Abstract
There are multiple applications of molecular tests in clinical oncology. Mutation analysis is now routinely utilized for the diagnosis of hereditary cancer syndromes. Healthy carriers of cancer-predisposing mutations benefit from tight medical surveillance and various preventive interventions. Cancers caused by germ-line mutations often require significant modification of the treatment strategy. Personalized selection of cancer drugs based on the presence of actionable mutations has become an integral part of cancer therapy. Molecular tests underlie the administration of EGFR, BRAF, ALK, ROS1, PARP inhibitors as well as the use of some other cytotoxic and targeted drugs. Tumors almost always shed their fragments (single cells or their clusters, DNA, RNA, proteins) into various body fluids. So-called liquid biopsy, i.e., the analysis of circulating DNA or some other tumor-derived molecules, holds a great promise for non-invasive monitoring of cancer disease, analysis of drug-sensitizing mutations and early cancer detection. Some tumor- or tissue-specific mutations and expression markers can be efficiently utilized for the diagnosis of cancers of unknown primary origin (CUPs). Systematic cataloging of tumor molecular portraits is likely to uncover a multitude of novel medically relevant DNA- and RNA-based markers.
Highlights
Molecular diagnostics is a part of laboratory medicine, which relies on the detection of individual biologic molecules
While the analysis of MSI-H status or inactivation of POLE or POLD1 genes relies on relatively straightforward laboratory tests, the determination of tumor mutation burden in, e.g., lung cancers or melanomas, is more complicated: it is based on the whole exome sequencing, deals with continuous variable and does not have yet established thresholds for clinical decisions (Rizvi et al, 2015; Van Allen et al, 2015)
We are currently witnessing a revolution in medical research, which is attributed to the invention and rapidly increasing uptake of the generation sequencing
Summary
Molecular diagnostics is a part of laboratory medicine, which relies on the detection of individual biologic molecules. Clinical trials on colorectal cancer (CRC) involving antiEGFR antibodies, cetuximab and panitumumab, convincingly demonstrated that these drugs do not render benefit in tumors carrying KRAS or NRAS mutation.
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