ALBERT

Description: Introduction: As showed in a recent study of our group, considering bone marrow (BM) blasts from nonerythroid cellularity (NECs) improves the prognostic evaluation of MDS (Arenillas et al, J Clin Oncol 2016). By enumerating blasts from NECs, 12% of MDS patients diagnosed within WHO categories with less than 5% BM blasts were reclassified into higher-risk categories and showed a poorer overall survival than did those who remained in the initial categories. Refractory anemia with ring sideroblasts (RARS) and refractory cytopenia with multilineage dysplasia and ring sideroblasts (RCMD-RS) have shown an special good outcome in different studies. As MDS with ring sideroblasts (MDS-RS) usually present a high percentage of BM erythroblasts, considering BM blasts from NECs could imply a risk overestimation of this subset of patients. Aim: we evaluated the relevance of considering BM blasts from NECs or from total nucleated cells (TNCs) on classification and prognostication of the group of patients diagnosed with MDS-RS. Methods: We retrospectively analyzed 3,924 de novo MDS diagnosed according to WHO 2001 and 2008 classifications from the MDS Spanish registry. 1,045 patients presented less than 5% BM blasts from TNCs and equal or greater than 15% BM ring sideroblasts, fulfilling current definition for RARS (WHO 2001 and 2008) and RCMD-RS (WHO 2001). Moreover 1,233 patients with equal or greater than 5% BM ring sideroblasts and less than 5% BM blasts were analyzed in order to explore the future definition of WHO 2016, that considered as MDS-RS those patients with 5%-

Description: Diffuse large B-cell lymphoma (DLBCL) is a heterogeneous category of lymphoid tumors that comprises different clinical forms not fully recognized in the WHO classification. In this regard, extranodal (EN) DLBCLs have particular clinicobiological features and outcome, sometimes related to the specific site where the lymphoma arises. Nowadays, rituximab plus chemotherapy (CT) is the gold-standard in the treatment of DLBCL. However, the superiority of rituximab-CT (R-CT) over CT alone has not been addressed for all the clinical subsets of the disease and, in fact, the clinical role of the new therapies might be different for primary nodal or EN DLBCLs. The aim of this study was to assess the impact of rituximab in patients suffering from nodal or EN DLBCL. Two-hundred and thirty non-immunocompromised patients (112M/118F; median age, 61 years) diagnosed with CD20+DLBCL in a single institution between 1997 and 2006 (five years before and after establishing R-CT as the standard treatment in DLBCL) and treated with adriamycin-containing regimens were the subject of the present study. The series included 148 primary nodal and 82 EN DLBCL. Patients with primary CNS lymphoma were excluded and lymphomas arising at Waldeyer ring were considered as nodal DLBCL. The main EN sites were GI (n=26), bone (n=13), soft tissue (n=13), lung/pleura (n=9), liver (n=9), and other (n=12). Main clinico-biological and evolutive variables were analyzed. One hundred nineteen patients received only CT and 111 R-CT. Eighty-seven cases with available information were assigned to germinal center B-cell-like (GCB) (41%) or non-GCB (59%) groups according to the Hans method (Blood2004;103:275–82) based on CD10, BCL6 and MUM1 expression. Main initial features, including the primary nodal or EN origin, international prognostic index (IPI), and GCB/non-GCB categories were similar for CT and R-CT groups. No correlation was observed between the GCB/non-GCB groups and the primary site of the tumor, although nodal lymphomas more frequently expressed MUM1 than EN (69% vs. 31%, respectively; p=0.01). CR rate and 5-year overall survival (OS) according to the treatment arm (CT vs. R-CT) is detailed for the whole series and for the nodal and EN groups in the table and OS curves depicted in the figure. In the whole series, variables predicting poor OS in the multivariate analysis were high-risk IPI (RR 2.5; p

Description: Diffuse large B-cell lymphomas (DLBCLs) can be divided into germinal-center B cell–like (GCB) and activated-B cell–like (ABC) subtypes by gene-expression profiling (GEP), with the latter showing a poorer outcome. Although this classification can be mimicked by different immunostaining algorithms, their reliability is the object of controversy. We constructed tissue microarrays with samples of 157 DLBCL patients homogeneously treated with immunochemotherapy to apply the following algorithms: Colomo (MUM1/IRF4, CD10, and BCL6 antigens), Hans (CD10, BCL6, and MUM1/IRF4), Muris (CD10 and MUM1/IRF4 plus BCL2), Choi (GCET1, MUM1/IRF4, CD10, FOXP1, and BCL6), and Tally (CD10, GCET1, MUM1/IRF4, FOXP1, and LMO2). GEP information was available in 62 cases. The proportion of misclassified cases by immunohistochemistry compared with GEP was higher when defining the GCB subset: 41%, 48%, 30%, 60%, and 40% for Colomo, Hans, Muris, Choi, and Tally, respectively. Whereas the GEP groups showed significantly different 5-year progression-free survival (76% vs 31% for GCB and activated DLBCL) and overall survival (80% vs 45%), none of the immunostaining algorithms was able to retain the prognostic impact of the groups (GCB vs non-GCB). In conclusion, stratification based on immunostaining algorithms should be used with caution in guiding therapy, even in clinical trials.

Description: Abstract 1948 Poster Board I-971 Survival after treatment of diffuse large B-cell lymphoma (DLBCL) is influenced by differences in the tumor microenvironment. Gene expression profiling (GEP) studies have shown that the angiogenesis-related signature (stromal-2 signature) is prognostically unfavorable. However, the clinical and biological significance of angiogenesis quantified in tumor tissue sections of DLBCL from patients treated with rituximab plus chemotherapy (R-CT) is not yet fully explored. CD31, the platelet adhesion molecule PECAM1, is one of the genes included in the “stromal-2 signature” reported in the GEP studies. The objective of this study was to determine whether the microvessel density (MVD) and microvessel number (MVN) in DLBCL patients treated with R-CT were associated with the clinicopathological features of the tumors and related to the outcome of the patients. The MVD and MVN were assessed in a series of 160 patients with DLBCL from the Leukemia Lymphoma Molecular Profiling Project consortium (LLMPP) 86M /74F; median age 64 yrs. The GEP was investigated in 116 of these including 50 germinal center B (GCB), 55 activated B-cell (ABC) and 11 unclassifiable cases. An independent series of 129 patients from the Catalan Lymphoma-Study Group (GELCAB) (67M/62F; median age 64 yrs) was used to validate the results. Front-line treatment was R-CT in all cases of both series. Tissue Microarrays (TMA) were constructed from pretreatment biopsy specimens of de novo DLBCL. High grade B cell lymphoma otherwise unclassifiable, primary mediastinal B cell lymphoma, T-cell-rich B cell lymphoma, and tumors associated with immunodeficiency were excluded. All cases were stained in an automated immunostainer with an antibody against CD31 (DAKO). The MVD and MVN were quantified using digitalized images of the tumor using Olympus Cell B Basic Imaging Software. Microvessel areas were defined as vascular areas delineated by CD31+ staining. The MVD was calculated as the sum of all microvessel areas divided by the total area analyzed. The MVN was the sum of all identified individual vessels, divided by the total area analyzed. TMAs were independently scored by two observers and discrepancies were resolved over a double-headed microscope. To determine whether the angiogenic values scored using the TMA were representative of the tumor sample, whole tissue sections and TMA cores from the same tumor were evaluated in 40 cases and compared by a linear regression analysis. MVD and MVN were grouped in quartiles when necessary and considered high or low when above or below the 50th percentile, respectively. Linear correlation analysis between the CD31 (+) MVD results on TMA cores and on the corresponding whole tissue sections in 40 cases showed a good correlation (R2=0.81). In the LLMPP cohort, DLBCL with an ABC profile showed higher MVD than those with GCB profile (p=0.05). In addition, higher MVD was observed in patients with advanced stage (p

Description: Introduction: Based on the 2008 World Health Organization classification (WHO 2008), erythroleukemia is defined by the presence of ≥50% erythroid precursors in bone marrow (BM) and ≥20% myeloblasts in the non-erythroid cell population. Multilineage dysplasia is almost always present with high rates of MDS-like cytogenetic abnormalities, specially complex karyotypes. Therefore an extensive comparison with myelodysplastic syndromes (MDS) with ≥50% erythropoesis seems crucial to elucidate whether erythroleukemia and MDS with erythroid hyperplasia should be considered as different biological entities. Aim: To elucidate this issue, the outcome and cytogenetic alterations of erythroleukemia patients were studied and compared to MDS patients with ≥50% erythropoesis with

Description: Introduction Myelodysplastic Syndromes (MDS) are a heterogeneous group of clonal myeloid stem cells disorders with high prevalence in the elderly characterized by inefficient hematopoiesis, peripheral blood (PB) cytopenias, and an increased risk of transformation to acute myeloid leukemia (AML). The karyotype is the clinical parameter with the strongest prognostic impact according the IPSS-R (Greenberg et al., 2012). The most frequent cytogenetic alteration is the chromosome 5q deletion (del[5q]) which as a single anomaly, confers a good prognosis and predicts an excellent response to lenalidomide. Whether other genetic abnormalities routinely cooperate with del(5q) is not known. Whole-exome sequencing (WES) is a powerful tool to identify somatic mutations in protein coding genes that might cooperate with del(5q). In order to better understand the genetic basis of MDS with del(5q), we performed whole-exome sequencing (assessing 334,378 exons) of tumor-normal paired samples from 21 MDS patients. Herein we describe the preliminary findings. The analysis is ongoing and the complete results will be presented in the meeting. Methods A total of 21 patients with MDS (16 with del(5q) as a sole abnormality, 3 with del(5q) and additional alterations and 2 with normal karyotype) were included in our study. We examined a total of 25 tumor samples (21 diagnostic bone marrow (BM) samples with matched CD3+ cells as a controls, additional BM samples from 3 patients during lenalidomide treatment and 1 bone marrow sample from a del(5q) patient after AML progression). DNA was extracted from BM samples and from isolated peripheral blood CD3+ cells (magnetic-activated cell sorting (MACS), MiltenyiBiotec GmbH, Germany). The purity of CD3+ cells was assessed by FC 500 flow cytometer (Beckman Coulter, Hialeah, Fl, USA). Only DNA that fulfilled quality controls required by WES were submitted. For each diagnostic sample, we performed Conventional G-banding cytogenetics and fluorescence in situ hybridization (FISH, to confirm or dismiss 5q deletions). Whole-exome targeted capture was carried out on 3 μg of genomic DNA, using the SureSelect Human Exome Kit 51Mb version 4 (Agilent Technologies, Inc., Santa Clara, CA, USA). The captured and amplified exome library was sequenced with 100 bp paired-end reads on an Illumina HiSeq2000. Whole-exome sequencing data were analyzed using an in-house bioinformatics pipeline as previously reported. Somatic mutations identified as alterations present in tumor but not in the matched CD3+ sample were validated by Sanger sequencing. Results In our preliminary analysis of WES from 12 patients (10 patients with 5q- and 2 patients with normal karyotype), a total of 249 non-silent somatic variant candidates were identified, of which 146 were confirmed as somatic mutations. Recurrent mutations were observed in three genes (ASXL1, NBPF10 and SF3B1) in 3 different patients. Seven genes (HRNR, JAK2, POTEG, MUC5B, PHLDA, TTN, ZNF717) were mutated in two patients. Mutations in several genes known to be mutated in MDS (ASXL1, JAK2, RUNX1, SF3B1, SRSF2 and TET2) were also identified. Patients with the 5q deletion had an average of 11 mutations whereas patients with normal karyotype had a higher mean (14.5). Mutated genes identified in both groups were HRNR, JAK2, MUC5B, NBPF10 and SF3B1. No mutations in TP53 were detected in this subset. Pathway analysis of the complete list of somatically mutated genes will be carried out once all 21 patients are analyzed. The four in-treatment samples will be examined from their matched diagnostic samples. Conclusions Whole-exome sequencing of largely del(5q) MDS patient samples identified both known and previously unreported somatic mutations. Analysis of additional samples will allow a more complete description of the genes and pathways that may cooperate with del(5q) in the development and progression of MDS. Acknowledgments Financial support: This work has been supported (in part) by a grant from Instituto de Salud Carlos III, Ministerio de Sanidad y Consumo, Spain (PI 11/02010); by Red Temática de Investigación Cooperativa en Cáncer (RTICC, FEDER) (RD07/0020/2004; RD12/0036/0044); Acción COST BM0801: European Genomics and Epigenomics Study on MDS and AML; Sociedad Española de Hematología y Hemoterapia (SEHH) and MDS Celgene. Footnotes Rafael Bejar and Francesc Sole contributed equally. Disclosures: Díez-Campelo: Novartis and Celgene: Honoraria, Research Funding. Cañizo:Celgene Jansen-Cilag Arry Novartis: Membership on an entity’s Board of Directors or advisory committees, Research Funding. Sanchez:Celgene: Honoraria, Research Funding. Bejar:Genoptix: Consultancy, Honoraria, Membership on an entity’s Board of Directors or advisory committees; Celgene: Consultancy, Membership on an entity’s Board of Directors or advisory committees. Solé:Celgene: Consultancy, Membership on an entity’s Board of Directors or advisory committees, Research Funding.

Description: INTRODUCTION Myelodysplastic syndromes (MDS) are a heterogeneous group of clonal myeloid stem cell disorders that are highly prevalent in elderly populations. MDS are characterized by inefficient hematopoiesis, peripheral blood (PB) cytopenias, and increased risk of transformation to acute myeloid leukemia (AML; 20–30% of patients with MDS). Around 50% of MDS patients carry at least one karyotypic aberration. The interstitial deletion of the long arm of chromosome 5 ([del(5q)] is the most common aberration, accounting for almost 30% of abnormal MDS karyotype. Various studies supports a favorable prognosis of MDS with isolated del(5q) with an excellent response to lenalidomide treatment. In order to describe the molecular events associated with MDS and del(5q) we performed whole-exome sequencing (WES)(assessing 334,378 exons) of tumor-normal paired samples from 20 MDS patients to unravel the genetic basis of MDS with del(5q). The analysis is ongoing and the complete results will be presented in the meeting. METHODS A total of 50 samples from 20 patients with MDS, with del(5q) were collected. For each diagnostic sample, we performed Conventional G-banding cytogenetics and fluorescence in situ hybridization (FISH, to confirm or dismiss del(5q)) and SNP arrays with Cytoscan HD (Affymetrix). These samples included: 20 tumor samples at diagnosis, 20 control samples and 10 samples after diagnosis, during lenalidomide treatment (5) or at the moment of relapse (5) in order to compare the genetic status before and during the treatment. Genomic DNA from tumor cells was obtained from bone marrow (BM) samples or from PB granulocytes. As a source of constitutional DNA we used CD3+T cells from each patient by isolating by magnetic-activated cell sorting. WES targeted capture was carried out on 7μg of genomic DNA, using the SureSelect Human Exome Kit 51Mb version 4.Libraries were sequenced on an Illumina HiSeq2000. Sequencing data will be analyzed using an in-house bioinformatics pipeline as previously reported. RESULTS Our preliminary analysis of these 20 new patients by WES confirmed our previous analyses with mutations in well described genes as ASXL1, JAK2 and TET2, but not in genes RUNX1, SF3B1 and SRSF2. In those patients we found two patients with missense mutation in TP53, one of the patients had an isolated del(5q) and is receiving lenalidomide treatment, and the other one had a complex karyotype. According to our prior analyses, in which 249 non-silent somatic variants were detected, we look forward to validate these mutations in this new series of patients. CONCLUSIONS We envision to validate these previous results with the new sequencing data of more patients with MDS and del(5q). We expect to measure somatic mutations that vary in abundance after lenalidomide treatment, potentially identifying mutations associated with resistance or relapse. ACKNOWLEDGEMENTS: This work has been supported (in part) by a grants from Instituto de Salud Carlos III, Ministerio de Sanidad y Consumo, Spain (PI 11/02010); by Red Temática de Investigación Cooperativa en Cáncer (RTICC, FEDER) (RD07/0020/2004; RD12/0036/0044); 2014 SGR225 (GRE) Generalitat de Catalunya; Fundació Internacional Josep Carreras; Obra Social “la Caixa”; Sociedad Española de Hematología y Hemoterapia (SEHH)and Celgene Spain. FOOTNOTES Rafael Bejar and Francesc Sole contributed equally. Disclosures Díez-Campelo: Novartis, Celgene: Honoraria, Research Funding. Xicoy:Celgene: Honoraria. Cañizo:Celgene, Jansen-Cilag, Arry, Novartis: Consultancy, Membership on an entity's Board of Directors or advisory committees, Research Funding. sanchez-Garcia:Celgene: Honoraria, Research Funding. Bejar:Celgene: Membership on an entity's Board of Directors or advisory committees; Genoptix Medical Laboratory: Consultancy, Honoraria, Licensed IP, no royalties Patents & Royalties, Membership on an entity's Board of Directors or advisory committees. Sole:Celgene: Consultancy, Membership on an entity's Board of Directors or advisory committees, Research Funding.

Description: INTRODUCTION Myelodysplastic syndromes (MDS) are a heterogeneous group of clonal myeloid stem cell disorders highly prevalent in elderly populations. MDS are characterized by inefficient hematopoiesis, peripheral blood (PB) cytopenias, and increased risk of transformation to acute myeloid leukemia (AML; 20–30%). Around 50% of MDS patients carry at least one karyotoypic aberration, the most common being 5q-, -7/7q-, +8, 20q-, and isochromosome 17(q10) [i(17q)]. Isochromosome 17(q10) according to cytogenetic risk stratification is of intermediate prognostic significance when is observed as a single abnormality. As i(17q) has be postulated to be associated to recurrent mutational patterns we investigated the TP53 and SETBP1 mutational status in 31 untreated MDS patients harboring i(17q). METHODS Genomic DNA was isolated from fixed cells from bone marrow samples using QIAamp DNA mini-kit Qiagen. TP53 exons 5–9 and SETBP1 exon 3 were amplified using PCR. Amplification products were all purified and sequenced in an automated sequencer. Additionally, we studied the methylation status of TP53 in 21 of the 31 patients. Sequence analyses were performed with PyroQ-CpG analysis software. RESULTS SETBP1 mutational spectrum was characterized by the presence of non-synonmous point mutations, mainly located in residues 868-871 in 13 out of the 31 analyzed patients (41.9 %). In seven of the 13 positive cases, the mutations corresponded to heterozygous D868N, in 5 cases associated with an isolated i(17q) and with 1 additional abnormality in the remaining samples. Three of the 13 SETBP1 mutations were heterozygous G870S associated to i(17q) as a single abnormality. Another three patients had single heterozygous mutations S869G, and I871T along with an i(17q) as a single abnormality or D868Y in the context of a complex karyotype. Regarding TP53 mutations six of the 31 had non-synonymous point mutations. Two patients had mutations in exon 7, three had mutations in exons 5, 6, and 8, and one patient had an intronic mutation at the splicing recognition site. A statistically significant correlation was found between TP53 mutation and a complex karyotype (P=0.001), and between SETBP1 mutation and isolated i(17q) (P=0.001). Univariate analysis for overall survival (OS) found a statistically significant difference between non-mutated and TP53-mutated patients (14.1 months vs. 2.9 months, respectively; P=0.001), and between SETBP1-mutated and TP53-mutated patients (14.5 months vs. 2.9 months, respectively; P=0.002). Only one patient, with isolated i(17q), was found to have an aberrant TP53 methylation status. CONCLUSIONS MDS patients with i(17q) as a sole abnormality presented a higher incidence of SETBP1 mutations, whereas a higher incidence of TP53 mutations, were found in the presence of complex karyotypes. These data allowed us to conclude that a better informed and more accurate prognosis can be achieved in MDS patients with isolated i(17q) or i(17q) plus one additional abnormality, by studying the mutational status of SETBP1 as a first approach. ACKNOWLEDGEMENTS: This work has been partially supported by grants from Instituto de Salud Carlos III, Ministerio de Sanidad y Consumo, Spain (PI 11/02010); by Red Temática de Investigación Cooperativa en Cáncer (RTICC, FEDER) (RD07/0020/2004; RD12/0036/0044); 2014 SGR225 (GRE) Generalitat de Catalunya; Fundació Internacional Josep Carreras; Obra Social “la Caixa”; Sociedad Española de Hematología y Hemoterapia (SEHH) and Celgene Spain. Disclosures Sole: Celgene: Consultancy, Membership on an entity's Board of Directors or advisory committees, Research Funding.

Description: Introduction: MYC rearrangements (MYCr) occur in 5 to 15% of diffuse large B-cell lymphomas (DLBCL) and 20 to 35% of high-grade B-cell lymphoma, NOS (HGBL-NOS), are a defining criterion of the category HGBL with rearrangements of MYC and/or BCL2/BCL6 (HGBL, with MYCr and BCL2/BCL6), and may be present in 90% of Burkitt lymphoma. The current WHO classification considers cytogenetic techniques as the appropriate tool to detect MYCr but does not define how to approach to the identification of such alteration. As the global incidence of MYCr in large B-cell lymphomas (LBCL) is low, it is necessary to clarity whether FISH or other cytogenetic methods have to be applied to all LBCL or only in selected cases. We previously identified LMO2 as a potential surrogate marker of MYCr in LBCL (Colomo L, Am J Surg Pathol 2017). Our aim with this study is to confirm this observation and evaluate the clinical impact of this marker in the survival of patients with LBCL. Methods: We have prospectively studied between September 2014 and July 2019 a new series of 180 LBCL including patients with DLBCL, HGBL, with HGBL, with MYCr and BCL2/BCL6, HGBL-NOS and transformed low-grade lymphomas into DLBCL (tDLBCL) diagnosed according to WHO criteria. LMO2 (clone 1A9-1), MYC (clone Y69) and a common immunohistochemistry (IHC) panel of B and T-cell markers have been used for the histological categorization of the cases, using whole tissue sections. The cutoff for LMO2 and MYC were 30% and 40%, respectively. MYC and BCL6 genes were studied using break apart probes, and BCL2 gene using dual-color dual-fusion probes (IGH/BCL2), all from Vysis-Abbott. We have statistically correlated the loss of expression of LMO2 and the overexpression of MYC with the presence or absence of MYCr. Moreover, we performed survival analyses assessing the clinical impact of LMO2 in a series of 162 LBCL patients (112 DLBCL, 20 HGBL, with MYCr and BCL2/BCL6, 4 HGBL-NOS and 26 tDLBCL). The survival series included cases diagnosed before 2014 with IHC and FISH data. Results: The prospective series included 132 patients with DLBCL (78M/52F; median age 67 years, range 35-95), 9 HGBL, with MYCr and BCL2/BCL6 (5M/4F; median age 67 years, range 42-85), 4 HGBL-NOS (2M/2F; median age 58 years, range 42-89), and 35 tDLBCL (31 transformed follicular lymphomas, 3 marginal zone lymphoma and 1 lymphoplasmacytic lymphoma; 23M/20F; median age 64 years, range 40-82). LMO2 and MYC were expressed as follows, respectively: 84/130 (65%) and 46/132 (35%) in DLBCL; 1/9 (11%) and 8/9 (89%) in HGBL, with MYCr and BCL2/BCL6; 0/4 and 3/4 (75%) HGBL-NOS; 25/34 (73%) and 7/33 (21%) tDLBCL. MYCr were identified in 9/132 (7%) DLBCL; all HGBL, with MYCr and BCL2/BCL6; 4/4 HGBL-NOS; 7/35 (20%) tDLBCL. The table shows the comparisons between LMO2 and MYC protein expression for the identification of the presence of MYCr in the series of LBCL. Whereas in the whole series LMO2 and MYC had similar results, among CD10-positive cases, LMO2 had better results than MYC and identified better the presence of MYCr than MYC protein expression. The 5-year progression-free survival (PFS) according the diagnostic categories was 59% for DLBCL, 28% for HGBL, with MYCr and BCL2/BCL6, 25% for HGBL-NOS and 22% for tDLBCL (P=0.015). In addition, PFS was significantly lower for the presence of MYCr (26% vs 53%, P=0.02) and MYC IHC expression (35% vs 53%, P=0.005), and showed a positive trend for LMO2 loss of expression (39% vs 52%, P=0.1). The 5-year overall survival (OS) according the diagnostic categories was 67% for DLBCL, 23% for HGBL, with MYCr and BCL2/BCL6, 50% for HGBL-NOS and 77% for tDLBCL (P

Description: Introduction: WHO classification of MDS is based on cytopenias, dysplasia, percentage of blasts in PB and BM, and cytogenetics. IPSS-R establishes BM blast subgroups (≤2%,2-10%) with independent impact in OS. Erythroid hyperplasia (≥50% of total BM cells) is common in MDS. Concerning MDS with expanded erythropoiesis, there is no consensus whether the proportion of BM blasts should be considered on the basis of all nucleated cells (approach-A) or in non-erythroid cells (approach-B). Aim: To elucidate this issue, we reassess percentage of BM blasts of MDS with erythropoiesis ≥50% from the Spanish registry (RESMD), according to both definitions. Methods: We performed a retrospective analysis of 507 primary MDS diagnosed according to WHO 2008. Proportion of red-cells was calculated in 500 nucleated cells. Erythroid hyperplasia was documented in 10.4% of patients from RESMD. Results: Median age of presentation was 74years (25-94years) and 63% were males. Median follow-up was 29.4 months and median OS was 47.14 months. Table 1 shows distribution of WHO subtypes of the series according to both approaches. Of note, following WHO recommendations, RAEB-2 diagnosis was not possible; formally all of them were diagnosed with erythroleukemia. Distribution of patients according to IPSS-R blast-categories by both methods is shown in Table 2. It is noteworthy that 14/389pts (3.6%) with blasts