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Restrictive transfusion strategy should be standard after HSCT, doc says

Blood for transfusion

Photo from UAB Hospital

SAN DIEGO—Results of the phase 3 TRIST study support the use of a restrictive red blood cell (RBC) transfusion strategy in patients undergoing hematopoietic stem cell transplant (HSCT) to treat hematologic disorders.

The study suggests a restrictive strategy—in which patients receive 2 RBC units if their hemoglobin level is below 70 g/L—is non-inferior to a liberal strategy—in which patients receive 2 units if their hemoglobin level is below 90 g/L.

Clinical outcomes and health-related quality of life (HRQOL) were similar with both strategies.

Therefore, a restrictive strategy should be considered the standard of care in patients undergoing HSCT, according to study investigator Jason Tay, MD, of the University of Calgary/Tom Baker Cancer Center in Alberta, Canada.

Dr Tay presented results of the TRIST study at the 2016 ASH Annual Meeting (abstract 1032*).

He noted that recent AABB guidelines recommend using a restrictive RBC transfusion strategy in most circumstances. However, these recommendations do not apply to patients treated for hematologic or oncologic diseases who are at risk of bleeding, as there is a lack of randomized trials in such patients.

So Dr Tay and his colleagues decided to conduct a randomized, controlled trial comparing 2 RBC transfusion strategies in patients undergoing HSCT to treat hematologic disorders.

The study enrolled 300 patients who underwent HSCT between March 28, 2011, and February 3, 2016, at 4 Canadian centers.

The patients were randomized to 1 of 2 transfusion strategies from day 0 to day 100 post-HSCT:

  • Restrictive strategy (n=149)—patients received 2 RBC units if their hemoglobin levels were below 70 g/L, to target a hemoglobin level of 70-90 g/L
  • Liberal strategy (n=150)—patients received 2 RBC units if their hemoglobin levels were below 90 g/L, to target a hemoglobin level of 90-110 g/L.

The median age was 57.47 (range, 48.94-62.66) in the restrictive group and 56.04 (range, 48.27-62.24) in the liberal group. Most patients were male—65.10% and 62.67%, respectively.

Patients had acute leukemia (25.50% and 24.00%, respectively), chronic leukemia (6.71% and 6.00%), myeloproliferative disorders (2.68% and 2.00%), lymphoma (30.87% and 33.33%), myeloma (24.16% and 28.00%), and other disorders (10.07% and 6.67%, respectively).

About half of patients in each transfusion group received an autologous HSCT (49.66% and 50.00%, respectively), and about half received an allogeneic HSCT (50.34% and 50.00%, respectively).

Transfusion use

The total number of RBC units transfused was 407 in the restrictive group and 753 in the liberal group. The median number of RBC units transfused per patient was 2 (range, 0-2) and 4 (range, 2-6), respectively. The mean number was 2.73 and 5.02, respectively (P=0.0004).

The total number of RBC transfusion episodes was 234 in the restrictive group and 407 in the liberal group. The median number per patient was 1 (range, 0-2) and 2 (range, 1-3), respectively, and the mean was 1.57 and 2.70, respectively (P=0.002).

The median storage duration of the RBC units transfused was 17 days (range, 13-23) in the restrictive group and 20 days (range, 15-25) in the liberal group. The mean was 18.46 and 19.95, respectively (P=0.0003).

The between-group difference in the overall mean pre-transfusion hemoglobin per patient over the study period was 13.71 g/L.

The median number of platelet units transfused was 2 (range, 1-3) in the

restrictive group and 3 (range, 1-4) in the liberal group. The mean was 3.84 and 3.61, respectively (P=0.6930).

The median number of platelet transfusion episodes was 2 for both groups (range, 1-3 and

1-4, respectively). The mean was 3.84 in the restrictive group and 3.61 in the liberal group (P=0.77).

 

 

Adherence

In both groups, there were cases of non-adherence to the trigger hemoglobin value.

There were 49 non-adherent patients (32.89%) in the restrictive group—35 in whom an RBC transfusion occurred above the assigned trigger and 14 in whom a transfusion did not occur when the assigned trigger was reached.

There were 83 non-adherent patients (55.3%) in the liberal group—11 in whom an RBC transfusion occurred above the assigned trigger and 72 in whom a transfusion did not occur when the assigned trigger was reached.

Sixty-nine patients (46.31%) in the restrictive group and 21 (14%) in the liberal group never received an RBC transfusion.

Outcomes

The study’s primary endpoint was HRQOL, as measured by the FACT-BMT scale.

The total FACT-BMT score at day 100 was 116.3 (range, 98-129.2) in the restrictive group and 109.2 (range, 92.1-125.2) in the liberal group (P<0.0001 for non-inferiority).

Non-inferiority in HRQOL was shown for all other time points assessed as well—day 7 (P<0.001), day 14 (P<0.0001), day 28 (P<0.0001), and day 60 (P<0.0001). Total FACT-BMT scores at all time points were higher for patients in the restrictive group than the liberal one.

The study’s secondary endpoints included clinical outcomes and FACT-Anemia scores at several time points.

There was no significant difference in clinical outcomes between the restrictive and liberal transfusion groups.

There were 2 cases of transplant-related mortality in the restrictive group and 4 in the liberal group (P=0.42). And there were 4 cases of sinusoidal obstruction syndrome in both groups (P=0.98).

The median Bearman toxicity score at day 28 was 2 in both groups (range, 1-3 and 1-4, respectively). The mean was 2.5 in the restrictive group and 2.8 in the liberal group (P=0.33).

There was no significant between-group difference in WHO bleeding score at day 14 (P=0.13), day 28 (P=0.81), or day 100 (P=0.28).

There was no significant difference between the transfusion groups in the length of hospital stay for patients who received autologous HSCT (P=0.95) or allogeneic HSCT (P=0.23) or in the number of hospital readmissions for patients who received autologous HSCT (P=0.29) or allogeneic HSCT (P=0.81).

The total FACT-Anemia score was significantly higher in the restrictive transfusion group at day 7 (P=0.03) and day 60 (P=0.03) post-HSCT.

However, there was no significant between-group difference in FACT-Anemia score at 14 days (P=0.07), 28 days (P=0.51), or 100 days (P=0.14).

Dr Tay said these results suggest a restrictive RBC transfusion strategy is non-inferior to a liberal one in patients undergoing HSCT to treat a hematologic disorder.

“Moreover, a restrictive strategy is safe and results in less blood transfusions,” he said. “We’d like to suggest that a strategy of 70 g/L can be considered the standard of care in patients undergoing a stem cell transplantation.”

*Information presented at the meeting differs from the abstract.

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Blood for transfusion

Photo from UAB Hospital

SAN DIEGO—Results of the phase 3 TRIST study support the use of a restrictive red blood cell (RBC) transfusion strategy in patients undergoing hematopoietic stem cell transplant (HSCT) to treat hematologic disorders.

The study suggests a restrictive strategy—in which patients receive 2 RBC units if their hemoglobin level is below 70 g/L—is non-inferior to a liberal strategy—in which patients receive 2 units if their hemoglobin level is below 90 g/L.

Clinical outcomes and health-related quality of life (HRQOL) were similar with both strategies.

Therefore, a restrictive strategy should be considered the standard of care in patients undergoing HSCT, according to study investigator Jason Tay, MD, of the University of Calgary/Tom Baker Cancer Center in Alberta, Canada.

Dr Tay presented results of the TRIST study at the 2016 ASH Annual Meeting (abstract 1032*).

He noted that recent AABB guidelines recommend using a restrictive RBC transfusion strategy in most circumstances. However, these recommendations do not apply to patients treated for hematologic or oncologic diseases who are at risk of bleeding, as there is a lack of randomized trials in such patients.

So Dr Tay and his colleagues decided to conduct a randomized, controlled trial comparing 2 RBC transfusion strategies in patients undergoing HSCT to treat hematologic disorders.

The study enrolled 300 patients who underwent HSCT between March 28, 2011, and February 3, 2016, at 4 Canadian centers.

The patients were randomized to 1 of 2 transfusion strategies from day 0 to day 100 post-HSCT:

  • Restrictive strategy (n=149)—patients received 2 RBC units if their hemoglobin levels were below 70 g/L, to target a hemoglobin level of 70-90 g/L
  • Liberal strategy (n=150)—patients received 2 RBC units if their hemoglobin levels were below 90 g/L, to target a hemoglobin level of 90-110 g/L.

The median age was 57.47 (range, 48.94-62.66) in the restrictive group and 56.04 (range, 48.27-62.24) in the liberal group. Most patients were male—65.10% and 62.67%, respectively.

Patients had acute leukemia (25.50% and 24.00%, respectively), chronic leukemia (6.71% and 6.00%), myeloproliferative disorders (2.68% and 2.00%), lymphoma (30.87% and 33.33%), myeloma (24.16% and 28.00%), and other disorders (10.07% and 6.67%, respectively).

About half of patients in each transfusion group received an autologous HSCT (49.66% and 50.00%, respectively), and about half received an allogeneic HSCT (50.34% and 50.00%, respectively).

Transfusion use

The total number of RBC units transfused was 407 in the restrictive group and 753 in the liberal group. The median number of RBC units transfused per patient was 2 (range, 0-2) and 4 (range, 2-6), respectively. The mean number was 2.73 and 5.02, respectively (P=0.0004).

The total number of RBC transfusion episodes was 234 in the restrictive group and 407 in the liberal group. The median number per patient was 1 (range, 0-2) and 2 (range, 1-3), respectively, and the mean was 1.57 and 2.70, respectively (P=0.002).

The median storage duration of the RBC units transfused was 17 days (range, 13-23) in the restrictive group and 20 days (range, 15-25) in the liberal group. The mean was 18.46 and 19.95, respectively (P=0.0003).

The between-group difference in the overall mean pre-transfusion hemoglobin per patient over the study period was 13.71 g/L.

The median number of platelet units transfused was 2 (range, 1-3) in the

restrictive group and 3 (range, 1-4) in the liberal group. The mean was 3.84 and 3.61, respectively (P=0.6930).

The median number of platelet transfusion episodes was 2 for both groups (range, 1-3 and

1-4, respectively). The mean was 3.84 in the restrictive group and 3.61 in the liberal group (P=0.77).

 

 

Adherence

In both groups, there were cases of non-adherence to the trigger hemoglobin value.

There were 49 non-adherent patients (32.89%) in the restrictive group—35 in whom an RBC transfusion occurred above the assigned trigger and 14 in whom a transfusion did not occur when the assigned trigger was reached.

There were 83 non-adherent patients (55.3%) in the liberal group—11 in whom an RBC transfusion occurred above the assigned trigger and 72 in whom a transfusion did not occur when the assigned trigger was reached.

Sixty-nine patients (46.31%) in the restrictive group and 21 (14%) in the liberal group never received an RBC transfusion.

Outcomes

The study’s primary endpoint was HRQOL, as measured by the FACT-BMT scale.

The total FACT-BMT score at day 100 was 116.3 (range, 98-129.2) in the restrictive group and 109.2 (range, 92.1-125.2) in the liberal group (P<0.0001 for non-inferiority).

Non-inferiority in HRQOL was shown for all other time points assessed as well—day 7 (P<0.001), day 14 (P<0.0001), day 28 (P<0.0001), and day 60 (P<0.0001). Total FACT-BMT scores at all time points were higher for patients in the restrictive group than the liberal one.

The study’s secondary endpoints included clinical outcomes and FACT-Anemia scores at several time points.

There was no significant difference in clinical outcomes between the restrictive and liberal transfusion groups.

There were 2 cases of transplant-related mortality in the restrictive group and 4 in the liberal group (P=0.42). And there were 4 cases of sinusoidal obstruction syndrome in both groups (P=0.98).

The median Bearman toxicity score at day 28 was 2 in both groups (range, 1-3 and 1-4, respectively). The mean was 2.5 in the restrictive group and 2.8 in the liberal group (P=0.33).

There was no significant between-group difference in WHO bleeding score at day 14 (P=0.13), day 28 (P=0.81), or day 100 (P=0.28).

There was no significant difference between the transfusion groups in the length of hospital stay for patients who received autologous HSCT (P=0.95) or allogeneic HSCT (P=0.23) or in the number of hospital readmissions for patients who received autologous HSCT (P=0.29) or allogeneic HSCT (P=0.81).

The total FACT-Anemia score was significantly higher in the restrictive transfusion group at day 7 (P=0.03) and day 60 (P=0.03) post-HSCT.

However, there was no significant between-group difference in FACT-Anemia score at 14 days (P=0.07), 28 days (P=0.51), or 100 days (P=0.14).

Dr Tay said these results suggest a restrictive RBC transfusion strategy is non-inferior to a liberal one in patients undergoing HSCT to treat a hematologic disorder.

“Moreover, a restrictive strategy is safe and results in less blood transfusions,” he said. “We’d like to suggest that a strategy of 70 g/L can be considered the standard of care in patients undergoing a stem cell transplantation.”

*Information presented at the meeting differs from the abstract.

Blood for transfusion

Photo from UAB Hospital

SAN DIEGO—Results of the phase 3 TRIST study support the use of a restrictive red blood cell (RBC) transfusion strategy in patients undergoing hematopoietic stem cell transplant (HSCT) to treat hematologic disorders.

The study suggests a restrictive strategy—in which patients receive 2 RBC units if their hemoglobin level is below 70 g/L—is non-inferior to a liberal strategy—in which patients receive 2 units if their hemoglobin level is below 90 g/L.

Clinical outcomes and health-related quality of life (HRQOL) were similar with both strategies.

Therefore, a restrictive strategy should be considered the standard of care in patients undergoing HSCT, according to study investigator Jason Tay, MD, of the University of Calgary/Tom Baker Cancer Center in Alberta, Canada.

Dr Tay presented results of the TRIST study at the 2016 ASH Annual Meeting (abstract 1032*).

He noted that recent AABB guidelines recommend using a restrictive RBC transfusion strategy in most circumstances. However, these recommendations do not apply to patients treated for hematologic or oncologic diseases who are at risk of bleeding, as there is a lack of randomized trials in such patients.

So Dr Tay and his colleagues decided to conduct a randomized, controlled trial comparing 2 RBC transfusion strategies in patients undergoing HSCT to treat hematologic disorders.

The study enrolled 300 patients who underwent HSCT between March 28, 2011, and February 3, 2016, at 4 Canadian centers.

The patients were randomized to 1 of 2 transfusion strategies from day 0 to day 100 post-HSCT:

  • Restrictive strategy (n=149)—patients received 2 RBC units if their hemoglobin levels were below 70 g/L, to target a hemoglobin level of 70-90 g/L
  • Liberal strategy (n=150)—patients received 2 RBC units if their hemoglobin levels were below 90 g/L, to target a hemoglobin level of 90-110 g/L.

The median age was 57.47 (range, 48.94-62.66) in the restrictive group and 56.04 (range, 48.27-62.24) in the liberal group. Most patients were male—65.10% and 62.67%, respectively.

Patients had acute leukemia (25.50% and 24.00%, respectively), chronic leukemia (6.71% and 6.00%), myeloproliferative disorders (2.68% and 2.00%), lymphoma (30.87% and 33.33%), myeloma (24.16% and 28.00%), and other disorders (10.07% and 6.67%, respectively).

About half of patients in each transfusion group received an autologous HSCT (49.66% and 50.00%, respectively), and about half received an allogeneic HSCT (50.34% and 50.00%, respectively).

Transfusion use

The total number of RBC units transfused was 407 in the restrictive group and 753 in the liberal group. The median number of RBC units transfused per patient was 2 (range, 0-2) and 4 (range, 2-6), respectively. The mean number was 2.73 and 5.02, respectively (P=0.0004).

The total number of RBC transfusion episodes was 234 in the restrictive group and 407 in the liberal group. The median number per patient was 1 (range, 0-2) and 2 (range, 1-3), respectively, and the mean was 1.57 and 2.70, respectively (P=0.002).

The median storage duration of the RBC units transfused was 17 days (range, 13-23) in the restrictive group and 20 days (range, 15-25) in the liberal group. The mean was 18.46 and 19.95, respectively (P=0.0003).

The between-group difference in the overall mean pre-transfusion hemoglobin per patient over the study period was 13.71 g/L.

The median number of platelet units transfused was 2 (range, 1-3) in the

restrictive group and 3 (range, 1-4) in the liberal group. The mean was 3.84 and 3.61, respectively (P=0.6930).

The median number of platelet transfusion episodes was 2 for both groups (range, 1-3 and

1-4, respectively). The mean was 3.84 in the restrictive group and 3.61 in the liberal group (P=0.77).

 

 

Adherence

In both groups, there were cases of non-adherence to the trigger hemoglobin value.

There were 49 non-adherent patients (32.89%) in the restrictive group—35 in whom an RBC transfusion occurred above the assigned trigger and 14 in whom a transfusion did not occur when the assigned trigger was reached.

There were 83 non-adherent patients (55.3%) in the liberal group—11 in whom an RBC transfusion occurred above the assigned trigger and 72 in whom a transfusion did not occur when the assigned trigger was reached.

Sixty-nine patients (46.31%) in the restrictive group and 21 (14%) in the liberal group never received an RBC transfusion.

Outcomes

The study’s primary endpoint was HRQOL, as measured by the FACT-BMT scale.

The total FACT-BMT score at day 100 was 116.3 (range, 98-129.2) in the restrictive group and 109.2 (range, 92.1-125.2) in the liberal group (P<0.0001 for non-inferiority).

Non-inferiority in HRQOL was shown for all other time points assessed as well—day 7 (P<0.001), day 14 (P<0.0001), day 28 (P<0.0001), and day 60 (P<0.0001). Total FACT-BMT scores at all time points were higher for patients in the restrictive group than the liberal one.

The study’s secondary endpoints included clinical outcomes and FACT-Anemia scores at several time points.

There was no significant difference in clinical outcomes between the restrictive and liberal transfusion groups.

There were 2 cases of transplant-related mortality in the restrictive group and 4 in the liberal group (P=0.42). And there were 4 cases of sinusoidal obstruction syndrome in both groups (P=0.98).

The median Bearman toxicity score at day 28 was 2 in both groups (range, 1-3 and 1-4, respectively). The mean was 2.5 in the restrictive group and 2.8 in the liberal group (P=0.33).

There was no significant between-group difference in WHO bleeding score at day 14 (P=0.13), day 28 (P=0.81), or day 100 (P=0.28).

There was no significant difference between the transfusion groups in the length of hospital stay for patients who received autologous HSCT (P=0.95) or allogeneic HSCT (P=0.23) or in the number of hospital readmissions for patients who received autologous HSCT (P=0.29) or allogeneic HSCT (P=0.81).

The total FACT-Anemia score was significantly higher in the restrictive transfusion group at day 7 (P=0.03) and day 60 (P=0.03) post-HSCT.

However, there was no significant between-group difference in FACT-Anemia score at 14 days (P=0.07), 28 days (P=0.51), or 100 days (P=0.14).

Dr Tay said these results suggest a restrictive RBC transfusion strategy is non-inferior to a liberal one in patients undergoing HSCT to treat a hematologic disorder.

“Moreover, a restrictive strategy is safe and results in less blood transfusions,” he said. “We’d like to suggest that a strategy of 70 g/L can be considered the standard of care in patients undergoing a stem cell transplantation.”

*Information presented at the meeting differs from the abstract.

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