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Part 4: Myelodysplastic syndromes—Treatment of low-risk patients with the 5q deletion

PICO system

Using the PICO system, the P corresponds to patients with low-risk myelodysplastic syndrome with del(5q), I to the indication of treatments of interest, and the O to the outcome (prognosis).

Thus, 16 studies were found and selected to answer the clinical question (Appendix I Appendix A. Appendix I 1. Clinical question What treatments exist for low-risk MDS with the del(5q)? 2. Structured question (PICO) Patients with low-risk MDS and the del(5q) Intervention Lenalidomide Erythropoietin-stimulating agents (erythropoietin, darbopoetin alone or in combination with G-CSF) Thalidomide Outcome Prognosis/treatment 3. Initial eligibility criteria for studies Components of PICO No time limit No limit of languages Full text availability 4. Search strategies #1: (Myelodysplastic syndrome OR myelodysplastic syndromes OR dysmyelopoietic syndromes OR dysmyelopoietic syndrome OR hematopoietic myelodysplasia OR hematopoietic myelodysplasias) = 23 074 studies 5. Selection of articles Initially selected by the title, sequentially by the abstract, and finally by the full text, the latter being subjected to critical evaluation and extraction of outcomes related to the outcomes. 6. Critical evaluation and strength of evidence The strength of the evidence of the studies was defined taking into account the study design and the corresponding risks of bias, the results of the analysis (magnitude and precision), relevance and applicability (Oxford/GRADE).18,19 ).

Objective: The objective of these guidelines is to evaluate the treatment of low-risk myelodysplastic syndromes with the 5q deletion.

What treatments exist for low-risk myelodysplastic syndromes with the 5q deletion?

Introduction

According to the International Prognostic Score System (IPSS) and, more recently, the revised IPSS (IPSS-R), myelodysplastic syndromes (MDS) are grouped into low risk (very low, low and intermediate) and high risk (high and very high). Anemia is predominantly a result of ineffective erythropoiesis, with excessive apoptosis being the hallmark of the disease in its early stages. Cytopenias, especially anemia, are the main problem in low-risk patients and have a well-established negative impact on morbidity, mortality and quality of life11 Arber DA, Orazi A, Hasserjian R, Thiele J, Borowitz MJ, Le Beau MM, et al. The 2016 revision to the World Health Organization classification of myeloid neoplasms and acute leukemia. Blood. 2016;127(20):2391-405. (D).

Low-risk MDS with the 5q deletion

MDS associated with an isolated deletion in the long arm of chromosome 5 [del(5q)] is considered to have a good prognosis when compared to the other subgroups of MDS, with a low probability of progression to secondary AML and longer life expectancy (>30 months). MDS with isolated del(5q) is the only defined cytogenetic category recognized in the 2001 and 2008 classifications and in the 2016 revision of the World Health Organization (WHO)11 Arber DA, Orazi A, Hasserjian R, Thiele J, Borowitz MJ, Le Beau MM, et al. The 2016 revision to the World Health Organization classification of myeloid neoplasms and acute leukemia. Blood. 2016;127(20):2391-405. (D).

Data from 84 patients with low-risk MDS (according to the IPSS and IPSS-R criteria) and del(5q) with no history of transfusion dependence were analyzed retrospectively. During the study period, 61 patients (73%) became transfusion dependent on average 1.7 years after diagnosis. Several factors with a potential impact on transfusion dependence were studied using univariate analysis, but only hemoglobin level of <9 mg/dL was associated with lower transfusion-free survival (p-value = 0.008); this result was maintained when multivariate analysis was performed. Of the 61 patients with transfusion dependence, 49 received other types of treatment (19 received lenalidomide, 24 received erythropoietin and six received other therapies). The estimated survival at 2 and 5 years was 92 and 50%, respectively. Platelet count <100 × 109 L–1 and intermediate IPSS-R risk were associated with worse outcomes while patients receiving any treatment had increased survival. This benefit was most evident in patients receiving lenalidomide with the mean overall survival (OS) not being reached by the end of the study (OS: 69 months for patients receiving erythropoietin and 24 months for patients without treatment)22 Rojas SM, Díez-Campelo M, Luño E, Cabrero M, Pedro C, Calabuig M, et al. Transfusion dependence development and disease evolution in patients with MDS and del(5q) and without transfusion needs at diagnosis. Leuk Res. 2014;38(3):304-9. (B).

Erythropoiesis-stimulating agents

Several meta-analyses have evaluated the effect of erythropoiesis-stimulating agents in patients with low-risk MDS. Response rates range from 27 to 57% in patients with treatment duration >20 weeks treated at higher doses (60 000 U/week). Although the use of lenalidomide is considered the first line treatment for patients with del(5q), previous treatment with an erythropoiesis-stimulating agent is justified, mainly due to the high cost of lenalidomide and the difficulty of access to the drug33 Ross SD, Allen IE, Probst CA, Sercus B, Crean SM, Ranganathan G. Efficacy and safety of erythropoiesis-stimulating proteins in myelodysplastic syndrome: a systematic review and meta-analysis. Oncologist. 2007;12(10):1264-73.,44 Moyo V, Lefebvre P, Duh MS, Yektashenas B, Mundle S. Erythropoiesis-stimulating agents in the treatment of anemia in myelodysplastic syndromes: a meta-analysis. Ann Hematol. 2008;87(7):527-36. (A).

Thalidomide

The use of thalidomide at a dose of 50–100 mg/day for patients with MDS produced better results in younger patients with low-risk disease, a shorter evolution time and anemia as the only cytopenia. The response rate is limited to the erythroid series and ranges from 16 to 56% when intention-to-treat analysis is performed and between 31 and 88% when considering only those patients who received the drug for an appropriate period of time (at least 3 months)55 Musto P. Thalidomide therapy in adult patients with myelodysplastic syndrome: a north central cancer treatment group phase II trial. Cancer. 2007;109(6):1211-2. (A). The frequency of adverse events limits tolerability. With the arrival of thalidomide analogs with significantly higher activity and minimal toxicity, studies mainly consider the use of lenalidomide for patients with del(5q). However, the use of thalidomide for patients with del(5q) is not recognized by any of the major international guidelines: National Comprehensive Cancer Network66 NCCN (National Comprehensive Cancer Network), NCCN Clinical Practice Guidelines in Oncology: Myelodysplastic Syndromes. Version 2, 2018. Available from: https://www.nccn.org
https://www.nccn.org...
(D), the European LeukemiaNet77 Malcovati L, Hellström-Lindberg E, Bowen D, Adès L, Cermak J, DelCanizo C, et al. Diagnosis and treatment of primary myelodysplastic syndromes in adults: recommendations from the European LeukemiaNet. Blood. 2013;122(17):2943-64. (D) or the European Society for Medical Oncology88 Fenaux P, Haase D, Sanz GF, Santini V, Buske C. Myelodysplastic syndromes: ESMO Clinical Practice Guidelines for diagnosis, treatment and follow-up. Ann Oncol. 2014;25(Suppl. 3):iii57-69. (D).

Lenalidomide

Lenalidomide is a second-generation immunomodulatory agent with multiple mechanisms of action acting directly on MDS clones with reconstitution of erythropoietic immunomodulation and angiogenesis. It is more potent and has a more favorable activity/toxicity profile than thalidomide.

In the study that served as the basis for the Food and Drug Administration (FDA) approval of lenalidomide, 43 patients with MDS and symptomatic anemia were treated with lenalidomide 25 or 10 mg/day, or 10 mg/day for 21 days every 28 days. The response rate was significantly higher in patients with del(5q) (83%) when compared to patients with normal karyotypes (57%) and other chromosomal abnormalities (12%) (p-value = 0.007)99 List A, Kurtin S, Roe DJ, Buresh A, Mahadevan D, Fuchs D, et al. Efficacy of lenalidomide in myelodysplastic syndromes. N Engl J Med. 2005;352(6):549-57. (B).

One hundred and forty-eight patients with MDS associated with del(5q) were treated with 10 mg of lenalidomide for 21 days every 4 weeks and subsequently monitored for 24 weeks; hematological and cytogenetic responses were analyzed by intention to treat. One hundred and twelve patients had reduced transfusion requirements and 67% became transfusion-free. The median response time was 4.6 weeks. Of the 85 patients analyzed, 73% presented cytogenetic improvements and of these, 61% presented complete remission. Moderate to severe neutropenia and thrombocytopenia were the most common adverse events1010 List A, Dewald G, Bennett J, Giagounidis A, Raza A, Feldman E, et al. Lenalidomide in the myelodysplastic syndrome with chromosome 5q deletion. N Engl J Med. 2006;355(14):1456-65. (B).

One hundred and sixty-seven patients with transfusion-dependent MDS were evaluated using the Health-Related Quality of Life questionnaire (HRQL) with the outcomes being assessed using the Functional Assessment of Cancer Therapy-Anemia (FACT-An). At 12 weeks of treatment, the FACT-An score was significantly higher in the group receiving lenalidomide (5 or 10 mg) than in the placebo group (p-value < 0.05). The percentage of patients with improvements according to the FACT-An score at 12 weeks was higher in the group receiving lenalidomide (5 mg—43.2% and 10 mg—47.9%) than in the Placebo Group (26%; p-value = 0.06). In patients who remained in the double-blind treatment for >48 weeks, the percentages of individuals with improvements according to the FACT-An score were 48–74 and 79–91% for those who received 5 and 10 mg lenalidomide, respectively44 Moyo V, Lefebvre P, Duh MS, Yektashenas B, Mundle S. Erythropoiesis-stimulating agents in the treatment of anemia in myelodysplastic syndromes: a meta-analysis. Ann Hematol. 2008;87(7):527-36. (A).

The efficacy and safety of lenalidomide was evaluated in a randomized phase III study of 205 MDS patients with del(5q) and low to intermediate IPSS risk who were dependent on transfusions. Doses of 10 mg/day were administered on days 1–21 (n = 69) or 5 mg/day on days 1–28 (n = 69) in 28-day cycles or placebo (n = 67). After 26 weeks, the proportions of transfusion-independent patients were 56.1, 42.6 and 5.9% for the 10 mg, 5 mg and placebo groups, respectively, with statistically significant differences for the groups receiving lenalidomide. Of the 45 patients receiving lenalidomide with erythropoietin levels >500 mLU/mL, transfusion independence was significantly higher for those who received 10 mg doses compared to 5 mg doses (76.2% vs. 33.3%; p-value < 0.004). Cytogenetic response rates (complete and partial) were 50.0% (10 mg) versus 25.0% (5 mg; p-value = 0.066). The complete cytogenetic response rates were 29.4 and 15.6% for 10 and 5 mg doses, respectively (p-value = 0.29). No cytogenetic response occurred in the placebo group (p-value < 0.001 in respect to the two lenalidomide groups). At 12 weeks, there was a significant increase in the quality of life evaluated using the FACT-An score in the groups receiving lenalidomide 10 and 5 mg vs. placebo. In the groups receiving lenalidomide, transfusion independence was associated with a 42% reduction in the relative risk of progression to AML (p-value = 0.048) and a 47% reduction in relative risk of death (p-value = 0.021). The most common adverse events (Grades 3 and 4) were myelosuppression and deep venous thrombosis. Neutropenia and thrombocytopenia (Grades 3 and 4) usually occurred in the first two cycles and subsequently reduced. The incidence of adverse events was similar at both doses of lenalidomide1111 Fenaux P, Giagounidis A, Selleslag D, Beyne-Rauzy O, Mufti G, et al. A randomized phase 3 study of lenalidomide versus placebo in RBC transfusion-dependent patients with low-/intermediate-1-risk myelodysplastic syndromes with del5q. Blood. 2011;118:3765-76. (A).

A meta-analysis of 17 studies involving 2160 patients with low-risk MDS with and without del(5q) showed that lenalidomide significantly improved OS (hazard ratio: 0.62; 95% confidence interval: 0.47–0.83; p-value = 0.001) and decreased the risk of progression to acute leukemia in patients with del(5q) (relative risk: 0.61; 95% confidence interval: 0.41–0.91; p-value = 0.014). The conclusion was that despite the profile of adverse events, lenalidomide is safe and effective for this group of patients. Studies evaluating the association of lenalidomide with other drugs such as erythropoietin or azacitidine have not shown any advantage in these combined treatments1212 Lian XY, Zhang ZH, Deng ZQ, He PF, Yao DM, Xu ZJ, et al. Efficacy and safety of lenalidomide for treatment of low-/intermediate-1-risk myelodysplastic syndromes with or without 5q deletion: a systematic review and meta-analysis. PLoS ONE. 2016;11(11):e0165948. (A).

A cooperative study involving 541 patients analyzed prognostic factors for OS and risk of progression to acute leukemia in patients with MDS and del(5q). The multivariate analysis showed that the most important predictors of survival and progression were cytogenetic abnormalities (p-value = 0.001 for both), platelet count (p < 0.001 and p-value = 0.001, respectively) and percentage of blasts (p-value < 0.001 and p-value = 0.016, respectively). Two groups were defined for OS: the first group of del(5q) and del(5q) plus one cytogenetic alteration and the second group of del(5q) and two or more cytogenetic alterations; the mean OS was 58.0 and 6.8 months, respectively1313 Mallo M, Cervera J, Schanz J, Such E, García-Manero G, Luño E, et al. Impact of adjunct cytogenetic abnormalities for prognostic stratification in patients with myelodysplastic syndrome and deletion 5q. Leukemia. 2011;25(1):110-20. (B).

The somatic mutation of the TP53 gene is one of the most common changes in human cancer. In MDS, it is described mainly in high-risk groups and is associated with complex karyotypes, changes in chromosome 17 and del(5q). In two different studies, the incidence of the TP53 mutation in the low-risk group with isolated del(5q) was 19 and 18%1313 Mallo M, Cervera J, Schanz J, Such E, García-Manero G, Luño E, et al. Impact of adjunct cytogenetic abnormalities for prognostic stratification in patients with myelodysplastic syndrome and deletion 5q. Leukemia. 2011;25(1):110-20.,1414 Kulasekararaj AG, Smith AE, Mian SA, Mohamedali AM, Krishnamurthy P, Lea NC, et al. TP53 mutations in myelodysplastic syndrome are strongly correlated with aberrations of chromosome 5, and correlate with adverse prognosis. Br J Haematol. 2013;160(5):660-72. (B). This percentage rises to 72% in patients with complex karyotypes associated with -5/5q-1414 Kulasekararaj AG, Smith AE, Mian SA, Mohamedali AM, Krishnamurthy P, Lea NC, et al. TP53 mutations in myelodysplastic syndrome are strongly correlated with aberrations of chromosome 5, and correlate with adverse prognosis. Br J Haematol. 2013;160(5):660-72. (B). The presence of this mutation is associated with worse OS and progression-free survival with an important impact on decision-making1515 Jädersten M, Saft L, Smith A, Kulasekararaj A, Pomplun S, Göhring G, et al. TP53 mutations in low risk myelodysplastic syndromes with del(5q) predict disease progression. J Clin Oncol. 2011;29(15):1971-9.1717 Saft L, Karimi M, Ghaderi M, Matolcsy A, Mufti GJ, Kulasekararaj A, et al. P53 protein expression independently predicts outcome in patients with lower-risk myelodysplastic syndromes with del(5q). Haematologica. 2014;99(6):1041-9. (B). In reviewing the WHO classification22 Rojas SM, Díez-Campelo M, Luño E, Cabrero M, Pedro C, Calabuig M, et al. Transfusion dependence development and disease evolution in patients with MDS and del(5q) and without transfusion needs at diagnosis. Leuk Res. 2014;38(3):304-9. (B), an investigation of the TP53 mutation is recommended in patients with MDS and isolated del(5q) to identify the subgroup of patients with worse prognosis.

Recommendations

Lenalidomide at a dose of 10 mg daily for 21 days every 4 weeks is well tolerated, with a good safety profile (if creatinine clearance is >50 mL/min). This approach benefits independence from transfusions, cytogenetic response and quality of life in patients with low-risk/intermediate-risk MDS with del(5q) who are transfusion dependent and are not responsive to erythropoietin therapy. Erythropoiesis-stimulating agents can be used if lenalidomide is unavailable.

Appendix A. Appendix I

1. Clinical question

What treatments exist for low-risk MDS with the del(5q)?

2. Structured question (PICO)

Patients with low-risk MDS and the del(5q)

Intervention Lenalidomide

Erythropoietin-stimulating agents (erythropoietin, darbopoetin alone or in combination with G-CSF)

Thalidomide

Outcome Prognosis/treatment

3. Initial eligibility criteria for studies

  • Components of PICO

  • No time limit

  • No limit of languages

  • Full text availability

4. Search strategies

#1: (Myelodysplastic syndrome OR myelodysplastic syndromes OR dysmyelopoietic syndromes OR dysmyelopoietic syndrome OR hematopoietic myelodysplasia OR hematopoietic myelodysplasias) = 23 074 studies

5. Selection of articles

Initially selected by the title, sequentially by the abstract, and finally by the full text, the latter being subjected to critical evaluation and extraction of outcomes related to the outcomes.

6. Critical evaluation and strength of evidence

The strength of the evidence of the studies was defined taking into account the study design and the corresponding risks of bias, the results of the analysis (magnitude and precision), relevance and applicability (Oxford/GRADE).1818 Goldet G, Howick J. Understanding GRADE: an introduction. J Evid Based Med. 2013;6(1):50-4.,1919 Levels of Evidence and Grades of Recommendations, Oxford Centre for Evidence Based Medicine. Available from: http://cebm.jr2.ox.ac.uk/docs/old_levels.htm
http://cebm.jr2.ox.ac.uk/docs/old_levels...

REFERENCES

  • 1
    Arber DA, Orazi A, Hasserjian R, Thiele J, Borowitz MJ, Le Beau MM, et al. The 2016 revision to the World Health Organization classification of myeloid neoplasms and acute leukemia. Blood. 2016;127(20):2391-405.
  • 2
    Rojas SM, Díez-Campelo M, Luño E, Cabrero M, Pedro C, Calabuig M, et al. Transfusion dependence development and disease evolution in patients with MDS and del(5q) and without transfusion needs at diagnosis. Leuk Res. 2014;38(3):304-9.
  • 3
    Ross SD, Allen IE, Probst CA, Sercus B, Crean SM, Ranganathan G. Efficacy and safety of erythropoiesis-stimulating proteins in myelodysplastic syndrome: a systematic review and meta-analysis. Oncologist. 2007;12(10):1264-73.
  • 4
    Moyo V, Lefebvre P, Duh MS, Yektashenas B, Mundle S. Erythropoiesis-stimulating agents in the treatment of anemia in myelodysplastic syndromes: a meta-analysis. Ann Hematol. 2008;87(7):527-36.
  • 5
    Musto P. Thalidomide therapy in adult patients with myelodysplastic syndrome: a north central cancer treatment group phase II trial. Cancer. 2007;109(6):1211-2.
  • 6
    NCCN (National Comprehensive Cancer Network), NCCN Clinical Practice Guidelines in Oncology: Myelodysplastic Syndromes. Version 2, 2018. Available from: https://www.nccn.org
    » https://www.nccn.org
  • 7
    Malcovati L, Hellström-Lindberg E, Bowen D, Adès L, Cermak J, DelCanizo C, et al. Diagnosis and treatment of primary myelodysplastic syndromes in adults: recommendations from the European LeukemiaNet. Blood. 2013;122(17):2943-64.
  • 8
    Fenaux P, Haase D, Sanz GF, Santini V, Buske C. Myelodysplastic syndromes: ESMO Clinical Practice Guidelines for diagnosis, treatment and follow-up. Ann Oncol. 2014;25(Suppl. 3):iii57-69.
  • 9
    List A, Kurtin S, Roe DJ, Buresh A, Mahadevan D, Fuchs D, et al. Efficacy of lenalidomide in myelodysplastic syndromes. N Engl J Med. 2005;352(6):549-57.
  • 10
    List A, Dewald G, Bennett J, Giagounidis A, Raza A, Feldman E, et al. Lenalidomide in the myelodysplastic syndrome with chromosome 5q deletion. N Engl J Med. 2006;355(14):1456-65.
  • 11
    Fenaux P, Giagounidis A, Selleslag D, Beyne-Rauzy O, Mufti G, et al. A randomized phase 3 study of lenalidomide versus placebo in RBC transfusion-dependent patients with low-/intermediate-1-risk myelodysplastic syndromes with del5q. Blood. 2011;118:3765-76.
  • 12
    Lian XY, Zhang ZH, Deng ZQ, He PF, Yao DM, Xu ZJ, et al. Efficacy and safety of lenalidomide for treatment of low-/intermediate-1-risk myelodysplastic syndromes with or without 5q deletion: a systematic review and meta-analysis. PLoS ONE. 2016;11(11):e0165948.
  • 13
    Mallo M, Cervera J, Schanz J, Such E, García-Manero G, Luño E, et al. Impact of adjunct cytogenetic abnormalities for prognostic stratification in patients with myelodysplastic syndrome and deletion 5q. Leukemia. 2011;25(1):110-20.
  • 14
    Kulasekararaj AG, Smith AE, Mian SA, Mohamedali AM, Krishnamurthy P, Lea NC, et al. TP53 mutations in myelodysplastic syndrome are strongly correlated with aberrations of chromosome 5, and correlate with adverse prognosis. Br J Haematol. 2013;160(5):660-72.
  • 15
    Jädersten M, Saft L, Smith A, Kulasekararaj A, Pomplun S, Göhring G, et al. TP53 mutations in low risk myelodysplastic syndromes with del(5q) predict disease progression. J Clin Oncol. 2011;29(15):1971-9.
  • 16
    Belickova M, Vesela J, Jonasova A, Pejsova B, Votavova H, Merkerova MD, et al. TP53 mutation variant allele frequency is a potential predictor for clinical outcome of patients with lower-risk myelodysplastic syndromes. Oncotarget. 2016;7(24):36266-79.
  • 17
    Saft L, Karimi M, Ghaderi M, Matolcsy A, Mufti GJ, Kulasekararaj A, et al. P53 protein expression independently predicts outcome in patients with lower-risk myelodysplastic syndromes with del(5q). Haematologica. 2014;99(6):1041-9.
  • 18
    Goldet G, Howick J. Understanding GRADE: an introduction. J Evid Based Med. 2013;6(1):50-4.
  • 19
    Levels of Evidence and Grades of Recommendations, Oxford Centre for Evidence Based Medicine. Available from: http://cebm.jr2.ox.ac.uk/docs/old_levels.htm
    » http://cebm.jr2.ox.ac.uk/docs/old_levels.htm

Publication Dates

  • Publication in this collection
    Jul-Sep 2018

History

  • Received
    22 May 2018
  • Accepted
    22 May 2018
Associação Brasileira de Hematologia, Hemoterapia e Terapia Celular (ABHH) R. Dr. Diogo de Faria, 775 cj 133, 04037-002, São Paulo / SP - Brasil - São Paulo - SP - Brazil
E-mail: htct@abhh.org.br