Advanced diagnostic technologies are driving precision medicine to revolutionize the field of hemato-oncology, that enable personalized treatments based on detailed molecular and genetic profiles. Innovations like next-generation sequencing, digital PCR, and liquid biopsies have reshaped diagnosis, classification, and treatment decisions in hematologic cancers such as leukemia, lymphoma, and myeloma. Each technology offers unique strengths NGS provides broad mutational insights, digital PCR enables ultra-sensitive measurable residual disease detection, and flow cytometry delivers rapid, accessible analysis while also facing specific limitations. This review explores how these tools collectively improve early detection, prognostication, and tailored therapy, enhancing patient outcomes. However, challenges persist, including tumor clonal diversity, microenvironmental influences, and unequal access due to cost and regulatory barriers. Future progress hinges on integrating multi-omics data, enhancing diagnostic accuracy, and expanding accessibility to fully harness personalized hemato-oncology, paving the way for more effective, individualized treatments and improved survival.
Mandefro et al. (Mon,) studied this question.