P143 Development and validation of LSAB MFI cutpoints for use in the virtual crossmatch test to predict flow cytometry crossmatch (FCXM) and cdc crossmatch (CDC XM) results

Aim Luminex Single Antigen bead assay (LSAB) derived mean fluorescence intensity (MFI) values of anti-HLA antibodies directed at the potential donor’s HLA are the primary parameter used in the virtual crossmatch to predict physical crossmatch (XM) outcome. We aimed to develop statistically validated LSAB MFI cutpoints for predicting CDC XM and FCXM results. Methods We leveraged the ASHI proficiency testing (PT) 80% consensus results of 7156 T FCXM, 6758 B FCXM, 2917 T CDC XM and 2233 B CDC XM as the reference results to investigate whether LSAB MFI of IgG anti-HLA antibodies predict validated physical XM results. LSAB MFI was determined in our laboratory using One Lambda Single Antigen HLA Class I and Class II beads. The 80% consensus results are from 8 consecutive challenges during 2013 to 2016, and 107 laboratories across USA tested sera and HLA typed cells distributed by ASHI, and reported the results to ASHI for assessment of the laboratory’s proficiency. Data analysis included: summing of MFI of IgG antibodies directed at HLA-A, B and C for investigating their association with T FCXM and T CDC XM results; summing of MFI of antibodies directed at HLA-A, B, C, DR, DQ and DP for investigating their association with B FCXM and B CDC XM results; assigning alternate ASHI challenges to the Discovery set and the Validation set; investigating the association between LSAB MFI and physical XM results by logistic regression analysis corrected for overdispersion; and identification of LSAB MFI cutpoint for maximizing the sum of sensitivity and specificity. LSAB MFI cutpoints derived from the Discovery set to predict FCXM and CDC XM results were investigated in an independent validation set. Results Table 1 demonstrates that LSAB MFI cutpoints from the Discovery set predicts XM outcomes in the Validation set (ROC AUC range from 0.974 to 0.999). Conclusions We have developed and validated LSAB MFI cutpoints for use in the virtual crossmatch to accurately predict physical T FCXM, B FCXM, T CDC XM and B CDC XM results.