Transfusion Medicine

CMV-NEGATIVE BLOOD
CMV can be transmitted through any cellular blood product—red cells and platelets. For patients who are CMV-negative and receiving transplants, especially stem cell transplants, a new CMV infection can be devastating.21 For years only blood from CMV-negative donors was used to transfuse CMV-negative patients. This policy is effective in preventing CMV infection, but because 50% of the population is positive for CMV antibodies, it may potentially lead to shortages of products that could be transfused to the patient. Currently, leukoreduced blood products are used since leukofiltration of the blood is just as effective as transfusion of CMV-negative blood in preventing infections and allows greater use of all blood products.23
COMPLICATIONS OF TRANSFUSIONS
HEMOLYTIC TRANSFUSION REACTION
There are 2 forms of hemolytic reactions—immediate and delayed.24 The immediate reaction is associated with fevers, hypotension, back pain, and oliguria. In severe cases, DIC and renal failure may occur. The immediate reaction is due to transfusion of blood that reacts with the recipient’s preformed high-titer blood antigen antibodies, most often to ABO. This is fatal 2% of the time and occurs almost always as a result of errors in correct identification of the patient. Reactions are due to recipient antibodies attacking donated RBCs, resulting in release of hemoglobin and red cell membrane–antigen complexes. These complexes are believed to lead to the hypotension, fevers, chills, and renal damage associated with the hemolytic reaction. Treatment consists of immediately stopping the transfusion, notifying the blood bank, vigorous intravenous hydration to keep the urine output over 100 mL/hr, and supportive therapy.
The delayed reaction can range in severity from an abrupt drop in the hematocrit to normal response to transfusion but the patient developing a positive Coombs’ test. The delayed response is due to an anamnestic response to blood-group antigens. When the patient is exposed to the same antigen, there is a rise in antibody titer leading to the reaction. Some alloantibodies can lead to a brisk reaction, most often anti-Kidd. The frequency with which delayed transfusion reactions occur is underestimated because mild reactions often do not get worked up or even discovered.
ALLERGIC REACTIONS
Allergic reactions are common (1%–3% of transfusions) and occur in patients having antibodies to proteins in donor blood, which can lead to hives and itching with transfusions. Most of the time these allergic reactions are mild and can be treated with antihistamines. Prophylaxis with antihistamines is not indicated for future transfusions unless the reactions are frequent. Rarely these reactions can be associated with shock and hypotension. Patients who are immunoglobulin (Ig) A–deficient can develop anaphylactic reactions to IgA-containing blood products. Patients with severe allergic reactions need to have their IgA measured and, if deficient, receive only washed units or plasma from IgA-deficient donors to prevent future severe reactions.
FEBRILE REACTIONS
The most common transfusion reaction is a febrile reaction that occurs after the transfusion starts and that sometimes can be complicated by chills. This reaction often occurs due to the presence of leukocyte debris and cytokines in the donated blood. Therapy is supportive and involves stopping the transfusion and administering acetaminophen, but since hemolytic transfusion reactions can present with fever all patients need to be thoroughly evaluated. The incidence of reactions can be decreased by using leukodepleted blood and plateletpheresis platelets. Most patients do not benefit from receiving prophylactic acetaminophen for future transfusion unless they have multiple reactions.
