مقالات پذیرفته شده در هفتمین کنگره بین المللی زیست پزشکی
Bioinformatics-Driven Approaches for Precision Oncology: Revolutionizing Cancer Treatment
Bioinformatics-Driven Approaches for Precision Oncology: Revolutionizing Cancer Treatment
Yousof Bavafa Shandiz,1,*Farzaneh Mohamadi Farsani,2
1. Department of Biology, Naghshejahan Higher Education Institute, Isfahan, Islamic Republic of Iran 2. Department of Biology, Naghshejahan Higher Education Institute, Isfahan, Islamic Republic of Iran
Introduction: In the relentless battle against cancer, an innovative approach called precision oncology has emerged, marking a significant change in treatment strategies customized intricately to the unique genomic characteristics of each tumor. Leading this transformative movement is the interdisciplinary field of bioinformatics, which combines biology, computer science, and statistics, coordinating the analysis and understanding of extensive genomic datasets. By harnessing the potential of bioinformatics, researchers and medical experts smooth the way for personalized cancer care, revealing extraordinary opportunities for progress. This study aims to clarify some of crucial methods that collectively shed light on the path of cancer treatment evolution.
Methods: In this study, we have been focusing on more important bioinformatics approach related to precision oncology for cancer treatment. For this purpose, a total of 56 articles were collected.
Results: In the ever-evolving field of biomedical exploration, a range of innovative methods, including genomic profiling, functional annotation, pharmacogenomics, single-cell analysis, network biology, and drug repurposing, collaboratively drive humanity into an era characterized by the rise of personalized medicine. Genomic profiling, a detailed examination of an individual's genetic makeup, reveals profound insights into the complex mechanisms behind disease causality and progression. Concurrently, functional annotation decodes the intricate interactions and coordination among genes, unveiling the intricate ballet underlying cellular processes. Pharmacogenomics enables the customization of therapeutic approaches in alignment with genetic variations, mitigating the risk of adverse reactions and enhancing treatment effectiveness to unprecedented levels. Meanwhile, single-cell analysis, comparable to an exceptionally high-resolution microscope, delves into previously unexplored intricacies within cellular communities, exposing concealed aspects of disease onset and evolution, and ushering in a new era of precise prognostication. The frontiers of network biology, a complex tapestry woven from molecular interactions, unveil the mysterious realm of intricate biological processes, providing insights into the key drivers of disease pathways and revealing new avenues for therapeutic intervention. In parallel, the strategy of drug repurposing expedites drug discovery by identifying fresh applications for existing pharmaceutical agents, bypassing the convoluted paths of drug development and rapidly translating concepts into revolutionary treatments.
Conclusion: These pioneering techniques synergistically catalyze a revolution across the medical landscape, fostering optimism for treatments that are targeted, effective, and finely tailored to the complexities of diverse ailments. As our understanding of biomedical knowledge continues to expand, interwoven with threads of genomics, computational analysis, and innovative methodologies, the prospect of truly personalized medicine becomes increasingly promising. The convergence of precision oncology and bioinformatics emerges as a forefront of this emerging healthcare era, poised to reshape the trajectory of cancer treatment and, by extension, offering a ray of hope across a spectrum of medical conditions.