EnhanceRBC: Red Blood Cell Transfusion Thresholds and QOL in MDS

Study Description

Brief Summary

Myelodysplastic syndromes (MDS) are bone marrow malignancies characterized by poor bone marrow function that may progress to acute myeloid leukemia. Many patients become red blood cell transfusion-dependent. Transfusion dependence is associated with inferior quality of life (QOL). However, the relationship between the degree of anemia and QOL is less clear. A commonly used transfusion strategy is to target the hemoglobin (Hb) in the range of 80-90 g/L (normal hemoglobin > 120-130g/L). The question is: would a higher hemoglobin target lead to improvement in QOL despite the negative impact transfusion dependence may have on QOL (due to associated time commitments, expense, transfusion reactions etc). Several groups have prospectively shown that targeting hemoglobin levels of greater than 120 g/L (with hematopoietic growth factors (HGFs) and/or blood transfusions) or incremental increases of 15-20 g/L (with HGFs alone) were associated with improved QOL. The investigators MDS program has been conducting prospective assessments of QOL since 2007 in all registered and consented patients using a variety of validated questionnaires. Preliminary analysis (in 236 patients) revealed that, compared with an age-matched healthy general population, MDS patients have inferior QOL. Transfusion dependence and anemia were independently predictive of poor functioning, fatigue and decreased health utility. Furthermore, a hemoglobin level of ≥100 g/L seemed to be the key threshold for improvement in function and symptom scores. The investigators hypothesize that the target hemoglobins in transfusion dependent MDS patients are too low and this may account for their inferior quality of life. Our goal is to compare the effect on QOL of a restrictive strategy (which is the current standard of care), with a liberal transfusion strategy in a large randomized controlled trial of transfusion dependent MDS outpatients. Before embarking on such an endeavor, the investigators must first prove feasibility in a smaller pilot randomized controlled trial.

Detailed Description

Myelodysplastic syndromes (MDS) are bone marrow malignancies characterized by poor bone marrow function that may progress to acute myeloid leukemia. Many patients become red blood cell transfusion-dependent. Transfusion dependence is associated with inferior quality of life (QOL). However, the relationship between the degree of anemia and QOL is less clear. A commonly used transfusion strategy is to target the hemoglobin (Hb) in the range of 80-90 g/L (normal hemoglobin > 120-130g/L). The question is: would a higher hemoglobin target lead to improvement in QOL despite the negative impact transfusion dependence may have on QOL (due to associated time commitments, expense, transfusion reactions etc). Several groups have prospectively shown that targeting hemoglobin levels of greater than 120 g/L (with hematopoietic growth factors (HGFs) and/or blood transfusions) or incremental increases of 15-20 g/L (with HGFs alone) were associated with improved QOL. The investigators MDS program has been conducting prospective assessments of QOL since 2007 in all registered and consented patients using a variety of validated questionnaires. Preliminary analysis (in 236 patients) revealed that, compared with an age-matched healthy general population, MDS patients have inferior QOL. Transfusion dependence and anemia were independently predictive of poor functioning, fatigue and decreased health utility. Furthermore, a hemoglobin level of ≥100 g/L seemed to be the key threshold for improvement in function and symptom scores. The investigators hypothesize that the target hemoglobins in transfusion dependent MDS patients are too low and this may account for their inferior quality of life. Our goal is to compare the effect on QOL of a restrictive strategy (which is the current standard of care), with a liberal transfusion strategy in a large randomized controlled trial of transfusion dependent MDS outpatients. Before embarking on such an endeavor, the investigators must first prove feasibility in a smaller pilot randomized controlled trial.

Study Design

Outcome Measures

Primary Outcome Measures

1. Percentage compliance of q2weekly hemoglobins [3 months]

   The percentage compliance of q2weekly hemoglobins being within or above the target range of the RBC transfusion threshold assigned (after the 4 week run-in at study start as defined above). We will consider this study feasible and worthy of future development into a larger randomized trial (powered for QOL difference) if compliance is ≥70%. A compliance rate of 50-70%, would not exclude going forward with such an RCT but only after careful discussion and statistical planning

Secondary Outcome Measures

1. Measures of feasibility [3 months]

   Number of patients ineligible due to screen failure Enrolment rates defined by the number of enrolled patients/month Percentage compliance with QOL questionnaire completion at least 3 serial times Other logistical issues related to protocol implementation, recruitment rates, randomization implementation strategy, data collection, patient tolerability of study schedule

2. Quality of life [3 months]

   • The magnitude of change in physical functioning, fatigue, dyspnea and global health scores on the EORTC QLQ-C30, calculated health utility on the EQ-5D and fatigue score on FACT-F comparing the 2 RBC transfusion thresholds above.

3. Adverse events [3 months]

   The rate of transfusion reactions (as defined by TTISS (Transfusion Transmitted Injuries Surveillance System by Public Health Agency of Canada)) Rate of adverse events such as cardiac events and thromboembolic events as per NCI CTCAE version 4.0 criteria

4. Alloimmunization rates [3 months]

   Rate of alloimmunization to significant blood group antigens

5. Hemosiderosis [3 months]

   • The impact on transfusion associated hemosiderosis rates and burdens (as measured by changes in ferritin levels and iron chelating medications)

6. Overall utilization of blood [3 months]

   How many units of blood are required to maintain the hemoglobin threshold chosen

7. Time commitment [3 months]

   • The overall time commitment per group, measured as the time spent in transfusion medicine clinic

Eligibility Criteria

Criteria

Inclusion Criteria:

• All patients with MDS ≥18 years of age

• Transfusion dependent: at least 1 transfusion per month in the last 8 weeks

• Hb <100g/L pre transfusion

• Life expectancy > 6 months

Exclusion Criteria:

• Unstable cardiac disease (Canadian Cardiovascular Society (CCS) III/IV angina or New York Heart Association (NYHA) III/IV congestive heart failure) requiring the transfusion target range to remain >85-100 g/L at all times

• ECOG ≥3

• Patients with red cell antibodies against high frequency antigens or multiple antibodies (would potentially delay finding blood)

• Patients on ESA's or disease modifying agents (like azacitidine) for their MDS

Contacts and Locations

Locations

Sponsors and Collaborators

• Sunnybrook Health Sciences Centre
• Princess Margaret Hospital, Canada
• Juravinski Cancer Center

Investigators

• Principal Investigator: Rena Buckstein, MD, Sunnybrook Health Sciences Centre/Odette Cancer Centre

Study Documents (Full-Text)

More Information

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