Ultraviolet C as a method of disinfecting medical silicone used in facial prostheses: An in vitro study

Statement of problem. Hygiene and disinfection are important factors for preserving facial prostheses and supporting tissue health. However, a method that does not accelerate degradation or color change is necessary. Purpose. The purpose of this in vitro study was to evaluate the effectiveness of irradiation with ultraviolet C light-emitting diode (UV-C LED) light in the disinfection and initial color stability of the silicone (A-588-1; Factor II) used in facial prostheses. Material and methods. One hundred and twenty specimens were made, contaminated by multispecies biofilm, and divided into 5 groups (n=24) with different treatments: control, distilled water, 0.12% chlorhexidine, UV-C LED light, and dimethyl sulfoxide (DMSO) as the negative control. Cell viability was measured by the methyl tetrazolium salt method. Statistical analysis was performed by generalized linear models. Additional descriptive analysis was performed for color analysis by using 16 silicone specimens made with light and dark intrinsic coloring in 4 groups (controls and treatments n=4) submitted to UV-C LED light. The DE of the specimens was obtained by CIEDE200. Results. The results of cell viability demonstrated a statistically significant difference among the groups (P<.001), with a microbial reduction after UVC-LED exposure compared with the control group. Regarding the color, the groups presented an average DE (light 0.205 and dark 0.308) compatible with visually imperceptible changes (light <0.7 and dark <1.2). Conclusions. Irradiation with UV-C LED light decreased the in vitro microbial cell viability of the medical silicone used in facial prostheses, demonstrating initial color stability.

Automated summary

This study evaluated the effectiveness of UV-C LED light irradiation on disinfection and color stability of silicone used in facial prostheses. Results showed a significant microbial reduction and minimal color changes after UV-C LED exposure.