Matthias Fuest1, Yu-Chi Liu2, Gary Hin-Fai Yam3, Ericia Pei Wen Teo4, Hla Myint Htoon3, Minas T Coroneo5, Jodhbir S Mehta6. 1. Tissue Engineering and Stem Cell Group, Singapore Eye Research Institute, Singapore; Department of Ophthalmology, RWTH Aachen University, Aachen, Germany. 2. Tissue Engineering and Stem Cell Group, Singapore Eye Research Institute, Singapore; Singapore National Eye Centre, Singapore. 3. Tissue Engineering and Stem Cell Group, Singapore Eye Research Institute, Singapore; Eye-ACP, Duke-NUS Graduate Medical School, Singapore. 4. Tissue Engineering and Stem Cell Group, Singapore Eye Research Institute, Singapore. 5. Faculty of Medicine, University of New South Wales, Australia. 6. Tissue Engineering and Stem Cell Group, Singapore Eye Research Institute, Singapore; Singapore National Eye Centre, Singapore; Eye-ACP, Duke-NUS Graduate Medical School, Singapore; School of Material Science and Engineering, Nanyang Technological University, Singapore. Electronic address: jodmehta@gmail.com.
Abstract
PURPOSE: Pterygium is a common ocular surface disorder. Conjunctival autografting (CAG) following pterygium resection is the gold standard treatment. CAGs without Tenon's tissue provide better results but are more technically difficult to achieve. In this study, we evaluated the feasibility and reproducibility of femtosecond laser (FSL)-assisted CAG preparation. METHODS: Fifteen porcine globes were fixed in a suction holder and CAGs of different diameters were created by 1) an experienced consultant and 2) a less experienced fellow using the Ziemer LDV Z8. The CAG's dimension was measured and thickness analyzed by optical coherence tomography (OCT) and histology (HE). Statistical analysis was performed by Mann-Whitney-U, Wilcoxon and Spearman-test. RESULTS: FSL-assisted CAGs prepared at 100 μm (146.4 ± 45.7 μm) showed a significantly higher deviation from desired depth (p = 0.04) and a higher variability (p = 0.03) in thickness than those prepared at 60 μm (71.4 ± 12.7 μm). The experienced (68.3 ± 14.3 μm) and inexperienced surgeon (73.9 ± 11.9 μm) produced 60 μm grafts of comparable thickness (p = 0.6) and variability (p = 0.7). The CAG area measured after dissection (37.5 ± 12.1 mm2) did not differ significantly from the FSL settings (40.6 ± 12.7 mm2, p = 0.3). FSL cutting time at 60 μm took 18.1 ± 2.2 s, at 100 μm 20.7 ± 2.4 s. Graft separation time was not significantly influenced by depth or surgeon. No buttonholes or CAG tags occurred during surgery. CONCLUSIONS: The FSL allowed the accurate and reliable preparation of very thin CAGs, independent of surgeon experience and may represent a valuable tool in pterygium surgery.
PURPOSE: Pterygium is a common ocular surface disorder. Conjunctival autografting (CAG) following pterygium resection is the gold standard treatment. CAGs without Tenon's tissue provide better results but are more technically difficult to achieve. In this study, we evaluated the feasibility and reproducibility of femtosecond laser (FSL)-assisted CAG preparation. METHODS: Fifteen porcine globes were fixed in a suction holder and CAGs of different diameters were created by 1) an experienced consultant and 2) a less experienced fellow using the Ziemer LDV Z8. The CAG's dimension was measured and thickness analyzed by optical coherence tomography (OCT) and histology (HE). Statistical analysis was performed by Mann-Whitney-U, Wilcoxon and Spearman-test. RESULTS: FSL-assisted CAGs prepared at 100 μm (146.4 ± 45.7 μm) showed a significantly higher deviation from desired depth (p = 0.04) and a higher variability (p = 0.03) in thickness than those prepared at 60 μm (71.4 ± 12.7 μm). The experienced (68.3 ± 14.3 μm) and inexperienced surgeon (73.9 ± 11.9 μm) produced 60 μm grafts of comparable thickness (p = 0.6) and variability (p = 0.7). The CAG area measured after dissection (37.5 ± 12.1 mm2) did not differ significantly from the FSL settings (40.6 ± 12.7 mm2, p = 0.3). FSL cutting time at 60 μm took 18.1 ± 2.2 s, at 100 μm 20.7 ± 2.4 s. Graft separation time was not significantly influenced by depth or surgeon. No buttonholes or CAG tags occurred during surgery. CONCLUSIONS: The FSL allowed the accurate and reliable preparation of very thin CAGs, independent of surgeon experience and may represent a valuable tool in pterygium surgery.
Authors: Victoria Grace Dimacali; Yu-Chi Liu; Hon Shing Ong; Darren S J Ting; Jodhbir S Mehta Journal: Clin Exp Ophthalmol Date: 2021-02-23 Impact factor: 4.207
Authors: Yu-Chi Liu; Melina Setiawan; Jia Ying Chin; Benjamin Wu; Hon Shing Ong; Ecosse Lamoureux; Jodhbir S Mehta Journal: Front Med (Lausanne) Date: 2021-12-17