Résumé
【Objective】 To explore the influence of anti-HLA-Ⅰ with different mean fluorescence intensity (MFI) on the efficacy of HLA-A and -B gene matching platelet transfusion, so as to provide scientific data for clinical platelet gene matching transfusion strategy. 【Methods】 A total of 81 PTR patients had applied for HLA-Ⅰgene matched platelets from the platelet gene database established by our laboratory, and 28 (MFI <5 000) of them needed further avoiding of partial donor-specific antibodies and they were enrolled as the research subjects. According to the platelet MFI value of HLA-Ⅰ antibody-targeting antigen, they were divided into negative transfusion group (MFI <500) (group A) and positive transfusion groups (MFI≥500) ; the latter were further divided into group B (500≤MFI <1 000), group C (1 000≤MFI <3 000) and group D (MFI≥3 000) according to MFI value. Corrected count increment (CCI) in platelet count was used to compare the platelet transfusion effect in 4 groups. 【Results】 Among 28 platelet recipients with MFI <5 000, 19(67.86%) patients successfully received 72 effective transfusions. The first CCI (×109/L) in groups A, B, C and D were 10.27±7.46, 7.58±4.75 (P>0.05), 17.36±7.63 (P>0.05) and -0.77±2.30 (P<0.05), respectively. There was no statistical difference among group A, B and C. 【Conclusion】 The application of HLA-Ⅰ gene matching platelets in PTR patients can adjust the MFI threshold(<2 000) appropriately according to the patient′s condition without compromising the platelet transfusion effect.
Résumé
【Objective】 To establish the HLA-A, -B genotype-matched transfusion strategy for immune-mediated PTR patients based on donor HLA genotyping database, so as to improve the transfusion efficacy. 【Methods】 The serologic cross-match was used to screen immune PTR primarily. 35 PTR patients screened out were subjected to HLA-match. 24 patients were tested for HLA-A, -B genotyping and antibodies against platelet HLA classⅠ, and then received a total of 83 HLA-typed platelet transfusions, based on patient platelet genotype, donor specific antibody (DSA)(priority), and HLA-A, -B cross-reactive groups (CREGs) principle(lower priority). The other 11 patients received a total of 55 HLA-A/B-matched transfusions according to CREGs principle. The clinical information and transfusion outcome were followed up, and the corrected count increment (CCI) was calculated and statistically analyzed. 【Results】 A total of 453 ABO serological cross-matching tests were performed for 35 PTR patients, with 12.94 tests (453/35) per patient, an average of 4.21 (1908/453) donors per test and positive rate of 69.86% (1333/1908). 23 out 24(95.83%) patients, subjected to HLA class I antibody, were positive and each carried (44.37 ± 22.31) kinds of specific antibodies. According to the fluorescence intensity of the antibody in the patient′s serum, the antibody was strongly positive in 17(73.91%) cases, positive 20(86.96%) and weakly positive 23(100%). After 138 HLA-matched transfusions, the first mean CCI value was 14.08 ± 11.12 (23.95 ± 21.28 h), which was significant higher than 1 hour CCI (>7.5 effective) or 24 hours CCI (> 4.5 effective). The responses of DSA avoidance group (CCI of 1st =15.56±11.00)was significant higher than that of non-DSA avoidance group(CCI of 1st =11.86±12.00)(t=2.045, P<0.05). 49.28% of the patients had one or more non-immune factors during platelet transfusion. 【Conclusion】 The HLA-matched platelet transfusion is feasible to prevent and improve immune-mediated PTR. For patients with multiple blood transfusions and positive platelet antibodies, DSA avoidance and CREGs principle combined transfusion strategy can significantly improve the efficacy of blood transfusion and provide accurate platelet transfusion for the clinical.
Résumé
Objective To investigate the factors affecting platelet transfusion efficiency.Methods A total of 102 cases of leuke-mia patients were recruited in the study,whose platelet count were measured before platelet transfusion and 1,24 h after platelet transfusion,then corrected count increment(CCI)values were calculated.By using CCI combined with clinical manifestations,the ef-ficacy of platelet transfusion were evaluated.The platelet antibody were detected before platelet transfusion.Depending on whether there were platelet antibodies,complications,the number of times of platelet transfusion,the types of platelet,patients were grouped and their platelet transfusion efficiency and CCI values were compared.Results The total effective rate of platelet transfusions were 71.6%(73/102 ).Invalid transfusion group had higher platelet antibody positive rate (17.2%)than effective transfusion group (2.7%),the difference were statistically significant(P <0.05).Among the groups of different transfusion times,the tansfusion effi-ciency was statistically different(P <0.05).With the increase of the number of times of platelet transfusion,the platelet transfusion efficiency decreased.Comparison between different types of platelets showed different platelet transfusion efficiency,which was sta-tistically significant(P <0.05).1 h and 24 h CCI value,platelet antibodies and whether patients with complications were related(P<0.05).1 h and 24 h CCI values were both associated with platelet antibodies and complications(P <0.05).Conclusion Platelet antibodies,complications,times of platelet transfusion and types of platelet transfusion are affecting factors of the transfusion effica-cy in patients with leukemia.
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BACKGROUND: Patients with platelet refractoriness as a result of human leukocyte antigen (HLA) alloimmunization can be effectively managed by transfusion of HLA-matched platelets. In this study, we have retrospectively evaluated the effect of HLA-matched platelet transfusion using a hospital based donor pool of 450 HLA typed donors. METHODS: For 17 patients showing platelet refractoriness to random donor platelets [1 hr corrected count increment (CCI) or =7, 500/microliter/m2) was obtained. HLA crossmatch (NIH method) negative patients showed a significantly higher platelet increment compared with crossmatch positive patients (23, 877 vs 10, 823; P=0.000). Although better transfusion effect was obtained in higher grade HLA match of A-B2U by selection of HLA compatible donors according to patients' HLA antibody specificities, an effective platelet increment was obtained in lower grade matches as well. Platelets transfused 24 hours (20, 325 vs 11, 417; P=0.029). CONCLUSIONS: Although many low grade matched donors were selected due to a relatively small size of HLA typed donor pool, effective platelet increments were obtained by selecting platelet donors on the basis of HLA antibody specificity.