An innovative platform developed by PKU researchers called "cf-EpiTracing" has proved capable of detecting and tracing diseases from as little as 50 μl of human plasma, or roughly a drop of blood. The research, published in Nature on March 4, 2026, was led by Professor He Aibin from the College of Future Technology and Professor Jing Hongmei from the Department of Hematology, PKU Third Hospital.
Why it matters
Current liquid biopsies (a type of blood test) struggle to pinpoint where disease signals originate, limiting their use. This new "cf-EpiTracing" platform overcomes that by capturing detailed epigenetic fingerprints from trace blood samples. It can identify the specific tissues driving a disease, distinguish lymphoma subtypes, and predict patient outcomes better than existing clinical tests, paving the way for earlier, more precise non-invasive diagnoses.
Key Findings
In the field of early diagnosis and screening for colorectal cancer, cf-EpiTracing has delivered impressive results. By integrating multimodal epigenomic features from cell-free chromatin and leveraging machine learning algorithms, cf-EpiTracing reaches an accuracy rate of up to 97.6% in training group samples, and remains robust at 92.2% in independent validation group samples.
In another notable discovery, the technology uncovered that patients with diffuse large B cell lymphoma exhibit stronger signals of CD34-positive cells in their plasma, potentially reflecting bone marrow involvement and disease aggressiveness. This finding offers new insights for lymphoma subtyping and treatment strategies.
Future Implications
Future directions include integrating cf-EpiTracing with other cell-free modalities such as DNA methylation, mutations, and chromatin topology. This multi-omic approach promises unprecedented precision in diagnosing complex diseases and monitoring cellular dynamics during disease progression and treatment in large patient cohorts, potentially transforming non-invasive diagnostics across multiple clinical scenarios.
*This article is featured in PKU News "Why It Matters" series. More from this series.
