الفهرس | Only 14 pages are availabe for public view |
Abstract The choice of artificial eye manufacturing technology did not result in a statistically significant difference in the microbiological flora. However, 3D printed acrylic resin, as a material for prosthetic eyes, has shown a potential advantage in reducing colonization by microbial pathogens. All subjective clinical evaluation parameters showed improved results after three months of prosthetic use, emphasizing the need for an adaptation period during which patients’ complaints are alleviated. Compared to the degree of anticolonization ability against pathogenic bacteria, coupled with a significant level of patient comfort. 3D printed acrylic resins showed improved results compared to traditional polymethyl, which indicates their potential as a promising material for manufacturing prosthetic eyes. This technology was proposed to manufacture artificial eyes with the aim of reducing the time and skills required. The average effective time required for fabrication using this technique was 2.5 hours. It relies on professional CT scanning to produce the inner and outer surfaces of the prosthetic eye in 3D, along with digital positioning of the iris that is confirmed by facial scanning. All of these developments make it easier for patients to access high-quality, custom-designed prosthetic eyes. |