Litcius/Paper detail

Moving toward precision medicine to predict drug sensitivity in patients with metastatic breast cancer

Michele Bottosso, Fernanda Mosele, Stefan Michiels, Paul-Henry Cournède, Semih Doğan, Chris Labaki, Fabrice André

2024ESMO Open21 citationsDOIOpen Access PDF

Abstract

•Precision medicine aims at personalizing cancer treatment through a deeper understanding of tumor biology.•Genomics and new technological advances are shaping a new treatment algorithm in breast cancer care.•We review the main steps of precision medicine to predict drug sensitivity in breast cancer from a translational point of view.•Current achievements are put into perspective to identify future research directions. Tumor heterogeneity represents a major challenge in breast cancer, being associated with disease progression and treatment resistance. Precision medicine has been extensively applied to dissect tumor heterogeneity and, through a deeper molecular understanding of the disease, to personalize therapeutic strategies. In the last years, technological advances have widely improved the understanding of breast cancer biology and several trials have been developed to translate these new insights into clinical practice, with the ultimate aim of improving patients’ outcomes. In the era of molecular oncology, genomics analyses and other methodologies are shaping a new treatment algorithm in breast cancer care. In this manuscript, we review the main steps of precision medicine to predict drug sensitivity in breast cancer from a translational point of view. Genomic developments and their clinical implications are discussed, along with technological advancements that could broaden precision medicine applications. Current achievements are put into perspective to provide an overview of the state-of-art of breast cancer precision oncology as well as to identify future research directions. Tumor heterogeneity represents a major challenge in breast cancer, being associated with disease progression and treatment resistance. Precision medicine has been extensively applied to dissect tumor heterogeneity and, through a deeper molecular understanding of the disease, to personalize therapeutic strategies. In the last years, technological advances have widely improved the understanding of breast cancer biology and several trials have been developed to translate these new insights into clinical practice, with the ultimate aim of improving patients’ outcomes. In the era of molecular oncology, genomics analyses and other methodologies are shaping a new treatment algorithm in breast cancer care. In this manuscript, we review the main steps of precision medicine to predict drug sensitivity in breast cancer from a translational point of view. Genomic developments and their clinical implications are discussed, along with technological advancements that could broaden precision medicine applications. Current achievements are put into perspective to provide an overview of the state-of-art of breast cancer precision oncology as well as to identify future research directions.

Topics & Concepts

Precision medicineBreast cancerMedicineDiseasePrecision oncologyPersonalized medicineClinical trialClinical PracticeTranslational researchCancer MedicineCancerMetastatic breast cancerMedical physicsOncologyBioinformaticsInternal medicinePathologyBiologyFamily medicineCancer Genomics and DiagnosticsGene expression and cancer classificationAdvanced Breast Cancer Therapies