PURPOSE: To compare the complication rates and surgical duration between a three-dimensional visualization system (heads-up surgery) and traditional binocular microscope in cataract surgery. METHODS: This retrospective case series included 2,320 eyes that received cataract surgery using either a three-dimensional display system (n = 1,673 eyes) (3D group) or a traditional binocular microscope (n = 647 eyes) (traditional group). The medical records of consecutive patients who underwent cataract surgery by a single surgeon in The Eye Institute of West Florida from August 2016 to July 2017 using either a three-dimensional display system or the traditional binocular microscope for visualization were reviewed. Patients in both groups received either femto-second laser–assisted cataract surgery (FLACS) or traditional phacoemulsification. Complication rate (posterior capsular rapture and vitreous prolapse) and duration of cataract surgery were evaluated. RESULTS: The 3D group had 12 (0.72%) complications and the traditional group had 5 (0.77%) complications ( P > .05). Mean surgical time was 6.48 ± 1.15 minutes for the 3D group and 6.52 ± 1.38 minutes for the traditional group ( P > .05). There was no statistically significant difference in complication rate and duration of surgery between the two groups ( P > .05). CONCLUSIONS: The implementation of heads-up three-dimensional visualization for cataract surgery seems to offer similar safety and efficiency as the traditional binocular microscope. [ J Refract Surg. 2019;35(5):318–322.]
Dysfunctional tear syndrome (DTS) is a common and complex condition affecting the ocular surface. The health and normal functioning of the ocular surface is dependent on a stable and sufficient tear film. Clinician awareness of conditions affecting the ocular surface has increased in recent years because of expanded research and the publication of diagnosis and treatment guidelines pertaining to disorders resulting in DTS, including the Delphi panel treatment recommendations for DTS (2006), the International Dry Eye Workshop (DEWS) (2007), the Meibomian Gland Dysfunction (MGD) Workshop (2011), and the updated Preferred Practice Pattern guidelines from the American Academy of Ophthalmology pertaining to dry eye and blepharitis (2013). Since the publication of the existing guidelines, new diagnostic techniques and treatment options that provide an opportunity for better management of patients have become available. Clinicians are now able to access a wealth of information that can help them obtain a differential diagnosis and treatment approach for patients presenting with DTS. This review provides a practical and directed approach to the diagnosis and treatment of patients with DTS, emphasizing treatment that is tailored to the specific disease subtype as well as the severity of the condition.
Purpose Musculoskeletal pain issues are prevalent in ophthalmic surgeons and can impact surgeon well-being and productivity. Heads-up displays (HUD) can improve upon conventional microscopes by reducing ergonomic stress. This study compared ergonomic outcomes between HUD and a conventional optical microscope in the operating room, as reported by ophthalmic surgeons in the US. Methods An online questionnaire was distributed to a sample of surgeons who had experience operating with HUD. The questionnaire captured surgeon-specific variables, the validated Nordic Musculoskeletal Questionnaire, and custom questions to compare HUD and conventional microscope. A multivariable model was built to identify variables that were likely to predict improvement in pain-related issues. Results Analysis was conducted on 64 surgeons (37 posterior-segment, 25 anterior-segment, and two mixed) with a mean 14.9 years of practice and 2.3 years using HUD. Most surgeons agreed or strongly agreed that HUD reduced the severity (64%) and frequency (63%) of pain and discomfort, improved posture (73%), and improved overall comfort (77%). Of respondents who experienced headaches, or pain and discomfort during operation, 12 (44%) reported their headaches improved and 45 (82%) reported feeling less pain and discomfort since they started using HUD. The multivariable model indicated the odds of reporting an improvement in pain since introducing the HUD in the operating room were 5.12-times greater for those who used HUD in >50% of their cases ( P =0.029). Conclusion This study indicates that heads-up display may be an important tool for wellness in the operating room as it can benefit ophthalmic surgeons across several ergonomic measures.
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