1 / 20

Practical Blood Bank

Practical Blood Bank. Antibody Titration. Lab 9. Principle. Titration is a semi quantitative method used to determine the concentration of antibody in a serum sample or to compare the strength of antigen expression on different red cell samples.

Download Presentation

Practical Blood Bank

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Practical Blood Bank Antibody Titration Lab 9

  2. Principle • Titration is a semi quantitative method used to determine the concentration of antibody in a serum sample or to compare the strength of antigen expression on different red cell samples. The usual applications of titration studies are: • Estimating antibody activity in alloimmunizedpregnant women to determine whether and when to perform more complex invasive investigation of the fetal condition. • characterizing antibodies as high-titer, low-avidity

  3. 3. Observing the effect of sulfhydryl reagents on antibody behavior, to determine immunoglobulin class (IgG or IgM). Titration studies specifically to assist in monitoring clinically significant antibodies in the pregnant woman.

  4. AVIDITY • Speed and strength of agglutination is termed as avidity. • The test is done by mixing two drop of anti-serum with one drop of 40-50% cell suspension on a slide or tile and rocking gently at room temperature (RT). The time for a clearly visible reaction (+1) and then for strong (+4) reaction to occur are recorded with the help of stop watch.

  5. Specimen • Serum for titration (containing potentially significant unexpected antibodies to red cell antigens, 1 mL). If possible, test the current sample in parallel with the most recent previously submitted (preceding) sample from the current pregnancy.

  6. Materials • Antihuman IgG: need not be heavy chain- specific. • Isotonic saline. • Volumetric pipettes, or equivalent: 0.1- to 0.5-mL delivery, with disposable tips. • Red cells: group O reagent red cells, 2% suspension. (See note 1 regarding the selection of red cells for testing.) Avoid using Bg+ red cells because they may result in falsely high values, especially with sera from multiparous women. • IgG-coated red cells.

  7. Procedure • Using 0.5-mL volumes, prepare serial twofold dilutions of serum in saline. The initial tube should contain undiluted serum and the doubling dilution range should be from 1 in 2 to 1 in 2048 (total of 12 tubes). • Place 0.1 mL of each dilution into appropriately labeled test tubes. • Add 0.1 mL of the 2% suspension of red cells to each dilution. Alternatively, for convenience, add 1 drop of a solution of a 3% to 4% suspension of red cells as supplied by the reagent manufacturer, although this method is less precise.

  8. Gently agitate the contents of each tube; incubate at 37 C for 1 hour. • Wash the red cells four times with saline; completely decant the final wash supernatant. • To the dry red cell buttons thus obtained, add anti-IgG according to the manufacturer’s directions. • Centrifuge as for hemagglutination tests. • Examine the red cells macroscopically; grade and record the reactions. • Add IgG-coated red cells to all negative tests; recentrifuge and examine the tests for macroscopic agglutination; repeat the testing if the tests with IgG-coated red cells are nonreactive.

  9. Interpretation • The titer is reported as the reciprocal of the highest dilution of serum at which 1+ agglutination is observed. A titer ≥16 (this value may vary according to the laboratory) is considered significant and may warrant further monitoring for HDFN.

  10. Notes • The selection of the most suitable phenotype of red cells to use when performing titration studies for HDFN is controversial. • Some workers select red cells that have the strongest expression of antigen, such as R2R2 for anti-D. • it is important that the laboratory be consistent and use red cells of the same phenotype for future titrations to test the same patient’s serum. • Titration studies should be performed upon initial detection of the antibody; save an appropriately labeled aliquot of the serum (frozen at –20 C or colder) for comparative studies with the next submitted sample.

  11. Notes • When the titer (eg, >16) and the antibody specificity have been associated with HDFN, it is recommended that repeat titration studies be performed every 2 to 4 weeks, beginning at 18 weeks’ gestation; save an aliquot of the serum (frozen at –20 C or colder) for comparative studies with the next submitted sample. • Do not use enhancement techniques [albumin, polyethylene glycol, low ionic strength saline (LISS)] or enzyme-treated red cells because falsely elevated titers may be obtained. Gel testing is not recommended. • LISS should not be used as a diluents in titration studies; nonspecific uptake of globulins may occur in serum-LISS dilutions.

  12. Failure to obtain the correct results may be caused by • incorrect technique, notably, failure to use separate pipette tips for each dilution or • failure to adequately mix thawed frozen serum.

  13. NOTES AND PRECAUTIONS • If titrating anti-A, anti-B, or anti-A,B, the serologic technique is performed by the same method as ABO Typing • If titrating Rh, Kell, Duffy, or Kidd antibodies, the serologic technique includes a 37oC followed by antiglobulin testing. • Prozone phenomenon may occur so the first tubes may have a weaker reaction than the more diluted serum.  AABB recommends reading the most dilute tubes first and then shake out the other tubes.

  14. GRADING OF AGGLUTINATION REACTION

More Related