Clinical Trials Logo

Clinical Trial Summary

The retinal vein occlusion (RVO) is the second most common retinal disease after diabetic retinopathy, and is a common cause of unilateral visual loss. The risk factors that predispose to RVO are many and are generally the same as those found in vascular alterations involving other parts of the body, as in the case of stroke or coronary heart disease. Several authors have attempted to determine whether the pathogenesis of RVO can be of arterial type, considering the disease as consequent to atherosclerosis, rather than resulting from venous disease. Although less frequent than the other diseases RVO affects considerably on health care costs. Direct medical costs showed that in one year a patient with this disease has a higher than average cost for a patient with hypertension or glaucoma. Knowing the prevalence of the disease in Italy and identify modifiable risk factors, recognizing additional risk factors related to gender, genetic predisposition and especially the social-economic and cultural background in the pathogenesis of RVO, are the objectives that led to the planning of this study. In order to assess the prevalence of the disease and the current "clinical practice" we aim to create an online register between Italian specialist centers (ophthalmic emergency care and thrombosis centers) with immediate portability and usability of the data.


Clinical Trial Description

The retinal vein occlusion (RVO) is the second most common retinal disease after diabetic retinopathy, and is a common cause of unilateral visual loss. The occlusion of a branch of the central retinal vein (BRVO) and central retinal vein occlusion (CRVO) are two topics discussed and very deserving of further study, especially for the need of greater clarity arising from the availability of new diagnostic and especially therapeutic opportunities.

The literature on the prevalence of RVO is not particularly rich, and the results of the available studies are very heterogeneous because such studies are conducted on a few cases, using different methodologies and are mainly characterized by a different distribution of risk factors among the different populations. In this regard, it was particularly interesting a publication of 2010 which proposed a combined analysis of the main study population (population based study).

The sample of the final analysis was of 49 869 subjects, and the results showed that the retinal vein occlusion overall prevalence, standardized for age and sex, is 5.2 per 1000, of which 4.42 and 0.80 to BRVO and CRVO respectively. Despite the slightly higher prevalence in females, this difference wasn't statistically significant.

In contrast, the prevalence of venous occlusion increases with increasing age in a statistically significant manner, both in the overall analysis of the occlusions of branch and central, that for the individual entities. This pattern is characteristic of chronic degenerative diseases and in fact the RVO has a behavior very similar to that of these diseases, probably because the risk factors (especially those such as atherosclerosis and systemic hypertension) increases with age.

The results provided by these systematic analysis are particularly important because they provide a reliable estimate of RVO prevalence in general population; must be considered, however, the inherent limitations mainly concerning potential sources of heterogeneity, such as different methodologies used, the fact that most of the studies were carried out on a single ethnic group, often with different distribution of risk factors and therefore were not suitable to capture these differences.

The risk factors predisposing to RVO are many and are generally the same as those found in vascular alterations involving other parts of the body as in the case of stroke or coronary heart disease. Several authors have attempted to determine whether the disease can be consequent to atherosclerosis and therefore caused by arterial disease rather than the pathogenesis of venous disease.

There is a very variable delay between the onset of symptoms and initiation of treatment; the excessive delay of treatment was considered an exclusion criterion in only a minority of the studies considered. Although it is very difficult to estimate the age of the thrombotic event, early identification is surely preferable and the treatment time is a critical factor to evaluate the efficacy of a therapeutic strategy. Because of the relatively small number of patients is not possible to determine which therapy is more effective.

Recently new experimental therapeutic approaches have been proposed, such as intravitreal administration of various drugs (steroids, anti-VEGF). It is not yet clear whether these approaches can eliminate the need for anticoagulant therapy during the acute phase of the disease. Surely antithrombotic drugs may have a role in the treatment of the acute phase of the RVO, at least in some categories of patients, and can be used in association with intravitreal drugs. Future studies should also explore the possibility of combined approaches. The retinal vein occlusion is a disease related to age and surely there will be an increase in social-economic impact of this disease due to the increase in population of the most advanced age group.

To assess the social-economic impact should be considered in addition to visual impairment related to the disease, the impact on quality of life of the patient and the direct medical costs of retinal vein thrombosis have shown that in one year a patient with this disease has an average cost 20% higher than a hypertensive patient (BRVO: + 16%; CRVO: + 22%) or glaucoma ones (BRVO: + 18%; CRVO: + 24%); Therefore, although it is less frequent than the other diseases RVO affects considerably on health care costs. The data available in the literature show that in the overall one year management, direct costs that have the greatest impact, in percentage terms, are the costs associated with ocular pathology caused by acute event (thrombosis) and diagnostic tests. After three years, however, the cost is linked to systemic disease (hospitalization) has a bigger impact in percentage terms, as if to indicate that retinal vein thrombosis is nothing more than an epiphenomenon of systemic disease.

Operating Modes The study will be divided into 4 phases: Step 1: establishment of the network: identification of specialized facilities (ophthalmic emergency care and thrombosis centers), which may accept patients with suspected RVO, which will participate in the establishment of the register online; Step 2: Create the registry and recruitment of patients cohort; Step 3: Follow-up planned (1 month) for instrumental tests to confirm the diagnosis of RVO; Step 4: Observational follow-up supported by dedicated web platform for the identification of major adverse cardiovascular events, in order to export in the context of clinical acquisitions epidemiological and disease management in real time. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT02257333
Study type Observational [Patient Registry]
Source University of Roma La Sapienza
Contact Stefania Basili, MD
Phone 0649974678
Email stefania.basili@uniroma1.it
Status Recruiting
Phase
Start date September 1, 2015
Completion date September 2020

See also
  Status Clinical Trial Phase
Recruiting NCT06262737 - Single-center Study Measuring OSDI Dry Eye Score in Patients Undergoing an Anti-VEGF Induction Protocol
Completed NCT04592419 - A Study to Evaluate the Efficacy, Durability, and Safety of KSI-301 Compared to Aflibercept in Patients With Macular Edema Due to Retinal Vein Occlusion (RVO) Phase 3
Recruiting NCT05133791 - NIR Fluorescence Molecular Imaging of ANXV-800CW in RVO Patients Phase 1
Withdrawn NCT04011358 - Retinal Vein Occlusion and Obstructive Sleep Apnea: A Case Control Study N/A
Completed NCT02898480 - Changes in the Diameter of Retinal Vessels After Remote Ischemic Conditioning N/A
Recruiting NCT01581151 - Ozurdex With Rescue Lucentis for Treating Macular Edema Secondary to Retinal Vein Occlusion N/A
Completed NCT01428388 - Bevacizumab Versus Ranibizumab in Treatment of Macular Edema From Vein Occlusion N/A
Completed NCT00970957 - Safety and Effectiveness of Bevacizumab Intravitreal Injections in the Treatment of Macular Edema Secondary to Retinal Vein Occlusion Phase 3
Recruiting NCT04075695 - Ultra-wide-field Fluorescein Angiography in Patients With Retinal Vein Occlusion
Recruiting NCT03525132 - Study of the Retinal Vascularization by Laser Doppler Velocimetry Coupled With an Adaptive Optics Camera ( AO-LDV) N/A
Recruiting NCT03762226 - Influence of Systemic Parameters in Diabetic Macular Edema - LIPSIA Study
Recruiting NCT04140448 - Ultra-wide-field Fluorescein Angiography in Patients With Macular Edema Secondary to Retinal Vein Occlusion
Active, not recruiting NCT05003258 - Functional and Anatomical Outcomes of Dexamethasone Intra-vitreal Implant in Patients With Resistant Macular Edema Secondary to Retinal Vein Occlusion After Intravitreal Anti-VEGF Injection N/A
Terminated NCT04707625 - Vascular Endothelial Growth Factor (VEGF) Levels in Retinal Vein Occlusion (RVO) During Anti-VEGF Treatment Phase 4
Recruiting NCT04142164 - Computer-based Tutorial and Automated Speech Recognition for Intravitreal Drug Injections N/A
Completed NCT02523339 - Study of Retinal Oxygenation in Central Retinal Vein Occlusion
Active, not recruiting NCT01449682 - Efficacy of an Intravitreal DEX Implant in Retinal Vein Occlusion Following Treatment With Anti-VEGF Injections. Phase 3
Completed NCT01568021 - Post Market Surveillance of OZURDEX® for Branch Retinal Vein Occlusion (BRVO) and Central Retinal Vein Occlusion (CRVO) N/A
Terminated NCT01225146 - Study of 2.0 mg Ranibizumab in Subjects With Ischemic Central Retinal Vein Occlusion (RAVE2) Phase 1
Completed NCT01012973 - Vascular Endothelial Growth Factor (VEGF) Trap-Eye: Investigation of Efficacy and Safety in Central Retinal Vein Occlusion (CRVO) Phase 3