The present review provides a comprehensive overview of the current state of in vitro cancer studies, focusing on recent advancements and ongoing in cell culture models and analyses techniques. Cancer cells grow in a complex and dynamic environment, interacting with various cellular components, such as stromal cells, cancer-associated fibroblasts, immune cells, and the extracellular matrix (ECM). The ECM provides structural support and unique characteristics essential for tumorigenesis. Accurately modeling this intricate tumor microenvironment and precisely analyzing cell–cell and cell–ECM interactions are crucial for understanding cancer progression and therapeutic responses. Consequently, oncology research is advancing toward a) three-dimensional tumor models, b) single-cell level analyses, and c) live-cell analyses. This review aims to elucidate current knowledge in this field, emphasizing the benefits these innovative approaches offer over traditional two-dimensional models, bulk analyses, and endpoint measurements.
Advancements in Cancer Research: 3D Models, Single‐Cell, and Live‐Cell Techniques for Better Insights / Carnevali, Federica; Forciniti, Stefania; Onesto, Valentina; Siciliano, Anna Chiara; Iuele, Helena; Grasso, Giuliana; da Cruz, Anderson Fraga; Serra, Ilaria; Depalma, Norma; D'Ugo, Stefano; Piscitelli, Prisco; Spampinato, Marcello G.; Gigli, Giuseppe; Camargo de Oliveira, Carolina; del Mercato, Loretta L.. - In: ADVANCED THERAPEUTICS. - ISSN 2366-3987. - 7:12(2024). [10.1002/adtp.202400351]
Advancements in Cancer Research: 3D Models, Single‐Cell, and Live‐Cell Techniques for Better Insights
Iuele, Helena;Depalma, Norma;Piscitelli, Prisco;Gigli, Giuseppe;
2024
Abstract
The present review provides a comprehensive overview of the current state of in vitro cancer studies, focusing on recent advancements and ongoing in cell culture models and analyses techniques. Cancer cells grow in a complex and dynamic environment, interacting with various cellular components, such as stromal cells, cancer-associated fibroblasts, immune cells, and the extracellular matrix (ECM). The ECM provides structural support and unique characteristics essential for tumorigenesis. Accurately modeling this intricate tumor microenvironment and precisely analyzing cell–cell and cell–ECM interactions are crucial for understanding cancer progression and therapeutic responses. Consequently, oncology research is advancing toward a) three-dimensional tumor models, b) single-cell level analyses, and c) live-cell analyses. This review aims to elucidate current knowledge in this field, emphasizing the benefits these innovative approaches offer over traditional two-dimensional models, bulk analyses, and endpoint measurements.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
