Analysis for loss of heterozygosity on chromosome arm 13q by STR analysis or SNP sequencing can replace analysis of FLT3 ‐ITD to detect patients with prognostically adverse AML

We aimed at developing novel assays for Loss of Heterozygosity (LOH) detection on 13q as a substitute for FLT3 ‐ITD analysis to identify acute myeloid leukemia (AML) patients with high risk of shorter survival. To this aim, we first analyzed a selected cohort of 185 patients with ( n  = 138) or without ( n  = 47) FLT3 ‐ITD by short tandem repeat (STR) analysis for 13q LOH. In 46 of 138 FLT3 ‐ITD positive cases, a FLT3 ‐ITD/ FLT3 wt ratio of ≥1 was measured indicating LOH. Applying analysis with a combination of five different STR markers, a threshold of an STR allelic ratio of >65% allows the identification of LOH in 40/46 (87%) samples. Survival analysis revealed significantly inferior outcome in patients with LOH as detected by STR analysis (event free survival (EFS): no LOH: 13.3 months versus LOH: 4.5 months, p  < 0.001; overall survival (OS): no LOH: 35.8 months versus LOH: 9.7 months, p  = 0.001). In multivariate Cox regression analysis, 13q LOH was found to be an independent adverse parameter for EFS and OS ( p  = 0.003 and p  < 0.001, respectively) besides age and white blood cell count. Thus, the prognostic impact of 13q LOH is nearly identical to the one of FLT3 ‐ITD/ FLT3 wt load of ≥1 and thus is a feasible alternative to identify respective patients with high risk AML. In a second approach, a cohort of 91 patients was subjected to a proof‐of‐principle study of applying single nucleotide polymorphism analysis by next generation amplicon sequencing for detection of LOH. 53/91 cases had LOH and 50 were identified with this new method resulting in a positive detection rate of 94.3%. © 2014 Wiley Periodicals, Inc.