期刊
NPJ PRECISION ONCOLOGY
卷 7, 期 1, 页码 -出版社
NATURE PORTFOLIO
DOI: 10.1038/s41698-023-00473-x
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Personalized medicine has revolutionized lung cancer treatment by tailoring therapies to individual patients. However, the complexity of clinical aspects such as tumor molecular profile and treatment resistance poses challenges for physicians. The integration of innovative technologies, such as deep learning and radiomics, has the potential to support clinical decision making and precision therapies in lung cancer treatment.
Personalized medicine has revolutionized approaches to treatment in the field of lung cancer by enabling therapies to be specific to each patient. However, physicians encounter an immense number of challenges in providing the optimal treatment regimen for the individual given the sheer complexity of clinical aspects such as tumor molecular profile, tumor microenvironment, expected adverse events, acquired or inherent resistance mechanisms, the development of brain metastases, the limited availability of biomarkers and the choice of combination therapy. The integration of innovative next-generation technologies such as deep learning-a subset of machine learning-and radiomics has the potential to transform the field by supporting clinical decision making in cancer treatment and the delivery of precision therapies while integrating numerous clinical considerations. In this review, we present a brief explanation of the available technologies, the benefits of using these technologies in predicting immunotherapy response in lung cancer, and the expected future challenges in the context of precision medicine.
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