View clinical trials related to Capsule Opacification.
Filter by:Cataract surgery is the most common eye surgery in the world. If the patient with cataract uses spectacles and both patient and surgeon find it beneficial, it is possible to compensate for the spectacles during surgery and thereby obtain a spectacle-free distance vision or spectacle-free near vision. Becoming spectacle free increases quality of life substantially and is one of the primary wishes in cataract patients. Socioeconomically, spectacle free life is beneficial as it reduces fall tendency in the elderly population. Multifocal lenses warrant the possibility of obtaining a spectacle free vision at near, intermediate and distance. It is also possible to obtain spectacle free distance and near vision or distance and intermediate vision by using traditional artificial monofocal lenses but making one eye spectacle free for distance and the other eye spectacle free for near or intermediate vision. Currently, it is not know which procedure is most beneficial for cataract patients. In a recent PhD, the investigators developed a method, Aniseikonia Tolerance Range (ATR), that can assess how much refractive change a patient can endure without impairing stereopsis. The results demonstrated large variation in the tolerance of image difference. This method can be a future tool to assess whether a patient can tolerate the refraction that is considered most beneficial to the patient. The knowledge is important as it can help avoid improper lens choice in cataract surgery and thereby avoid stereopsis problems.
This study aims to compare the effectiveness of Dextenza vs standard of care prednisolone taper after cataract surgery in diabetic patients with regards to controlling post-op inflammation at post-op days 7, 14, and 30.
The objective of this study is to evaluate the efficacy of Diquafosol 3% in the management of dry eyes before and after cataract surgery. Patients with pre-existing dry eyes and planned for cataract surgery will be started on Diquafosol eyedrops prior to surgery and treatment will be continued after cataract surgery. Eligible patients will undergo evaluation of dry eye at baseline and subsequently started on treatment with Diquafosol for the duration of 4 weeks before surgery. Further evaluations will be conducted on the day of surgery and at designated time points during and up to 12 weeks after surgery.
This study will use images of the subjects' corneal endothelium obtained using non-invasive specular microscopy to obtain corneal endothelial cell density, the coefficient of variation in endothelial cell size, and the percentage of hexagonal endothelial cells following routine cataract surgery performed using the standard method of manual capsulorhexis compared to cataract surgery performed using Zepto Precision Capsulotomy System.
This Phase 3 study will evaluate APP13007 in comparison to the matching vehicle placebo in a randomized, parallel-group, double-masked fashion. The subjects will have undergone routine cataract surgery on Day 0 of the study and will be assessed the next day (Post-operative Day; POD1) after uncomplicated surgery for eligibility for randomization to study treatment. The study comprises the Main Study and the Endothelial Cell Sub-study.
To assess the rotation stability of toric intraocular lenses between sitting or routine settings (sitting, going around) after cataract operation.
Early cataract surgery in microcornea/microphthalmia eyes is essential to prevent amblyopia and improve visual outcomes, including stereopsis. However, despite recent advances in pediatric cataract microsurgical techniques, this surgery remains challenging owing to several intraoperative difficulties attributable to the crowded anterior segment in these small, soft, and poorly developed eyes with shallow anterior chambers, and poor pupillary dilation. In this study the investigator aim to report on the changes in the anterior segment biometric characteristics after cataract extraction in eyes with microcornea/microphthalmia with congenital cataract.
This Phase 3 study will evaluate APP13007 in comparison to the matching vehicle placebo in a randomized, parallel-group, double-masked fashion. The subjects will have undergone routine cataract surgery on Day 0 of the study and will be assessed the next day (Post-operative Day 1; POD1) after uncomplicated surgery for eligibility for randomization to study treatment.
- Cataract surgery is commonly performed in elderly patients who are at high risk for developing postoperative cognitive dysfunction. Most cataract surgeries are performed under peribulbar or retrobulbar anesthesia, however, most of the patients require sedation to relieve the perioperative anxiety and induce amnesia. So, many sedative agents can be used especially benzodiazepines which may increase the risk of developing postoperative cognitive dysfunction. - Ketamine can be used as a sedative and analgesic agent in a dose of 0.25 -0.5 mg/kg with certain studies suggesting that it may decrease the risk of postoperative cognitive dysfunction. Similarly, dexmedetomidine can be used as a sedative and analgesic agent with the possibility of decreasing the incidence of postoperative cognitive dysfunction. - this controlled study will compare the effect of ketamine or dexmedetomidine on the POCD of patients undergoing cataract surgery.
Ocular surface disease (OSD), particularly dry eye, is one of the most common conditions seen by ophthalmologists. Dry eye (DE) is a multifactorial disease of the tears and ocular surface that results in symptoms of discomfort, visual disturbance, and tear instability. DE significantly reduces quality of life and affects 5-30% of the population. As the proportion of individuals over age 60 increases because of greater life expectancies, we can anticipate the number of people with dry eye will also increase, which represents a major challenging for aging societies, like the Chilean one. In the last few years clinical research on OSD is being intensely focused on diagnostic criteria, treatment strategies, methods used in diagnosis and better correlations between symptoms and clinical test results. All these lines of interest aim to improve the understanding of alterations and consequences occurring in the ocular surface disorders. Diagnostic testing is greatly valuable both for the detection of early changes due to DE and also to grade the severity of surface disease. The most commonly performed tests include the Schirmer test, tear break up time (TBUT), and ocular surface staining. However, newer point-of-care diagnostics tests such as tear osmolarity and matrix metalloprotease-9 (MMP-9) have been shown to have a high sensitivity and specificity in diagnosing ocular surface dysfunction. Given that ocular surface dysfunction has been shown to have an adverse impact on visual function and can worsen after surgery, it is critical to identify and address any tear film and ocular surface abnormalities before cataract surgery. In the setting of preoperative cataract surgery planning, DE disease and meibomian gland dysfunction can impair critical refractive measures such as keratometry values worsening surgical outcomes. To the best of our knowledge there are no ongoing or published studies that have evaluated DE and OSD as evidenced by either an abnormal tear-film parameter (elevated MMP-9 or abnormal osmolarity), or corneal surface and meibography evaluation findings (using novel non-invasive technology) in patients previous and after cataract surgery.