The study of abnormal cellular growth and its underlying causes. Scientists investigate genetic mutations, environmental factors, and molecular pathways to understand the mechanisms driving cancer initiation, progression, and metastasis. The insights gained inform strategies for detection, treatment, and prevention.
Reshaping Oncology Research Through Imaging Flow Cytometry
Navigating the World of Extracellular Vesicles
Advancing CAR T Therapies: The Importance of Closed Processes in Manufacturing and Future Innovations
Safety and Innovation: Navigating the Challenges of Antibody-Drug Conjugates
Forever Chemicals: Investigating the Persistence and Impact of Per- and Polyfluoroalkyl Substances in the Environment and Food
How Biotechnological Advances are Transforming Monoclonal Antibody Production
Improving Sustainability in Research Laboratories
Advancements in Multiomics and Lipidomic Analysis: Illuminating Therapeutic Targets and Drug Responses in Various Diseases
Spectral Flow Cytometry: A Comprehensive Tool for Deep Profiling of Cell Populations
T Cell Exhaustion and Immunotherapy
Decoding Disease: Insights from Proteomics in Cancer and Viral Pathogenesis
Visualizing the Dynamics of Cancer Cells: The Power of Translational Imaging
Exosome Production, Isolation and Applications: From Cancer Research to Therapeutic Targets
Volume Electron Microscopy in Life Sciences
Illuminating Cancer Mechanisms Through Confocal Microscopy
Innovative Approaches for Preclinical Development of Biotherapeutics
CRISPR and the Revolution of Cancer Research
Characterization of Extracellular Vesicles as Messengers and Biomarkers
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