View clinical trials related to Retinal Hemorrhage.
Filter by:This is a clinical trial in which we will learn about the retinal findings in three clinical groups of children, who might be at risk of having retinal hemorrhages (RH). The aim of the study is to explore the occurrence of moderate to severe retinal hemorrhages in critically ill children, children with intracranial hemorrhages, hydrocephalus or signs of elevated intracranial pressure and in children with benign enlargement of subarachnoid spaces (BESS). 1. Are RHs associated with BESS? 2. What is the prevalence, distribution and extent of RHs in critically ill children? 3. What is the prevalence, distribution and extent of RHs in children with traumatic brain injury? 4. Does the prevalence, distribution and extent of RHs differ in children with witnessed traumatic brain injury from children with traumatic brain injury of unknown origin? 5. To what extent do the causes of RHs affect visual acuity, initially and during recovery? A retinal ophthalmoscopy through dilated pupils will be conducted and a fundus photograph will be taken by a handheld, non-touch camera.
This study is designed to investigate the sensitivity and specificity of the Red Reflex Test (RRT), with and without dilation, for early detection of ocular abnormalities in children and newborns. The RRT functions by shining a light from an ophthalmoscope into a participant's eye and noting the presence or absence of a red glow. Despite its use in pediatric clinics for years, this test at times fails to detect significant ocular diseases, especially located in the back of the eye, threatening visual development in this population. Therefore, the investigators aim to quantify the utility of this test as a tool for screening by comparing these findings on RRT with those of retinal photography. The investigators hypothesize that the sensitivity and specificity of the RRT will be sufficient for detecting anterior segment pathology but will be insufficient for detecting posterior segment pathology with or without dilation.
The purpose of the study is to determine whether use of a robotic system improves the precision and therefore safety of high precision steps in retinal surgery. Two common surgical scenarios (ERM/ILM peel and sub retinal haemorrhage displacement surgery) that require a high degree of precision to avoid damage to the retina have been chosen for this trial. These steps also have been selected because they allow a clearly definable outcome measure e.g. time taken to complete a specific step in the operation. The main issue here is that the patients will be undergoing this procedure regardless of enrolment in the trial - the only difference being that for study participants the surgeon will perform parts of the operation with the assistance of the robot.
Visual impairment in high myopic eyes is mainly due to the different types of myopic maculopathies, such as diffuse or patchy atrophy, lacquer cracks and choroidal neovascularization. Macular hemorrhage was one of those complications. Despite choroidal neovascularization, simple hemorrhage from rupture of Bruch's membrane and choroidal microcirculation is also the cause of hemorrhage. The prognosis of those eyes with simple hemorrhage is generally good. However, some patients had persistently poor vision after the absorption of the hemorrhage. In the literature, the visual prognosis in those patients was reported to be associated with the microstructure change under the optical coherent tomography (OCT) or the presentation of the autofluorescence. The investigators will collect the patients with high myopia and presenting with macular hemorrhage. High resolution OCT and autofluorescence imaging will be used to analyze the change of the microstructure of retina and its correlation with the visual prognosis.
This study will recruit patients who have recently had a submacular haemorrhage (bleed under the part of the retina responsible for detailed vision), as a complication of wet age-related macular degeneration (wet AMD). Wet AMD is a very common disease where abnormal blood vessels form under the retina and leak, causing a significant reduction in vision. The study will investigate treatment of the bleed with various combinations of the two drugs: tissue plasminogen activator (tPA) - designed to dissolve the blood clot; and perfluoropropane (C3F8) - designed to shift the blood clot away from the central part of the retina (the macula). tPA is a commonly used 'clot-buster' drug for the treatment of stroke. C3F8 is a gas commonly used in eye surgery. Patients recruited will be divided into four groups: control group that receive none of the above drugs; one group that receives only tPA; one group that receives only C3F8; and one group that receives both. All patients will receive the current gold standard treatment for wet AMD, ranibizumab (Lucentis®). The aim of the study is to improve vision in a condition, which left untreated, would cause severe visual loss.
Visual outcomes of the eye with large subretinal hemorrhages (bleeding under the retina) due to Age-Related Macular Degeneration (AMD) are poor. The Submacular Surgery Trial (SST) showed that no statistically significant improvement in vision resulted from surgical removal of the layer of abnormal blood vessels causing the bleeding. However, placement of a gas bubble into the gel of the eye along with removal of the blood has shown some success. However, this does not treat the underlying condition of the AMD. Intravitreal injections (into the gel of the eye) of a drug called Lucentis has been shown to be highly effective in the treatment of AMD, yet its penetration through areas of thick blood caused by subretinal hemorrhage is not known. This study is proposing to treat the AMD causing the subretinal hemorrhage with a vitrectomy (surgery involving removing the gel inside the eye, and membrane layers of the eye) followed by Lucentis placed between the layers of the retina and then with or without a gas bubble. In order to determine if the the subretinal Lucentis alone is beneficial, 5 of the 10 patients enrolled will get a gas bubble and the other 5 will not.
Subretinal hemorrhage in the macula causes a significant loss of vision. This hemorrhage can be displaced by the use of a small volume of pure perfluorocarbon gas injected into the vitreous, which expands to a 40% gas bubble in the eye. When the patient gazes 40 to 60 degree below the horizontal, the gas bubble covers the hemorrhage and gravity displaces it rapidly. This position of gaze is easier for the patient than the face down position traditionally recommended.A vector of gravity force tangential to the sclera brings about this displacement. The procedure can improve vision quickly, reduce unwanted degenerative changes in the macula because of the persistent macular hemorrhage and improves the chances of treating of the underlying cause for the subretinal hemorrhage by laser or other means.