Prognostic scoring systems for myelodysplastic syndromes (MDS) in a population‐based setting: a report from the Swedish MDS register

The myelodysplastic syndromes (MDS) have highly variable outcomes and prognostic scoring systems are important tools for risk assessment and to guide therapeutic decisions. However, few population‐based studies have compared the value of the different scoring systems. With data from the nationwide Swedish population‐based MDS register we validated the International Prognostic Scoring System (IPSS), revised IPSS (IPSS‐R) and the World Health Organization (WHO) Classification‐based Prognostic Scoring System (WPSS). We also present population‐based data on incidence, clinical characteristics including detailed cytogenetics and outcome from the register. The study encompassed 1329 patients reported to the register between 2009 and 2013, 14% of these had therapy‐related MDS (t‐MDS). Based on the MDS register, the yearly crude incidence of MDS in Sweden was 2·9 per 100 000 inhabitants. IPSS‐R had a significantly better prognostic power than IPSS (P < 0·001). There was a trend for better prognostic power of IPSS‐R compared to WPSS (P = 0·05) and for WPSS compared to IPSS (P = 0·07). IPSS‐R was superior to both IPSS and WPSS for patients aged ≤70 years. Patients with t‐MDS had a worse outcome compared to de novo MDS (d‐MDS), however, the validity of the prognostic scoring systems was comparable for d‐MDS and t‐MDS. In conclusion, population‐based studies are important to validate prognostic scores in a ‘real‐world’ setting. In our nationwide cohort, the IPSS‐R showed the best predictive power.     

Therapy with low‐dose azacitidine for MDS in children and young adults: a retrospective analysis of the EWOG‐MDS study group

Low‐dose azacitidine is efficient and safe in the therapy of malignant myeloid disorders in adults but data in children are lacking. We present a retrospective analysis of 24 children and young adults with myelodysplastic syndrome (MDS) who received azacitidine at the time of first diagnosis or relapse after allotransplant (2 children were treated with azacitidine both initially and for relapse). Diagnoses were refractory cytopenia of childhood (N = 4), advanced primary MDS (N = 9) and secondary MDS (N = 11). The median duration of treatment was four cycles. Azacitidine was well tolerated, but cytopenias led to dose reduction in five cases. Treatment was discontinued in one child because of impaired renal function. Sixteen MDS patients were treated with azacitidine at first diagnosis. One complete clinical remission was observed and one child showed complete marrow remission; six children experienced stable disease with haematological improvement. Ten children received azacitidine for relapsed MDS after transplant: of these, seven experienced stable disease for 2–30 cycles (median 3), including one patient with haematological improvement for seven cycles. In summary, azacitidine is effective in some children with MDS and appears to be a non‐toxic option in palliative situations to prolong survival.     

Elevated fetal haemoglobin is a predictor of better outcome in MDS/AML patients receiving 5‐aza‐2′‐deoxycytidine (Decitabine)

Although azanucleoside DNA‐hypomethylating agents (HMAs) are routinely used for the treatment of myelodysplastic syndrome/acute myeloid leukaemia (MDS/AML), very few outcome predictors have been established. Expression of the β‐like globin gene locus is tightly regulated by DNA methylation, is HMA‐sensitive in vitro, and fetal haemoglobin (HbF) expression is under study as a potential biomarker for response of MDS patients to azacitidine. We determined HbF expression in 16 MDS and 36 AML patients receiving decitabine (DAC). Pre‐treatment HbF was already elevated (>1·0% of total haemoglobin) in 7/16 and 12/36 patients, and HbF was induced by DAC in 81%/54% of MDS/AML patients, respectively. Elevated pre‐treatment HbF was associated with longer median overall survival (OS): 26·6 vs. 8·6 months for MDS (hazard ratio [HR] 8·56, 95% confidence interval [CI] 1·74–42·49, P = 0·008, with similarly longer progression‐free and AML‐free survival), and 10·0 vs. 2·9 months OS for AML (HR 3·01, 95% CI 1·26–7·22, P = 0·014). In a multivariate analysis, the prognostic value of HbF was retained. Time‐dependent Cox models revealed that the prognostic value of treatment‐induced HbF induction was inferior to that of pre‐treatment HbF. In conclusion, we provide first evidence for in vivo HbF induction by DAC in MDS/AML, and demonstrate prognostic value of elevated pre‐treatment HbF, warranting prospective, randomized studies.     

Ten‐Eleven‐Translocation 2 (TET2) is downregulated in myelodysplastic syndromes

TET2, a member of the ten‐eleven‐translocation (TET) family genes that modify DNA by converting 5‐methylcytosine (5‐mC) to 5‐hydroxymethylcytosine (5‐hmC), is located in chromosome 4q24 and is frequently mutated in myeloid malignancies. The impact of TET2 mutation on survival outcomes is still controversial; however, functional studies have proved that it is a loss‐of‐function mutation that impairs myeloid cell differentiation and contributes to the phenotype of myeloid neoplasia. We, herein, aimed to investigate TET2 expression in patients with myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML). A significantly decreased TET2 expression was observed in bone marrow cells from AML (n = 53) and patients with MDS (n = 64), compared to normal donors (n = 22). In MDS, TET2 expression was significantly reduced in RAEB‐1/RAEB‐2 compared to other WHO 2008 classifications, and a lower TET2 expression was observed at the time of MDS disease progression in four of five patients. In multivariate analysis, low TET2 expression (P = 0.03), male gender (P = 0.02), and WHO 2008 classification (P < 0.0001) were independent predictors of poorer overall survival. These results suggest that defective TET2 expression plays a role in the MDS pathophysiology and predicts survival outcomes in this disease.     

Azacitidine improves outcome in higher‐risk MDS patients with chromosome 7 abnormalities: a retrospective comparison of GESMD and GFM registries

Treatment with azacitidine (AZA) has been suggested to be of benefit for higher‐risk myelodysplastic syndrome (HR‐MDS) patients with chromosome 7 abnormalities (Abn 7). This retrospective study of 235 HR‐MDS patients with Abn 7 treated with AZA (n = 115) versus best supportive care (BSC; n = 120), assessed AZA treatment as a time‐varying variable in multivariable analysis. A Cox Regression model with time‐interaction terms of overall survival (OS) at different time points confirmed that, while chromosome 7 cytogenetic categories (complex karyotype [CK] versus non‐CK) and International Prognostic Scoring System risk (high versus intermediate‐2) retained poor prognosis over time, AZA treatment had a favourable impact on OS during the first 3 years of treatment compared to BSC (Hazard ratio [HR] 0·5 P < 0·001 at 1 year, 0·7 P = 0·019 at 2 years; 0·73 P = 0·029 at 3 years). This benefit was present in all chromosome 7 categories, but tended to be greater in patients with CK (risk reduction of 82%, 68% and 53% at 1, 3 and 6 months in CK patients; 79% at 1 month in non‐CK patients, P < 0·05 for all). AZA also significantly improved progression‐free survival (P < 0·01). This study confirms a time‐dependent benefit of AZA on outcome in patients with HR‐MDS and cytogenetic abnormalities involving chromosome 7, especially for those with CK.     

Maintenance treatment with azacytidine for patients with high‐risk myelodysplastic syndromes (MDS) or acute myeloid leukaemia following MDS in complete remission after induction chemotherapy

This prospective Phase II study is the first to assess the feasibility and efficacy of maintenance 5‐azacytidine for older patients with high‐risk myelodysplastic syndrome (MDS), chronic myelomonocytic leukaemia and MDS‐acute myeloid leukaemia syndromes in complete remission (CR) after induction chemotherapy. Sixty patients were enrolled and treated by standard induction chemotherapy. Patients that reached CR started maintenance therapy with subcutaneous azacytidine, 5/28 d until relapse. Promoter‐methylation status of CDKN2B (P15 ink4b), CDH1 and HIC1 was examined pre‐induction, in CR and 6, 12 and 24 months post CR. Twenty‐four (40%) patients achieved CR after induction chemotherapy and 23 started maintenance treatment with azacytidine. Median CR duration was 13·5 months, >24 months in 17% of the patients, and 18–30·5 months in the four patients with trisomy 8. CR duration was not associated with CDKN2B methylation status or karyotype. Median overall survival was 20 months. Hypermethylation of CDH1 was significantly associated with low CR rate, early relapse, and short overall survival (P = 0·003). 5‐azacytidine treatment, at a dose of 60 mg/m² was well tolerated. Grade III‐IV thrombocytopenia and neutropenia occurred after 9·5 and 30% of the cycles, respectively, while haemoglobin levels increased during treatment. 5‐azacytidine treatment is safe, feasible and may be of benefit in a subset of patients.     

Deferasirox chelation therapy in patients with transfusion‐dependent MDS: a ‘real‐world’ report from two regional Italian registries: Gruppo Romano Mielodisplasie and Registro Basilicata

Deferasirox (DFX) is an orally administered iron chelator approved for use in patients with transfusion‐dependent iron overload due to myelodysplastic syndromes (MDS). The safety and efficacy of DFX has been explored in clinical trial settings, but there is little data on unselected patients with MDS. The aim of this study was to retrospectively evaluate the safety, compliance, efficacy and effect on haematopoiesis of DFX in a large ‘real‐world’ MDS population. One hundred and eighteen patients with transfusion‐dependent MDS were treated with DFX across 11 centres in Italy. Serum ferritin levels, haematological response, dosing, adverse events and transfusion dependence were recorded at baseline, 3, 6, 12 and 24 months following initiation of treatment. DFX reduced mean serum ferritin levels from 1790 to 1140 ng/mL (P < 0.001), with 7.1% of patients achieving transfusion independence. Significant haematological improvement was seen in erythroid (17.6%), platelet (5.9%) and neutrophil counts (7.1%). Adverse events were reported in 47.5% of patients, including gastrointestinal and renal toxicity. Regression analysis showed that higher starting doses of DFX are associated with transfusion independence at 24 months. DFX is a safe, effective treatment for transfusion‐dependent MDS that can lead to transfusion independence and haematological improvement in a subset of patients.     

A phase 1 trial of temsirolimus and intensive re‐induction chemotherapy for 2nd or greater relapse of acute lymphoblastic leukaemia: a Children's Oncology Group study (ADVL1114)

The phosphatidylinositol 3‐kinase (PI 3K)/mammalian (or mechanistic) target of rapamycin (mTOR ) signalling pathway is commonly dysregulated in acute lymphoblastic leukaemia (ALL ). A phase 1 trial of the mTOR inhibitor temsirolimus in combination with UKALL R3 re‐induction chemotherapy was conducted in children and adolescents with second or greater relapse of ALL . The initial temsirolimus dose level (DL 1) was 10 mg/m² weekly × 3 doses. Subsequent patient cohorts received temsirolimus 7·5 mg/m² weekly × 3 doses (DL 0) or, secondary to toxicity, 7·5 mg/m² weekly × 2 doses (DL ‐1). Sixteen patients were enrolled, 15 were evaluable for toxicity. Dose‐limiting toxicity (DLT ) occurred at all three dose levels and included hypertriglyceridaemia, mucositis, ulceration, hypertension with reversible posterior leucoencephalopathy, elevated gamma‐glutamyltransferase or alkaline phosphatase and sepsis. The addition of temsirolimus to UKALL R3 re‐induction therapy resulted in excessive toxicity and was not tolerable in children with relapsed ALL . However, this regimen induced remission in seven of fifteen patients. Three patients had minimal residual disease levels <0·01%. Inhibition of PI 3K signalling was detected in patients treated at all dose levels of temsirolimus, but inhibition at an early time point did not appear to correlate with clinical responses at the end of re‐induction therapy.     

Phase II study of tosedostat with cytarabine or decitabine in newly diagnosed older patients with acute myeloid leukaemia or high‐risk MDS

Tosedostat, an oral aminopeptidase inhibitor, has synergy with cytarabine and hypomethylating agents. We performed a Phase II trial to determine rates of complete remission (CR) and survival using tosedostat with cytarabine or decitabine in older patients with untreated acute myeloid leukaemia (AML) or high‐risk myelodysplastic syndrome (MDS). Thirty‐four patients ≥60 years old (median age 70 years; range, 60–83) were randomized to receive tosedostat (120 mg on days 1–21 or 180 mg continuously) with 5 d of either cytarabine (1 g/m²/d) or decitabine (20 mg/m²/d) every 35 d. Twenty‐nine patients (85%) had AML, including 15 (44%) with secondary AML/MDS, and 5 (15%) had MDS‐refractory anaemia with excess blasts type 2. The CR/CR with incomplete count recovery (CRi) rate was 53% [9 in each arm; 14 CR (41%) and 4 CRi (12%)], attained in 6 of 14 patients with adverse cytogenetics and 4 of 7 with FLT3‐internal tandem duplication mutations. Median follow‐up was 11·2 months (range, 0·5–22·3), and median survival was 11·5 months (95% confidence interval, 5·2–16·7). Twenty‐three patients (67·6%) were treated as outpatients and 10 of these patients required hospitalization for febrile neutropenia. No Grade 3–4 non‐haematological toxicities required withdrawal from study. Tosedostat with cytarabine or decitabine is tolerated in older patients with untreated AML/MDS, results in a CR/CRi rate of >50%, and warrants further study in larger trials.     

TP53 overexpression is an independent adverse prognostic factor in de novo myelodysplastic syndromes with fibrosis

Bone marrow (BM) fibrosis is associated with poor prognosis in patients with de novo myelodysplastic syndromes (MDS). TP53 mutations and TP53 (p53) overexpression in MDS are also associated with poor patient outcomes. The prevalence and significance of TP53 mutations and TP53 overexpression in MDS with fibrosis are unknown. We studied 67 patients with de novo MDS demonstrating moderate to severe reticulin fibrosis (MDS‐F). Expression of TP53 was evaluated in BM core biopsy specimens using dual‐colour CD34/TP53 immunohistochemistry with computer‐assisted image analysis. Mutation analysis was performed using next‐generation sequencing, or Sanger sequencing methods. TP53 mutations were present in 47·1% of cases. TP53 mutation was significantly associated with TP53 expression (P = 0·0294). High levels of TP53 expression (3 +  in ≥10% cells) were associated with higher BM blast counts (P = 0·0149); alterations of chromosomes 5 (P = 0·0009) or 7 (P = 0·0141); complex karyotype (P = 0·0002); high‐ and very‐high risk IPSS‐R groups (P = 0·009); and TP53 mutations (P = 0·0003). High TP53 expression independently predicted shorter overall survival (OS) by multivariate analysis (P = <0·001). Expression of TP53 by CD34‐positive cells was associated with shorter OS and leukaemia‐free survival (P = 0·0428). TP53 overexpression is a predictor of poor outcome in patients with MDS‐F.     

Dynamic assessment of RBC‐transfusion dependency improves the prognostic value of the revised‐IPSS in MDS patients

RBC‐transfusion dependency (RBC‐TD) is an independent prognostic factor for poor overall survival (OS) in the WHO classification‐based prognostic scoring system (WPSS) for MDS patients. However, WPSS did not include cytopenia, whereas revised International Prognostic Scoring System (IPSS‐R) did not include RBC‐TD. Thus, neither of these prognostic scoring systems incorporates both cytopenia and RBC‐TD. We aimed to test whether RBC‐TD adds prognostic value to the IPSS‐R. We analyzed MDS patients not treated with disease‐modifying therapy, and enrolled in SA‐MDS Registry (derivation cohort; n = 295) and Dusseldorf registry (Germany; validation cohort; n = 113) using time‐dependent Cox proportional regression and serial landmark analyses. In the derivation cohort, RBC‐TD patients had inferior OS compared to RBC transfusion‐independent (RBC‐TI) patients (P < 0.0001) at 6‐ (18 vs. 64 months), 12‐ (24 vs. 71 months), and 24‐months (40 vs. 87 months). In a Cox proportional regression analysis, RBC‐TD was an independent adverse prognostic marker in addition to age, sex, and IPSS‐R variables (P < 0.0001). A prognostic index (PI) was derived using these Cox‐proportional regression model variables. In the validation cohort, this PI classified patients into four prognostic groups with significantly different OS (P < 0.001) as in the derivation cohort. In conclusion, multivariate analysis by Cox proportional hazards regression and serial landmark analyses clearly demonstrates that development of RBC‐TD at any time during the course of MDS is associated with poor OS, independent of IPSS‐R. This study demonstrates that dynamic assessment of RBC‐TD provides additional prognostic value to IPSS‐R and should be included in treatment decision algorithms for MDS patients.     

Bone marrow hypocellularity does not affect tolerance or efficacy of azacitidine in patients with higher‐risk myelodysplastic syndromes

The efficacy and tolerance of azacitidine in higher‐risk myelodysplasia with hypocellular bone marrow (BM) are unknown. This post hoc AZA‐001 trial analysis assessed whether baseline BM cellularity affected the overall survival (OS) advantage demonstrated with azacitidine versus conventional care regimens (CCR). Baseline BM biopsies of <30% cellularity were considered hypocellular with data evaluable from 299 patients (azacitidine n = 154, CCR n = 145); 13% (n = 39) hypocellular, 87% (n = 260) non‐hypocellular. Patient characteristics were balanced between cellularity and treatment groups. Most patients (90–100%) had 2–3 cytopenias at baseline. Median (range) azacitidine treatment cycle lengths were 35·5 (28–54) and 33·0 (15–75) d in hypocellular and non‐hypocellular groups, respectively. At 33 months, median OS was not reached (NR) [95% confidence interval (CI): 19·2, NR] in hypocellular patients receiving azacitidine versus 16·9 months (95% CI: 11·1, 19·3) with CCR (P = 0·001); and in non‐hypocellular patients, it was 21·1 months (95% CI: 16·2, 34·7) versus 15·3 months (95% CI: 9·3, 17·6) (P = 0·012). Azacitidine tolerance was similar regardless of cellularity. Grade 3–4 thrombocytopenia and neutropenia occurred similarly in hypocellular patients treated with azacitidine versus CCR (80% vs. 92% and 88% vs. 75%). Azacitidine OS results are consistent with those from AZA‐001, regardless of cellularity, and demonstrate its safety and efficacy in higher‐risk myelodysplasia with hypocellular BM.     

Overall survival in lower IPSS risk MDS by receipt of iron chelation therapy,adjusting for patient‐related factors and measuring from time of first red blood cell transfusion dependence: an MDS‐CAN analysis

Analyses suggest iron overload in red blood cell (RBC) transfusion‐dependent (TD) patients with myleodysplastic syndrome (MDS) portends inferior overall survival (OS) that is attenuated by iron chelation therapy (ICT) but may be biassed by unbalanced patient‐related factors. The Canadian MDS Registry prospectively measures frailty, comorbidity and disability. We analysed OS by receipt of ICT, adjusting for these patient‐related factors. TD International Prognostic Scoring System (IPSS) low and intermediate‐1 risk MDS, at RBC TD, were included. Predictive factors for OS were determined. A matched pair analysis considering age, revised IPSS, TD severity, time from MDS diagnosis to TD, and receipt of disease‐modifying agents was conducted. Of 239 patients, 83 received ICT; frailty, comorbidity and disability did not differ from non‐ICT patients. Median OS from TD was superior in ICT patients (5·2 vs. 2·1 years; P < 0·0001). By multivariate analysis, not receiving ICT independently predicted inferior OS, (hazard ratio for death 2·0, P = 0·03). In matched pair analysis, OS remained superior for ICT patients (P = 0·02). In this prospective, non‐randomized analysis, receiving ICT was associated with superior OS in lower IPSS risk MDS, adjusting for age, frailty, comorbidity, disability, revised IPSS, TD severity, time to TD and receiving disease‐modifying agents. This provides additional evidence that ICT may confer clinical benefit.     

Hypocellular myelodysplastic syndromes (MDS): new proposals

Summary. To determine whether hypocellular MDS differs from normo/hypercellular MDS, we attempted to identify hypocellular MDS cases either by correcting the bone marrow (BM) cellularity by age (28 patients) or by using a single arbitrary value of BM cellularity (25 patients) and compared these two groups of hypocellular cases to the normo/hypercellular MDS cases (72 patients). 18 patients were common to both hypocellular groups. Patients with hypocellular MDS in both of these selected groups have similar features with regard to age and sex distribution, peripheral blood and bone marrow parameters, FAB subtypes, karyotypes, leukaemic transformation, and survival. However, the median age of patients in < 30% BM cellularity group was higher than those patients in the age-corrected group (69 years v 62 years). The selection of < 30% cellularity excluded 10 cases in the age group < 70 years but included another seven patients in the age group of > 70 years. However, correction of BM cellularity by age revealed that those included patients (selected for < 30% cellularity) who had normocellular BM by their age. Therefore we recommend the age-correcting grouping to ensure comparable series for comparison, for response to treatment, and survival. Finally, BM cellularity does not appear to be an important factor on prognosis in MDS, because patients with hypocellular MDS in both selected groups have similar prognosis to those with normo/hypercellular MDS patients.     

N‐acetyl‐L‐cysteine improves mesenchymal stem cell function in prolonged isolated thrombocytopenia post‐allotransplant

Prolonged isolated thrombocytopenia (PT) is a serious complication of allogeneic haematopoietic stem cell transplantation (allo‐HSCT). Murine studies and in vitro experiments suggest that mesenchymal stem cells (MSCs) can, not only to support haematopoiesis, but also preferentially support megakaryocytopoiesis in bone marrow (BM). However, little is known about the quantity and function of BM MSCs in PT patients. In a case‐control study, we found that BM MSCs from PT patients exhibited significantly reduced proliferative capacities, increased reactive oxygen species and senescence. Antioxidant (N‐acetyl‐L‐cysteine, NAC) treatment in vitro not only quantitatively and functionally improved BM MSCs derived from PT patients through down‐regulation of the p38 (also termed MAPK14) and p53 (also termed TP53) pathways but also partially rescued the impaired ability of BM MSCs to support megakaryocytopoiesis. Subsequently, a pilot study showed that the overall response of NAC treatment was obtained in 7 of the enrolled PT patients (N = 10) without significant side effects. Taken together, the results indicated that dysfunctional BM MSCs played a role in the pathogenesis of PT and the impaired BM MSCs could be improved by NAC in vitro. Although requiring further validation, our data indicate that NAC might be a potential therapeutic approach for PT patients after allo‐HSCT.     

The influence of immunosuppressants on direct‐acting antiviral therapy is dependent on the hepatitis C virus genotype

Background

Direct‐acting antivirals (DAAs) have substantially increased sustained virological response rates after liver transplantation, with improved tolerance compared to interferon‐based therapy. The influence of immunosuppressive agents on the efficacy of DAAs has not been clarified.

Methods

Subgenomic hepatitis C virus (HCV) replicons for genotype (GT) 1b, 2b, 3a, and 4a were treated with the mammalian target of rapamycin (mTOR) inhibitors everolimus and sirolimus or with the calcineurin inhibitors (CNIs) cyclosporine or tacrolimus, either alone or in combination with selected DAAs. Cell proliferation‐related effects were excluded with MTT assays. HCV replication activity was quantified by quantitative real‐time polymerase chain reaction or luciferase assay.

Results

Addition of either mTOR inhibitor to the DAA daclatasvir (DAC) resulted in a 30% increase in antiviral activity compared to DAC alone for HCV GT2a, GT3a, and GT4a (all P ≤ .01). Similar results were obtained using sofosbuvir and ledipasvir. In contrast, addition of either mTOR inhibitor to DAC induced a 30% reduction in antiviral activity in GT1b cells (P ≤ .01 vs DAC alone). Neither CNI affects the antiviral activity of the DAAs in any HCV GT.

Conclusion

For patients with HCV GT2a, GT3a, or GT4a infection, mTOR‐based immunosuppressive therapy may be beneficial. CNI‐based therapy may be more efficacious in GT1b patients, as mTOR inhibitors seem to impair antiviral efficacy of DAAs in HCV GT1b infection.     

IPSS‐R in 555 Taiwanese patients with primary MDS: Integration of monosomal karyotype can better risk‐stratify the patients

The revised International Prognostic Scoring System (IPSS‐R) was recently developed to better assess the clinical outcome of adult patients with myelodysplastic syndrome (MDS). In this study, we aimed to investigate the prognostic impact of this new risk model on 555 MDS patients in Taiwan. Generally, the IPSS‐R could discriminate MDS patients regarding risk of leukemia evolution and overall survival in our cohort and it further refined prognostic stratification in all IPSS risk categories. However, we could not find the inter‐group difference between IPSS‐R very low and low risk subgroups in both leukemia‐free survival (LFS) and overall survival (OS). IPSS‐R couldn't distinguish the prognosis between very good and good and between good and intermediate risk cytogenetic categories in OS, and between very good and good and between intermediate and poor cytogenetic‐risk categories in LFS, either. On the other hand, incorporation of monosomal karyotype (MK) into IPSS‐R could further stratify MDS patients with higher‐risk IPSS‐R (intermediate, high and very high risk) into four groups, rather than three groups, with different OS (P < 0.001). Intriguingly, patients receiving allogeneic hematopoietic stem cell transplantation had longer survival than those without in the IPSS‐R high and very high, but not other risk groups. Similarly, patients treated with hypomethylating agents had better survival than those not in the IPSS‐R very high risk group. In conclusion, IPSS‐R can risk‐stratify MDS patients in Taiwan but with some limitations, especially in very low risk category, and MK has additional prognostic value in discriminating MDS patients with higher‐risk IPSS‐R. Am. J. Hematol. 89:E142–E149, 2014. © 2014 Wiley Periodicals, Inc.     

The prognostic value of monosomal karyotype (MK) in higher‐risk patients with myelodysplastic syndromes treated with 5‐Azacitidine: A retrospective analysis of the Hellenic (Greek) Myelodysplastic syndromes Study Group

In this study, we investigated the incidence and prognostic impact of monosomal karyotype (MK) in 405 higher‐risk Myelodysplastic Syndromes (MDS) patients treated with 5‐AZA. The MK was present in 66 out of 405 (16.3%) patients, most of whom had complex karyotype (CK). MK was strongly associated with CK and the cytogenetic risk defined according to IPSS‐R, as well as with high‐risk disease, according to IPSS (P = .029), IPSS‐R (P < .001), and WPSS (P < .001) classification systems. The overall response rate (ORR) was not different between MK+ and MK– patients (46.6% vs. 46.2%). At 28 months median follow‐up, the median duration of response was 11 months in the entire cohort, 9.5 months in MK+ patients and 11 months in MK‐patients (P = .024). The estimated median time to transformation to acute myeloid leukemia for MK+ patients was 17 months vs. 23 months for MK– patients (P = .025). The estimated median OS for MK+ patients was 12 months vs. 18 months for MK– patients (P < .001). Multivariate Cox regression analysis revealed that performance status (P < .001), IPSS‐R (P < .001), and MK (P = .002) were independently associated with overall survival (OS). In a subgroup consisting of high and very‐high risk patients according to IPSS‐R, MK– patients showed better OS rates compared to MK+ patients (estimated median OS: 17 months vs. 12 months, P = .002). In conclusion, we found that MK is associated with reduced OS in patients with higher‐risk MDS treated with 5‐AZA. Furthermore, we showed that in MDS with high or very‐high IPSS‐R risk score, MK can further distinguish patients with worse outcome.     

Effect of deferasirox + erythropoietin vs erythropoietin on erythroid response in Low/Int‐1‐risk MDS patients: Results of the phase II KALLISTO trial

Objectives

Erythropoiesis‐stimulating agents (ESAs) remain first‐choice to treat symptomatic anemia and delay transfusion dependence in most patients with lower‐risk myelodysplastic syndromes (MDS) without del(5q). Deferasirox increased erythroid responses in some lower‐risk MDS patients in clinical trials, and adding low‐dose deferasirox to ESA treatment may further improve erythroid response.

Methods

KALLISTO ( NCT01868477 ) was a randomized, open‐label, multicenter, phase II study. Lower‐risk MDS patients received deferasirox at 10 mg/kg/d (dispersible tablets) or 7 mg/kg/d (film‐coated tablets) plus erythropoietin (n = 11), or erythropoietin alone (n = 12) for 24 weeks. The primary endpoint was the between‐group difference in erythroid response within 12 weeks.

Results

Erythroid response occurred in 27.3% of patients receiving deferasirox plus erythropoietin vs 41.7% of patients receiving erythropoietin alone within 12 weeks (difference 14.4%; 95% CI −24.0, 48.16). Within 24 weeks, the hematologic response rate was 27.3% with deferasirox plus erythropoietin vs 50% with erythropoietin alone, and hematologic improvement rates were 45.5% vs 100%. Deferasirox plus erythropoietin was generally well tolerated.

Conclusions

In this small pilot study, combining low‐dose deferasirox with erythropoietin did not improve erythroid response. It remains of interest to investigate early chelation approaches with even lower deferasirox doses plus erythropoietin in lower‐risk MDS patients before the onset of transfusion dependence.