start-ver=1.4
cd-journal=joma
no-vol=2021
cd-vols=
no-issue=
article-no=
start-page=1
end-page=11
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2021
dt-pub=2021929
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Investigation of the molecular causes underlying physical abnormalities in Diamond�]Blackfan anemia patients with            RPL5            haploinsufficiency
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=Diamond-Blackfan anemia (DBA) is a genetic disorder caused by mutations in genes encoding ribosomal proteins and characterized by erythroid aplasia and various physical abnormalities. Although accumulating evidence suggests that defective ribosome biogenesis leads to p53-mediated apoptosis in erythroid progenitor cells, little is known regarding the underlying causes of the physical abnormalities. In this study, we established induced pluripotent stem cells from a DBA patient with RPL5 haploinsufficiency. These cells retained the ability to differentiate into osteoblasts and chondrocytes. However, RPL5 haploinsufficiency impaired the production of mucins and increased apoptosis in differentiated chondrocytes. Increased expression of the pro-apoptotic genes BAX and CASP9 further indicated that RPL5 haploinsufficiency triggered p53-mediated apoptosis in chondrocytes. MDM2, the primary negative regulator of p53, plays a crucial role in erythroid aplasia in DBA patient. We found the phosphorylation level of MDM2 was significantly decreased in RPL5 haploinsufficient chondrocytes. In stark contrast, we found no evidence that RPL5 haploinsufficiency impaired osteogenesis. Collectively, our data support a model in which RPL5 haploinsufficiency specifically induces p53-mediated apoptosis in chondrocytes through MDM2 inhibition, which leads to physical abnormalities in DBA patients.
en-copyright=
kn-copyright=

en-aut-name=FukuiYuko
en-aut-sei=Fukui
en-aut-mei=Yuko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=HayanoSatoru
en-aut-sei=Hayano
en-aut-mei=Satoru
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=KawanabeNoriaki
en-aut-sei=Kawanabe
en-aut-mei=Noriaki
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=WangZiyi
en-aut-sei=Wang
en-aut-mei=Ziyi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=ShimadaAkira
en-aut-sei=Shimada
en-aut-mei=Akira
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=SaitoMegumu K.
en-aut-sei=Saito
en-aut-mei=Megumu K.
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=AsakaIsao
en-aut-sei=Asaka
en-aut-mei=Isao
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=KamiokaHiroshi
en-aut-sei=Kamioka
en-aut-mei=Hiroshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

affil-num=1
en-affil=Department of Orthodontics, Graduate School of Medicine, Dentistry and Pharmaceutical Sciences Okayama University 
kn-affil=

affil-num=2
en-affil=Department of Orthodontics, Graduate School of Medicine, Dentistry and Pharmaceutical Sciences Okayama University
kn-affil=

affil-num=3
en-affil=Department of Orthodontics, Graduate School of Medicine, Dentistry and Pharmaceutical Sciences Okayama University
kn-affil=

affil-num=4
en-affil=Department of Orthodontics, Graduate School of Medicine, Dentistry and Pharmaceutical Sciences Okayama University
kn-affil=

affil-num=5
en-affil=Department of Pediatric Hematology/Oncology Okayama University Hospital 
kn-affil=

affil-num=6
en-affil=Department of Clinical Application, Center for iPS Cell Research and Application Kyoto University
kn-affil=

affil-num=7
en-affil=Department of Fundamental Cell Technology, Center for iPS Cell Research and Application Kyoto University
kn-affil=

affil-num=8
en-affil=Department of Orthodontics, Graduate School of Medicine, Dentistry and Pharmaceutical Sciences Okayama University
kn-affil=
en-keyword=iPS cell
kn-keyword=iPS cell
en-keyword=RPL5
kn-keyword=RPL5
en-keyword=cleft lip and palate
kn-keyword=cleft lip and palate
en-keyword=chondrocyte
kn-keyword=chondrocyte
en-keyword=Diamond-Blackfan Anemia
kn-keyword=Diamond-Blackfan Anemia
END

start-ver=1.4
cd-journal=joma
no-vol=
cd-vols=
no-issue=
article-no=
start-page=
end-page=
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2021
dt-pub=20210121
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Profile of down syndrome?associated malignancies: Epidemiology, clinical features and therapeutic aspects
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=Down syndrome (DS) is a congenital chromosomal abnormality caused by the presence of all or part of a third copy of chromosome 21 (+21). DS is frequently complicated by congenital heart or digestive tract diseases at birth. DS patients are prone to infections and have mental retardation, with dementia such as Alzheimer's disease showing in later life. Furthermore, malignancies with specific characteristics are also highly reported in DS patients compared with non-DS patients. Therefore, DS is believed to be a cancer predisposition syndrome due to the chromosomal instability. Acute myeloid leukemia (AML) and especially acute megakaryoblastic leukemia (AMKL) by French-American-British (FAB) classification are the most frequent hematological malignancies in DS patients, occurring at a rate that is 500 times higher than that in non-DS patients. Interestingly, transient abnormal myelopoiesis (TAM) is observed in approximately 10% of DS neonates with GATA1 mutations, and most TAM patients are asymptomatic and show spontaneous regression; however, about 10%?20% of TAM cases are fatal because of complications such as fetal effusion, liver fibrosis, and other complications.Acute lymphoblastic leukemia (ALL) is also associated with DS, occurring at a rate that is 20 times higher than that in non-DS patients. Furthermore, the prognosis of DS-ALL patients is poorer than that of non-DS-ALL patients. A recent genetic analysis revealed that more than half of DS-ALL cases have a mutation in the CRLF2?JAK pathway, indicating that JAK inhibitors might have a limited effect for DS-ALL patients.Notably, solid tumors such as neuroblastoma, Wilms tumor, and brain tumor, which are frequently observed in non-DS children, are rarely reported in DS children. The reason remains unknown, but it may be because of the triplication of the Down syndrome critical region 1 (DSCR1) gene on chromosome 21. In adult patients with DS, the expected age-adjusted incidence rates of solid tumors are low compared with age-matched euploid cohorts for most cancers except for testicular cancer. Although the average life expectancy of patients with DS will increase with advances in healthcare, the detailed health problems including cancer rates in older DS patients remain unknown. Therefore, these issues will be needed to be addressed in future studies.
en-copyright=
kn-copyright=

en-aut-name=ShimadaAkira
en-aut-sei=Shimada
en-aut-mei=Akira
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

affil-num=1
en-affil=Department of Pediatric Hematology, Okayama University Hospital
kn-affil=
en-keyword=Down syndrome
kn-keyword=Down syndrome
en-keyword=Acute myeloid leukemia
kn-keyword=Acute myeloid leukemia
en-keyword=Acute megakaryoblastic leukemia
kn-keyword=Acute megakaryoblastic leukemia
en-keyword=Transient abnormal myelopoiesis
kn-keyword=Transient abnormal myelopoiesis
en-keyword=Acute lymphoblastic leukemia
kn-keyword=Acute lymphoblastic leukemia
en-keyword=Solid tumor
kn-keyword=Solid tumor
en-keyword=Cancer predisposition syndrome
kn-keyword=Cancer predisposition syndrome
en-keyword=GATA1
kn-keyword=GATA1
en-keyword=Down syndrome critical region 1
kn-keyword=Down syndrome critical region 1
END

start-ver=1.4
cd-journal=joma
no-vol=13
cd-vols=
no-issue=5
article-no=
start-page=46
end-page=
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2020
dt-pub=202011
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Panel?based next?generation sequencing facilitates the characterization of childhood acute myeloid leukemia in clinical settings
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=Acute myeloid leukemia (AML) accounts for ~20% of pediatric leukemia cases. The prognosis of pediatric AML has been improved in recent decades, but it trails that of most other types of pediatric cancer, with mortality rates of 30?40%. Consequently, newer more targeted drugs are required for incorporation into treatment plans. These newer drugs selectively target AML cells with specific gene alterations. However, there are significant differences in genetic alterations between adult and pediatric patients with AML. In the present study, inexpensive and rapid next?generation sequencing (NGS) of >150 cancer?related genes was performed for matched diagnostic, remission and relapse (if any) samples from 27 pediatric patients with AML. In this analysis, seven genes were recurrently mutated. KRAS was mutated in seven patients, NRAS was mutated in three patients, and KIT, GATA1, WT1, PTPN11, JAK3 and FLT3 were each mutated in two patients. Among patients with relapsed AML, six harbored KRAS mutations at diagnosis; however, four of these patients lost these mutations at relapse. Additionally, two genetic alterations (FLT3?ITD and TP53 alterations) were detected among patients who eventually relapsed, and these mutations are reported to be adverse prognostic factors for adult patients with AML. This panel?based, targeted sequencing approach may be useful in determining the genetic background of pediatric AML and improving the prediction of treatment response and detection of potentially targetable gene alterations. RAS pathway mutations were highly unstable at relapse; therefore, these mutations should be chosen as a target with caution. Incorporating this panel?based NGS approach into the clinical setting may allow for a patient?oriented strategy of precision treatment for childhood AML.
en-copyright=
kn-copyright=

en-aut-name=IshidaHisashi
en-aut-sei=Ishida
en-aut-mei=Hisashi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=IguchiAkihiro
en-aut-sei=Iguchi
en-aut-mei=Akihiro
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=AoeMichinori
en-aut-sei=Aoe
en-aut-mei=Michinori
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=NishiuchiRitsuo
en-aut-sei=Nishiuchi
en-aut-mei=Ritsuo
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=MatsubaraTakehiro
en-aut-sei=Matsubara
en-aut-mei=Takehiro
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=KeinoDai
en-aut-sei=Keino
en-aut-mei=Dai
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=SanadaMasashi
en-aut-sei=Sanada
en-aut-mei=Masashi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=ShimadaAkira
en-aut-sei=Shimada
en-aut-mei=Akira
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

affil-num=1
en-affil=Department of Pediatrics/Pediatric Hematology and Oncology, Okayama University Hospital
kn-affil=

affil-num=2
en-affil=Department of Pediatrics, Hokkaido University Hospital
kn-affil=

affil-num=3
en-affil=Division of Medical Support, Okayama University Hospital
kn-affil=

affil-num=4
en-affil=Department of Pediatrics, Kochi Health Sciences Center
kn-affil=

affil-num=5
en-affil=Division of Biobank, Center for Comprehensive Genomic Medicine,   Okayama University Hospital
kn-affil=

affil-num=6
en-affil=Department of Pediatrics,   St. Marianna University School of Medicine Hospital
kn-affil=

affil-num=7
en-affil=Clinical Research Center, National Hospital Organization Nagoya Medical Center
kn-affil=

affil-num=8
en-affil=Department of Pediatrics/Pediatric Hematology and Oncology, Okayama University Hospital
kn-affil=
en-keyword=leukemia
kn-keyword=leukemia
en-keyword=pediatric
kn-keyword=pediatric
en-keyword=acute myeloid leukemia
kn-keyword=acute myeloid leukemia
en-keyword=molecular genetics
kn-keyword=molecular genetics
en-keyword=precision medicine
kn-keyword=precision medicine
END

start-ver=1.4
cd-journal=joma
no-vol=74
cd-vols=
no-issue=6
article-no=
start-page=545
end-page=550
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2020
dt-pub=202012
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Delayed Methotrexate Elimination after Administration of a Medium Dose of Methotrexate in a Patient with Genetic Variants Associated  with Methotrexate Clearance
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=Polymorphisms in methotrexate transporter pathways have been associated with methotrexate toxicities and clearance. Recent genome-wide association studies have revealed that the SLCO1B1 T521C variant is associated with methotrexate elimination. We present a case of a pediatric patient with acute lymphoblastic leukemia who suffered from persistently high plasma methotrexate concentrations and acute kidney injuries after the admin-istration of a medium dose of methotrexate. Subsequent genetic analysis showed that he was a carrier of dys-functional genetic variants associated with methotrexate clearance. This case highlights that polymorphisms of methotrexate transporter pathways can adversely affect methotrexate elimination in a clinically significant manner.
en-copyright=
kn-copyright=

en-aut-name=TatebeYasuhisa
en-aut-sei=Tatebe
en-aut-mei=Yasuhisa
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=KanamitsuKiichiro
en-aut-sei=Kanamitsu
en-aut-mei=Kiichiro
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=KanzakiHirotaka
en-aut-sei=Kanzaki
en-aut-mei=Hirotaka
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=IshidaHisashi
en-aut-sei=Ishida
en-aut-mei=Hisashi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=FujiwaraKaori
en-aut-sei=Fujiwara
en-aut-mei=Kaori
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=WashioKana
en-aut-sei=Washio
en-aut-mei=Kana
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=KitamuraYoshihisa
en-aut-sei=Kitamura
en-aut-mei=Yoshihisa
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=SendoToshiaki
en-aut-sei=Sendo
en-aut-mei=Toshiaki
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

en-aut-name=ShimadaAkira
en-aut-sei=Shimada
en-aut-mei=Akira
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=9
ORCID=

en-aut-name=TsukaharaHirokazu
en-aut-sei=Tsukahara
en-aut-mei=Hirokazu
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=10
ORCID=

affil-num=1
en-affil=Department of Pharmacy, Okayama University Hospital
kn-affil=

affil-num=2
en-affil=Department of pediatrics, Okayama University Hospital
kn-affil=

affil-num=3
en-affil=Department of Pharmacy, Okayama University Hospital
kn-affil=

affil-num=4
en-affil=Department of pediatrics, Okayama University Hospital
kn-affil=

affil-num=5
en-affil=Department of pediatrics, Okayama University Hospital
kn-affil=

affil-num=6
en-affil=Department of pediatrics, Okayama University Hospital
kn-affil=

affil-num=7
en-affil=Department of Pharmacy, Okayama University Hospital
kn-affil=

affil-num=8
en-affil=Department of Pharmacy, Okayama University Hospital
kn-affil=

affil-num=9
en-affil=Department of pediatrics, Okayama University Hospital
kn-affil=

affil-num=10
en-affil=Department of pediatrics, Okayama University Hospital
kn-affil=
en-keyword=methotrexate
kn-keyword=methotrexate
en-keyword=polymorphism
kn-keyword=polymorphism
en-keyword=drug elimination
kn-keyword=drug elimination
en-keyword=acute kidney injury
kn-keyword=acute kidney injury
en-keyword=acute lymphoblastic leukemia
kn-keyword=acute lymphoblastic leukemia
END

start-ver=1.4
cd-journal=joma
no-vol=99
cd-vols=
no-issue=38
article-no=
start-page=e22297
end-page=
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2020
dt-pub=20200918
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Pediatric growing teratoma syndrome of the ovary A case report and review of the literature
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=Rationale: </br>
Growing teratoma syndrome is defined as an increase in tumor size during or after systemic chemotherapy for germ cell tumors. These cases involve normal tumor maker levels and histological features of only mature teratoma. We report a rare case of an ovarian immature teratoma in a Japanese child that was diagnosed as growing teratoma syndrome.</br>
Patient concerns: </br>
A 12-year-old girl presented a painful abdominal mass. She underwent left salpingo-oophorectomy for grade 1 immature teratoma in the left ovary. She did not undergo additional chemotherapy or radiotherapy. Four months later, she presented with grade 3 immature teratoma disseminated into the abdomen and pelvis. Chemotherapy resulted in the tumor maker levels returning to their normal ranges, although the tumors had grown slightly.</br>
Diagnosis: </br>
The specimens resected by laparotomy after the chemotherapy consisted of mature tissue predominantly, although primitive neuroepithelium was observed in a small part of the specimen. The pathological diagnosis was grade 1 immature teratoma, notwithstanding the clinical diagnosis was growing teratoma syndrome based on the clinical features and pathogenesis.</br>
Interventions: </br>
Laparotomy was performed at 7 months after the first operation, with resection of various tumors as well as the rectum, sigmoid colon, residual left fallopian duct, and a small part of the ileum and omentum. Some small tumors at the parietal peritoneum were ablated, although many tiny tumors around the uterus were left untreated.</br>
Outcomes: </br>
The patient has been free from recurrence for 5 years.</br>
Lessons: </br>
Growing teratoma syndrome can develop in children, and their tumor size is comparable to that in adolescents and adults. Furthermore, development of growing teratoma syndrome from a primary germ cell tumor is presumably faster in children than in adolescents and adults. Complete resection of all growing teratoma tissue is recommended, although fertility-sparing surgery should be considered when possible.
en-copyright=
kn-copyright=

en-aut-name=OyamaTakanori
en-aut-sei=Oyama
en-aut-mei=Takanori
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=NodaTakuo
en-aut-sei=Noda
en-aut-mei=Takuo
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=WashioKana
en-aut-sei=Washio
en-aut-mei=Kana
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=ShimadaAkira
en-aut-sei=Shimada
en-aut-mei=Akira
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

affil-num=1
en-affil=Department of Pediatric Surgery,Okayama University Hospital
kn-affil=

affil-num=2
en-affil=Department of Pediatric Surgery,Okayama University Hospital
kn-affil=

affil-num=3
en-affil=Department of Pediatrics, Okayama University Hospital
kn-affil=

affil-num=4
en-affil=Department of Pediatrics, Okayama University Hospital
kn-affil=
en-keyword=growing teratoma syndrome
kn-keyword=growing teratoma syndrome
en-keyword=immature teratoma
kn-keyword=immature teratoma
en-keyword=ovarian tumor
kn-keyword=ovarian tumor
en-keyword=pediatric
kn-keyword=pediatric
END

start-ver=1.4
cd-journal=joma
no-vol=71
cd-vols=
no-issue=3
article-no=
start-page=249
end-page=254
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2017
dt-pub=201706
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=A Case of Refractory Langerhans Cell Histiocytosis Complicated with Hemophagocytic Lymphohistiocytosis Rescued by Cord Blood Transplantation with Reduced-intensity Conditioning
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=�@We diagnosed a female infant with Langerhans cell histiocytosis (LCH) who was refractory to conventional chemotherapy. She showed refractory inflammation that was complicated with hemophagocytic lymphohistiocytosis (HLH) during LCH chemotherapy; therefore, we changed the protocol to HLH2004 (dexamethasone, cyclosporine A and VP16). However, there were no signs of hematological recovery. We therefore performed cord blood transplantation with reduced-intensity conditioning, and she achieved complete remission for over 2 years. As salvage therapy for refractory LCH, hematopoietic stem cell transplantation may be a good therapeutic choice, especially when LCH is complicated with HLH.
en-copyright=
kn-copyright=

en-aut-name=WashioKana
en-aut-sei=Washio
en-aut-mei=Kana
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=MuraokaMichiko
en-aut-sei=Muraoka
en-aut-mei=Michiko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=KanamitsuKiichiro
en-aut-sei=Kanamitsu
en-aut-mei=Kiichiro
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=OdaMegumi
en-aut-sei=Oda
en-aut-mei=Megumi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=ShimadaAkira
en-aut-sei=Shimada
en-aut-mei=Akira
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

affil-num=1
en-affil=Department of Pediatrics, Okayama University Hospital
kn-affil=

affil-num=2
en-affil=Department of Pediatrics, National Hospital Organization Fukuyama Medical Center
kn-affil=

affil-num=3
en-affil=Department of Pediatrics, Okayama University Hospital
kn-affil=

affil-num=4
en-affil=Department of Pediatrics, Okayama University Hospital
kn-affil=

affil-num=5
en-affil=Department of Pediatrics, Okayama University Hospital
kn-affil=
en-keyword=langerhans cell histiocytosis (LCH)
kn-keyword=langerhans cell histiocytosis (LCH)
en-keyword=hemophagocytic lymphohistiocytosis (HLH)
kn-keyword=hemophagocytic lymphohistiocytosis (HLH)
en-keyword=hematopoietic stem cell transplantation (HSCT)
kn-keyword=hematopoietic stem cell transplantation (HSCT)
en-keyword=reduced-intensity conditioning (RIC)
kn-keyword=reduced-intensity conditioning (RIC)
en-keyword=refractory
kn-keyword=refractory
END

start-ver=1.4
cd-journal=joma
no-vol=71
cd-vols=
no-issue=1
article-no=
start-page=79
end-page=83
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2017
dt-pub=201702
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Positive Minimal Residual Disease of FLT3-ITD before Hematopoietic Stem Cell Transplantation Resulted in a Poor Prognosis of an Acute Myeloid Leukemia
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=Acute myeloid leukemia (AML) patients with fms-related tyrosine kinase 3 (FLT3)-internal tandem duplication (ITD) often have a poor prognosis, even after hematopoietic stem cell transplantation (HSCT). We report a case of AML with FLT3-ITD identified upon initial diagnosis, who received HSCT at complete remission after 3 consecutive chemotherapies. However, the patient relapsed when the same FLT3-ITD clone emerged, and finally died. Retrospective analysis revealed an allelic ratio of FLT3-ITD/wild type of 1.1 and 0.0096 upon initial diagnosis and before HSCT, respectively. The detection of any minimal residual FLT3-ITD clone before HSCT is useful in the treatment of AML with FLT3-ITD.
en-copyright=
kn-copyright=

en-aut-name=IwasakiYuka
en-aut-sei=Iwasaki
en-aut-mei=Yuka
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=NishiuchiRituo
en-aut-sei=Nishiuchi
en-aut-mei=Rituo
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=AoeMichinori
en-aut-sei=Aoe
en-aut-mei=Michinori
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=TakahashiTakahide
en-aut-sei=Takahashi
en-aut-mei=Takahide
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=WatanabeHirokazu
en-aut-sei=Watanabe
en-aut-mei=Hirokazu
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=TokorotaniChiho
en-aut-sei=Tokorotani
en-aut-mei=Chiho
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=KikkawaKiyoshi
en-aut-sei=Kikkawa
en-aut-mei=Kiyoshi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=ShimadaAkira
en-aut-sei=Shimada
en-aut-mei=Akira
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

affil-num=1
en-affil=Department of Pediatrics, Kochi Health Sciences Center
kn-affil=

affil-num=2
en-affil=Department of Pediatrics, Kochi Health Sciences Center
kn-affil=

affil-num=3
en-affil=Division of Medical Support, cDepartment of Pediatrics, Okayama University Hospital
kn-affil=

affil-num=4
en-affil=Division of Medical Support, cDepartment of Pediatrics, Okayama University Hospital
kn-affil=

affil-num=5
en-affil=Department of Pediatrics, Kochi Health Sciences Center
kn-affil=

affil-num=6
en-affil=Department of Pediatrics, Kochi Health Sciences Center
kn-affil=

affil-num=7
en-affil=Department of Pediatrics, Kochi Health Sciences Center
kn-affil=

affil-num=8
en-affil=Department of Pediatrics, Okayama University Hospital
kn-affil=
en-keyword=acute myeloid leukemia
kn-keyword=acute myeloid leukemia
en-keyword=relapse
kn-keyword=relapse
en-keyword=FLT3-ITD
kn-keyword=FLT3-ITD
en-keyword=HSCT
kn-keyword=HSCT
en-keyword=minimal residual disease
kn-keyword=minimal residual disease
END

start-ver=1.4
cd-journal=joma
no-vol=70
cd-vols=
no-issue=6
article-no=
start-page=503
end-page=506
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2016
dt-pub=201612
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Two Relapsed Stage III Childhood Anaplastic Large Cell Lymphoma Patients with NPM-ALK Fusion in Bone Marrow from Initial Diagnosis
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=Childhood anaplastic large cell lymphoma (ALCL) accounts for approx. 10?30 of cases of non-Hodgkin lymphoma, and the ALCL99 study reported 60?75 disease-free survival; however, a relatively high relapse rate was observed (25?30 ). We report 2 patients with Stage III ALCL who relapsed 6?18 months after the end of ALCL99 chemotherapy. A retrospective molecular analysis identified the nucleophosmin (NPM)-anaplastic lymphoma kinase (ALK) fusion gene in the first diagnostic bone marrow samples taken from both patients. However, antibodies against the ALK protein appeared to be relatively low in the serum of both patients (�~100 and �~750). An increase in chemotherapy intensity may be beneficial if Stage III ALCL patients are shown to be NPM-ALK chimera-positive in the first diagnostic bone marrow sample.
en-copyright=
kn-copyright=

en-aut-name=KanazawaYui
en-aut-sei=Kanazawa
en-aut-mei=Yui
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=YamashitaYuka
en-aut-sei=Yamashita
en-aut-mei=Yuka
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=FujiwaraMitsuhiro
en-aut-sei=Fujiwara
en-aut-mei=Mitsuhiro
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=MuraokaMichiko
en-aut-sei=Muraoka
en-aut-mei=Michiko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=WashioKana
en-aut-sei=Washio
en-aut-mei=Kana
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=KanamitsuKiichiro
en-aut-sei=Kanamitsu
en-aut-mei=Kiichiro
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=IshidaHisashi
en-aut-sei=Ishida
en-aut-mei=Hisashi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=NakanoTakae
en-aut-sei=Nakano
en-aut-mei=Takae
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

en-aut-name=YamadaMiho
en-aut-sei=Yamada
en-aut-mei=Miho
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=9
ORCID=

en-aut-name=HoribeKeizo
en-aut-sei=Horibe
en-aut-mei=Keizo
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=10
ORCID=

en-aut-name=TanakaTakehiro
en-aut-sei=Tanaka
en-aut-mei=Takehiro
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=11
ORCID=

en-aut-name=YoshinoTadashi
en-aut-sei=Yoshino
en-aut-mei=Tadashi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=12
ORCID=

en-aut-name=ShimadaAkira
en-aut-sei=Shimada
en-aut-mei=Akira
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=13
ORCID=

affil-num=1
en-affil=Department of aPediatrics, Okayama University Hospital
kn-affil=

affil-num=2
en-affil=Clinical Research Center, Nagoya Medical Center
kn-affil=

affil-num=3
en-affil=Department of Pediatrics, Kurashiki Central Hospital
kn-affil=

affil-num=4
en-affil=Department of aPediatrics, Okayama University Hospital
kn-affil=

affil-num=5
en-affil=Department of aPediatrics, Okayama University Hospital
kn-affil=

affil-num=6
en-affil=Department of aPediatrics, Okayama University Hospital
kn-affil=

affil-num=7
en-affil=Department of aPediatrics, Okayama University Hospital
kn-affil=

affil-num=8
en-affil=Department of aPediatrics, Okayama University Hospital
kn-affil=

affil-num=9
en-affil=Clinical Research Center, Nagoya Medical Center
kn-affil=

affil-num=10
en-affil=Clinical Research Center, Nagoya Medical Center
kn-affil=

affil-num=11
en-affil=Department of Pathology, Okayama University Hospital
kn-affil=

affil-num=12
en-affil=Department of Pathology, Okayama University Hospital
kn-affil=

affil-num=13
en-affil=Department of aPediatrics, Okayama University Hospital
kn-affil=
en-keyword=ALCL
kn-keyword=ALCL
en-keyword=NPM-ALK fusion
kn-keyword=NPM-ALK fusion
en-keyword=lymphoma
kn-keyword=lymphoma
END

start-ver=1.4
cd-journal=joma
no-vol=68
cd-vols=
no-issue=2
article-no=
start-page=119
end-page=123
dt-received=
dt-revised=
dt-accepted=
dt-pub-year=2014
dt-pub=201404
dt-online=
en-article=
kn-article=
en-subject=
kn-subject=
en-title=
kn-title=Detection of RBM15-MKL1 Fusion Was Useful for Diagnosis and Monitoring of Minimal Residual Disease in Infant Acute Megakaryoblastic Leukemia
en-subtitle=
kn-subtitle=
en-abstract=
kn-abstract=Acute megakaryocytic leukemia (AMKL) with t(1;22)(p13;q13) is a distinct category of myeloid leukemia by WHO classification and mainly reported in infants and young children. Accurate diagnosis of this type of AMKL can be difficult, because a subset of patients have a bone marrow (BM) blast percentage of less than 20% due to BM fibrosis. Therefore, it is possible that past studies have underestimated this type of AMKL. We present here the case of a 4-month-old female AMKL patient who was diagnosed by presence of the RBM15-MKL1 (OTT-MAL) fusion transcript by RT-PCR. In addition, we monitored RBM15-MKL1 fusion at several time points as a marker of minimal residual disease (MRD), and found that it was continuously negative after the first induction chemotherapy even by nested RT-PCR. Detection of the RBM15-MKL1 fusion transcript thus seems to be useful for accurate diagnosis of AMKL with t(1;22)(p13;q13). We recommend that the RBM15-MKL1 fusion transcript be analyzed for all suspected AMKL in infants and young children. Furthermore, monitoring of MRD using this fusion transcript would be useful in treatment of AMKL with t(1;22)(p13;q13).
en-copyright=
kn-copyright=

en-aut-name=TakedaAkiko
en-aut-sei=Takeda
en-aut-mei=Akiko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=1
ORCID=

en-aut-name=ShimadaAkira
en-aut-sei=Shimada
en-aut-mei=Akira
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=2
ORCID=

en-aut-name=HamamotoKazuko
en-aut-sei=Hamamoto
en-aut-mei=Kazuko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=3
ORCID=

en-aut-name=YoshinoSyuuji
en-aut-sei=Yoshino
en-aut-mei=Syuuji
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=4
ORCID=

en-aut-name=NagaiTomoko
en-aut-sei=Nagai
en-aut-mei=Tomoko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=5
ORCID=

en-aut-name=FujiiYousuke
en-aut-sei=Fujii
en-aut-mei=Yousuke
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=6
ORCID=

en-aut-name=YamadaMutsuko
en-aut-sei=Yamada
en-aut-mei=Mutsuko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=7
ORCID=

en-aut-name=NakamuraYoshimi
en-aut-sei=Nakamura
en-aut-mei=Yoshimi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=8
ORCID=

en-aut-name=WatanabeToshiyuki
en-aut-sei=Watanabe
en-aut-mei=Toshiyuki
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=9
ORCID=

en-aut-name=WatanabeYuki
en-aut-sei=Watanabe
en-aut-mei=Yuki
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=10
ORCID=

en-aut-name=YamamotoYuko
en-aut-sei=Yamamoto
en-aut-mei=Yuko
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=11
ORCID=

en-aut-name=SakakibaraKanae
en-aut-sei=Sakakibara
en-aut-mei=Kanae
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=12
ORCID=

en-aut-name=OdaMegumi
en-aut-sei=Oda
en-aut-mei=Megumi
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=13
ORCID=

en-aut-name=MorishimaTsuneo
en-aut-sei=Morishima
en-aut-mei=Tsuneo
kn-aut-name=
kn-aut-sei=
kn-aut-mei=
aut-affil-num=14
ORCID=

affil-num=1
en-affil=
kn-affil=Department of Pediatrics, Okayama University Hospital

affil-num=2
en-affil=
kn-affil=Department of Pediatrics, Okayama University Hospital

affil-num=3
en-affil=
kn-affil=Department of Pediatrics, Hiroshima Red Cross Hospital & Atomic-bomb Survivors Hospital

affil-num=4
en-affil=
kn-affil=Department of Pediatrics, Hiroshima Red Cross Hospital & Atomic-bomb Survivors Hospital

affil-num=5
en-affil=
kn-affil=Department of Pharmacology, Meijo University

affil-num=6
en-affil=
kn-affil=Department of Pediatrics, Okayama University Hospital

affil-num=7
en-affil=
kn-affil=Department of Pediatrics, Okayama University Hospital

affil-num=8
en-affil=
kn-affil=Department of Division of Medical Support,, Okayama University Hospital

affil-num=9
en-affil=
kn-affil=Department of Division of Medical Support,, Okayama University Hospital

affil-num=10
en-affil=
kn-affil=Department of Pediatrics, Okayama University Hospital

affil-num=11
en-affil=
kn-affil=Department of Pediatrics, Okayama University Hospital

affil-num=12
en-affil=
kn-affil=Department of Laboratory Medicine, National Hospital Organization Okayama Medical Center

affil-num=13
en-affil=
kn-affil=Department of Pediatric Hematology/Oncology, Okayama University Hospital

affil-num=14
en-affil=
kn-affil=Department of Pediatrics, Okayama University Hospital
en-keyword=AMKL
kn-keyword=AMKL
en-keyword=infant
kn-keyword=infant
en-keyword=RBM15-MKL1
kn-keyword=RBM15-MKL1
en-keyword=OTT-MAL
kn-keyword=OTT-MAL
END