Active clinical trials for "Eye Diseases"

The goal of this clinical research study is to find the sentinel lymph node (SLN) (s) and biopsy it (them) to see if the patient has small or low volume metastatic disease that would otherwise have been missed.

Anatomical ophthalmological connections and their dynamics are still debated in the scientific community. However, their considering is essential in many surgeries (strabismus, cataract, refractive...) or in clinical practice. The correlation between these biometric values would make it possible to refine the knowledge related to these landmarks and thus offer better ophthalmological management by integrating these variables into the clinical examination. The aim of the study is to analyze the correlation between the angle lambda and the ocular dominance depth in healthy individuals without ophthalmologic disorder. Then, seconds goals were defined as the study of the relation between the value of the angle lambda and the fixation disparity quantified with the Rousseau test. Relation between ocular dominance measured with the Guillon's test and the Hole-in-car test will also studied.

The objective of this application is to illustrate the core constituents of the ocular surface microbiome, describe factors that promote colonization, and assess the ocular microbiome's role in the health of the anterior segment. We will conduct a prospective, observational cohort study, including a longitudinal analysis of the ocular microbiome in adults.

The IRIS™ Registry (Intelligent Research in Sight) is the nation's first comprehensive eye disease clinical registry. The American Academy of Ophthalmology is developing it as part of the profession's shared goal of continual improvement in the delivery of eye care.The IRIS Registry will be a centralized system for ophthalmology practices to promote practice innovations and achieve clinical excellence.

Background: The National Eye Institute (NEI) wants to evaluate and provide standard treatment to people with eye diseases. Objective: To examine and treat people with eye diseases and learn more about eye diseases and how they are inherited. Eligibility: People with eye diseases who can give consent or have a guardian who can consent for them Design: Participants will be screened with an eye exam. Participants will have 1-12 visits per year depending on their eye disease for up to 5 years. Visits last about 4 hours and could include: Medical and family history Physical exam Eye exam and photography. Oculography: They put on contact lenses or goggles. They watch spots on a computer screen for 20-30 minutes. Electrooculography: Small metal disks are placed on the skin next to both eyes. They look left and right in the dark and light for about 30 minutes. Electroretinography: They sit in the dark with their eyes patched. A small metal disk is taped to the forehead. After 30 minutes, the patches are removed and contact lenses put in. They watch flashing lights. Fluorescein angiography: A needle guides a thin plastic tube into an arm vein. A dye is injected through the tube and travels up the blood vessels in the eyes. Pictures are taken of the eyes. Immunosuppressive treatment Eye cell sample: Samples are obtained from swabbing, pressing paper on, or taking a small biopsy sample from the surface of the eye. Blood tests Skin, tear, urine, saliva, stool, or hair sample Exam under anesthesia for some children At each visit participants could get medications, eye drops, eye injections, laser treatments, or surgery.

Objective: The objective of this study is to identify genetic causes of inherited eye conditions through whole exome or whole genome sequencing (referred to as exome sequencing and genome sequencing in the remainder of the document). This includes identifying mutations in known genes or novel genes for recognized conditions, as well as identifying mutations in novel genes for previously uncharacterized genetic conditions involving the eye. Study Population: We plan to recruit 1,685 participants, to include both participants with an eye condition under study and unaffected family members. Ideally unaffected family members will be parents of an affected participant. Design: Participants will be self-referred or referred by an outside clinician. They will preferably be evaluated at the NIH, but the option to participate offsite will be offered. Participants evaluated onsite will be recruited through other pre-existing NIH protocols, such as the NEI Screening protocol (08-EI-0102), the NEI Ocular Natural History protocol (16-EI-0134), the Genetics of Inherited Eye Disease protocol (15-EI-0128), and the Pathogenesis and Genetics of Microphthalmia, Anophthalmia and Uveal Coloboma (MAC) protocol (13-EI-0049). Offsite participants will be screened via phone or secure videoconference, and records will be requested for evaluation of affected participants.. Both affected and unaffected eligible participants will undergo genetic counseling and will provide a blood sample and/or saliva sample for exome or genome sequencing. Biological relationships will be confirmed prior to exome or genome sequencing. Sequence data will be analyzed for primary variants and secondary findings, unless participants choose to opt-out of secondary analysis and reporting. All sequence variants deemed clinically relevant will be validated in a CLIA-certified laboratory and the results will be returnedto the participant in-person, secure videoconference, or by telephone. Outcome Measures: This is an etiologic study that will generate molecular information about previously-recognized conditions for which participants did not have a molecular diagnosis, as well as molecular information for previously uncharacterized conditions involving the eye.

This study intends to establish a registry cohort to enroll patients with high myopia to study the natural course of myopic optic neuropathy in Chinese adult population.

Aging is a major risk factor for many blind-causing eye diseases, e.g., glaucoma, age-related cataracts, and age-related macular degeneration. With the population aging, the impact of lifestyle changes (less time spent outdoors, increasingly sedentary lifestyles, and unhealthy eating habits) on the eye health of the elderly needs further research. This study focuses on establishing a cohort of elderly subjects with normal vision and ocular structure at baseline. The main goal is to study the risk factors for common eye diseases in Chinese elderly population while providing normal-controlled clinical and genomic data for other clinical studies on eye diseases.

Proposed Study Title: Prevalence of Different Etiologies of Ocular Dryness in Patients Previously Diagnosed with Dry Eye

Mental fatigue occurs in many diseases and the reasons are mostly unknown. The investigators hypothesize that remaining mental fatigue after restored hyperthyroidism in Graves' disease is an autoimmune complication. The aim of this study is to explore immunological markers possibly associated with mental fatigue in Graves' disease, which the investigators plan to validate in another study (ImmunoGraves wp 2). Using a cross-sectional study design, mental fatigue is scored using a questionnaire to find 60 patients with and 60 without mental fatigue 15-60 months after diagnosis of Graves disease. The patients and 60 thyroid healthy controls without mental fatigue are assessed for thyroid hormones, quality of life, anxiety and depression, self-evaluated stress, coping strategies, eye symptoms and background variables. SciLifeLab in Stockholm, the national facility for autoimmune profiling, has pre-set large arrays including 42000 human proteins. Serum and cerebrospinal fluid will be separately pooled and analysed for a subgroup of patients with or without mental fatigue and for a subgroup of the control group. Proteins that preferably bind to antibodies in sera and/or cerebrospinal fluid from Graves' patients with mental fatigue in comparison to non-mental fatigue patients, will be screened against the Human Protein Atlas and the Allen brain map to identify those proteins that are expressed in the brain. Antibodies at higher concentration in the mental fatigue pools compared to the group without mental fatigue will be selected for further analyses on an individual level in the whole cohort together with antibodies targeting g-protein coupled receptors, thyroid autoantibodies, cytokines and biomarkers indicating organic and structural nerve damage.