Resin three-dimensional (3D) printing is an increasingly popular manufacturing and prototyping method used to create microphysiological systems (MPS), but resin cytotoxicity significantly hinders its adoption, especially when sensitive cell models are incorporated. The mammalian oocyte and early preimplantation embryo consist of cells that are highly sensitive to toxicants and thus represent stringent cell-based models for biocompatibility testing. We developed a Multi-Endpoint Oocyte Safety Assay (MEIOSA) to evaluate the biocompatibility of four ISO 10993 biocompatible BioMed resins (Clear, Durable, Elastic 50A, and Flex 80A). MEIOSA assesses the viability, morphology, meiotic stage, and meiotic spindle morphology of the oocyte after in vitro maturation (IVM). Oocytes were in vitro matured in plate inserts 3D printed with the four BioMed resins. Oocytes cultured in rigid resins (Clear and Durable) or elastomeric resins (Elastic 50A, and Flex 80A) exhibited impaired meiotic progression and complete oocyte degeneration, respectively, relative to controls cultured in polystyrene which matured normally. To determine whether such cytotoxicity could be prevented, we coated the resin inserts with a 5-micron impermeable Parylene-C (PC) barrier. PC coating completely rescued the degeneration and meiotic maturation defect phenotypes for all resins. Remarkably, when the most cytotoxic material (Flex 80A) was coated with PC, the resulting eggs were fertilization-competent and produced embryos capable of normal preimplantation development via in vitro fertilization. Our findings demonstrate that standardized viability-based biocompatibility tests do not identify cytotoxic effects for all cell types and establish MEIOSA as a high sensitivity test model to robustly evaluate biomaterial biocompatibility. Furthermore, PC coating prevents the toxic effects of all resin-3D-printed materials tested, opening up a new toolbox to create MPS compatible with reproductive, and by extension, other sensitive cell cultures.
Campo, H., Tran, U., Zhu, Y., Lee, H. C., Duncan, F.
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