Background Art In order to detect hypersensitivity of an organism to some substances either in vivo tests (skin tests, dual blind trial) or in vitro tests are being used. Currently, the in vitro tests tend to prevail, so that the allergenic burden to the patient is avoided. Other reasons in favour of the in vitro tests are the patient's age, fear of a hypersensitive reaction, patient's comfort (unlike the skin punctures wherein one stick corresponds to determining one allergen, the in vitro tests make it possible to determine several allergens in one collection of the blood).

At present, the most widely used in vitro test is the measurement of the level of specific IgE antibodies (sIgE) in the patient's blood, i. e. of the end product of the cell's specific response. The most widespread principle of the test is the enzyme-linked immuno-assay (ELISA) in various modifications. The determination can be made with a time delay after patient's blood collection. From a single collection antibodies against more allergens can be determined. However, the results may sometimes differ from the skin tests. For example, when the patient has not come into contact with the allergen for some time, the antibodies may disappear, even when the hypersensitivity pertains. Also, cross-reacting antibodies are often being found and the method can generally be poorly standardized.

This is why recently methods that monitor an immediate response of the cells to stimulation have started to be developed. Currently much attention has been paid to the basophils. They are specialized effector cells of the immune system, playing an important role in the allergic reaction. Sensitized cells are activated by the specific allergen. The activation manifests, on one hand, by expression of some receptors on their surface (CD63), and, on the other hand, by production of the cytokines (which support production of sIgE) and mediators (such as histamine, leukotrienes, etc. ). They are responsible for some clinical manifestations of allergy.

These methods are still far from being much widespread. Currently, histamine and sulphidoleukotrienes can be determined in the supernatant following stimulation of the cells with an allergen by ELISA tests. A disadvantage is the necessity of the separation of the cells. In course of it, non-specific activation may occur. In addition, the patient must not use any antihistamine drugs for at least 48 hours.

Determination of the expression of the activation antigen CD63 on the basophils has the following advantages : 1) work with whole blood, 2) use of soluble allergens, the same ones as for skin tests, 3) possibility to determine type 1 hypersensitivity to an allergen, even when no sIgEs are present in the peripheral. Moreover, the cells are not activated by the cross-reacting antibodies to allergen because of their low affinity. But detection of the basophils by staining with anti-IgE has some limitations.

At a very low level of overall IgE (< 80 IU/ml) the basophils can only be stained with much difficulty (low fluorescence) and that at a high level of IgE the antibody (anti-IgE) added can be bound by serum IgE.

Introduction of the flow cytometry, i. e. of the method which enables to label the cells by means of surface receptors, will make it possible to develop methods that are based on monitoring of the cellular response. Thus, this method makes it possible to determine the immediate response of the basophils to the allergen in vitro. In the peripheral blood, the percentage of the basophils is very low (about 1 %). They belong to the group of granulocytes, with which they share most surface antigen. Currently, the fact that they- unlike other cells-bear the FceRI receptors on their surface and bind IgE. That is used for their staining with antibodies anti-IgE. Therefore, the basophils are being labelled with a fluorescent antibody against IgE (cf. the Basotest produced by Orpegen Pharma).

Substance of the Invention We believe that the determination of the activation of basophils is a method that approximates the in vivo conditions most, we have attempted to overcome the- disadvantages of staining of the basophils by means of anti-IgE antibodies. We have found that it is much more advantageous to label the basophils with an antibody that is against a surface receptor which is specific for them. Thus, disadvantages, associated mainly with the low level of IgE, can be overcome, as this labelling is independent from said level. It is known at present that the receptor for interleukin-3 (IL-3) is expressed on the basophils and bears the designation CD123. For that reason it is possible to select a fluorescence labelled antibody that has been prepared against this receptor in order to stain the basophils. CD203c may be another surface marker for staining the basophils, such that an anti-CD203c antibody can be used.

The determination is carried out in the whole blood. After the allergen is added and during the subsequent incubation the allergen binds itself to the IgE antibodies that are specific against the given allergen in the case of the cells sensitive to the allergen added. The antigen-antibody bond will instruct the cells to start the activation and thus also to start up the processes that end in degranulation of the basophils and release of the mediators, responsible for the allergic reaction in vivo. The response of the basophils is monitored by the measurement of the expression of CD63 antigen. The basophils are stained with an antibody against the receptor that they bear on their surface, preferably with an antibody against the CD123 (receptor for IL-3) or against the CD203 c receptor. If there are no antibodies against the added allergen bound on the patient's basophils, no antigen-antibody reaction will arise and thus no activation of the cells will occur, and hence no expression of CD63 will take place.

Brief Description of the Drawings The annexed figures illustrate sets of histograms for each patient tested, obtained by means of the Coulter Epics XL flow cytometer.

The meanings of the individual histograms: Histogram I-Distribution of the cells according to light scattering in the forward (FS) and side direction (SS). Gate N delineates the area wherein the basophils are present.

Histogram 2-Delineation of the basophil domain based on the light scattering in the side scatter (SS) and on the binding of the anti-IgE/FITC antibody (gate F) Histogram 3-Delineation of the basophil domain based on the light scattering in the side direction (SS) and on the binding of the anti-CD123 (or anti-CD203c/PE) antibody (gate A) Histogram 4-Distribution of the cells by the fluorescence intensity, i. e. the anti-IgE/FITC binding.

Histogram 5-Distribution of the cells by the fluorescence intensity, i. e. the anti- CD 123/PE (or anti-CD203c/PE) binding.

Histogram 6-Percentage distribution of the basophils that are stained with anti-IgE/FITC (gate F, Histogram 2) Quadrant 1 (B 1)-The cells stained with the anti-IgE/FITC antibody-other cells than basophils present in gate F Quadrant 2 (B2) -The cells labelled with both the anti-CD 123/PE (or anti-CD203c/PE) antibody and the anti-IgE/FITC antibody Quadrant 3 (B3)-Unstained cells Quadrant 4 (B4)-The cells stained with the anti-CD123/PE (or anti-CD203c/PE) antibody Histogram 7-Percentage distribution of the basophils that are anti-CD 123/PE stained (gate A, Histogram 3) Quadrant 1 (Gl)-The cells stained with the anti-IgE/FITC antibody-other cells than basophils present in gate F Quadrant 2 (G2) -The cells stained with both the anti-CD123/PE (or anti-CD203c/PE) antibody and the anti-IgE/FITC antibody Quadrant 3 (G3) -Unstained cells Quadrant 4 (G4) -The cells labelled with the anti-CD123/PE (or anti-CD203c/PE) antibody Histogram 8-Distribution of the basophils that are anti-CD123/PE (or anti-CD203c/PE) labelled based on the light scattering in the side direction (SS) and on the binding of the anti-IgE/FITC antibody.

Figures 1-1 to 1-8 illustrate the common expression of CD123+/IgE+ on the basophils as a function of the concentration of the overall IgE in the serum, summarized in Table 1.

Figures 2-1 to 2-5 illustrate the common expression of CD203c+/IgE+ on the basophils as a function of the concentration of the overall IgE in the serum, summarized in Table 2.

Figures 3-1 to 3-4 illustrate: Figure 3-1-Sample without stimulation (negative control of KO) Figure 3-2-Sample stimulated with FMLP, non-specific control) Figure 3-3-Sample stimulated with wasp allergens Figure 3-4-Sample stimulated with honey bee allergens The meanings of the histograms in figures 3-1 to 3-4: Histogram I-Distribution of the cells according to light scattering in the straight (FS) and lateral direction (SS). Gate N delineates the area wherein the basophils are present.

Histogram 2-Delineation of the basophil domain based on the light scattering in the side direction (SS) and on the binding of the anti-IgE/FITC antibody (gate B) Histogram 3-Percentage distribution of the basophils according to the binding of the antibodies Quadrant 1 (C1)-The cells stained with the CD63/PE antibody-other activated cells than basophils present in gate B (Histogram 2) Quadrant 2 (C2) -The cells stained with both the anti-CD63/PE antibody and the anti- IgE/FITC antibody, i. e. the activated cells Quadrant 3 (C3) -Unstained cells Quadrant 4 (C4) -The cells stained with the anti-IgE/FITC antibody-non-activated basophils Histogram 4-Distribution of the cells according to the fluorescence intensity, i. e. to the anti-IgE/FITC binding.

Histogram 5-Distribution of the cells by the fluorescence intensity, i. e. the CD63/PE binding.

Figures 4-1 to 4-8 illustrate the comparison of the results of anti-IgE/FITC-CD63/PE and anti-CD123/PE-CD63/FITC.

Examples Example 1 The assay is carried out from whole blood collected into heparin. For each test 100 1ll of the whole blood and 10 µl of an IL-3 solution in PBS (buffered physiological solution) at a concentration of 0. 05 ug/ml is transferred by means of a pipette into a test tube. 100 Ill PBS is added into the test tube for the negative control, 100 *ll FMLP (chemotactic peptide N-formyl-L-methionyl-L-leucyl-L-phenylalanine) at a concentration of 0. 433 ug/ml is added into the test tube for positive control, and 100 1ll of the appropriately diluted allergen is added into the test tube with the sample to be tested. The samples are mixed thoroughly and incubated at 37 OC for 30 minutes. Then the samples are transferred into an ice bath.

20 pLI of the monoclonal anti-CD 123 antibody, labelled with PE (phycoerythrine; from Becton Dickinson), and 5 u1 of the monoclonal antibody anti-CD63, labelled with FITC, from Caltag, are pipetted into each test-tube. The samples are mixed thoroughly and incubated in the ice bath for 15 to 20 minutes. Further processing is made at the room temperature. The erythrocytes in the samples are lysed by addition of a lysing agent, for example 2 ml NH4Cl. After being lysed the samples are centrifuged at 1000 rpm. The samples are decanted and 0.5 ml PBS is added to the sediment. Measurement on the cytometer is made with the sample prepared in this manner.

Example 2 The test is carried out from the whole blood collected into heparin. For each test 100 u. I of the blood and 10 gl of an IL-3 solution in PBS at a concentration of 0.05 llg/ml is pipette into a test tube. For the negative control 100 Ill PBS, for the positive control 100 111 FMLP at a concentration of 0.433 pg/ml is added into the test tube. 100 Ill of the appropriately diluted allergen is added into the test tube with the sample to be tested. The samples are mixed thoroughly and incubated at 37 OC for 30 minutes. Then the samples are transferred into an ice bath. 20 W of the monoclonal antibody anti-CD203c labelled with PE from Immunotech, and 5 ul of the monoclonal antibody anti-CD63, labelled with FITC, from Caltag, are pipetted into each test-tube. The samples are mixed thoroughly and incubated in the ice bath for 15 to 20 minutes. Further processing is made at the room temperature.

The erythrocytes in the samples are lysed by addition of a lysing agent, for example 2 ml NH4Cl. After being lysed the samples are centrifuged at 1000 rpm. The samples are decanted and 0.5 ml PBS is added to the sediment. Measurement on the cytometer is made with the sample prepared in this manner.

Example 3 The test is carried out from the whole blood collected into heparin. For each test 100 Ill of the blood and 10 ul of an IL-3 solution in PBS at a concentration of 0. 5 ug/ml is pipetted into a test tube. For the negative control 100 Rl PBS, for the positive control 100 ul FMLP at a concentration of 0.433 Fg/ml is added into the test tube. 100 Ill of the appropriately diluted allergen is added into the test tube with the sample to be tested. The samples are mixed thoroughly and incubated at 37 OC for 30 minutes. Then the samples are transferred into an ice bath. 20 gl of the monoclonal antibody anti-CD203c labelled with PE from Immunotech, and 5 pl of the monoclonal antibody anti-CD63, labelled with FITC, from Caltag, are pipetted into each test-tube. The samples are mixed thoroughly and incubated in the ice bath for 15 to 20 minutes. Further processing is made at the room temperature.

The erythrocytes in the samples are lysed by addition of a lysing agent, for example 2 ml NH4C1. After being lysed the samples are centrifuged at 1000 rpm. The samples are decanted and 0.5 ml PBS is added to the sediment. Measurement on the cytometer is made with the sample prepared in this manner.

Example 4 The assay is made from a kit which contains 1 ml of a solution of IL-3 (Sigma) at a concentration of 0.05 tg/mi, 200 ml of PBS, 2 ml of the anti-CD63 antibody labelled with FITC (Beckman-Coulter), 2 ml of the anti-CD203c antibody labelled with PE (Beckman- Coulter), 10 ml of the solution of FMLP at a concentration of 4. 33, ug/ml and 200 ml of a lysing solution NH4CI. The assay is carried out from the whole blood collected into heparin. For each test 100 il of the whole blood and 10 ul of the IL-3 solution in PBS (buffered physiological solution) at a concentration of 0.05 llg/ml is pipetted into a test tube. 100 Ill PBS is added into the test tube for the negative control, 100 pl FMLP at a concentration of 4.33 llg/ml is added into the test tube for the positive control, and 100 Rl of the appropriately diluted allergen is added into the test tube with the sample to be tested.

The samples are mixed thoroughly and incubated in at 37 OC for 30 minutes. Then the samples are transferred into an ice bath. 20 p1 of the monoclonal antibody anti-CD203c, and 20 Rl of the monoclonal antibody anti-CD63 are pipetted into each tube. The samples are mixed thoroughly and incubated in the ice bath for 15 to 20 minutes. Further processing is made at the room temperature. The erythrocytes in the samples are lysed by addition of a lysing agent, for example 2 ml NH4Cl. After being lysed the samples are centrifuged at 1000 rpm. The samples are decanted and 0.5 ml PBS is added to the sediment. Measurement on the cytometer is made with the sample prepared in this manner.

Example 5 The assay is made from a kit which contains 1 ml of a solution of IL-3 (Sigma) at a concentration of 1 ig/nil, 200 ml of PBS, 2 ml of the anti-CD63 antibody labelled with FITC (Beckman-Coulter), 2 ml of the anti-CD203c antibody labelled with PE (Beckman- Coulter), 10 ml of the solution of FMLP at a concentration of 4. 33 ug/ml and 200 ml of a lysing solution NH4Cl. The assay is carried out from the whole blood collected into heparin. For each test 100 111 of the whole blood and 10 pi. of the IL-3 solution in PBS (buffered physiological solution) at a concentration of 0.05 gg/ml is pipetted into a test tube. 100 pI PBS is added into the test tube for the negative control, 100 ul FMLP at a concentration of 4. 33, eg/ml is added into the test tube for the positive control, and 100 pl of the appropriately diluted allergen is added into the test tube with the sample to be tested.

The samples are mixed thoroughly and incubated in at 37 OC for 30 minutes. Then the samples are transferred into an ice bath. 20 ul of the monoclonal antibody anti-CD203c, and 20 Ill of the monoclonal antibody anti-CD63 are pipetted into each tube. The samples are mixed thoroughly and incubated in the ice bath for 15 to 20 minutes. Further processing is made at the room temperature. The erythrocytes in the samples are lysed by addition of a lysing agent, for example 2 ml NH4Cl. After being lysed the samples are centrifuged at 1000 rpm. The samples are decanted and 0.5 ml PBS is added to the sediment. Measurement on the cytometer is made with the sample prepared in this manner.

The results of the measurements on the flow cytometer Coulter Epics XL (Beckman- Coulter) are summarized in the following Tables and illustrated in attached Figures.

Key to abbreviations and terminology: IL-3-interleukin-3, PBS-buffered physiological solution, FMLP-N-formyl-L-methionyl-L-leucyl-L-phenylalanine FITC-fluorescein isothiocyanate PE-phycoerythrin DF-Dermathophagoides farinae (acarid) DP-Dermathophagoides pteronyssinus (acarid) gate, gating-in the field of cytometry : definition of the domain where e. g. the cells stained with monoclonal antibody are to be tested.

Table 1: Common expression of CD 123+/IgE+ on the basophils as function of the overall IgE concentration in the serum Patient No. IgE CD123+IgE+ U/ml gate IgE+ gate CD123+ MH 48 79% 56% 18455 41. 9 21 % 19% 15931 >17, 800 32% 80 % 17669 169 92% 91% 18394 428 38. 6% 84.5% 18483 53 85% 100% 18539 251 72% 87% 18535 12. 5 12% 2. 5% 18507 11. 1 6, 2% 3% 18517 >2, 000 62. 7% 65.3% 18765 66. 5 81. 4% 73% 12529 22 93% 71% 12580 395 88% 80% 12560 10. 3 small number of cells 4.8% 12530 95 68% 69% 19864 91 82. 7% 84.1% JK 200 91% 85% The table and the attached figures 1-1 to 1-8 give several examples of the two-color staining of the basophils. It was determined what percentage of the basophils stained with the anti-IgE antibody bear also the of CD 123 receptor and, vice versa, what percentage of the basophils stained anti-CD 123 are also anti-IgE positive.

It results from the table that staining of the basophils with the anti-IgE antibody is suitable for the serum levels of IgE 100-400 U/ml. At a low level of IgE (patients MH, 18535, 18455, 18507, 12560) the basophils stained with the anti-IgE cannot be gated, as the antibody does not bind to them. On the other hand, at a high level of IgE (patient No.

15931) either non-specific binding of the antibody to the monocytes occurs or the added antibody is displaced with the serum IgE.

Table 2: Common expression of CD203c+/IgE+ on the basophils as function of the overall IgE concentration in the serum Patient No. IgE CD203c+IgE+ U/ml gate IgE+ gate CD 123 c+ 19894 91 77. 4% 82. 3% 19397 42. 9 77. 9% 67. 7% 20156 42, 5 92. 7% 90.7% MH 48 91. 5% 45. 4% JK 200 87. 1% 97. 3% The table and the attached figures 2-1 to 2-5 give several examples of two-color staining of the basophils. It was determined what percentage of the basophils that are stained with the anti-IgE antibody bear also the of CD203c and, vice versa, what percentage of the basophils anti-CD203c stained are also anti-IgE positive.

Activation of the basophils as a function of the IL-3 concentration Table 3 IL-3 concentration negative control non-specific control spec. stimulation ng/ml KO KN mixture of 3 grass species 5 1.6% 37. 5% 38. 4% 2. 5 5. 9% 34. 1 % 28. 7% 1. 25 1.6% 27. 8% 29. 2% 0. 062 1.6% 30.6% 28. 2% 0 (PBS) 1. 0% 15. 2% 3. 9% Table 4 IL-3 concentration negative control spec. stimulation ng/ml K0 dog epithelium 3. 3. 3%. 56. 9% 256. 3% 53. 4% 1. 25 51. 6% 0. 625 49. 4% 0. 312 3. 1% 49. 2% 0. 156 - 51. 8% 0. 078 2. 8% 44. 3% 0. 039 - 42.5% LO (PBS) 6. 4% 40.7% Table 5 IL-3 concentration negative control spec. stimulation non-spec. stimulation ng/ml K0 DF acarid KN 5 1.6% 82.1% 18.5% 2. 5 2. 5% 83.3% 16.4% 1. 25 2. 5% 83.2% 15. 0% 0. 625 3.1% 85.5% 16. 2% 0. 312 3. 7% 81.1% 17.1% 0. 156 3. 9% 81.1% 14. 5% 0 (PBS) 2.6% 17. 0% 10. 9% Table 6 conc. IL-3 Negative control spec. stimulation in the sample KO DF (acarid) ng/ml 41, 3 2, 8% 81, 9% 20, 6 4, 3% 85,7% 10, 3-87, 7% 5, 16-82, 8% 2, 58 5, 1% 78,5% 1, 29-67, 2% 0, 65 3, 8% 51,3% 0 (PBS) 6,3% 6,2% Table 7 conc. IL-3 Negative control spec. stimulation in the sample KO mixture of 3 grass ng/ml species 41, 33, 4% 86, 6% 20, 6 5,3% 86, 7% 10, 3-86, 0% 5, 16-80, 9% 2, 58 5, 1% 78,6% 1, 29-66, 1% 0, 65 4,5% 62, 0% 0 (PBS) 4, 3% 39, 0% Activation of the basophils as a function of the incubation time with allergen Table 8 Incubation time negative control spec. stimulation non-spec. stimulation in minutes KO DF acarid KN 15 5. 8% 85. 0% 24. 3% 30 3. 1% 86. 4% 19. 0% 45 2. 5% 77. 9% 19. 5% Table 9 Incubation time negative control spec. stimulation non-spec. stimulation in minutes KO mixture of grass KN species-ST 15 4. 3% 32.4% 40.9% 30 6. 7% 31.5% 41. 6% 45 11, 4% 35. 1% 15. 0% Table 10 Incubation time negative control spec. stimulation spec. stimulation non-spec. in minutes KO wasp honey bee stimulation KN 15 6. 6% 88.1% 8.4% 23,4% 30 4. 7% 89. 1% 11. 9% 37. 3% 45 6. 7% 78. 5% 10. 5% 28. 5% Table 11 Incubation time negative control spec. stimulation spec. stimulation non-spec. in minutes KO DF acarid egg white stimulation KN 15 2.4% 7.6% 6.8% 41. 6% 30 2.9% 4.5% 7.4% 42.1% 45 4. 8% 13. 0% 4. 6% 22. 4% Activation of the basophils as a function of blood pre-incubation with IL-3 Table 12 Incubation time negative control Spec. stimulation Non-spec. stimulation in minutes KO mixture of grass KN species-ST 0 5. 3% 99.1% 28. 0% 10 5. 8% 96.8% 53.0% Table 13 Pre-negative Spec. Spec. Spec. Spec. Non-specific incubation control stimulation stimulation stimulation stimulation stimulation time-KO birch celery kiwi mixture of KN minutes grass species 0 2.7% 94% 94.7% 11.9% 98.4% 48% 10 4. 1% 94% 94% 12, 5% 99% 74.5% Table 14 Incubation time negative control Spec. stimulation Non-spec. stimulation in minutes KO mixture of grass KN species-ST 0 5. 3% 99.1% 28.0% 10 5. 8% 96.8% 53. 0%. Activation of the basophils as a function of the allergen dilution Table 15 Allergen Allergen concentration 100 U/ml Dil. 5x Dil. 10x Dil. 20x celery 50. 6% 80.3% 91% birch 46. 5% 46.2% 46.3% Wheat flour 7. 7% 13.5% 8.6% Table 16 Allergen Allergen concentration 100 U/ml Dil. 10x Dil. 20x Dil. 40x Dil. 80x Dil. 100x wasp30. 9% 13.2% 10. 4% honey bee 29.7% 40.8% 50. 0% 41.5% 36.8% Table 17 Allergen Allergen concentrationlOO U/ml Dil. l Ox Dil. 100x Dil. 1000x apple 52. 8% 7.5% 1. 0% walnut 72. 6% 57.2% 5. 6% Table 18 Allergen Allergen concentrationlOO U/ml Dil. 1 Ox Dil. 100x Dil. 1000x Lolium 31% 25% 21% Timothy 32% 32. 5% 25% Table 19 Allergen Allergen concentration 100 U/ml Dil. l Ox Dil. 100x Dil. 1000x mixture of 3 grass 42% 43. 5% 54. 3% species Table 20 Allergen Allergen concentration 100 U/ml Dil. lOx Dil. 100x Dil. 1000x mixture of 3 grass 39% 10.7% 6.7% species Table 21 Allergen Allergen concentration 100 U/ml Dil. lOx Dil. lOOx Dil. lOOOx wasp 54. 8% 58% 11. 2% honey bee 56. 6% 51.8% 58. 8% Table 22 Allergen Aller en concentration 100 U/ml Dil. 10x Dil. 100x Dil. 1000x wasp59. 8% 67% 15.4% honey bee 54. 6% 56.3% 22.8 Table 23 Allergen Allergen concentration 100 U/ml Dil 10x Dil. 100x wasp 24. 8% 16.8% honey bee6. 2% 11% Activation as a function of IL-3 concentration and allergen dilution Table 24 IL-3 concentration negative control Spec. stim. Spec. stim. Non-spec. stimul. ng/ml KQ h bee lOx h. bee 100x KN 2. 5 6. 9% 85. 2% 94.7% 41.1% 1. 25 3, 4% 77. 1% 75. 2% 39.4 0. 625 2. 2% 86.9% 80. 2% 42. 4% Basic allergen concentration is 100 U/ml Normal values: KO < 8% with allergen < 15% Comparison of the patient's results obtained by the procedure described (the basophils <BR> <BR> <BR> stained with anti-IgE, anti-CD123 or anti-203) with the test named BASOTEST available from ORPEGEN Comparison : anti-IgE/CD63 versusBasotesf Patl negative control Spec. stim. Spec. stim. Spec. stim. KO birch celery mixture of grass IgE/CD63 6.0% 93% 95.8% 12.9% Basotest 5. 5% 87. 8% 90% 13. 5% Pat2 negative Spec. stim. Spec. stim. Spec. stim. Spec. stim. control h. bee wasp birch mixture of grass KO IgE/CD63 1.6% 0.9% 63.6% 2.0% 1. 0% Basotest 3.6% 1.0% 68.1% 1.6% 1.3% Comparison : anti-CD123 versus Basotest Pat3 negative control Spec. stim. Spec. stim. Spec. stim. KO DF-acarid DP-acarid mixture of grass CD123/CD63 6.4% 11. 8% 11. 7% 12. 3% Basotest 2. 4% 2.9% 4.2% 11.7% Pat4 negative control Spec. stim. Spec. stim. Non-spec. stim. KO wasp h. bee KN CD123/CD63 2. 3% 8.5% 5. 2% 46.1% Basotest 1. 0% 5. 2% 1. 5% 42.3% Comparison : Basotest versus anti-CD123/CD63, anti-CD203clCD63 PatS negative control Non-spec. control Spec. stim. KO KN dog's epithelium Basotest 3. 5% 78.8% 5.1% CD123/CD63 5. 8% 68. 6% 10.7% CD203/CD63 4, 2% 84. 8% 6. 7% Comparison : anti-IgE/CD63 versus Basotest, anti-CDl 23/CD63, antiCD203c/CD63 Pat6 CD123 or negative control Non-spec. control Spec. stim. CD203/IgE KO KN DF-acarid IgE/CD63 3. 1% 19. 0% 86. 4% Basotest - 5. 4% 19.0% 85.9% CD123/CD63 85% 2. 4% 32.0% 85.3% CD203/CD63 96. 7% 5. 9% 36. 5% 92. 8% Comparison : anti-IgElFITC-CD63/PE, anti-CDI23/PE-CD63/FITC, and CD203clPE-<BR> CD63/FITC.

Hypersensitivity to the h. bee and wasp allergens was tested. The results are illustrated in figures 3-1 to 34 and expressed as percentages of the positive basophils, i. e. of those which are sensitive to an allergen (in the figures, histogram 3 or 6, quadrant 2-cells which bear both the marker of the basophil and the CD63 activation antigen). KO-sample without stimulation (negative control) cell labelling KO wasp h. bee % % % IgE/CD63 5.1 5.0 61. 8 CD123/CD63. 1.5 3.4 56. 6 CD203c/CD63 3. 5 6. 2 50. 3 Normal values: KO < 8% with allergen < 15 % For comparison, specific IgE antibodies against the following allergens have been determined for the patient: wasp 0.35 U/ml h. bee 1.4 U/ml positive are the values > 0.35 U/ml Due to the level of the overall IgE (about 90 IU/ml) all the three modes of staining of the basophils are appropriate, with comparable results.

Staining of the cells with antibodies against IgE (anti-IgE/FITC) and against the activation antigen CD63 (CD63/PE).

Comparison of results : anti-IgElFITC-CD63/PE versus anti-CD123/PE-CDG3/FITC.

Hypersensitivity to the allergens of egg white, cow's milk, and wheat flour has been tested.

The results are illustrated in the figures 4-1 to 4-8 and expressed as percentages of the positive basophils, i. e. of those which are sensitive to the allergen (in the figures, histogram 3 or 6, quadrant 2-cells which bear both the marker of the basophil and the activation antigen CD63), KO-sample without stimulation (negative control). Basophil labelling KO egg white cow's milk wheat flour % % % % IgE/CD63 6. 0 57. 2 62. 6 5. 8 CD 123/CD63 6. 0 57 70. 7 11. 1 Normal values: KO < 8% with allergen < 15 % For comparison, specific IgE antibodies against the following allergens have been determined for the patient: egg white >25 U/ml cow's milk >25 U/ml wheat flour 1.71 U/ml; positive are values >35 U/ml Because of the high level of the total IgE (> 17,800 IU/ml) it is more suitable to stain the basophils with anti-CD123 than with an anti-IgE antibody (its binding to serum. IgE apparently occurs).

The discrepance between the results of the spec. IgE against wheat flour (1.7-possitive) and the non-hypersensitivity found by us confirms our finding that during determination of sIgEs the non-specific binding occurs. The cross-reacting antibodies are simultaneously determined (false positive results), which antibodies have lower affinities and do not often cause clinical reactions. <BR> <BR> <BR> <BR> <BR> <BR> <P>Comparison of the results of activation of the basophils, sIgE and clinical manifestations Allergen: h. bee Patient % of the basophils Specific IgE against Clinical activated honey bee manifestations Ce-I 51.8% 14.6 SSR Ce-D 56. 3% 1. 4 SSR Bo 20% <0.35 SLR Ho 5. 2% <0 35 ? En 6. 2% <0. 35 ? Ben 82% 1. 33 SSR Hav 5.7% <0.35 ? Sev 5. 6% <0. 35 ? Sch 77% >17.5 ? Fru 68.5% >17. 5? Bo 40.8% >17.5 ? Vla 1. 8% <0. 35? V1 1. 7% <0. 35 ? Ja 5. 9% 0. 35 ? Kr 2. 5% 0. 75 ? Pru 78. 9% 0. 52? Tu 2. 0% 0. 65 ? He 8. 2% <0. 35 ? Ha 11. 9% <0. 35 ? Ba 57. 4% 1. 4 SSR Sko 10. 3% 0. 36 ? SSR- severe system reaction, SLR-severe local reaction Positive results: >0.35 U/ml sIgE >15% activated basophils Allergen : wasp Patient % of the basophils Specific IgE against Clinical activated wasp s manifestations Va 88% >17. 5 SSR Ce-I 58% <0.35 SSR Ce-D 59. 9 5. 9 SSR Bo 30% <0. 35 SLR Ho 7% <0. 35 ? En 24. 8% 0. 51 ? Ben 8. 5% <0. 35 ? Hav 57. 8% 7. 33 SSR Sev 58% <0. 35 SSR Sch 86% >17.5 SSR Fru 74, 3% 1. 04 ? Bo 30. 9% 1. 33 ? Vla 3. 2% <0. 35 ? Vu 2. 1% <0. 35 ? Ja 27, 6% 0. 59 ? Kr 71. 5% 0. 75 SSR Pru 78% 0. 35 Tu 7.1% 0.42 ? He 76.1% <0.35 SSR Ha 89% 0. 87 SSR Ba 8. 1% <0. 35 ? Sko 49. 7% <0.35 SSL SSR-severe system reaction, SLR-severe local reaction Positive results: >0.35 U/ml sIgE >15% activated basophils