Crossmatch Information and Courses from MediaLab, Inc.
These are the MediaLab courses that cover Crossmatch and links to relevant pages within the course.
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| 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 |
| Examples of Antibodies to Low-Incidence Antigens Antibodies to low-incidence antigens will be difficult to test for since most screen and panel cells do not have these antigens on the testing cells. Further testing may be needed at a reference laboratory where a larger selection of antibody panels are available to locate cells positive for these antigens.Suspect an antibody to a low-incidence antigen if: AHG crossmatch is incompatible and Other causes have been ruled out (positive donor DAT, ABO incompatibility) Examples of antibodies to low-incidence antigens are: anti-V, anti-Cw, anti-Kpa, anti-Jsa, and anti-Lua. | View Page |
| Match the appropriate component with either the major crossmatch or minor crossmatch: | View Page |
| Which of the following antibodies is detected primarily in the antiglobulin phase of the crossmatch: | View Page |
| Which of the following options gives in order from most to least important, the factors you would use to select blood for a transfusion: | View Page |
| Essential components of compatibility testing include all of the following except : | View Page |
| Which of the following best describes a minor crossmatch: | View Page |
| Which of the following would not be detected by means of a major crossmatch: | View Page |
| HLA-A and HLA-B antigens can be detected using which of the following techniques? | View Page |
| The chief purpose of performing a standard crossmatch is to : | View Page |
| Which statement(s) describe potential causes of medical errors involving the blood bank? | View Page |
| Antibody identification checklist To improve the quality of conclusions when identifying antibodies, a checklist is a simple quality control tool to increase transfusion safety. If a specific antibody pattern cannot be identified with acceptable confidence, or if significant serologic or non-serologic data are inconsistent and cannot be rationalized, further testing will be required.Before concluding that the investigation is complete, unless not applicable, mentally reply to each question in the checklist. If any answer is no, has it been resolved? Antibody Identification Checklist Yes/No/NA 1. For a single antibody, does the reaction pattern fit only one antibody specificity? 2. Is antibody specificity consistent with the results of the initial antibody screen? 3. Are reaction phases consistent with antibody specificity? 4. If multiple antibodies are present, can all reactions be explained by the antibody combination? 5. If the autocontrol is negative, are patient red cells negative for the corresponding antigen(s)? 6. Have additional possible antibodies been excluded by selected red cells? 7. Can all variable reaction strengths be explained? 8. If tested, are antigen-negative donor cells compatible by antiglobulin crossmatch? 9. If there are data that do not fit antibody specificity or if there are results that are improbable, are they explainable? 10. Have all results and conclusions been systematically evaluated for consistency? | View Page |
| Crossmatch Results These are the results of the crossmatch that was being performed in the transfusion service laboratory while the patient was receiving the two units of O Rh-negative RBCs. Cells Gel IAT* Donor I** 2+ Donor 2** 2+ Donor 3 3+ Donor 4 3+ Donor 5 2+ Donor 6 3+ * IAT = indirect antiglobulin test ** O Rh-negative RBC (Donors 3 - 6 are O Rh-positive) | View Page |
| Other post-transfusion tests The patient's post-transfusion plasma was also retested with the 6 RBC that tested positive initially. Like the antibody panel done on the post-transfusion plasma, they are now all negative by gel IAT.Unfortunately, the panel results with the patient's post-transfusion eluate do not give clear results (only cells #1 and #9 react) and the antibody remains unidentifiable. Suppose that the physician had decided to continue transfusing the patient at this stage. Take a moment to think about what you would advise regarding the compatibility of such transfusions, all of which appear to be compatible in the crossmatch. When you have considered the options, continue to the next page. | 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 |
| Antigen phenotyping A standard follow-up to antibody identification is to antigen phenotype: Patient's red cells (expecting them to lack the corresponding antigen) Donor red cells (in this case, those transfused before an antibody was identified, or, more typically, to find suitable antigen-negative donors to crossmatch prior to transfusion).If you had wanted to type the patient for any antigens at this point in the investigation (2-weeks post-transfusion), which specimen would you have used? Think about any antigen typing problems and how to overcome them before proceeding to the next page. | View Page |
| Antigen phenotyping results The patient's pretransfusion red cells and all donor red cells involved in the case (two group O Rh-negative RBC and four group O Rh-positive red cells initially crossmatched) were phenotyped for Jka.As expected, the patient typed as Jk(a-). The six donor RBC that were incompatible in the initial crossmatch were Jk(a+).The frequency of the Jka gene in Caucasians is ~77%, with most Caucasian red cells (50%) typing as Jk(a+b+). | View Page |