Preanalytical Histology Review Improves POLE Mutation Detection in Endometrial Carcinomas
Preanalytical tissue assessment is an important step in cancer molecular testing; however, its impact on molecular test results has not been systematically evaluated. This study describes a quality-improvement project in which routine histology review was implemented at a US molecular diagnostics laboratory. The effects of implementation on laboratory compliance and the analytical performance of a targeted POLE assay were measured as changes in tumor cellularity documentation, tumor sample enrichment (in samples with <40% tumor cellularity), POLE mutation rate, tumor signal intensity, and repeat-testing rate. Endometrial carcinoma samples (N = 1752) and tested for POLE mutations using a multiplex PCR assay. POLE mutation rates were 6.3% and 5.0% before and after intervention, respectively (P = 0.25), with the mutations most commonly detected being p.Pro286Arg (47%) and p.Val411Leu (21%). Documentation of tumor cellularity increased from 29% to 100%, and the rate of tumor enrichment increased from 1.4% to 31.5% (both, P < 0.0001). Mutation signal intensity increased from 0.32 to 0.58, and the repeat-testing rate decreased from 8.8% to 2.3% (P = 0.004 and <0.0001, respectively). Systematic preanalytical histology review was associated with improved analytical performance of a targeted POLE assay, accompanied by compliance in tumor cellularity documentation, increased tumor enrichment, and decreased repeated testing, supporting preanalytical assessment in improving somatic mutation detection in pathology specimens with low tumor content.
