Circulating tumor DNA: a biomarker for oncology drug development in phase I clinical trials?

Abstract

Introduction: Circulating tumor DNA (ctDNA) is a noninvasive and promising biomarker for cancer diagnosis, prognosis, and therapeutic monitoring, offering significant potential for real-time insights into tumor dynamics when compared to traditional tissue-based biopsies. Phase I oncology clinical trials, which primarily focus on assessing the safety, pharmacodynamics, and early activity of novel cancer therapies, might find in the unique biological characteristics of ctDNA, a valuable biomarker to boost the efficiency of testing novel agents.

Areas covered: This review explores the utility of ctDNA as a biomarker in phase I trials, discussing its biological and technical features, clinical relevance, current limitations, and future potential in advancing early clinical drug development.

Expert opinion: Despite being an emerging field in phase I trials, ctDNA analysis has proved to be a remarkable tool for patient inclusion, optimal biological dose determination, and early response assessment. However, several challenges hinder its systematic adoption in early trials, including assay variability, biological and anatomical differences across cancer types, and, most notably, the lack of standardization. Systematic implementation of ctDNA in phase I trials could facilitate the development of robust, reproducible noninvasive biomarker models, which can then be further validated in phae II/III trials.

Keywords: biomarker; ctDNA; liquid biopsy; optimal biological dose; phase I clinical trials.