What Happens in the Blood Bank ? Partnership between transfusion services and hematology is vital to the specialty
● Transfusion medicine is an essential part of hematology practice , with blood transfusion playing an important role in treatment of many malignant and nonmalignant hematologic disorders . Transfusion medicine specialists are involved in many aspects of blood component therapy , including donor testing , pre-transfusion testing , blood component selection , transfusion indications , investigation of transfusion reactions , and product selection for the treatment of massive hemorrhage .
However , despite the close partnership between hematology and transfusion services , much of what these specialists do to ensure a safe transfusion may be a mystery . Shedding more light on these processes can only help build a successful partnership . ASH Clinical News spoke with transfusion medicine specialists to learn more about what happens to blood products behind the blood bank doors .
Screening , Antigens , and Incompatibility
Transfusion service testing is based on the principle of antigen-antibody binding causing hemolysis or decreased red cell survival , according to Connie M . Westhoff , SBB , PhD , executive scientific director of immunohematology and genomics at the New York Blood Center . “ All pre-transfusion testing , manual or automated , relies on detection of red cell agglutination by an antibody as an incompatibility ,” Dr . Westhoff explained .
If a patient were given the wrong ABO blood type , for example , natural antibodies in the patient ’ s plasma would react with the incorrect blood group antigen on the red blood cells and cause hemolysis or destruction .
ABO transfusion compatibilities can be lifethreatening . For that reason , all hospital transfusion service laboratories have strict sample labeling requirements .
“ If , for whatever reason , a sample was drawn from a different patient then it is labeled for – which can happen – we would end up transfusing the wrong blood . So , right off the bat , if we see any errors in labeling , we reject the specimen ,” said Magali Fontaine , MD , PhD , director of transfusion services at the University of Maryland School of Medicine . Dr . Fontaine added that labeling requirements vary from institution to institution depending on safety checks .
Dr . Westhoff said that standards for labeling the patient pre-transfusion blood sample mandate that it be labeled from the wristband and contain the patient ’ s full name and hospital number . The patient ’ s blood group antigen ( ABO ) and Rh antigen ( positive / negative ) are typed twice . The donor unit is also typed at least twice – at the donor center and at the hospital . This all occurs before the product is entered into the hospital inventory .
Transfusion services must also maintain the past transfusion history of the patient for whom a type and screen are performed , including any previous testing results . For example , Dr . Fontaine said , “ if the patient was transfused elsewhere , we would call that hospital or blood center to find out previous testing results , especially red blood cell antibody screen results .”
The red blood cell antibody screen looks for antibodies to red cell antigens other than ABO that were stimulated from previous exposure to foreign ( non-self ) red cells , such as through pregnancy or previous blood transfusion . This involves testing the patient plasma against standardized FDA-licensed commercial red cells that have been typed for all common antigens .
“ If the antibody screen is negative , we are done testing the sample ,” said Melissa Cushing , MD , division director of transfusion medicine and cellular therapy at Weill Cornell Medicine . “ If the antibody screen is positive , we perform an antibody identification , which is a more complex version of the antibody screen .”
This screen includes testing the blood against a panel of 10 to 12 antigen-typed red cells to determine red cell antibody specificity . For patients with complex antibodies , many more cells may need to be tested ; in these cases , the sample can be referred out to a regional reference laboratory within a blood center that has a larger inventory than the hospital .
“ The donor units selected for crossmatch must also be ABO / Rh-typed and shown to be negative for the antigen corresponding to the antibody identified ,” Dr . Westhoff said . “ Crossmatching is the final step , which consists of incubation at 37 ° C between a sample of the selected red cell unit and the patient ’ s plasma , followed by the addition of a secondary anti-human globulin reagent to confirm the absence of agglutination .”
Today , most hospitals use an electronic crossmatch for patients with a negative antibody screen and no history of red cell antibodies . A blood bank ’ s laboratory information system will perform a virtual check for compatibility instead of a physical test between the patient ’ s sample and the donor red blood cells .
Determination of red cell compatibility may require hours of testing for patients who have multiple antibody specificities . These patient samples will often be sent to the blood center referral laboratory for complex antibody identification and to locate compatible red cell units , Dr . Westhoff said .
To illustrate the compatibility testing process in a complex patient , Dr . Cushing described a case of a woman who developed an antibody to the Kell red cell antigen during her pregnancy .
If she were to return years later in need of a transfusion , her antibody screen could be negative , but the transfusion service would always “ honor the antibody ” in her transfusion history . Red cell antibodies often become undetectable in the antibody screen over time , Dr . Cushing explained , but if the patient is exposed to the antigen again , an anamnestic immune response could occur , and the patient would be at risk of a delayed hemolytic transfusion reaction . “ Kell-negative red blood cells would always be provided to that woman ,” she said .
Avoiding Adverse Reactions
Hematologists and transfusion medicine specialists frequently interact , including in the diagnosis of hemolytic transfusion reactions or the management of hemolytic disease of the fetus and newborn ( HDFN ).
“ We help hematologists determine if there are clinical or laboratory signs of hemolysis ,” Dr . Fontaine said . “ If there is laboratory evidence of hemolysis , we can look for antibodies on the red cell surface that could be responsible for the hemolysis .”
However , Dr . Fontaine noted that hemolysis is not always caused by red cell antibodies . “ You have to go through both the clinical history and the lab evaluation to look for other possible reasons for hemolysis ,” she said .
For example , a patient with mitral valve prolapse could experience mechanical hemolysis . This patient may need to be evaluated with an echocardiogram instead of undergoing antibody testing , Dr . Fontaine noted . “ There is a whole list of possibilities in the differential diagnosis .”
If immune hemolytic anemia is suspected , a direct antiglobulin test can confirm the diagnosis . The test detects immunoglobulin G and complement components bound to the patient ’ s own red cells .
“ Autoantibodies are also present in the plasma and agglutinate all red cells used for testing ,” Dr . Westhoff explained . “ Compatibility cannot
14 ASH Clinical News October 2021