View clinical trials related to Vitreomacular Traction.
Filter by:To evaluate the intra-operative efficacy of a new intra-operative viewing device.
Based on the progress of cataract surgery, intraocular lens development, vitreoretinal surgery and anesthesia technology in recent years, the purpose of this study is to develop a new type of more accurate and minimally invasive combined surgery for cataract and fundus diseases, and to evaluate the advantages and value of the surgery as well as related complications, so as to minimize the surgical trauma and obtain faster visual function recovery and better patient comfort. To provide new solutions for the growing demand of eye health care.
The vitreous fills the posterior chamber of the eye and is firmly attached, at the posterior pole, to the macula and the optic nerve head (ONH). With formation of a stepwise posterior vitreous detachment (PVD) exerted tractional forces could influence retinal functioning. Especially in patients with glaucoma the influence of vitreous traction to the ONH could mask progression, interfere with current imaging techniques and even be a cause of ONH hemorrhages. Therefore the aim of this study is to investigate whether vitreopapillary traction has a significant effect on diagnosis and follow up of glaucoma patients.
Epiretinal membranes (ERM) are cellular membranes on the surface of the retina that result in distortion of the vision (metamorphopsia), and decreased best-corrected visual acuity. They are most frequently found in patients over the age of 50 and have a reported prevalence of 7-12%. [1,2] Epiretinal membranes are caused by posterior vitreous separation, retinal detachment, proliferative vitreoretinopathy, cataract surgery, trauma, inflammation, retinal vascular disease, and idiopathic. [1-4] Epiretinal membrane removal by pars plana vitrectomy combined with internal limiting membrane peeling leads to improved vision, decreased metamorphopsia, and improved quality of life after surgery. [2] Internal limiting membrane (ILM) peel has been associated with decreased rates of epiretinal membrane recurrence and is also performed during vitrectomy for repair of macular holes or vitreomacular traction. [5,6] Internal limiting membrane peeling can be performed by using an instrument to make a break in the membrane followed by peeling with forceps, or by utilizing ILM forceps alone to pinch and peel an unviolated ILM. No study exists comparing different intraoperative techniques used for ILM peeling on visual outcomes and operating time. The investigators hypothesize that using a "pinch and peel" technique will equal outcomes with shorter operating time than other techniques. 1. McDonald HR, Johnson RN, Ai E, Jumper JM, Fu AD. Macular epiretinal membranes. Retina, 4th edition, editor Ryan SJ, Wilkinson CP, 2006, p 2509-2525. 2. Ghazi-Nouri SM, Tranos PG, Rubin GS, Adams ZC, Charteris DG. Vitrectomy and epiretinal membrane peel surgery visual function and quality of life following. 2006;90;559-562; Br. J. Ophthalmol 3. Haritoglu C, Gandorfer A, Gass CA, Schaumberger M, Ulbig MW, Kampik A. The Effect of Indocyanine-Green on Functional Outcome of Macular Pucker Surgery. AM. J. Ophthal. VOL. 135,NO.3, 328-337, Mar 2003 4. Hiscott PS, Grierson I, McLeod D. Retinal pigment epithelial cells in epiretinal membranes: an immunohistochemical study. Br. J. Ophthalmol, 1984, 68, 708-715 5. Park DW, Dugel PU, Garda J, Sipperley JO, Thach A, Sneed SR, Blaisdell J. Macular Pucker Removal with and without Internal Limiting Membrane Peeling: Pilot Study. Ophthalmology Volume 110, 1, Jan 2003 6. Kwok AK, Lai TY, Yuen KS. Epiretinal membrane surgery with or without internal limiting membrane peeling. Clinical and Experimental Ophthalmology, 2005, 33:379-385