Corneal cross-linking was approved by United States Food and Drug Administration for the treatment of progressive keratoconus in April 2016. As this approach becomes more widely used for the treatment of keratoconus and post-laser in situ keratomileusis (LASIK) ectasia, the medical community is becoming more familiar with potential complications associated with this procedure. This article aims to review the reported complications of collagen cross-linking for the treatment of keratoconus and post-LASIK ectasia.
Introduction Corneal laser refractive surgery (CRS) has emerged over the past three decades as a surgical method for correcting or improving vision. In the military, CRS helps warfighters achieve weapon grade vision, which offers a tactical advantage in the deployed environment. As refractive surgery has become more prevalent in both the military and civilian sector, more ophthalmologists need to learn about treatment options as well as management of complications in order to meet increasing patient demand. Currently, little is known about the most effective curriculum for teaching refractive surgery in training programs, and a standardized curriculum does not exist. Since unification of training programs is a Defense Health Agency priority, this study aimed to collect expert consensus on a standardized curriculum for CRS training in the military. Materials and Methods To achieve this goal, the Nominal Group Technique (NGT) was used wherein a panel of experts, currently practicing refractive surgeons involved in military refractive surgery training programs, arrived at consensus on a standardized CRS curriculum. The framework for developing this curriculum is based on Kern’s Six-Step Approach to Curriculum Development. The International Council of Ophthalmology refractive surgery curriculum, National Curriculum for Ophthalmology Residency Training, Accreditation Council for Graduate Medical Education competencies and surgical minimums, and American Academy of Ophthalmology Refractive Surgery Preferred Practice Guidelines were used as the starting materials from which panelists’ consensus was drawn. This consensus-building method allowed for equal representation of experts’ ideas and fostered collaboration to aid in the creation of a robust and standardized curriculum for refractive surgery training programs in the military. Results The panelist experts from this NGT were able to reach consensus on the components of a standardized military refractive surgery curriculum to include generalized and targeted needs assessment, goals and objectives, educational strategies, and curriculum implementation. Conclusion A standardized CRS curriculum is warranted in military training programs. This NGT achieved expert consensus on the goals, objectives, educational methods, and implementation strategies for a standardized CRS curriculum in military ophthalmology residency.
Purpose: To define the factors that affect patient's self-assessed postoperative pain after photorefractive keratectomy (PRK). Methods: Patients who underwent PRK in 2016 were evaluated. Anonymized data collected included patient gender, age, and season at the time of surgery, ablation depth, surgeon status (attending vs. resident), topical tetracaine use, and subjective pain scores at postoperative days (PODs) 1 and 7. Average pain scores and amount of pain medication taken were analyzed for each of the previously mentioned variables. Results: Overall, 231 patients who underwent PRK were analyzed. The mean pain score and SD were 0.78 ± 1.87 on POD 1 and 0.03 ± 0.37 by POD 7. Patients who used topical tetracaine reported significantly higher pain on POD 1 and 7 compared with patients who did not use tetracaine (P < 0.001 and P = 0.038, respectively). No significant differences in pain scores were seen based on surgeon status, ablation depth, gender, and season. Patients who used topical tetracaine took a higher amount of oral pain medication (9.44 ± 6.01) compared with those who did not (7.02 ± 4.71) (P = 0.022). Conclusions: Postoperative pain was significantly elevated in patients who used tetracaine on POD 1 and POD 7. These patients were also more likely to take oral pain medication than those who did not use topical tetracaine. Surgeon status, season, gender, and ablation depth showed no significant differences in subjective pain scores. Oral pain medication should be evaluated to assess efficacy and safety in inhibiting ocular pain after PRK.
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