PURPOSE: To analyze a new bioresorbable orbital implant (open-celled polylactic acid, also known as OPLA). METHODS: The implants were examined macroscopically, with chemical analysis (Fourier transform infrared spectroscopy), and microscopically with scanning electron microscopy. Animal implantation of OPLA implants was carried out in 9 adult male New Zealand albino rabbits. Implant vascularization was evaluated by histopathologic sectioning. RESULTS: The OPLA implant is porous and lightweight but fragile. Histopathologically it stimulated primarily a multinucleated giant cell granulomatous reaction with little fibrovascular ingrowth seen at 4 and 8 weeks. By 20 and 24 weeks, the implant was replaced predominantly by necrotic debris and peripheral giant cells. CONCLUSIONS: The OPLA implant is not an acceptable alternative to other currently available orbital implants.
PURPOSE: To analyze a new bioresorbable orbital implant (open-celled polylactic acid, also known as OPLA). METHODS: The implants were examined macroscopically, with chemical analysis (Fourier transform infrared spectroscopy), and microscopically with scanning electron microscopy. Animal implantation of OPLA implants was carried out in 9 adult male New Zealand albino rabbits. Implant vascularization was evaluated by histopathologic sectioning. RESULTS: The OPLA implant is porous and lightweight but fragile. Histopathologically it stimulated primarily a multinucleated giant cell granulomatous reaction with little fibrovascular ingrowth seen at 4 and 8 weeks. By 20 and 24 weeks, the implant was replaced predominantly by necrotic debris and peripheral giant cells. CONCLUSIONS: The OPLA implant is not an acceptable alternative to other currently available orbital implants.
Authors: Justus P Beier; Dorothee Klumpp; Markus Rudisile; Roland Dersch; Joachim H Wendorff; Oliver Bleiziffer; Andreas Arkudas; Elias Polykandriotis; Raymund E Horch; Ulrich Kneser Journal: BMC Biotechnol Date: 2009-04-15 Impact factor: 2.563