Journal of Cancer and Tumor International

Beyond the human genetic codes, epigenetics also plays a key role in regulating how genes are expressed. While mutations or genes are known to be major causes of cancer, Epigenetic alterations, including DNA methylation, histone modifications, and non-coding RNAs, play critical roles in cancer progression by altering gene expression without involving DNA sequences, yet their complexity challenges traditional analytical approaches. This review aims to elucidate how digital technologies such as artificial intelligence (AI) and machine learning (ML) uncover novel epigenetic patterns beyond DNA mutations, enhancing cancer diagnosis, prognosis, and treatment. A comprehensive literature review was conducted, analysing peer-reviewed studies from rom recent reports on PubMed, Scopus, and bioinformatics databases, focusing on AI applications in several cancers such as breast, lung, and colorectal. Findings reveal that ML algorithms, including random forests, convolutional neural networks, and autoencoders, identify epigenetic signatures some of which are methylation patterns and histone modifications with up to 60–90% of cases with high accuracy. These signatures enable early detection, as demonstrated in a pancreatic cancer study achieving 87% sensitivity using ctDNA methylation. AI-driven multi-omics integration has so far uncovered synergistic interactions, improving metastasis prediction by 15–20% in ovarian cancer. Additionally, AI facilitates personalized epigenetic therapies, with models predicting response to histone deacetylase inhibitors in multiple myeloma with 90% accuracy. However, there are limitations to overcome. Some of which are data heterogeneity and model interpretability which exists in the nuances of machine systems. Ongoing research are currently exploring federated learning and explainable AI to address imminent challenges which would enhance generalizability and clinical trust. Future directions include single-cell epigenomics and AI applications in rare cancers to democratize precision medicine. Collaborative efforts among data scientists, clinicians, and biologists are essential to translate these insights into transformative cancer care.