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Photo by Elise Amendola
Using fresh whole blood (FWB) from single donors for cardiac procedures in children younger than 2 years of age is better than using component blood from multiple donors, researchers say.
FWB reduces the risk of getting transfusion-related illnesses by reducing donor exposures.
“Currently, whole blood is not generally made available to hospitals for use in pediatric heart surgery,” said David R. Jobes, MD, of The Children’s Hospital of Philadelphia in Pennsylvania.
“Blood centers separate donated blood into component parts, which are then stored for use in medical transfusions as needed.”
At The Children’s Hospital of Philadelphia, the standard preoperative blood order for elective pediatric heart surgery with cariopulmonary bypass is 2 units of FWB and 2 units of packed red blood cells. The FWB is to be used during and immediately after surgery and the components thereafter, if necessary.
The researchers set out to examine the effectiveness of this protocol. They conducted a retrospective study of patient records over a period of 15 years from a surgical registry and blood bank, comparing the cohort of 4111 patients to published reports.
The team defined donor exposures as transfusion requirements for the day of operation and the next postoperative day. All blood products issued were presumed to have been tranfused, and all aliquots from a single donor were counted as a single donor exposure.
Patients were a median age of 94 days and weighed a median of 4.4 kg.
Most (3836) patients received FWB, and 252 received components exclusively when no FWB was available. Twenty-three patients did not receive any blood products. A median of 2 whole blood units was transfused, for a total of 2 donor exposures for the entire cohort.
The researchers found that the youngest patients having complex procedures were exposed to the highest number of donors, while older patients having simpler procedures were exposed to fewer donors.
For example, 72 patients who were a median of 5 days old and underwent truncus arteriosus repair had a median of 4 donor exposures (range, 1-14). And 136 older patients who were a median of 610 days old and underwent fontan completion had a median of 1 donor exposure (range, 0-8).
The researchers concluded that the protocol resulted in fewer donor exposures compared with component use reported in the literature.
Dr Jobes said the risk for disease transmission in pediatric patients is essentially the same as the risk for adults, but it may be more costly for pediatric patients in the long run because infants and young children may live longer with chronic illness stemming from transfusion.
He added, “We hope that our research helps to re-examine current blood storage practice and make whole blood more readily available for pediatric patients.”
He and his colleagues described this research in The Annals of Thoracic Surgery.
Photo by Elise Amendola
Using fresh whole blood (FWB) from single donors for cardiac procedures in children younger than 2 years of age is better than using component blood from multiple donors, researchers say.
FWB reduces the risk of getting transfusion-related illnesses by reducing donor exposures.
“Currently, whole blood is not generally made available to hospitals for use in pediatric heart surgery,” said David R. Jobes, MD, of The Children’s Hospital of Philadelphia in Pennsylvania.
“Blood centers separate donated blood into component parts, which are then stored for use in medical transfusions as needed.”
At The Children’s Hospital of Philadelphia, the standard preoperative blood order for elective pediatric heart surgery with cariopulmonary bypass is 2 units of FWB and 2 units of packed red blood cells. The FWB is to be used during and immediately after surgery and the components thereafter, if necessary.
The researchers set out to examine the effectiveness of this protocol. They conducted a retrospective study of patient records over a period of 15 years from a surgical registry and blood bank, comparing the cohort of 4111 patients to published reports.
The team defined donor exposures as transfusion requirements for the day of operation and the next postoperative day. All blood products issued were presumed to have been tranfused, and all aliquots from a single donor were counted as a single donor exposure.
Patients were a median age of 94 days and weighed a median of 4.4 kg.
Most (3836) patients received FWB, and 252 received components exclusively when no FWB was available. Twenty-three patients did not receive any blood products. A median of 2 whole blood units was transfused, for a total of 2 donor exposures for the entire cohort.
The researchers found that the youngest patients having complex procedures were exposed to the highest number of donors, while older patients having simpler procedures were exposed to fewer donors.
For example, 72 patients who were a median of 5 days old and underwent truncus arteriosus repair had a median of 4 donor exposures (range, 1-14). And 136 older patients who were a median of 610 days old and underwent fontan completion had a median of 1 donor exposure (range, 0-8).
The researchers concluded that the protocol resulted in fewer donor exposures compared with component use reported in the literature.
Dr Jobes said the risk for disease transmission in pediatric patients is essentially the same as the risk for adults, but it may be more costly for pediatric patients in the long run because infants and young children may live longer with chronic illness stemming from transfusion.
He added, “We hope that our research helps to re-examine current blood storage practice and make whole blood more readily available for pediatric patients.”
He and his colleagues described this research in The Annals of Thoracic Surgery.
Photo by Elise Amendola
Using fresh whole blood (FWB) from single donors for cardiac procedures in children younger than 2 years of age is better than using component blood from multiple donors, researchers say.
FWB reduces the risk of getting transfusion-related illnesses by reducing donor exposures.
“Currently, whole blood is not generally made available to hospitals for use in pediatric heart surgery,” said David R. Jobes, MD, of The Children’s Hospital of Philadelphia in Pennsylvania.
“Blood centers separate donated blood into component parts, which are then stored for use in medical transfusions as needed.”
At The Children’s Hospital of Philadelphia, the standard preoperative blood order for elective pediatric heart surgery with cariopulmonary bypass is 2 units of FWB and 2 units of packed red blood cells. The FWB is to be used during and immediately after surgery and the components thereafter, if necessary.
The researchers set out to examine the effectiveness of this protocol. They conducted a retrospective study of patient records over a period of 15 years from a surgical registry and blood bank, comparing the cohort of 4111 patients to published reports.
The team defined donor exposures as transfusion requirements for the day of operation and the next postoperative day. All blood products issued were presumed to have been tranfused, and all aliquots from a single donor were counted as a single donor exposure.
Patients were a median age of 94 days and weighed a median of 4.4 kg.
Most (3836) patients received FWB, and 252 received components exclusively when no FWB was available. Twenty-three patients did not receive any blood products. A median of 2 whole blood units was transfused, for a total of 2 donor exposures for the entire cohort.
The researchers found that the youngest patients having complex procedures were exposed to the highest number of donors, while older patients having simpler procedures were exposed to fewer donors.
For example, 72 patients who were a median of 5 days old and underwent truncus arteriosus repair had a median of 4 donor exposures (range, 1-14). And 136 older patients who were a median of 610 days old and underwent fontan completion had a median of 1 donor exposure (range, 0-8).
The researchers concluded that the protocol resulted in fewer donor exposures compared with component use reported in the literature.
Dr Jobes said the risk for disease transmission in pediatric patients is essentially the same as the risk for adults, but it may be more costly for pediatric patients in the long run because infants and young children may live longer with chronic illness stemming from transfusion.
He added, “We hope that our research helps to re-examine current blood storage practice and make whole blood more readily available for pediatric patients.”
He and his colleagues described this research in The Annals of Thoracic Surgery.