We have used two hexaplex fluorescent microsatellite assays and analysis on an automatic sequencer to determine allelic imbalance in lung tumors. The markers used are located close to tumor-suppressor genes, DNA repair genes and regions frequently lost in lung cancer. We present a reference interval and quantify the reproducibility of the assays as assessed by multiple repeat reactions for normal DNAs. The cut-off value was calculated to 0.77 (23% reduction of one allele intensity) which, to the best of our knowledge, is currently the lowest reported cut-off. Using these parameters we analysed 85 lung carcinomas. Eighty-three samples (97.6%) showed allelic imbalance in at least one locus. It is of note that by using a selection of only 6 markers, imbalance was detected in 81 (95.2%) of the samples. Loci 9p21 and 9p23 exhibited the greatest imbalance (77% and 75% respectively). The fractional allele loss (FAL) for the 3p markers examined was greater in squamous cell carcinomas than adenocarcinomas (t-test, p=0.0001) while no such difference was observed for 9p. The degree of imbalance of different markers within the same sample was divergent, indicating heterogeneity of genomic status (losses, amplifications, aneuploidy) in these tumors. In conclusion, we have established a robust experimental platform with high throughput, sensitivity and specificity for the detection of allelic imbalance in lung tumors. Such assays may be useful for the detection of allelic imbalance in clinical samples to trace genetically abnormal cells and thus assist in the identification of individuals at a high risk for developing lung cancer.

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