False positive plasma genotyping due to clonal hematopoiesis

Plasma cell-free DNA (cfDNA) genotyping is increasingly used in cancer care, but assay accuracy is debated. Because most cfDNA is derived from peripheral blood cells (PBC), we hypothesized that nonmalignant mutations harbored by hematopoietic cells (clonal hematopoiesis, CH) could be a cause of false positive plasma genotyping. Experimental Design: We identified patients with advanced NSCLC with , , or mutations identified in cfDNA. With consent, PBC DNA was tested using droplet digital PCR (ddPCR) or next-generation sequencing (NGS) to test for CH-derived mutations. Results: We first studied plasma ddPCR results from 58 -mutant NSCLC patients. Two had G12X detected in cfDNA and both were present in PBC, including one where the mutation was detected serially for 20 months. We then studied 143 plasma NGS results from 122 NSCLC patients, and identified 5 V617F mutations derived from PBC. Additionally, 108 mutations were detected in cfDNA; for 33 of the mutations, PBC and tumor NGS were available for comparison, and 5 were present in PBC but absent in tumor, consistent with CH. We find that most mutations, some mutations, and rare mutations detected in cfDNA are derived from CH not tumor. Clinicians ordering plasma genotyping must be prepared for the possibility that mutations detected in plasma, particularly in genes mutated in CH, may not represent true tumor genotype. Efforts to use plasma genotyping for cancer detection may need paired PBC genotyping so that CH-derived mutations are not misdiagnosed as occult malignancy.