Antigen-positive Information and Courses from MediaLab, Inc.
These are the MediaLab courses that cover Antigen-positive and links to relevant pages within the course.
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| 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 |
| Using p values in antibody identification When p values are calculated for antibody identifications, we think of the null hypothesis as meaning, "the relative proportions of one variable (panel cell being antigen-positive) are independent of the second variable (patient's plasma reacting with the cell). In other words, the results could be due to another cause (different antibody, combination of antibodies, or spurious reactions), not the antibody that we have identified as being probable.Therefore, a p value of 0.05 can be interpreted as meaning that the same results produced by another antibody or cause would be expected to occur by chance alone only one in 20 times (5% of the time), given the number of cells tested. By scientific tradition, this is an acceptable level of uncertainty.A p value of 0.05 does not mean that we have identified the correct antibody. | View Page |
| Understanding the "rule of three" In immunohematology textbooks, the "rule of three" is sometimes presented as follows:1. If a patient plasma or serum gives positive results with a minimum of three antigen-positive cells and negative results with a minimum of three antigen-negative cells, concluding that the serum contains an antibody directed against the antigen has a p value of 0.05.2. Therefore, a p value of 0.05 requires at least three positives and three negatives.The first statement is correct but second statement is a misinterpretation of the p value.Three positives and three negatives are required to identify an antibody with a p value of 0.05 ONLY if you have only a 6-cell panel. It does not mean that you always need three positive cells and three negative cells to get p=0.05.For example: A 10-cell panel with eight Jk(a+) cells and two Jk(a-) cells gives a probability of 0.02 if all the positive cells and none of the negative cells react. A 10-cell panel with eight K- cells and two K+ cells gives a probability of 0.02 if all the positive cells and none of the negative cells react. Learning point: You do not need three positive cells and three negative cells to get an acceptable p value of 0.05. | View Page |
| When performing an antibody investigation, which of the following would indicate an inconsistency that needs to be further investigated? (Select all that apply) | View Page |
| Balancing the risks Life-Threatening HemorrhageDespite potential risk, sometimes immediate transfusion is necessary, even for patients with red cell antibodies. In such cases transfusion service staff should alert the medical director, who can discuss options with clinical staff.The medical director will generally talk to the staff attending the patient and indicate that, if possible, they should hold off transfusion. But if it is a case of massive bleeding where exsanguinating hemorrhage is likely, it is better to give some blood and monitor for a delayed hemolytic transfusion reaction than to let the patient bleed to death.Transfusing when bleeding is brisk will result in much of the autologous and incompatible blood bleeding out, with the possibility of a delayed hemolytic reaction once the patient's antibody rebounds and destroys still present antigen-positive donor red cells.Some transfusion services also try to minimize the risk of unmatched blood by typing their emergency supply of O Rh negative RBCs for the K antigen, since anti-K is a relatively common clinically significant antibody. See Resources for two papers that discuss the risks of transfusing un-crossmatched emergency blood. | View Page |
| Which of the following most likely accounts for the patient's post-transfusion plasma giving negative panel results? | View Page |
| Consulting the patient's physician If the physician had decided to continue transfusing the patient at this stage, the following information should be communicated: Although all donors appear to be compatible in the post-transfusion crossmatch, they are not. The results are false negatives - the patient's antibody has been "mopped up" by adsorbing to the incompatible transfused O Rh-negative RBC. Given that 6 donors were positive using the pretransfusion plasma, the antigen is a higher frequency antigen and most donors would likely be antigen-positive and incompatible. The patient's physician should consult the TS medical director before any decision to transfuse is made. Transfusing RBC before tests are complete requires physicians to sign an emergency release form in which they assume full responsibility. | View Page |
| Cause of Delayed HTR Delayed HTR result from a secondary (anamnestic) immune response causing a weak, undetectable antibody to become stronger.Upon re-stimulation by donor RBC positive for the antigen corresponding to the patient's antibody:* Patient's memory B cells differentiate into antibody-producing plasma cells.* As new IgG antibody is produced, it sensitizes antigen-positive transfused donor red blood cells.* The IgG-sensitized donor red blood cells are then removed by extravascular hemolysis (EVH) mainly in the spleen. | View Page |