Novel microwell with a roof capable of buoyant spheroid culture.

Microwells are used in studies to mimic the in vivo environment through an in vitro environment by generating three-dimensional cell spheroids. These microwells have been fabricated in various shapes using different methods according to the research purpose. However, because all microwells up to now have an open top, it has been difficult to culture spheroids of floating cells due to their low density, such as human adipose-derived stem cells (hASCs) that differentiate into adipocytes. Therefore, the labor-intensive hanging droplet method has been mainly used for the study of adipocytes. Here, we introduce a sigma-well, which is a microwell in the shape of the Greek letter sigma (σ) with a roof. Because of its unique shape, the sigma-well is advantageous for the culture of floating cells by reducing cell loss and external interference. The sigma-well was fabricated using the principle of surface tension of polydimethylsiloxane as well as air trapping and thermal expansion. Unlike conventional microwells, because the center of the bottom surface and the inlet of the sigma-well are not located on the same line and have a difference of approximately 218 µm, the spheroids are cultured more stably and may not escape the cavity. In this study, hASC and adipocyte spheroids differentiated using these sigma-wells were successfully cultured. In addition, through cytokine diffusion simulation, it was confirmed that the diffusion and mass transfer in the sigma-well was lower than that in the conventional microwell. It is expected that the morphological features of the sigma-well, which cannot be easily obtained by other methods, can be beneficial for the study of buoyant cell types such as adipocytes.