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Photo courtesy of UAB Hospital
Even a short delay in the administration of packed red blood cells (pRBCs) can increase the risk of death for some traumatically injured patients, according to research published in the Journal of Trauma and Acute Care Surgery.
The study showed that a delay of 10 minutes was associated with a higher risk of death among patients who required pRBCs early.
However, a 10-minute delay did not increase the risk of death for the entire study cohort.
For this study, researchers tracked trauma patients taken from the scene of their injury to the University of Cincinnati Medical Center by a helicopter service known as Air Care. The service carries 2 units of pRBCs for protocol-driven prehospital transfusion.
“Air Care is the only helicopter in the area to carry blood (and plasma), so we had the research platform to study how early blood transfusions impact outcomes,” said study author Elizabeth Powell, MD, of the University of Cincinnati Medical Center in Ohio.
Dr Powell and her colleagues studied 94 patients who had received at least 1 unit of pRBCs within 24 hours of arriving at the hospital. Ninety-three percent of patients (n=87) were Caucasian, 70% (n=66) were male, and they had a mean age of 43.
Ninety-four percent of patients (n=88) had sustained blunt force injuries, and 33% (n=31) died within 30 days of hospital arrival.
Thirty-three percent of patients (n=31) received a transfusion during transport, 54% (n=51) were transfused within an hour of hospital arrival, and 13% (n=12) were transfused after the first hour but within 24 hours of hospital arrival.
When considering all 94 patients together, the researchers found that a 10-minute increase in time to pRBC administration did not significantly affect the odds of death, even when adjusting for injury severity. The odds ratio was 1.00 (P=0.575).
However, among the 82 patients who received their first pRBC transfusion during transport or within an hour of hospital arrival, each 10 minute increase in time to transfusion increased the odds of death. When the researchers controlled for Trauma Injury Severity Score, the odds ratio was 1.27 (P=0.044).
“Delays in the time to blood transfusion are associated with increased chances of dying,” Dr Powell said. “Shortening the time to transfusion, including having blood available in the prehospital setting, may improve outcomes.”
Photo courtesy of UAB Hospital
Even a short delay in the administration of packed red blood cells (pRBCs) can increase the risk of death for some traumatically injured patients, according to research published in the Journal of Trauma and Acute Care Surgery.
The study showed that a delay of 10 minutes was associated with a higher risk of death among patients who required pRBCs early.
However, a 10-minute delay did not increase the risk of death for the entire study cohort.
For this study, researchers tracked trauma patients taken from the scene of their injury to the University of Cincinnati Medical Center by a helicopter service known as Air Care. The service carries 2 units of pRBCs for protocol-driven prehospital transfusion.
“Air Care is the only helicopter in the area to carry blood (and plasma), so we had the research platform to study how early blood transfusions impact outcomes,” said study author Elizabeth Powell, MD, of the University of Cincinnati Medical Center in Ohio.
Dr Powell and her colleagues studied 94 patients who had received at least 1 unit of pRBCs within 24 hours of arriving at the hospital. Ninety-three percent of patients (n=87) were Caucasian, 70% (n=66) were male, and they had a mean age of 43.
Ninety-four percent of patients (n=88) had sustained blunt force injuries, and 33% (n=31) died within 30 days of hospital arrival.
Thirty-three percent of patients (n=31) received a transfusion during transport, 54% (n=51) were transfused within an hour of hospital arrival, and 13% (n=12) were transfused after the first hour but within 24 hours of hospital arrival.
When considering all 94 patients together, the researchers found that a 10-minute increase in time to pRBC administration did not significantly affect the odds of death, even when adjusting for injury severity. The odds ratio was 1.00 (P=0.575).
However, among the 82 patients who received their first pRBC transfusion during transport or within an hour of hospital arrival, each 10 minute increase in time to transfusion increased the odds of death. When the researchers controlled for Trauma Injury Severity Score, the odds ratio was 1.27 (P=0.044).
“Delays in the time to blood transfusion are associated with increased chances of dying,” Dr Powell said. “Shortening the time to transfusion, including having blood available in the prehospital setting, may improve outcomes.”
Photo courtesy of UAB Hospital
Even a short delay in the administration of packed red blood cells (pRBCs) can increase the risk of death for some traumatically injured patients, according to research published in the Journal of Trauma and Acute Care Surgery.
The study showed that a delay of 10 minutes was associated with a higher risk of death among patients who required pRBCs early.
However, a 10-minute delay did not increase the risk of death for the entire study cohort.
For this study, researchers tracked trauma patients taken from the scene of their injury to the University of Cincinnati Medical Center by a helicopter service known as Air Care. The service carries 2 units of pRBCs for protocol-driven prehospital transfusion.
“Air Care is the only helicopter in the area to carry blood (and plasma), so we had the research platform to study how early blood transfusions impact outcomes,” said study author Elizabeth Powell, MD, of the University of Cincinnati Medical Center in Ohio.
Dr Powell and her colleagues studied 94 patients who had received at least 1 unit of pRBCs within 24 hours of arriving at the hospital. Ninety-three percent of patients (n=87) were Caucasian, 70% (n=66) were male, and they had a mean age of 43.
Ninety-four percent of patients (n=88) had sustained blunt force injuries, and 33% (n=31) died within 30 days of hospital arrival.
Thirty-three percent of patients (n=31) received a transfusion during transport, 54% (n=51) were transfused within an hour of hospital arrival, and 13% (n=12) were transfused after the first hour but within 24 hours of hospital arrival.
When considering all 94 patients together, the researchers found that a 10-minute increase in time to pRBC administration did not significantly affect the odds of death, even when adjusting for injury severity. The odds ratio was 1.00 (P=0.575).
However, among the 82 patients who received their first pRBC transfusion during transport or within an hour of hospital arrival, each 10 minute increase in time to transfusion increased the odds of death. When the researchers controlled for Trauma Injury Severity Score, the odds ratio was 1.27 (P=0.044).
“Delays in the time to blood transfusion are associated with increased chances of dying,” Dr Powell said. “Shortening the time to transfusion, including having blood available in the prehospital setting, may improve outcomes.”