Factors associated with transfusion requirements during treatment for acute myelogenous leukemia

Influence of blood transfusion during induction chemotherapy on treatment outcomes in acute myeloid leukemia

BACKGROUND

Transfusion is an integral part of supportive care in patients undergoing aggressive chemotherapy for acute myeloid leukemia (AML). As transfusion induces immune modulation, the objective of the study was to assess whether the intensity of red blood cell (RBC) and platelet (PLT) transfusion during induction chemotherapy influences complete remission (CR) and overall survival (OS) in newly diagnosed AML patients.

METHODS

Details of the number of RBC units and PLT events transfused from diagnosis till completion of induction chemotherapy were collected. Patients were stratified as high or low intensity for transfusion based on median RBC units and PLT events transfused per week. The influence of transfusion intensity on CR and OS was estimated using multivariate analysis and log-rank test, respectively.

RESULTS

Among 90 patients analyzed, the median RBC unit required was 1.7 units/week and PLT transfused was 1.5 events/week. Patients requiring transfusion at disease presentation had significantly higher intensity of RBC and PLT transfusions. Only high intensity for RBC transfusion (P = 0.016) appeared among prognostic factors for achieving CR. The OS was not affected in patients requiring high intensity of RBC (P = 0.314) and PLT (P = 0.504) transfusions.

CONCLUSION

Transfusion support was higher in patients with a high disease burden at diagnosis. The lower intensity of RBC transfusion goes along with the response to chemotherapy in terms of CR but not OS.

Defining Current Patterns of Blood Product Use during Intensive Induction Chemotherapy in Newly Diagnosed Acute Myeloid Leukemia Patients

Introduction

Blood product transfusion retains a critical role in the supportive care of patients with acute myeloid leukemia (AML). Whereas previous studies have shown increased transfusion dependency to portend inferior outcome, predictive factors of an increased transfusion burden and the prognostic impact of transfusion support have not been assessed recently.

Methods/Patients

We performed a retrospective analysis on a recent cohort of patients given intensive induction chemotherapy in 2014-2022.

Results

The analysis comprised 180 patients with a median age of 57 years with 80% designated as de novo AML. Fifty-four patients (31%) were FLT3-ITD mutated, and 73 patients (42%) harbored NPM1. Favorable risk and intermediate risk ELN 2017 patients accounted for 43% and 34% of patients, respectively. The median number of red blood cell (RBC) and platelet units given during induction were 9 and 7 units, respectively. Seventeen patients (9%) received cryoprecipitate, and fresh frozen plasma (FFP) was given to 12 patients (7%). Lower initial hemoglobin and platelet levels were predictive of increased use of RBC (p < 0.0001) and platelet transfusions (p < 0.0001). FFP was significantly associated with induction related mortality (42% vs. 5%; p < 0.0001) and with FLT3-ITD (72% vs. 28%; p = 0.004). Blood group AB experienced improved mean overall survival compared to blood group O patients (4.1 years vs. 2.8 years; p = 0.025). In multivariate analysis, increased number of FFP (hazard ratio [HR], 4.23; 95% confidence interval [CI], 2.1-8.6; p < 0.001) and RBC units (HR, 1.8; 95% CI, 1.2-2.8; p = 0.008) given was associated with inferior survival.

Conclusion

Transfusion needs during induction crucially impact the clinical trajectory of AML patients.

Iron overload during the treatment of acute leukemia: pretransplant transfusion experience

BACKGROUND

Recent studies have shown the increased risk of mortality in cases with acute leukemia and iron overload. We aimed to determine the status of iron overload in patients with acute leukemia.

MATERIALS & METHODS

Patients diagnosed with acute lymphoblastic leukemia (ALL) and acute myeloid leukemia (AML) between January 2015 and December 2019 were included in the study.

RESULTS

At 6 months, there were statistically more patients with serum ferritin >1000 in the AML group compared to the ALL group (p = 0,011).

CONCLUSION

Iron overload occurs earlier in patients with AML; the difference disappears after 6 months of treatment. It is the correct point to emphasize that iron overload is an important factor of pretransplant morbidity, especially in AML cases.

How to Use a Prioritised Approach for Treating Hematological Disorders During the COVID-19 Pandemic in India?

The current pandemic coronavirus, SARS-CoV-2, is known to cause severe infection (COVID-19) in patients with comorbidities, particularly cancer or an immunosuppressed state. Most healthcare systems in the country are likely to be overwhelmed soon if the pandemic moves to a stage of community transmission. Currently, limited evidence is available for managing patients with hematological disorders during the COVID-19 pandemic. The current review summarises the possible challenges clinicians are likely to face, key considerations to guide decision making, and possible solutions to the anticipated challenges. Disease specific recommendations and possible guidance for decision making have been suggested for most hematologic diseases that are feasible in our health setup. It is not meant to replace individual clinical judgment, but to provide a template to formulate local policies.

Differences among hemoglobin thresholds for red blood cell transfusions in patients with hematological diseases in teaching hospitals: a real world data in Japan

A hemoglobin (Hb) threshold level of 7 g/dL has been proposed for red blood cell (RBC) transfusion in patients with chronic anemia in the Japanese guideline since 2005. However, Hb thresholds for hematological diseases in clinical practice and factors responsible for higher Hb thresholds remain unclear. Hb thresholds were collected for patients with hematological diseases from 32 Japanese teaching hospitals. Uni- and multivariate analyses were used to analyze relationships between Hb threshold level and various patient and hospital factors. In total, 4996 units of RBC were transfused to 1054 patients with hematological diseases in 2421 transfusions. Median age was 68 years. Myelodysplastic syndrome was the most frequent diagnosis. Overall median Hb threshold level was 6.9 g/dL. Multivariate linear regression analysis detected the following variables associated with Hb threshold level: hospital; cardiovascular disease; symptomatic anemia; and hematopoietic stem cell transplantation. Hospital was the most significant factor. Collectively, median Hb threshold level in clinical practice in Japan was similar to the guidelines. Higher Hb threshold level depended on the hospitals at which the transfusions were performed as well as patient condition. Educational approaches directed toward hospitals may be useful to promote transfusion guidelines.

Significant reduction of red blood cell transfusion requirements by changing from a double-unit to a single-unit transfusion policy in patients receiving intensive chemotherapy or stem cell transplantation

BACKGROUND

Traditionally, single-unit red blood cell transfusions were believed to be insufficient to treat anemia, but recent data suggest that they may lead to a safe reduction of transfusion requirements. We tested this hypothesis by changing from a double- to a single-unit red blood cell transfusion policy.

DESIGN AND METHODS

We performed a retrospective cohort study in patients with hematologic malignancies receiving intensive chemotherapy or hematopoietic stem cell transplantation. The major end-points were the reduction in the total number of red blood cell units per therapy cycle and per day of aplasia. The study comprised 139 patients who received 272 therapy cycles. Overall 2212 red blood cell units were administered in 1548 transfusions.

RESULTS

During the periods of the double- and single-unit policies, one red blood cell unit was transfused in 25% and 84% of the cases and the median number of red blood cell units per transfusion was two and one, respectively. Single-unit transfusion led to a 25% reduction of red blood cell usage per therapy cycle and 24% per aplasia day, but was not associated with a higher out-patient transfusion frequency. In multivariate analysis, single-unit transfusion resulted in a reduction of 2.7 red blood cell units per treatment cycle (P = 0.001). The pre-transfusion hemoglobin levels were lower during the single-unit period (median 61 g/L versus 64 g/L) and more transfusions were administered to patients with hemoglobin values of 60 gl/L or less (47% versus 26%). There was no evidence of more severe bleeding or more platelet transfusions during the single-unit period and the overall survival was similar in both cohorts.

CONCLUSIONS

Implementing a single-unit transfusion policy saves 25% of red blood cell units and, thereby, reduces the risks associated with allogeneic blood transfusions.

Iron overload following red blood cell transfusion and its impact on disease severity

Transfusion of red blood cells can be a life-saving therapy both for patients with chronic anemias and for those who are critically ill with acute blood loss. However, transfusion has been associated with significant morbidity. Chronic transfusion results in accumulation of excess iron that surpasses the binding capacity of the major iron transport protein, transferrin. The resulting non-transferrin bound iron (NTBI) can catalyze the production of highly reactive oxygen species (ROS) leading to significant and wide spread injury to the liver, heart, and endocrine organs as well as increases in infection. Acute transfusion of red blood cells in critically ill patients likewise has significant effects including increased mortality, prolonged hospital stays, and elevated risk of nosocomial infection. These effects appear to be more profound with increasing age of stored blood. The progressive release of free iron associated with storage time suggests that morbidity following acute transfusion, like that seen in chronic transfusion, may be due in part to elevated levels of NTBI. It is clear that transfusion is necessary in many instances; however, its risks and benefits must be carefully balanced before proceeding to avoid unnecessary iron toxicity.

Treating childhood acute myeloid leukaemia with the AML-BFM-83 protocol: experience in a developing country

Treatment for childhood acute myeloid leukaemia (AML) consists of remission induction chemotherapy followed by postremission chemotherapy with or without bone marrow transplantation. The AML Berlin-Frankfurt-Munster (BFM)-83 protocol with induction-consolidation-maintenance chemotherapy for 2 years has been reported to result in a 6-year event-free survival (EFS) and event-free interval (EFI) of 49% and 61% respectively. A total of 174 Malaysian children were treated with this protocol between 1985 and 1999. The 5-year EFS and EFI was 30.7% and 48.0% respectively. The overall mortality from sepsis was 24%, which needs urgent address. The 5-year EFS for patients treated before 1993 and after 1993 was 18.6% and 41.3%, respectively (P = 0.04), while the EFI was 32% and 60.6% respectively (P = 0.034). The improvement seen after 1993 was related to a reduction in induction deaths for that period and probably reflected increased capability and familiarity to cope with the demands of the AML-BFM-83 protocol and accompanying complications in the treatment of AML.

Feasibility of a restrictive red-cell transfusion policy for patients treated with intensive chemotherapy for acute myeloid leukaemia

Red-cell transfusions are required for symptomatic treatment of severe anaemia caused by intensive chemotherapy. Concerns about the transfusion-related complications, such as infections (e.g. the very low risk of human immunodeficiency virus (HIV)/hepatitis C virus (HCV) transmission and the risk of postoperative infections), haemolytic transfusion reaction, immunological effects and the costs, prompt a reevaluation of the transfusion practice. Retrospective analysis of prospectively collected data on 84 patients with acute myeloid leukaemia (AML), who were treated with combination chemotherapy between June 1, 1997 and December 7, 2001, was performed. The use of red-cell transfusions with a restrictive transfusion policy (haemoglobin = 7.2-8.8 g dL(-1), dependent on age and symptoms, n = 38) was compared with a more liberal transfusion trigger (haemoglobin = 9.6 g dL(-1), n = 46). The number of units transfused was recorded. Signs and symptoms of anaemia, chemotherapy-related effects and complications were investigated for both transfusion policies. The more restrictive transfusion policy led to a significant decrease of 11% of red blood cell (RBC) transfusions in patients with AML. No significant differences were found in the incidence of infections, number of platelet units transfused, bleeding complications, cardiac symptoms or response to chemotherapy. The more restrictive transfusion policy was feasible in this clinical setting, and it might be concluded that a restrictive transfusion policy is safe in supporting clinical patients treated with intensive chemotherapy for AML.

Outpatient supportive care following chemotherapy for acute myeloblastic leukemia

Treatment of acute myeloid leukemia (AML) involves aggressive myelosuppressive chemotherapy that is generally administered on an inpatient basis. In our centre, AML therapy has been initiated in hospital and followed by early outpatient supportive care according to guidelines established in 1996. We conducted a review of all patients presenting with AML in our centre between January 1996 and July 1998 to evaluate the safety and feasibility of early outpatient supportive care. Nineteen consecutive patients treated with induction chemotherapy were analyzed. Patients were treated with cytosine arabinoside and an anthracycline as aggressive AML induction therapy with the intent for early discharge. Ten patients (53%) were discharged within 10 days of starting induction chemotherapy (median 4.5 days). Reasons for remaining in hospital included sepsis, serious medical complications, and social and geographic factors. Patients discharged early had a median of 1.5 readmissions (range 0-3), but had 30% fewer in-hospital days than inpatients (p = 0.03), and 57% fewer days of in-hospital antibiotic therapy (p = 0.01). There were no significant differences in transfusion requirements or episodes of febrile neutropenia between the two groups. Thirty-one cycles of consolidation therapy were administered to the 18 patients who survived induction. Early discharge from hospital was achieved for 30 cycles (97%). Nine cycles of consolidation chemotherapy were delivered using outpatient intravenous infusion pumps (29%). This study supports the feasibility and safety of early discharge and outpatient supportive care following chemotherapy for AML.

Secondary hemochromatosis as a long-term complication of the treatment of hematologic malignancies

The increased cure rate of hematologic malignancies including the use of bone marrow transplantation has focused attention on the chronic toxicity and quality of life of the survivors. We have observed five patients who have been diagnosed with clinically significant iron overload, presumably due to packed red blood cell transfusions, >/=12 months after transplant for a hematologic malignancy. In these patients, there is no history of veno-occlusive disease or family history of hemochromatosis. The allotransplant patient has been free of chronic graft versus host disease. Family screening has been negative. No patient developed clinically significant endocrinopathy, arthropathy, or cardiac disease. The patients have been treated with phlebotomy to bring the transferrin saturation and ferritin levels to normal. The long-term follow-up of patients treated for a hematologic malignancy should include analysis of hepatitis C virus and iron status. This may prevent the development of clinically significant chronic liver disease and possibly malignancy.

Selective discharge of patients with acute myeloid leukemia during chemotherapy-induced neutropenia

PURPOSE

It is common practice for patients with acute myeloid leukemia (AML) to be observed in hospital during the entire nadir after intensive chemotherapy. In an attempt to lessen the likelihood of developing infections with hospital acquired pathogens, we usually discharge patients upon completion of chemotherapy and follow them as outpatients. They are readmitted if fever develops. We evaluated the feasibility and safety of this practice.

PATIENTS AND METHODS

We studied 29 patients with AML (median age 40 years, range 16-63) who were treated with intensive remission-induction and consolidation chemotherapy. Afebrile patients not receiving antibiotics were discharged immediately following chemotherapy and were followed every 3-4 days at the day care unit. Patients were instructed to return immediately if fever rose to 38.2 degrees C or a fever of 38 degrees C persisted for 2 hr. The 29 patients received a total of 86 courses. Following 50 courses, patients were discharged. These 50 ambulatory nadir periods (ANPs) were monitored.

RESULTS

Median WBC and platelet counts on discharge were 2,900 per cubic millimeter (range 300-8,300) and 137,000 per cubic millimeter (range 17,000-618,000), respectively. Mean traveling time from the hospital by car was 1.6 hr (range 15 min-3 hr). In three of the 50 ANPs (6%), patients were not readmitted during their entire nadir. During 47 of the ANPs, patients returned to the hospital (because of fever in 44 cases), a mean of 7.2 days (range 1.0-12.7 days) after discharge. In 45 ANPs, patients were readmitted in good general condition. Four patients had life-threatening complications. Two patients were admitted in septic shock due to delay in seeking admission, but rapidly recovered. Two other patients died, one of cardiogenic shock within 24 hr of readmission and one 24 days later. Only one of the 11 gram negative bacteria cultured was resistant to mezlocillin and gentamicin. After 45 ANPs, patients were discharged a mean of 12.2 days (range 5-42 days) following readmission. We estimate that approximately 383 hospital days were saved by this policy, a mean of 7.6 days per patient, representing 16% of total inpatient hospital days.

CONCLUSIONS

For AML patients who are reliable and without complicating medical conditions, selected discharge following chemotherapy is a low-risk practice and may reduce the incidence of infection with resistant hospital-acquired pathogens.