GC Genome Study Identifies 'Confounders' Interfering with Cancer Signals to Improve Liquid Biopsy Accuracy
YONGIN, South Korea, Dec. 9, 2025 /PRNewswire/ -- GC Genome, a leading clinical genomics and liquid biopsy company, announced that its study analyzing cell-free DNA (cfDNA) fragmentation patterns in 1,154 healthy individuals has been published in Clinical Chemistry (Impact Factor 6.3, 2025). The findings reveal key physiological factors that can interfere with cancer-associated cfDNA signals, offering a foundation for improving the accuracy of liquid biopsy tests.
The study, conducted in collaboration with Professor Min-Jung Kwon and her team at Kangbuk Samsung Medical Center, examined correlations between cfDNA fragmentomic profiles and 65 clinical variables, including age and liver function markers. The goal was to identify potential confounders that could influence cfDNA-based cancer detection in individuals without cancer.
Study Overview
- Healthy cohort: 1,154 noncancerous individuals who underwent routine health checkups
- Clinical variables included: 65 demographic, hematologic, and biochemical parameters
- Three fragmentomic features were derived: cfDNA concentration, short-fragment ratio (SFR), and frequency of cancer-enriched motifs(CEMs)
Key Findings
- Liver enzymes(including AST, ALP, γ-GTP) and age were identified as major factors altering cfDNA fragmentation patterns.
- Elevated AST or age closely resembled cancer-like fragmentomic signatures, blurring the distinction between noncancer and cancer profiles.
- AST showed high similarity to fragmentation size patterns seen in lung cancer patients (cosine similarity = 0.98).
- Age showed the highest similarity to cancer-like profiles among clinical variables (cosine similarity = 0.52).
- Receiver Operating Characteristic (ROC) analysis confirmed that these physiological variables can act as confounders by reducing the specificity of cfDNA-based detection, potentially leading to false-positive results.
These findings demonstrate that non-cancer physiological factors can influence cfDNA signals, underscoring the need for confounder-aware modeling approaches in liquid biopsy development.
A GC Genome spokesperson stated:
"This study is significant because it uses large-scale data from healthy individuals to identify key confounders that influence cfDNA fragmentation patterns. These insights will play an important role in refining our Multi-Cancer Early Detection (MCED) test, ai-CANCERCH, particularly in reducing false-positive rates and improving test specificity."
About ai-CANCERCH
Launched in September 2023, ai-CANCERCH is an AI-based multi-cancer early detection(MCED) test powered by Lc-WGS. Using just 10 mL of blood, the test detects signals associated with multiple cancers. A major upgrade—expanding from 6 detectable cancers to 10 cancers (colorectal, lung, esophageal, liver, ovarian, pancreatic, biliary, breast, gastric, and head-and-neck)—is planned for January 2026.
About GC Genome
GC Genome is a leading diagnostics company that aims to connect the care and cure to the world by offering genetic diagnosis services for Oncology, Pre&Neonatal, Rare Diseases, and Health Check-ups and suggesting personalized treatment for longer and healthier lives. Established in 2013 as a GC company, GC Genome operates a CAP-accredited laboratory and places the utmost emphasis on R&D. With steadfast partnerships established worldwide, GC Genome has shown impressive growth momentum, continually expanding our testing capacities.
GC Biopharma Contacts (Media)
Sohee Kim
shkim20@gccorp.com
Yelin Jun
yelin@gccorp.com
Yoonjae Na
yjy6520@gccorp.com
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SOURCE GC Genome