Clinical value of circulating tumor DNA for patients with epithelial ovarian cancer.

Abstract

Despite progress in recent years, epithelial ovarian cancer remains a pathology with a poor prognosis, primarily because of late and invasive diagnosis. Conventional follow-up relies on imaging, CA125, and predictive tools such as KELIM-CA125 and the chemotherapy response score. However, these methods are non-specific and result in delays before obtaining results. Recently, many research teams have focused on liquid biopsies, which provide direct access to tumor material in biological fluids. This review examines the clinical potential of circulating tumor DNA (ctDNA) in epithelial ovarian cancer. A systematic search of the PubMed database was conducted. Inclusion criteria were studies published in English, original research articles, reviews, or meta-analyses focused on ctDNA and ovarian cancer. Exclusion criteria included non-peer-reviewed sources, articles with insufficient data, and studies not directly related to the topic. In epithelial ovarian cancer, ctDNA allows quantitative evaluation of tumor burden and qualitative analysis by detecting specific tumor DNA variations, such as epigenetic modifications or genetic mutations. Furthermore, its half-life is less than 2 hours, enabling dynamic monitoring of tumor evolution. This capability could facilitate earlier diagnosis, better screening, and more effective therapeutic follow-up. The qualitative approach also has the potential to predict chemoresistance. Technologies used to detect ctDNA in blood include quantitative polymerase chain reaction, digital polymerase chain reaction, and next-generation sequencing, which allow quantification and identification of DNA molecule modifications. CtDNA is a promising biomarker for epithelial ovarian cancer and could address several challenges in its management. However, further research is needed to establish its role in routine clinical practice, particularly, to identify a detection method that is highly sensitive, specific, and generalizable to a wide patient population.