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Cell Culture Model Evolution and Its Impact on Improving Therapy Efficiency in Lung Cancer.

Viviana RomanMirela Antonela MihailaNicoleta RaduStefania MarineataCarmen Cristina DiaconuMarinela Bostan
Published in: Cancers (2023)
Optimizing cell culture conditions is essential to ensure experimental reproducibility. To improve the accuracy of preclinical predictions about the response of tumor cells to different classes of drugs, researchers have used 2D or 3D cell cultures in vitro to mimic the cellular processes occurring in vivo. While 2D cell culture provides valuable information on how therapeutic agents act on tumor cells, it cannot quantify how the tumor microenvironment influences the response to therapy. This review presents the necessary strategies for transitioning from 2D to 3D cell cultures, which have facilitated the rapid evolution of bioengineering techniques, leading to the development of microfluidic technology, including organ-on-chip and tumor-on-chip devices. Additionally, the study aims to highlight the impact of the advent of 3D bioprinting and microfluidic technology and their implications for improving cancer treatment and approaching personalized therapy, especially for lung cancer. Furthermore, implementing microfluidic technology in cancer studies can generate a series of challenges and future perspectives that lead to the discovery of new predictive markers or targets for antitumor treatment.
Keyphrases
  • high throughput
  • single cell
  • circulating tumor cells
  • cell therapy
  • small molecule
  • papillary thyroid
  • healthcare
  • mesenchymal stem cells
  • bone marrow
  • quality improvement
  • label free
  • lymph node metastasis