Development and Validation of a 3D Clinostat for the Study of Cells during Microgravity Simulation

The clinostat was originally used to find out why plant roots appear to grow predominantly toward the center of the Earth. Over the last 2-3 decades, slow- and fast-rotating 2D and 3D clinostats have been used to assess cellular adaptation to this environment. A cell culture is placed in a spin module of the clinostat platform and its rotation is set empirically (2-3 rpm). The machine is then allowed to run for a specified period (hours to days) after which the cultures are removed and assayed for specific properties, such as cell growth, size and shape, distribution of receptors, integrity of the cytoskeleton or gene expression. A 3D clinostat was developed by the Microgravity Laboratory/IPCT-PUCRS group and validated by the Stem Cell Group of Kingston University London, which used 4 different types of human cancer cells and cord blood stem cells (CBSC). After rotation for 19h at 37degC, 5%CO2 humidified atmosphere, the 3D clinostat significantly improved proliferation potential of all tested cell populations when compared to static cultures. After only 5 days, high definition microscopic analysis revealed that all CBSC adhered and expanded onto the BDtrade 3D collagen composite scaffolds, and cross-developed into hepatocyte-like cells upon stimulation