Biocompatibility of ocular prosthesis acrylic resin: in vitro and in vivo analysis

The aim of this study was to evaluate the influence of different cycles and methods of white color acrylic resin (AR) for ocular prosthesis on the biocompatibility of human conjunctival cells and on the inflammatory response of rat subcutaneous tissue. For this, AR specimens were prepared in water bath (NRWB), by microwave energy (NRME), and chemically activated (ANR). For in vivo analysis, the inflammatory response of these 3 groups (n=20/group) was assessed in subcutaneous tissue of 20 Wistar rats at 7, 15, 30 and 60 days (d). Inflammatory cells were counted in the tissue adjacent to specimen after staining with hematoxylin and eosin. The immunohistochemical analysis was performed for the detection of IL-1β, IL-6, TNFα, IL-17, and CCL20. For in vitro analysis, different cycles of polymerization for each method were evaluated, with a total of 11 groups (n=8/group). The degree of conversion (DC), MTT, ELISA, real-time RT-PCR and Annexin V and propidium iodide assays were performed. Quantitative data were submitted to Analysis of Variance and Tukey test with a 5% significance. Qualitative data were submitted to visual comparison. In in vivo analysis, there was a moderate inflammatory infiltrate for groups NRME and ANR, and a light infiltrate for the group NRWB after 7 d. The inflammatory infiltrate and the immunolabeling of tested targets decreased gradually during the 60 d. The group NRME exhibited the highest number of inflammatory cells, except for the group NRWB, which presented a higher number of eosinophils and lymphocytes after 15 d, and for the group ANR, where a higher number of macrophages and neutrophils were observed at 15 d and at 60 d, respectively. Groups NRWB and ANR showed higher IL-1β immunolabeling after 7 d. The group ANR had the highest immunolabeling of IL-1β (15 and 30 d), IL-6 (30 and 60 d), IL-17 (15 and 30 d), and TNF-α (7 d). Groups NRWB and NRME showed greater immunolabeling in the periods of 15 and 30 d, while the group NRME had also high results at 60 d. In in vitro analysis, all groups showed cell proliferation higher than 75%. The long cycle of polymerization using microwave energy resulted in lower DC and lower percentage of cell proliferation in the MTT assay and in large release of IL-2. In the Alamar Blue assay, this group had a low percentage of cell proliferation, as well as the group that received a long cycle of polymerization in water bath and groups submitted to chemical activation. A higher release of IL-6 was observed in groups submitted to chemical activation and of IL-23, for the short cycle of polymerization in microwave. Higher TGF β1 gene expression occurred for the group that received long cycle of polymerization in water bath followed by 30 min of storage in water. Higher CASP 9 gene expression occurred for the chemically activated group on bench. It can be concluded that the polymerization by microwave energy (long and short cycles) and by chemical activation resulted in higher inflammatory response. Among methods recommended by the manufacturer, the water bath polymerization showed more satisfactory results. (AU)