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  • 1
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    Evidence of clonality in cases of hypereosinophilia of undetermined significance
    Informa UK Limited ; 2019
    In:  Leukemia & Lymphoma Vol. 60, No. 8 ( 2019-07-03), p. 2071-2074
    Details
    In: Leukemia & Lymphoma, Informa UK Limited, Vol. 60, No. 8 ( 2019-07-03), p. 2071-2074
    Type of Medium: Online Resource
    ISSN: 1042-8194 , 1029-2403
    URL: Article
    DOI: 10.1080/10428194.2018.1564825
    Language: English
    Publisher: Informa UK Limited
    Publication Date: 2019
    detail.hit.zdb_id: 2030637-4
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  • 2
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    AML classification in the year 2023: How to avoid a Babylonian confusion of languages
    Springer Science and Business Media LLC ; 2023
    In:  Leukemia Vol. 37, No. 7 ( 2023-07), p. 1413-1420
    Details
    In: Leukemia, Springer Science and Business Media LLC, Vol. 37, No. 7 ( 2023-07), p. 1413-1420
    Abstract: In parallel to the 5th edition of the World Health Organization Classification of Haematolymphoid Tumours (WHO 2022), an alternative International Consensus Classification (ICC) has been proposed. To evaluate the impact of the new classifications on AML diagnoses and ELN-based risk classification, we analyzed 717 MDS and 734 AML non-therapy-related patients diagnosed according to the revised 4th WHO edition (WHO 2017) by whole genome and transcriptome sequencing. In both new classifications, the purely morphologically defined AML entities decreased from 13% to 5%. Myelodysplasia-related (MR) AML increased from 22% to 28% (WHO 2022) and 26% (ICC). Other genetically-defined AML remained the largest group, and the abandoned AML- RUNX1 was mainly reclassified as AML-MR (WHO 2022: 77%; ICC: 96%). Different inclusion criteria of AML- CEBPA and AML-MR ( i.a . exclusion of TP53 mutated cases according to ICC) were associated with differences in overall survival. In conclusion, both classifications focus on more genetics-based definitions with similar basic concepts and a large degree of agreement. The remaining non-comparability (e.g., TP53 mutated AML) needs additional studies to definitely answer open questions on disease categorization in an unbiased way.
    Type of Medium: Online Resource
    ISSN: 0887-6924 , 1476-5551
    URL: Article
    DOI: 10.1038/s41375-023-01909-w
    RVK:
    WA 15000
    Language: English
    Publisher: Springer Science and Business Media LLC
    Publication Date: 2023
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  • 3
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    Benchmarking of Whole Genome Sequencing (WGS) and Whole Transcriptome Sequencing (WTS) As Diagnostic Tools for Determining the Mutation Status of IGHV Genes in CLL
    American Society of Hematology ; 2022
    In:  Blood Vol. 140, No. Supplement 1 ( 2022-11-15), p. 7826-7827
    Details
    In: Blood, American Society of Hematology, Vol. 140, No. Supplement 1 ( 2022-11-15), p. 7826-7827
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood-2022-162209
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2022
    detail.hit.zdb_id: 1468538-3
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  • 4
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    Risk Stratification In Chronic Lymphocytic Leukemia Patients With IGHV3-21 Gene Usage According To Presence Of Stereotypy and Mutations In SF3B1
    American Society of Hematology ; 2013
    In:  Blood Vol. 122, No. 21 ( 2013-11-15), p. 4114-4114
    Details
    In: Blood, American Society of Hematology, Vol. 122, No. 21 ( 2013-11-15), p. 4114-4114
    Abstract: Chronic Lymphocytic Leukemia (CLL) patients with monoclonal IGHV3-21 gene rearrangements have been described to have adverse prognosis independent of mutational status. Heterogeneous data exists whether only patients with a stereotyped motif in the junctional region (designated as subset #2, Stamatopoulos K. et al., Blood 2007) suffer from worse prognosis. Furthermore, it was recently suggested that co-occurrence of subset #2 and mutations (mut) in SF3B1 are indicative of a shorter time to treatment (TTT). Aims 1. Determine the prognostic impact of IGHV3-21 and subset #2 rearrangements. 2. Evaluate the association with SF3B1mut and its prognostic impact. Patients and Methods IGHV3-21 positive (n=213) and independently 1,094 unselected CLL patients without prior treatment were analyzed. The whole cohort comprised 63.9% (835/1,307) males and 36.1% (472/1,307) females with a median age of 66.8 years (range: 27.5 – 90.5 years). In all cases IGHV mutation status was analyzed. IGHV unmutated (unmut) status was present in 38.6% (504/1,307) and mutated status in 61.4% (803/1,307). Stereotypy of IGHV3-21 was classified according to published criteria (Agathangelidis A. et al., Blood 2012). SF3B1 was analyzed in all and TP53 in 1,262 cases for mutations. For all patients data on immunophenotype was available. Cases were further analyzed by FISH using probes for del(17p) (n=1,305), del(11q) (n=1,303), trisomy 12 (n=1,303) and del(13q) (n=1,305). Clinical follow-up data was available in 1,040 patients with a median follow-up of 4.4 years (IGHV3-21: n=160, 4.2 years). Results Of 213 IGHV3-21 positive patients, 111 (52.1%) cases were classified as subset #2 B-cell receptor. The frequency of IGHVmut was significantly higher in subset #2 vs. non-subset #2 (78/111, 70.3% vs. 49/102, 48.0%, p=0.001). IGHV3-21 was highly associated with SF3B1mut (52/213, 24.4% vs. 92/1,094, 8.4%, p 〈 0.001), which were particularly frequent in subset #2 cases (38/111, 34.2% vs. 14/102, 13.7%, p=0.001). Furthermore, IGHV3-21 was associated with del(11q) (35/210, 16.7% vs. 122/1,093, 11.2%, p=0.028) and was rare in patients with trisomy 12 (8/210, 3.8% vs. 168/1,093, 15.4%, p 〈 0.001). Accordingly, del(11q) was particularly frequent in subset #2 patients (25/110, 22.7% vs. 10/100, 10.0%, p=0.016), whereas trisomy 12 (1/110, 0.9% vs. 7/100, 7.0%, p=0.029) and del(17p) (1/111, 0.9% vs. 8/101, 7.9%, p=0.015) were nearly absent. Kaplan-Meier analysis revealed no significant difference in TTT between IGHV3-21mut vs. unmutated cases. However, IGHV3-21mut cases had slightly longer TTT compared to IGHVunmut (5.3 years vs. 3.4 years, p=0.039). Taking stereotypy into account, subset #2 patients showed nearly identical TTT compared to IGHVunmut patients (3.5 vs. 3.4 years). Further stratification according to IGHV mutational status presented mutated non-subset #2 patients with a similar TTT compared to IGHVmut cases (9.2 vs. 10.2 years), whereas all other subgroups assorted together with IGHVunmut (Fig. 1A). Additionally, there was a trend to a shorter TTT in subset #2 in combination with SF3B1mut vs. SF3B1wt (1.2 vs. 4.4 years, p=0.056) (Fig. 1B). In univariate Cox regression analysis, following parameters were analyzed and showed significant impact on TTT: IGHVmut (p 〈 0.001, HR 0.33), IGHV3-21 (p=0.002, HR 1.51), subset #2 (p=0.005, HR 2.04), SF3B1mut (p 〈 0.001, HR 2.06). A multivariate analysis including IGHV3-21, IGHVmut and SF3B1mut revealed independent impact on TTT only for the latter two parameters: IGHVmut (p 〈 0.001, HR 0.35) and SF3B1mut (p=0.001, HR 1.59). In contrast, analyzing subset #2, IGHVmut and SF3B1mut in a multivariate model, only subset #2 (p=0.011, HR 1.93) and SF3B1mut (p=0.023, HR 1.82) retained their prognostic effect, whereas IGHV mutational status had no independent impact. Conclusions 1. Our data suggests to prognostically stratify IGHV3-21 patients according to the presence of stereotypy, since only subset #2 patients showed shorter TTT, whereas mutated non-subset #2 cases had a TTT similar to IGHVmut cases. 2. Mutation status of SF3B1 further refines the risk stratification of subset #2 patients, as co-occurrence of subset #2 with SF3B1mut leads to shorter TTT compared to subset #2/SF3B1wt cases. Disclosures: Jeromin: MLL Munich Leukemia Laboratory: Employment. Dicker:MLL Munich Leukemia Laboratory: Employment. Bayer:MLL Munich Leukemia Laboratory: Employment. Weissmann:MLL Munich Leukemia Laboratory: Employment. Eder:MLL Munich Leukemia Laboratory: Employment. Meggendorfer:MLL Munich Leukemia Laboratory: Employment. Alpermann:MLL Munich Leukemia Laboratory: Employment. Kohlmann:MLL Munich Leukemia Laboratory: Employment. Haferlach:MLL Munich Leukemia Laboratory: Employment, Equity Ownership. Kern:MLL Munich Leukemia Laboratory: Employment, Equity Ownership. Haferlach:MLL Munich Leukemia Laboratory: Employment, Equity Ownership. Schnittger:MLL Munich Leukemia Laboratory: Employment, Equity Ownership.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V122.21.4114.4114
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2013
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  • 5
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    Comparison Of Mutation Patterns Between Diagnosis and Relapse In 556 Adult Patients With AML Shows High Variability Of Stability
    American Society of Hematology ; 2013
    In:  Blood Vol. 122, No. 21 ( 2013-11-15), p. 4978-4978
    Details
    In: Blood, American Society of Hematology, Vol. 122, No. 21 ( 2013-11-15), p. 4978-4978
    Abstract: In acute myeloid leukemia (AML) molecular mutations are becoming increasingly important as markers for classification, risk stratification and disease monitoring. Frequencies and prognostic impact of most of the currently known mutations have been widely studied. In contrast, the stability during disease evolution and the role of single markers at relapse are less clear. Aim 1) To compare the patterns of molecular mutations between diagnosis and relapse. 2) To analyze the impact of single mutations on time to relapse (TTR). Patients and Methods We investigated paired diagnostic and relapse samples in a cohort of 556 adult AML cases that were selected based on confirmed relapse with available samples from both time points (483 de novo, 33 t-AML, 40 s-AML). The cohort comprized 255 females and 301 males; median age: 63.0 years (range: 18.6-85.2 years). In total, 5,726 paired analyses were performed (mean: 10.3/pt, range: 2-21). Besides analyses for fusion genes (n=114) the following genes were analyzed in paired samples for mutations in respective numbers: ASXL1: n=464, CBL: n=99, CEBPA: n=374, DNMT3A: n=244, FLT3-ITD: n=534, FLT3-TKD: n=461, IDH1: n=469, IDH2: n=418, KIT: n=34, KRAS: n=49, MLL-PTD: n=165, NPM1: n=343, NRAS: n=105, RUNX1: n=356, TET2: n=243, WT1: n=153, others: n=1,101. Mutations were analyzed by amplicon deep-sequencing, direct Sanger sequencing, gene scan, conventional PCR, quantitative real time PCR or melting curve analyses. In addition, chromosome banding analysis data was available in 552 cases. Results 629 relapses were detected in the 556 patients (pts). 67 pts had a second and 6 even a third relapse. At diagnosis the subtypes according to cytogenetics were as follows: PML-RARA (n=10), RUNX1-RUNX1T1 (n=24), CBFB-MYH11 (n=23), MLL-translocations (n=30), DEK-CAN (n=3), other recurrent translocations (n=14), complex karyotype (n=30), other aberrations (n=107), normal karyotype (NK, n=311). In 515/556 (92.6%) pts at least one mutation (mut) was detected at diagnosis (mean: 2.3; range:1-5). In detail, the most frequent markers were mut in: NPM1: n=233, FLT3-ITD: n=217, fusion genes: n=114, DNMT3A: n=101, RUNX1: n=98, TET2: n=81, FLT3-TKD: n=58, ASXL1: n=54, IDH2R140: n=46, MLL-PTD: n=44, WT1: n=42, TP53: n=26, biallelic CEBPA(bi): n=28, monoallelic CEBPA(mono): n=23. At relapse a similar incidence of 88.6% (558/630) mutated pts (mean: 2.0: range 1-6) was detected. However, the mutational pattern changed at relapse in 381/629 (60.6%) of the pts. On the marker level a change was seen for 309 (24.5%) of the mut, with gain of 142/1,263 new mut (11.3%) and a loss of 167 (13.2%) mut that were detectable at diagnosis. Different degrees of stability were observed. Compared to all other markers a stable pattern was found for CEBPAbi: p=0.025; NPM1: p 〈 0.001; MLL-PTD: p=0.006; and fusion genes: p 〈 0.001. This is supporting the respective definition of entity defining mut in the WHO classification. Instead, a low stability (for gain and/or loss) compared to all others was seen for CEBPAmono: p=0.002, FLT3-ITD: p 〈 0.001, FLT3-TKD: 〈 0.001, NRAS: p 〈 0.001, TP53: p 〈 0.001 (only for gain), WT1: p 〈 0.001. This is in accordance with the concept of typical “secondary” mutations, leading to acceleration of the disease. An intermediate stability was detected for TET2, DNMT3A, RUNX1, ASXL1,IDH2R140 (see figure). Of note, of 200 FLT3-ITD positive pts that retained an FLT3-ITD at relapse, only 6 (3%) were stable with respect to mutational load whereas 134 (67%) showed an increase of the FLT3-ITD/wildtype load, and 60 (30%) a decrease showing a further quality of genetic instability. Between the various disease entity defining groups there were no relevant differences in TTR.  In contrast, an impact on shorter TTR was seen for mutations in DNMT3A (median TTR: 8.7 vs 12.1 months (m), p=0.058), FLT3-ITD (7.6 vs 12.2 m, p 〈 0.001), RUNX1mut (10.1 vs 12.8 m, p=0.038) and TET2mut (9.9 vs 10.9 m, p=0.049). In the normal karyotype group an effect was only seen for FLT3-ITD (7.3 vs 13.6, p 〈 0.001) and TET2mut (9.9 vs 12.3 m, p=0.025). Conclusions 1) Genetic alterations in AML can be subdivided into stable, intermediate and unstable markers. Entity defining markers according to WHO (fusion genes, NPM1mut, CEBPAbi) are stable between diagnosis and relapse. 2) A significant negative impact on TTR was shown only for secondary mutations (FLT3-ITD, TET2mut, DNMT3Amut and RUNX1 mut). Disclosures: Schnittger: MLL Munich Leukemia Laboratory: Employment, Equity Ownership. Nadarajah:MLL Munich Leukemia Laboratory: Employment. Alpermann:MLL Munich Leukemia Laboratory: Employment. Eder:MLL Munich Leukemia Laboratory: Employment. Kohlmann:MLL Munich Leukemia Laboratory: Employment. Kuznia:MLL Munich Leukemia Laboratory: Employment. Weissmann:MLL Munich Leukemia Laboratory: Employment. Fasan:MLL Munich Leukemia Laboratory: Employment. Weber:MLL Munich Leukemia Laboratory: Employment. Albuquerque:MLL Munich Leukemia Laboratory: Employment. Jeromin:MLL Munich Leukemia Laboratory: Employment. Meggendorfer:MLL Munich Leukemia Laboratory: Employment. Dicker:MLL Munich Leukemia Laboratory: Employment. Kern:MLL Munich Leukemia Laboratory: Employment, Equity Ownership. Haferlach:MLL Munich Leukemia Laboratory: Employment, Equity Ownership. Haferlach:MLL Munich Leukemia Laboratory: Employment, Equity Ownership.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V122.21.4978.4978
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2013
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  • 6
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    Tyrosine Kinase Inhibitor Treated CML Patients Harboring Philadelphia-Negative Cytogenetically Aberrant Clones Show Molecular Mutations In 31% Of Cases Not Present At Diagnosis: A High-Throughput Amplicon Sequencing Study Of 29 Genes
    American Society of Hematology ; 2013
    In:  Blood Vol. 122, No. 21 ( 2013-11-15), p. 611-611
    Details
    In: Blood, American Society of Hematology, Vol. 122, No. 21 ( 2013-11-15), p. 611-611
    Abstract: In chronic myeloid leukemia (CML), clonal chromosome aberrations in metaphases not carrying a t(9;22)(q34;q11) have been described during treatment with tyrosine kinase inhibitors (TKIs), so-called Philadelphia-negative (Ph-) clones. The most frequent abnormalities in these Ph- clones reported are -7, +8 and -Y. This pattern of cytogenetic aberrations is comparable to alterations found in MDS. In the majority of patients no clear evidence of a secondary hematologic malignancy is observed. However, few cases especially with -7 were reported to evolve to MDS or even AML. Aim 1) Analyze whether TKI-treated CML patients who developed Ph- clones also harbour molecular mutations. 2) Evaluate whether these mutations were already present at diagnosis of CML. Patients and Methods We selected 42 patients (pts) treated with TKIs (Imatinib: n=27, Nilotinib: n=2, and 13 pts who were treated with 2 or 3 different TKIs) who developed Ph- clones. Median time from start of therapy to analysis was 3.2 years (range 8.9 months-13.5 years). 23 cases were male and 19 female; median age was 63.3 years (range: 34.1-83.9 years). Cytogenetics in pts with Ph- clones were as follows: +8 sole (n=18), -Y (n=7), -7 sole (n=2), +9 (n=2), an 10 cases with various abnormalities. Additional three cases had two different clones: 1) -7 and +8; 2) +8 and +Y, 3) -Y and +Y. Median clone size was 37.5% (range 10-100%) of all metaphases. BCR-ABL1 levels at the time point of analysis were between 0 and 4.5 (median: 0.019) according to international scale. All cases were analyzed with a pan-myeloid gene panel of 29 genes: ASXL1, BCOR, BRAF, CBL, DNMT3A, ETV6, EZH2, FLT3 (TKD), IDH1, IDH2, JAK2, KIT, KRAS, MLL-PTD, NOTCH1, NPM1, NRAS, PRPF40B, PTPN11, RUNX1, SF1, SF3A1, SF3B1, SRSF2, TET2, TP53, U2AF1, U2AF2 and ZRSR2. Either complete coding genes or hotspots were first amplified by a microdroplet-based assay (RainDance, Lexington, MA) and subsequently sequenced with a MiSeq instrument (Illumina, San Diego, CA). RUNX1 was sequenced on the 454 Life Sciences NGS platform and the MLL-PTD was analyzed by quantitative real time PCR. Median coverage per amplicon was 2215 reads (range 100-24,716). The lower limit of detection was set at a cut-off of 1.5%. Results In total, in 13/42 pts (31.0%) one (n=9) or two (n=4) of the analyzed genes were mutated. Median mutation load was 15% (range: 3-50%). In detail, mutations in the following genes were detected: ASXL1 (n=5), DNMT3A (n=4), NRAS (n=2) and each one in BCOR, CBL, MLL-PTD, RUNX1, TET2 and ZRSR2. 4 pts had combinations of: 2 ASXL1mut, 2 NRASmut, BCORmut and RUNX1mut, or ASXL1mut with MLL-PTD, respectively. Subsequently, the mutations were tracked as far as serially collected samples were available (12 pts with a total of 125 samples, range: 3-20 samples/pt) from earlier or later time points. In 6 cases it clearly could be shown that the mutations were not present at diagnosis and arose 5 months, 7 months, 14 months, 15 months, 5 years, and 7 years after start of TKI therapy, respectively. In all these cases the mutation loads increased in parallel to decreasing BCR-ABL1 levels. In one of these cases one mutation was found 3 years and a second 11 years after start of therapy. Importantly, in three of these cases the molecular mutations were detectable before the cytogenetic aberration in the Ph- clone. In six further cases mutations were present with similar levels in several samples but due to lack of samples from initial diagnosis no estimation of the time to their occurrence was possible. In one of these cases the BCR-ABL1 load increased again during therapy and the DNMT3A mutation decreased showing that the BCR-ABL+ clone and the DNMT3Amut clone were competitive clones. Conclusions 1) For the first time we show that more than 30% of CML patients treated with TKI who develop Ph- clones as defined by cytogenetic abnormalities, also harbour molecular mutations. 2) For most of the cases it was shown that these mutations arose during treatment. 3) In some cases the molecular mutations were detectable before the cytogenetic aberrations. This may be regarded as further proof of the malignant character of these Ph- clones. However, none of the analyzed cases, so far, developed a secondary disease, i.e. MDS or AML, thus the relevance of these findings is still unclear and needs further attention. Disclosures: Schnittger: MLL Munich Leukemia Laboratory: Employment, Equity Ownership. Kuznia:MLL Munich Leukemia Laboratory: Employment. Meggendorfer:MLL Munich Leukemia Laboratory: Employment. Nadarajah:MLL Munich Leukemia Laboratory: Employment. Jeromin:MLL Munich Leukemia Laboratory: Employment. Alpermann:MLL Munich Leukemia Laboratory: Employment. Roller:MLL Munich Leukemia Laboratory: Employment. Albuquerque:MLL Munich Leukemia Laboratory: Employment. Weissmann:MLL Munich Leukemia Laboratory: Employment. Eder:MLL Munich Leukemia Laboratory: Employment. Dicker:MLL Munich Leukemia Laboratory: Employment. Kern:MLL Munich Leukemia Laboratory: Employment, Equity Ownership. Kohlmann:MLL Munich Leukemia Laboratory: Employment. Haferlach:MLL Munich Leukemia Laboratory: Employment, Equity Ownership; Novartis: Research Funding. Hochhaus:Novartis: Research Funding. Haferlach:MLL Munich Leukemia Laboratory: Employment, Equity Ownership.
    Type of Medium: Online Resource
    ISSN: 0006-4971 , 1528-0020
    URL: Article
    DOI: 10.1182/blood.V122.21.611.611
    RVK:
    XA 33000
    RVK:
    XA 10000
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2013
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  • 7
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    NPM1 mutated AML can relapse with wild-type NPM1: persistent clonal hematopoiesis can drive relapse
    American Society of Hematology ; 2018
    In:  Blood Advances Vol. 2, No. 22 ( 2018-11-27), p. 3118-3125
    Details
    In: Blood Advances, American Society of Hematology, Vol. 2, No. 22 ( 2018-11-27), p. 3118-3125
    Abstract: Acute myeloid leukemia (AML) with NPM1 mutation (NPM1mut) defines a World Health Organization entity. Absence of minimal residual disease (MRD) following induction chemotherapy is associated with an excellent prognosis. Data are conflicting on NPM1mut AML relapsing with wild-type NPM1 (NPM1wt). We analyzed 104 paired samples of NPM1mut AML patients with relapse and identified 14/104 that relapsed with NPM1wt AML. Blood counts at diagnosis differed significantly between patients with NPM1mut and NPM1wt relapse (median white blood cell count, 30 vs 3 × 109/L, P = .008; platelet count, 66 vs 128 × 109/l, P = .018). NPM1mut relapse occurred significantly earlier than NPM1wt relapse (14 vs 43 months, P = .004). At diagnosis, FLT3-ITD were more frequent in patients with NPM1mut relapse (P = .029), whereas DNMT3A mutations were more frequent in patients with NPM1wt relapse (P = .035). Sequencing analysis of paired samples at diagnosis, molecular remission, and NPM1wt relapse identified cooccurring mutations that persist from diagnosis throughout remission and at relapse, suggestive of a preexisting clonal hematopoiesis. We provide evidence that AML relapsing with NPM1wt is a distinct disease and that initial leukemia and relapse potentially arise from a premalignant clonal hematopoiesis.
    Type of Medium: Online Resource
    ISSN: 2473-9529 , 2473-9537
    URL: Article
    DOI: 10.1182/bloodadvances.2018023432
    Language: English
    Publisher: American Society of Hematology
    Publication Date: 2018
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  • 8
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    Detection of recurrent and of novel fusion transcripts in myeloid malignancies by targeted RNA sequencing
    Springer Science and Business Media LLC ; 2018
    In:  Leukemia Vol. 32, No. 5 ( 2018-5), p. 1229-1238
    Details
    In: Leukemia, Springer Science and Business Media LLC, Vol. 32, No. 5 ( 2018-5), p. 1229-1238
    Type of Medium: Online Resource
    ISSN: 0887-6924 , 1476-5551
    URL: Article
    DOI: 10.1038/s41375-017-0002-z
    RVK:
    WA 15000
    Language: English
    Publisher: Springer Science and Business Media LLC
    Publication Date: 2018
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  • 9
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    DNMT3A mutations are over-represented in young adults with NPM1 mutated AML and prompt a distinct co-mutational pattern
    Springer Science and Business Media LLC ; 2019
    In:  Leukemia Vol. 33, No. 11 ( 2019-11), p. 2741-2746
    Details
    In: Leukemia, Springer Science and Business Media LLC, Vol. 33, No. 11 ( 2019-11), p. 2741-2746
    Type of Medium: Online Resource
    ISSN: 0887-6924 , 1476-5551
    URL: Article
    DOI: 10.1038/s41375-019-0502-0
    RVK:
    WA 15000
    Language: English
    Publisher: Springer Science and Business Media LLC
    Publication Date: 2019
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  • 10
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    Risk assessment according to IPSS-M is superior to AML ELN risk classification in MDS/AML overlap patients defined by ICC
    Springer Science and Business Media LLC ; 2023
    In:  Leukemia Vol. 37, No. 10 ( 2023-10), p. 2138-2141
    Details
    In: Leukemia, Springer Science and Business Media LLC, Vol. 37, No. 10 ( 2023-10), p. 2138-2141
    Type of Medium: Online Resource
    ISSN: 0887-6924 , 1476-5551
    URL: Article
    DOI: 10.1038/s41375-023-02004-w
    RVK:
    WA 15000
    Language: English
    Publisher: Springer Science and Business Media LLC
    Publication Date: 2023
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