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Chapter 20 - Transfusion Practices
- from Section VII - Neonatal Transfusion Medicine
- Edited by Pedro A. de Alarcón, Eric J. Werner, Robert D. Christensen, University of Utah, Martha C. Sola-Visner, Harvard University, Massachusetts
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- Book:
- Neonatal Hematology
- Published online:
- 30 January 2021
- Print publication:
- 18 February 2021, pp 329-366
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Summary
Neonatal transfusion therapy requires an understanding of the dynamic interactions of the fetomaternal unit, the physiologic changes that accompany the transition from fetus to neonate to infant, and the underlying pathophysiology of different hematologic disorders. Guidelines for neonatal transfusions remain controversial, since most have been extrapolated from evidence in adults or based on small studies in neonates with marginal statistical validity. Compared to older children and adults, neonates have small total blood volumes but high blood volume per body weight. Because of the limited capacity to expand their blood volume to compensate for their rapid growth, many sick and/or premature infants require significant blood component support, especially within the first weeks of life. Immaturity of many organ systems predisposes them to metabolic derangements from blood products and their additive solutions, and to the infectious and immunomodulatory hazards of transfusion, such as transfusion-acquired CMV (TA-CMV) infection and transfusion-associated graft versus host disease (TA-GVHD). Therefore, component modifications are often required to compensate for the infant’s small blood volume, immunologic immaturity, and/or compromised organ function, and constitute the uniqueness of neonatal transfusion therapy.
18 - Transfusion practices
- from Section VII - Transfusional medicine
- Edited by Pedro de Alarcón, Eric Werner, Robert D. Christensen
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- Book:
- Neonatal Hematology
- Published online:
- 05 February 2013
- Print publication:
- 10 January 2013, pp 303-327
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- Chapter
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Summary
Neonatal transfusion therapy requires an understanding of the dynamic interactions of the fetomaternal unit, the physiologic changes that accompany the transition from fetus to neonate to infant, and the underlying pathophysiology of different hematologic disorders. Guidelines for neonatal transfusions remain controversial, since most have been extrapolated from evidence in adults or based on small studies in neonates with marginal statistical validity. Compared with older children and adult’s, neonates have small total blood volumes but a high blood volume per body weight. Because of the limited capacity to expand their blood volume to compensate for their rapid growth, many sick and/or premature infants require significant blood component support, especially within the first weeks of life. Immaturity of many organ systems predisposes them to metabolic derangements from blood products and their additive solutions, and to the infectious and immunomodulatory hazards of transfusion such as transfusion-acquired cytomegalovirus (TA-CMV) infection and transfusion-associated graft vs. host disease (TA-GVHD). Therefore, component modifications are often required to compensate for the infant’s small blood volume, immunologic immaturity, and/or compromised organ function, and constitute the uniqueness of neonatal transfusion therapy.
Pretransfusion testing
A sample of cord blood is often collected in newborn infants at the time of delivery, but routine testing of cord blood for ABO group and Rh type is not necessary for healthy newborn infants unless the mother is Rh-negative and/or has a positive antibody screen (4). ABO and Rh type should be determined on samples obtained from both mother and baby for sick infants. Cord blood may be used for initial testing, but should be confirmed with an infant’s sample. The infant’s blood group is determined from the red cells alone, since the corresponding isoagglutinins anti-A and anti-B in the serum/plasma are usually weak or absent. Screening for atypical antibodies may be performed on maternal blood if available, or in the neonatal serum/plasma. A conventional cross-match is unnecessary if atypical antibodies are not demonstrable.
14 - Transfusion practices
- Edited by Pedro A. de Alarcón, University of Tennessee, Eric J. Werner
- Foreword by J. Lawrence Naiman, Stanford University School of Medicine, California
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- Book:
- Neonatal Hematology
- Published online:
- 10 August 2009
- Print publication:
- 18 August 2005, pp 349-375
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- Chapter
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Summary
Transfusion therapy in the neonatal population requires an understanding of the dynamic interactions of the fetomaternal unit, the physiologic changes that accompany the transition from fetus to neonate and from neonate to infant, and the underlying pathophysiology of different hematologic disorders. Blood products utilized in neonates include packed red blood cells (PRBC), platelet concentrates, granulocyte concentrates, fresh frozen plasma (FFP), and cryoprecipitate, but modifications of the components are often required to compensate for the small blood volume, immunologic immaturity, and compromised organ function of the transfusion recipients, who may be premature and/or sick. Extremely low-birth-weight infants (birth weight <1000 g) invariably receive one or more RBC transfusions, especially in the first few weeks of life [1]. Intensive blood-bank support with PRBCs, platelets, and FFP is vital for neonates undergoing extracorporeal membrane oxygenation (ECMO) or cardiopulmonary bypass [2, 3].
Although the transfusion of blood products has been an integral part of supportive care of critically ill neonates for decades, guidelines for transfusions remain controversial, since most have been extrapolated from evidence in adults or based on small studies in neonates with marginal statistical validity. The growing awareness of the hazards of blood transfusion, both among medical professionals and in the lay public, has led to a re-evaluation of this hitherto commonly accepted practice, with the development of strategies to minimize risk and improve benefits.