Overview

A Prospective Multicenter Clinical Study of SCCG Protocol and ctDNA 5hmc in Predicting the Chemotherapy Sensitivity and Monitoring the Recurrence and Metastasis of Hepatoblastoma in Children and Adolescents

Status:
RECRUITING
Trial end date:
2028-12-31
Target enrollment:
Participant gender:
Summary
Hepatoblastoma is the most common malignant liver tumor in infants and preschool children, comprising 65% of pediatric liver malignancies in those under 15, with its incidence on the rise in recent years \[1\]. Standard therapy combines surgical resection and chemotherapy: early-stage patients boast a survival rate over 90%, yet high-risk cases only reach around 40%, highlighting unmet treatment needs. Notably, there is no universal definition for high-risk hepatoblastoma. The U.S. COG (AHEP0731) categorizes it as stage 4 disease, AFP \<100ng/ml at diagnosis (any stage), or small cell undifferentiated histology; conversely, SIOP includes factors like major vascular invasion (inferior vena cava/portal vein), intra-abdominal extrahepatic spread, distant metastasis, AFP \<100ng/ml, or tumor rupture, regardless of PRETEXT stage. To improve outcomes, international teams have tested intensified chemotherapy: Europe's SIOPEL reported that escalated cisplatin-doxorubicin regimens lifted high-risk patients' 3-year overall survival to over 80% \[2\], though with heightened toxicity. Similarly, Germany's IPA (ifosfamide-cisplatin-doxorubicin) and Japan's ITEC (ifosfamide-doxorubicin-carboplatin-VP-16) regimens delivered significant survival benefits but also amplified side effects \[3,4\]. Against this backdrop, the Guangdong Anti-Cancer Association's Pediatric Oncology Committee, led by Sun Yat-sen University Cancer Center and involving 15 hospitals, is launching a multicenter prospective trial to identify optimal chemotherapy regimens for Chinese hepatoblastoma children. Parallelly, liquid biopsy has become an oncology research priority, offering four core advantages over tissue biopsy: non-invasiveness (peripheral blood sampling avoids tumor seeding), real-time genetic/progression monitoring (eliminating repeated invasive procedures), comprehensive molecular profiling (overcoming intratumoral heterogeneity), and high accuracy (capturing primary tumor-derived data). Given hepatoblastoma's propensity for early distant metastasis and 30-40% advanced-stage survival (with limited late-stage chemo efficacy), the Nano-5hmC-Seal cfDNA epigenetic profiling method holds promise as a novel biomarker for early diagnosis, treatment prediction, recurrence monitoring, and prognosis assessment in this disease.
Phase:
PHASE2
Details
Lead Sponsor:
Sun Yat-sen University