View clinical trials related to Capsule Opacification.
Filter by:In this study, the investigators introduce a new "capsule-reserved" cataract surgical procedure in which anterior lens capsule is reserved and attached onto posterior lens capsule in the purpose of preventing posterior capsule opacification (PCO). A prospective randomized controlled study is reported to compare the new "capsule-reserved" surgical procedure with conventional one on the effectiveness to prevent posterior capsule opacification in age-related cataract patients.
The objective of the study was to evaluate the safety and efficacy of OTX-DP (dexamethasone insert) 0.4 mg for intracanalicular use when placed in the canaliculus of the eyelid for the treatment of post-surgical inflammation and pain in subjects who had undergone cataract extraction with intraocular lens implantation
Age-related cataract is the main cause of impaired vision in the elderly population worldwide. The only treatment that can restore functional visual ability is cataract surgery where the opacified crystalline lens is removed by phacoemulsification and an artificial intraocular lens is implanted into the remaining capsular bag. Cataract operations are generally very successful, with a low risk of serious complications. The most common reason for impaired vision after uneventful cataract surgery in otherwise healthy eyes is the development of posterior capsule opacification (PCO). PCO is a physiological change (thickening, opacification and clouding) of the capsular bag expected after cataract surgery, because the lens epithelial cells (LECs) undergo hyperplasia and cellular migration. PCO is treated with Nd:YAG capsulotomy, a quick outpatient procedure that uses a laser to open a central hole in the posterior capsular bag. Modifications in IOL design and material lead to a decrease in the incidence of PCO. During the past two decades, refinements in surgical technique were made resulting in today's small incision phacoemulsification surgery. Nowadays a multitude of microincision IOLs are available, many of them similar but of course with some differences in regard to the chemical composition of the acrylic material and the IOL design. The purpose of this study is to compare the development of posterior capsule opacification (PCO) and the frequency of treatment between two different microincision IOLs over a period of 2 years.
- To Investigate the Prevalence of Capsular Bag Distention Syndrome - To Analyze Influencing Factors of Capsular Bag Distention Syndrome
Although contemporary cataract surgery has made tremendous strides in technological advancement, posterior capsular opacification (PCO) is still the most frequent long-term complication leading to decreased visual functions and thereby dissatisfying results. A great deal of effort has been made to develop new ways to prevent the formation of PCO. A key factor, widely discussed in literature, is the material and design of the intraocular lense (IOL) edge that can lead to PCO prevention. It is still not clear whether the sharp-edged IOL produces less PCO because of its optic geometry alone or whether the biomaterial contributes to the inhibition of PCO. With the clinical introduction of the single‐piece acrylic hydrophobic IOLs with some optic and haptic design differences compared with three‐piece acrylic hydrophobic IOLs, it has become possible to determine the influence of IOL material and design on PCO prevention. It is well established that the development of PCO is a dynamic process and that a longer follow-up time is correlated with a higher degree of PCO. So far, there have been prospective clinical studies on the clinical results of single and three‐piece acrylic hydrophobic foldable IOLs. However, the question as to as to whether the PCO further increases or becomes stable or regresses on a long-term basis has not yet been answered. Since there is paucity of available literature that prospectively evaluates the development of PCO with the implantation of the single-piece SN60AT hydrophobic acrylic IOL on a long-term basis, the investigators decided to observe the degree of development of PCO at 5 years after cataract surgery.
Age-related cataract is the main cause of impaired vision in the elderly population worldwide. The only treatment that can restore functional visual ability is cataract surgery where the opacified crystalline lens is removed by phacoemulsification and an artificial intraocular lens is implanted into the remaining capsular bag. Cataract operations are generally very successful, with a low risk of serious complications. The most common reason for impaired vision after uneventful cataract surgery in otherwise healthy eyes is the development of posterior capsule opacification (PCO). PCO is a physiological change (thickening, opacification and clouding) of the capsular bag expected after cataract surgery, because the lens epithelial cells (LECs) undergo hyperplasia and cellular migration. PCO is treated with Nd:YAG capsulotomy, a quick outpatient procedure that uses a laser to open a central hole in the posterior capsular bag. Modifications in IOL design and material lead to a decrease in the incidence of PCO. During the past two decades, refinements in surgical technique were made resulting in today's small incision phacoemulsification surgery. Nowadays a multitude of microincision IOLs are available, many of them similar but of course with some differences in regard to the chemical composition of the acrylic material and the IOL design. The purpose of this study is to compare the development of posterior capsule opacification (PCO) and the frequency of treatment between two different microincision IOLs over a period of 4 years.
Cystoid macular edema (CME) is a common cause of vision loss after cataract surgery. In the last few years, several new treatments have been tried to address the problem of CME after cataract surgery in diabetic and non-diabetic patients. The investigators will perform a large RCT with the aim to provide more definite evidence-based recommendations for clinical guidelines to prevent the occurrence of CME after cataract surgery in patients with and without diabetes mellitus (DM).
The purpose of this study is to assess the efficacy and safety of OZURDEX (dexamethasone intravitreal implant) 0.7 mg administered immediately after phacoemulsification and intraocular lens implantation in type 1 or 2 diabetic patients to prevent the occurrence of post-surgical macular edema (ME). Treatment group: 24 patients will receive an intravitreal injection of OZURDEX at the end of cataract surgery Patients will be seen at 1 week pre-operatively (baseline visit), and on the same day post-surgery (visit 1), at 1 week (visit 2), 1 month (visit 3) and 3 months (visit 4). BCVA, IOP and SD-OCT will be performed at each visit.
Age-related cataract is the main cause of impaired vision in the elderly population worldwide. In the UK, more than half of people who are over 65 have some cataract development in one or both eyes. The only treatment that can restore functional visual ability is cataract surgery where the opacified crystalline lens is removed by phacoemulsification and an artificial intraocular lens is implanted. It is estimated that around 10 million cataract operations are performed around the world each year. Cataract operations are generally very successful, with a low risk of serious complications. The most common risk is developing a condition called posterior capsule opacification (PCO), which causes impaired vision to return. During the past two decades, cataract surgery underwent tremendous change and modernisation resulting in today's small incision phacoemulsification surgery and a safe technique with a short rehabilitation time for the patient. The most frequent long-term complication of cataract surgery remains to be posterior capsule opacification (PCO). In the past few years, refinements in surgical technique and modifications in IOL design and material have led to a decrease in the incidence of PCO. It has been shown that a sharp posterior optic edge inhibits migration of lens epithelial cells (LEC) behind the IOL optic and therefore have a lower incidence of posterior capsule opacification (PCO). Most IOL designs have open-loop haptics that are connected to the optic towards the end of the production process, also called multipiece designs. For several reasons such as better ease of use with injector systems and higher efficiency in the production process, companies have developed IOLs with open-loop haptics out of one block of material, also called single-piece designs. In the case of such single-piece IOLs, the haptics tend to be much thicker than with multipiece IOLs. A potential drawback of the thick haptics maybe an incomplete closure of the capsule at the optic rim with a reduced bending effect of the posterior capsule around the posterior optic edge. Additionally, the posterior sharp edge is often discontinuous in the region of the haptic-optic junctions. These locations may serve as a scaffold for LECs to migrate behind the IOL optic resulting in PCO. Nowadays a multitude of different single piece IOLS are available, many of them similar but of course with some differences in regard to the chemical composition of the acrylic material and the IOL design. The purpose of this study is to compare the intensity of posterior capsule opacification (PCO) between two different 1-piece foldable hydrophobic acrylic intraocular lenses (IOLs) with different design of the sharp posterior edge within a follow up period of three years.
Age-related cataract is the main cause of impaired vision in the elderly population worldwide. The only treatment that can restore functional visual ability is cataract surgery where the opacified crystalline lens is removed by phacoemulsification and an artificial intraocular lens is implanted into the remaining capsular bag. Cataract operations are generally very successful, with a low risk of serious complications. The most common reason for impaired vision after uneventful cataract surgery in otherwise healthy eyes is the development of posterior capsule opacification (PCO). PCO is a physiological change (thickening, opacification and clouding) of the capsular bag expected after cataract surgery, because the lens epithelial cells (LECs) undergo hyperplasia and cellular migration. PCO is treated with Nd:YAG capsulotomy, a quick outpatient procedure that uses a laser to open a central hole in the posterior capsular bag. Modifications in IOL design and material lead to a decrease in the incidence of PCO. During the past two decades, refinements in surgical technique were made resulting in today's small incision phacoemulsification surgery. Nowadays a multitude of microincision IOLs are available, many of them similar but of course with some differences in regard to the chemical composition of the acrylic material and the IOL design. The purpose of this study is to compare the development of posterior capsule opacification (PCO) and the frequency of treatment between two different microincision IOLs over a period of 3 years.