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A modified fabrication procedure of retinal explant and optimized formulation of culture medium in a three-dimensional retinal culture system. Chen Xiangwu,Xiaokaiti Maierhaba,Wu Suqian,Yao Wang,You Shuqi,Li Gang,Mo Xiaofen Journal of neuroscience methods BACKGROUND:Three-dimensional culture system of retinal explant is commonly used to study retinal ganglion cell (RGC) axon regeneration in vitro. The retinal explants fabricated by traditional procedure in culture system, however, are usually too small (merely 0.5 × 0.5 mm) to be easily detected or treated by current experimental techniques. Also, the constituents of culture medium have not been fully elucidated. NEW METHOD:A fabrication procedure was developed to enlarge the retinal explants and explore the reasonable concentration of fetal bovine serum (FBS) for evaluating axonal regeneration. RESULTS:There were no significant differences in the density or length of regenerative neurites in the retinal explants fabricated by traditional and modified procedures. Increased FBS concentrations promoted neurite regeneration, decreased RGCs apoptosis, and activated tyrosine kinase B (TrkB) receptors, all reaching a plateau at 1 % FBS. COMPARISON WITH EXISTING METHODS:Compared with traditional procedure, the modified fabrication procedure facilitates application of experimental techniques to retinal explants, increases the efficiency of obtaining observation area of regenerating neurites, and reduces the wastage of retinal tissues. The recommended FBS concentration determined in this study is shown to be more suitable for studying neuronal regeneration. CONCLUSION:The retinal explants made by the modified fabrication procedure are successfully applied to the three-dimensional culture system, and presented several advantages over the traditional one. Furthermore, a preliminary experiment must be performed to determine the suitable concentration of FBS in each study to ensure accuracy and stability of the results obtained from the three-dimension retinal culture system. 10.1016/j.jneumeth.2020.108860