甲氨蝶呤+阿糖胞苷)化疗,联合8次鞘内注射(甲氨蝶呤联合地塞米松或阿糖胞苷)。骨髓细胞形态学显示完全缓解(CR), MRD在此期间为阴性。2013年4月26日行自体造血干细胞移植(auto-HSCT),此后两次使用利妥昔单抗进行巩固治疗。2013年11月8日,骨髓细胞形态学结果显示淋巴瘤细胞增多,占35.0%,提示疾病复发。患者经VDCLP(维达嗪+柔红霉素+环磷酰胺+ papeurase+强的松)和CA(环磷酰胺+阿糖胞苷)化疗后再次达到CR,但仍复发。患者于2014年3月12日行单倍体造血干细胞移植(haploi - hsct)并实现CR, 2015年4月3日骨髓细胞形态学结果显示核细胞增生明显,原淋巴细胞占22.0%,白血病原细胞免疫表型CD34、CD22、CD19、CD33、HLA-DR阳性。细胞遗传学分析未见异常核型。这些结果导致诊断为b细胞急性淋巴细胞白血病(B-ALL)。患者给予地西他滨联合VLP (vintelide+培美曲x+地塞米松)化疗补救性治疗,达到CR, MRD比为0.13%。随后给予多种化疗方案。2016年1月27日,患者行CIOLP(环磷酰胺+长春地西+米托蒽醌+地塞米松+培美曲酶)化疗,引起Ⅳ级骨髓抑制,术后感染严重。患者虽给予支持治疗,但疗效不佳,于2016年2月20日死亡。②病例2(父亲)于2001年7月因“腹胀”入住台州市人民医院。内镜活检显示为低分化腺癌。随后行全胃切除术。2018年4月,患者因“无痛性肉眼血尿”入院江苏省医院。CT观察膀胱占位病变。患者行原位回肠新膀胱根治性切除术,病理检查为高级别乳头状膀胱尿路上皮癌。2018年11月,患者接受了术后检查,包括检查成髓细胞的血常规检查,因此患者被转移到泰州市人民医院血液科进一步诊断。骨髓细胞形态学观察到粒细胞增生,占成髓细胞的19.0%,诊断为骨髓增生异常综合征(MDS)-细胞过量(EB) 2。2018年12月26日,骨髓细胞形态学检测结果为26.0%的成髓细胞,免疫表型分析显示,这些原始细胞CD7、CD34、CD13、CD33、CD117、CD15、CD64、髓过氧化物酶(MPO)、HLA-DR阳性。细胞遗传学分析显示核型正常,荧光原位杂交(FISH)结果显示86%的cen8三体和85%的TP53缺失。因此,患者被诊断为急性髓性白血病(AML)-M2。2018年12月28日给予地西他滨联合HA(高杉碱+阿糖胞苷)诱导化疗。2019年1月30日,骨髓细胞形态学检查结果为7。 0%的成髓细胞表明部分缓解(PR)。2019年2月13日,患者加用地西他滨联合IA(去甲氧基柔红霉素+阿糖胞苷)诱导治疗。根据2019年3月23日进行的骨髓细胞形态学结果,CR达到了CR,核细胞增殖略有减少,成髓细胞为1.0%。此后,分别于2019年3月25日和2019年4月27日行IAG(去甲氧基柔红霉素+阿糖胞苷+粒细胞集落刺激因子)巩固化疗。骨髓细胞形态显示CR, MRD阴性。2019年6月10日给予HA化疗,2019年7月19日病情复发,表现为骨髓细胞形态中有25.0%的成髓细胞。2019年7月20日给予地西他滨联合IA再诱导化疗,截至2019年8月8日未复查骨髓细胞形态。结论家族性白血病主要由遗传因素引起。患者缓解率低,复发率高。总体生存期一般较短。该结论仅限于2例临床分析,需要扩大样本量进一步研究验证。关键词:白血病;遗传;染色体不稳定;家族性白血病;多个癌症;回顾性研究
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来源期刊
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期刊介绍: The International Journal of Transfusion and Hematology was founded in September 1978. It is a comprehensive academic journal in the field of transfusion and hematology, supervised by the National Health Commission and co-sponsored by the Chinese Medical Association, West China Second Hospital of Sichuan University, and the Institute of Transfusion Medicine of the Chinese Academy of Medical Sciences. The journal is a comprehensive academic journal that combines the basic and clinical aspects of transfusion and hematology and is publicly distributed at home and abroad. The International Journal of Transfusion and Hematology mainly reports on the basic and clinical scientific research results and progress in the field of transfusion and hematology, new experiences, new methods, and new technologies in clinical diagnosis and treatment, introduces domestic and foreign research trends, conducts academic exchanges, and promotes the development of basic and clinical research in the field of transfusion and hematology.
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