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Cell Culture Methodologies and Their Significant Advantages Over Traditional Two-Dimensional Systems in Modeling Complex
Three-dimensional (3D) cell culture techniques are transforming biological research by providing cellular environments that more accurately mimic the structural, biochemical, and mechanical cues found in native tissues and organs, leading to more physiologically relevant experimental outcomes.
Unlike standard two-dimensional (2D) monolayer cultures, 3D models allow cells to interact with each other and with the surrounding extracellular matrix (ECM) in all directions, which profoundly influences cell morphology, gene expression, differentiation, and metabolic function.
The limitations of 2D culture are well-documented; cells grown on a flat, rigid plastic surface often exhibit altered behavior and poor predictive capacity for in vivo scenarios, especially concerning drug efficacy and toxicity. 3D culture overcomes these issues through various methodologies. **Spheroids** and **organoids** are two primary examples. Spheroids are self-assembled clusters of cells that lack the distinct organization of an organ but exhibit cell-to-cell adhesion and nutrient/waste gradients similar to small nodules in tissue. Organoids are more…