| Example- Choosing Selected Cells The selected cells should be antigen-negative for the antibody that you think is present and antigen-positive (homozygous) for what you are trying to rule out. You are designing a panel that addresses your testing needs. Example: JkbIf you suspect that your patient has an anti-Jkb and further rule out cells are needed, then those rule out cells should be negative for Jkb. In the table below, donor cells 1,2, 4, 6, 9 and 10 may be used when creating a select panel to test the patient and help rule out the remaining possible antibodies. The homozygous rule applies when choosing which cells to use for testing (antigens highlighted in light-yellow).Example: Picking cells to rule out CUse panel cell 1 and panel cell 2 (C is in the homozygous state). Explanation: Panel cells 1 and 2 do not contain the antigen Jkb (signified by "0" on cell panel). If these cells are tested with the patient's plasma and the reaction is negative, it can be assumed that the patient does not have an antibody to C. C is now ruled out because there would be a total of 3 negative patient reactions with C positive cells (These two reactions and screen cell I from the antibody screen, shown again below). This should be done for all clinically significant antibodies that you were unable to rule out on the first panel. | View Page |
| Case Study Three - Selected Cells List panel cells to test for ruling-in or ruling-out remaining antibodies in Case Study Three. These would be your selected cells. For rule-out, selected cells should be negative for the antigens that correspond to the antibodies you have possibly identified. In this case, the selected cells for rule-out should be antigen-negative for K and Fya. If you are trying to rule in a possible antibody like K, then the panel cell should be positive for that corresponding antigen so that reactions will occur if the antibody is present.Panel cells 1 and 7 could be used for rule-in of K.Panel cells 2, 4, 5, 6, and 9 can be used for rule-outsPanel cell 2: to rule out C, e, Fyb, Jka, N, s Panel cell 4: to rule out Jka, Lea, N, SPanel cell 5: to rule out C, e, Jkb,MPanel cell 6: to rule out E, Jkb, Lea, N, and sPanel cell 9: to rule out M, S | View Page |
| Antibodies to Low- and High-Incidence Antigens Low-incidence antigens are antigens that occur in less than 1% of the population.Antibodies to low-incidence antigens Low-incidence antigens are not usually found on screen cell and antibody panels. Antibodies are hard to test for, but it is usually not difficult to find compatible blood. Suspect this antibody if an AHG crossmatch is incompatible and other causes have been ruled out, such as a positive donor DAT or ABO incompatibility. Examples of low-incidence antigens include: Cw, V, Kpa, Jsa. When going through the process of Ruling Out, antibodies like anti-V, anti-Cw, anti-Lua, anti-Kpa, and anti-Jsa usually fall into the "unable to rule out" category. High-incidence antigens are antigens that occur in greater than 99% of the population. Antibodies to high-incidence antigens Antibodies are rare and may be difficult to identify due to lack of negative panel cells for other high-incidence antigens (difficult to rule out). Reactions with screen and panel cells will all be positive (same strength and same phase). Auto control will be negative. Difficult to find antigen-negative compatible blood. Examples of antibodies to high-incidence antigens are: anti-k, anti-Kpb, anti-Jsb, and anti-Lub. If an antibody to either a high- or low-incidence antigen is present, it may be difficult to identify and may require further testing in a reference blood bank. | View Page |