View clinical trials related to Retinal Perforations.
Filter by:The overall five-year goals of the project are to develop novel technology to provide actionable new information through provision of live volumetric imaging during surgery, improving surgical practice and outcomes. The investigators believe this technology will enable novel ophthalmic and other microsurgeries not possible due to current limitations in surgical visualization.
This study evaluates the surgical outcomes of inverted internal limiting membrane insertion combined with air tamponade in the treatment of macular hole retinal detachment (MHRD) in high myopia, and also to compare the treatment efficacy and safety between different surgical approaches of MHRD
Some alterations of the foveal contour do not meet the criteria established for the definition of lamellar macular hole on the basis of optical coherence tomography (OCT). However, these alterations may show an appearance, on blue fundus autofluorescence (B-FAF) imaging, reminiscent of lamellar macular hole. The aim of the study is to evaluate in detail these alterations recording simultaneously OCT and B-FAF.
The purpose of this study is to determine the effects of two different internal limiting membrane peeling with distinct diameters after macular hole surgery on anatomical closure grades.
Optical coherence tomography (OCT )provides high resolution information regarding the anatomic structure of the tissues of the eye in a cross-sectional and 3 dimensional view. Much of this information is not able to be visualized by a clinician. Utilizing this information during surgery will allow for the ophthalmic surgeons to better understand how surgical procedures impact the anatomic structure of the eye. In this study an OCT device that has been built into the microscope (rather than mounted on the side or held in the surgeon's hand) and will be utilized to take images at various milestones during surgery to assess feasibility and potential utility of this technology. Since it is built into the microscope, there are potential significant advantages over a separate system including increased efficiency, improved working distance, and the ability to visualize tissue-instrument interactions.
The purpose of this study is to determine the effectiveness of intravitreal autologous platelet concentrate (APC) injection during the surgery for refractory macular holes.
Clinical Retina research studies often collect aqueous samples in hopes of estimating levels of drug or cytokines in the vitreous. Little is known about how well vitreous and aqueous correlate. This study will collect vitreous and aqueous samples at the same time to evaluate and compare drug and cytokine levels. The overall objective of this study is to evaluate the molecular concentration of growth factors, cytokines and chemokines in human aqueous humor and vitreous samples collected from individuals undergoing pars plana vitrectomy for tractional retinal detachment secondary to proliferative diabetic retinopathy, exudative or tractional retinal detachment secondary to macular degeneration, macular hole or neovascular glaucoma.
Since Kelly and Wendel first reported successful closure of idiopathic macular holes (MH) by vitrectomy in 1991, many surgical modifications have been made to improve the anatomical and visual outcomes of this surgery. Recently, internal limiting membrane (ILM) peeling has become used widely as an adjunctive procedure during MH surgery because the removal of ILM is thought to reduce the tangential traction on the macula, a major factor in the pathogenesis of idiopathic macular holes. However, the role of ILM peeling in macular hole surgery is not yet well defined. To the best of our knowledge, there is no meta-analysis on comparison of the efficacy of ILM peeling and suture for MH surgery. This study reviewed the published literature comparing surgical results with and without ILM peeling and and performed a meta-analysis to determine whether there is any benefit or detriment anatomically and/or visually.
The purpose of this study is to evaluate the efficacy and safety of surgical treatment of FTMH using an inverted ILM repositioning to improve anatomical and functional outcomes in patients with a macular hole.
This study is designed to verify hypothesis that early vitrectomy may prevent impending macular hole from progression to full-thickness macular hole.