36 Clinical Trials for Various Conditions
The study objectives were: * To evaluate the efficacy of EDTA 1.3% and 2.6% ophthalmic solution (C-KAD) in improving visual function as assessed by contrast sensitivity; * To evaluate the safety and tolerability of two doses of EDTA ophthalmic solution (C-KAD); and * To determine the optimal clinical dose of EDTA ophthalmic solution (C-KAD) which to proceed into pivotal study(s).
This will be a split-plot design, randomized, parallel, double-masked feasibility study to evaluate the role of a test lens on contrast sensitivity with and without glare.
This is a bilateral, non-dispensing, randomized, cross-over, single-masked study. There are a total of 3 visits where all study endpoints will be measured in all subjects at baseline with habitual lenses and under the two testing treatments sequentially in separate visits based on the randomization scheme
The contrast sensitivity function (CSF) provides a comprehensive characterization of spatial vision and predicts functional vision better than visual acuity, but long testing times prevent its psychophysical assessment in clinical applications. Dr. Luis Lesmes et al. (2010) developed the qCSF method to obtain precise CSF measurements in only 30-50 trials using a computerized software program that presents letters on a large monitor that are identified by a patient similar to typical visual acuity testing with an eye chart. The quick CSF method is a Bayesian adaptive method that estimates the full shape of the CSF, and the test duration is only about 3-6 minutes. Some preliminary testing has been performed at other sites with this test in patients with vision loss due to amblyopia and glaucoma, but data from individuals without eye disease who have normal visual acuity has not been systematically collected with the latest version of this test procedure across a wide range of ages. In addition, we aim to gain a better understanding of the typical test-retest variability that is obtained between-sessions that are about a week apart from individuals with good ocular health and visual acuity.
Evaluate visual outcomes and contrast sensitivity for subjects undergoing bilateral myopic LASIK procedure using the 200 kHz WaveLight® FS200 Femtosecond Laser and the WaveLight® Allegretto Wave® Eye-Q Laser. The use of advanced technology may decrease the loss of contrast sensitivity and improvement of postoperative visual acuity results.
The Spaeth-Richman Contrast Sensitivity (SPARCS) test is a new method of assessing contrast sensitivity. The test, another way to measure vision, is performed on any standard computer with internet access. Patients will be tested with SPARCS and with the standard Pelli-Robson contrast test.
The purpose of this study is to investigate how the addition of a new emulsion artificial tear to the tear layer of dry eye and normal patients affects aberrometry, contrast sensitivity, and reading ability over time. Previous studies have indicated that daily use of artificial tears over a two week period decreases the short term affect of drop application on aberrometry and contrast sensitivity measurements. The present study will examine the effects of 4 weeks of artificial tear use to determine when the responses stabilize.
The purpose of this study is to conduct a prospective assessment of small target contrast sensitivity and disability glare in refractive surgery. Study subjects will undergo the treatment of their choice (PRK or LASIK) and will be evaluated before and after treatment. Evaluations will include best corrected visual acuity, uncorrected visual acuity, psychometric questionnaire, pupil size, biomicroscopic examination, manifest refraction, wavefront measurements, low contrast acuity, and contrast sensitivity at normal and at low luminance with and without disability glare.
This project involves evaluation of post operative contrast sensitivity and wavefront aberration results among patients implanted with standard monofocal lenses (Acrysof SN60AT/SN60WF) and the new presbyopic correcting multifocal lens (Acrysof ReSTOR). Higher Order aberrations are visual phenomena such as glare and haloes. They are more prevalent after cataract surgery and can affect night driving.
The aim of this study is to prospectively document the incidence of CM adverse reactions at the time of ERCP and to determine whether various perceived risk factors are predictive of adverse reaction. Adverse reactions to iodine containing contrast media (CM) have been described after endoscopic retrograde cholangiopancreaticography (ERCP) but have been difficult to study due to their extremely low incidence. Adverse reactions can be classified by severity (mild, moderate or severe) or underlying mechanism (idiosyncratic versus nonidiosyncratic). Nonidiosyncratic reactions are related to the dose and osmolality of the CM; these are not observed during ERCP due to the relative small amount of systemic absorption of CM. Idiosyncratic reactions on the other hand are not dose-dependent and generally occur shortly after administration of CM. Premedication with corticosteroids, H1/H2 -blockers and the use of low osmolality CM is beneficial in preventing nonidiosyncratic reactions during intravascular administration. However their role in during ERCP is unclear as CM is not injected into the intravascular space. Currently there are no formal recommendations and clinical practice varies considerably. The general purpose of this study is to determine the incidence of CM reactions during ERCP and to determine whether various risk factors are predictive of idiosyncratic reactions. Based on these results, we hope to develop guidelines for the use of prophylaxis to prevent CM reactions in ERCP.
Young children rely on their foods and drinks for the nutrients they need to grow, like energy, protein, vitamins, and minerals. In addition to nutrients, there are substances in fruits, vegetables, milk and formula, called phytochemicals, that can support health. While researchers know more about the role of phytochemicals in adult health, researchers know surprisingly little about how phytochemicals can support health in young children. One group of phytochemicals are called the carotenoids. Carotenoids are responsible for the red, orange, and yellow colors in some fruits and vegetables. In adults, carotenoids can support visual function. Researchers also know that measuring levels of carotenoids in the blood or optically in the skin, can serve as an indirect measurement of what child and adults eat. The purpose of this study is to determine how a child's usual intake of carotenoids is related to their visual development and their blood and skin levels of carotenoids. The study involves 6 visits. For each visit, we will ask about the child's recent diet, will measure their body size, collect a blood sample, collect optical measurements of their skin, and will test how sharp their vision is.
Comparing post-operative visual acuity and patient reported satisfaction between Contoura with Phorcides and WaveLight Wavefront Optimized.
The EpiGlare Tester will identify visual disability resulting from the glare experienced by subjects with cataracts in the glare-induced change in best spectacle corrected visual acuity (BSCVA).
The purpose of this study is to compare the results of vision tests that are algorithmically derived and delivered through a virtual reality headset with those delivered through the existing technology standards (eg. Humphrey for field tests). Tests that the researchers will be conducting include vision field perimetry, Amsler, acuity chart, contrast- sensitivity and currently used office tests.
The purpose of this study is to prospectively analyze changes in macular pigment optical density and dermal carotenoid levels as they relate to visual field function in patients prescribed a macular pigment-containing medical food (Lumega-Z), in combination with a topical carbonic anhydrase inhibitor.
Multiple Sclerosis (MS) is a demyelinating disease of the central nervous system (CNS) that can impact all aspects of nervous system function. Currently clinical assessments as part of the standard of care are performed in the health care providers office during regularly scheduled visits and are semi-quantitative or qualitative in nature. The goal of the BeCare Multiple Sclerosis Assessment App is to allow for patient centered, frequent, and quantitative assessments of neurologic function through a mobile App. The BeCare MS App integrates with all Android and Apple operating systems. The investigator's overall goal is to improve well-being of people with MS through accurate assessment of their neurologic function to be used by themselves as well as their health care providers. The purpose of this Clinical Trial is to validate the App based assessments versus Gold-Standard clinical assessments.
This LIGHTSITE III study is a double-masked, sham-controlled, parallel design, prospective multi-site study for the use of PBM as a treatment for visual impairment in subjects with dry AMD.
The research deals with amblyopia or lazy eye, a condition that affects about 3% of the population, and results in a variety of visual deficits. Recent work suggests that there is limited neural plasticity in the visual system of adults with amblyopia. This study is aimed at understanding and increasing this plasticity. In this study, the investigators aim to understand how the amblyopic brain learns and how this process is affected by a drug called donepezil, which is sometimes given as a treatment for Alzheimer's disease. The investigators hope that this study will help to identify the chemical components that help the brain to learn, as well as the mechanism of amblyopia. The investigators also plan to test the normal periphery, as control.
The purpose of this study is to build a database of results from a new test that measures contrast sensitivity (the Spaeth-Richman Contrast Sensitivity Test (SPARCS)). Contrast sensitivity is an important part of your ability to see. When contrast sensitivity decreases, you are less able to see objects and detect motion. For instance, if you have decreased contrast sensitivity, you might be less able to read, see in the dark, drive, hit a ball, or walk safely. Decrease in contrast sensitivity leads to a decrease in quality of life.
Disability glare is described as "halos" or "starbursts" around bright sources of light that can cause discomfort and reduce vision. The cornea is the clear "window" at the front of the eye, but certain conditions such as a previous infection can leave a scar. Corneal scars can cause disability glare by scattering and spreading incoming light instead of allowing it to focus on the back of the eye (retina) to get a crisp image. In this study, the corneal scar will be analyzed using a new device that measures scar density (Pentacam), and a relationship with disability glare will be made. This can help us further understand disability glare and make better decisions in the future on when to treat these scars to help patients see better.
Objective. Bipolar Disorders (BD) are a major public health problem. The investigators still lack knowledge of the mechanisms which contribute to BD. Hence treatments are few and limited, and clinical decision making is less refined. Currently, the investigators are investigating the effects of midday bright light therapy for the treatment of bipolar depression (University of Pittsburgh IRB approved protocol titled Light Therapy for Bipolar Disorder, IRB#: PRO09020546). In this study, the investigators propose to investigate a possible biological mechanism which might explain response to light treatment in depressed bipolar patients.
Purpose of The Study: The purpose of this study is the following: A)To gather age-related normative visual acuity data for the Vimetrics Central Vision Analyzer (CVA, Vimetrics, LLC, Media, Pa) B)To gather visual acuity data for patients with known ocular problems, including cataract and maculopathy. C)To correlate and compare the CVA visual acuity findings with the acuity measured with standard LogMAR acuity charts viewed under similar conditions of contrast and lighting
The objectives of this study are: * To evaluate the efficacy of phentolamine mesylate 0.5% and 1.0% ophthalmic solution (Nyxol) in the treatment of night vision complaints, including reduced contrast sensitivity * To evaluate the ocular and systemic safety of phentolamine mesylate 0.5% and 1.0% ophthalmic solution (Nyxol) compared to its vehicle, a sterile, isotonic, buffered aqueous solution containing mannitol and sodium acetate
This study will evaluate the effects of a novel multi-component dietary supplement on the visual function and retinal structure of patients with diabetes with both no diabetic retinopathy and mild to moderate diabetic retinopathy. This is a placebo-controlled trial and neither subjects nor examiners will know if any given subject is taking active supplement or placebo. The hypothesis is that the supplement will improve visual function and retinal structure in subjects on active supplement
Fifty subjects will be enrolled in this Phase II, investigator-initiated, randomized and blinded cross-over trial of dalfampridine of 8 weeks duration The study will test the hypothesis that dalfampridine, when administered to subjects with incomplete visual recovery after optic neuritis from MS, will result in symptomatic improvement in visual function. The study will consist of one screening/baseline visit, one visit during treatment with active drug, and one visit on placebo. After the baseline visit, subjects will be randomly assigned to receive study medication or placebo for the first three weeks, followed by a two week wash-out, and then treatment reallocation for the latter three weeks.
This study will assess the impact of IOL glistenings on visual quality and function in patients implanted with a single-piece AcrySof intraocular lens (IOL) that exhibits glistening formations. The primary objective is to determine if random light scattering (measured by C-Quant)correlates with severity of glistenings, other objective measures of visual function (visual acuity, low contrast visual acuity, low contrast visual acuity with glare), and subjective measures of patients' perceptions of their visual quality after cataract surgery (quality of life survey, reports of symptomology and satisfaction).
The purpose of this study is: I. To measure MP optical density (MPOD) in two groups (experimental and placebo) of 50 subjects each (N = 100), during an Lutein + Zeaxanthin supplementation period of 12 months. II. To test the hypothesis that increases in MP (via 12 mg daily Lutein + Zeaxanthin supplementation) will result in significantly improved visual performance under disability glare conditions. III. To test the hypothesis that increases in MP (via 12 mg daily L + Z supplementation) will result in significantly reduced photostress recovery times. IV. To test the hypothesis that increases in MP (via 12 mg daily L + Z supplementation) will result in improved contrast enhancement.
The primary objective of the study was to evaluate the effect of Nerispirdine (50 mg or 400 mg) and placebo given orally as a single dose once a week in crossover design on latency of Visual Evoked Potentials (VEP) P100 in optic nerves. Secondary objectives included evaluation of the effect of Nerispirdine on VEP amplitude and other visual parameters including visual acuity and contrast, as well as evaluation of the safety and tolerability of Nerispirdine in patients with Multiple Sclerosis (MS). Contrast sensitivity and visual acuity examinations (in addition to Optical Coherence Tomography \[OCT\] and VEPs) were needed during the screening period for defining etiologic relationships (if non-MS related impairment) and for assessing the effect of treatment of age-related eye disease versus the MS-related vision impairment.
To evaluate if supplementation of zeaxanthin (with or without Lutein) is beneficial to patients with early and moderate Atrophic Age Related Macular Degeneration.
The benefits of artificial tears to relieve dry eye symptoms include, but are not limited to: stabilizing the tear film layer, fluid supplement action, improving visual acuity, and comfort. Studies have found a relationship between some of these benefits. For example, stabilization of the tear film is important not only to increase the tear break up time (TBUT), but is key in improving and maintaining visual acuity. These studies have alluded to the fact that there may or may not be a relationship between residence time and visual performance. Viscosity is one reason behind the uncertainty. Some solutions contain polymers which influence the ocular surface when contacted. This can impact residence time and ultimately visual performance. No prior research has explored the direct relationship between residence time and visual performance. Residence time refers to the duration at which the artificial tear resides on the eye. Methods have been developed to assess residence time by admixing fluorescent tracers to the solution and then measuring the amount of fluorescence over time. The caveat to methods using certain tracers has lead to uncertainty in elimination measurements due to corneal penetration or differing molecular weights (MW) from the active vehicle ingredient in the solution. For example, low-MW tracers can be eliminated at a different rate than higher-MW polymers. In addition, the low-MW tracers may be able to penetrate the corneal epithelium giving a false pre-corneal residence time. Meadows, Paugh, Joshi, and Mordaunt addressed this issue by developing a technique using a polymer which did not penetrate the cornea and had the same MW as the active ingredient in the solution FITC-dextran. Based on the assumption that similar weights are eliminated at the same rate, this technique has shown to be more economic, manageable, and amendable than previous procedures measuring residence time. Any ophthalmic drop has the potential to impact visual acuity upon instillation due to the effect it has on the tear layer components. Studies have observed that taking artificial tears continuously over time tends to stabilize the tear layer thus minimizing the immediate drop in contrast sensitivity upon instillation. Measuring the visual effect of artificial tears, using contrast sensitivity as a measure, provides valuable information about the therapeutic effect of artificial tears that are meant to stabilize the tear film, thus improving visual acuity in dry eye patients. But what about the patient? There is a difference between residence time and retention of effect- which is often what matters the most for patients. Retention of effect refers to the beneficial effect of the drop. Currently there is no real measure of retention of effect. Doctors can assess the tear film objectively, but there have been no strong correlations between subjective dry symptoms and tear film stability. A possible reason for the lack of correlation may be due to the fact that subjectivity is difficult to quantify. However, scales like the Visual Analog Scale (VAS) and Numerical Rating Scale (NRS) have been established in an attempt to quantify subjective experiences such as visual quality. We will be using the NRS to gauge the comfort of the drop upon the initial application to get a general idea of the comfort the drop provides to the user. Although there have been several studies done on residence time and visual effect of ophthalmic formulations separately, there is no current research correlating these two aspects of therapeutic efficacy. This study will be the first to concurrently investigate residence time (using FITC-dextran) and visual effect of an ophthalmic formulation.