47 research outputs found
Chorioretinal Coloboma Complications: Retinal Detachment and Choroidal Neovascular Membrane
PURPOSE:
To report the chorioretinal coloboma, and its association with increased risk of retinal detachment (RD) and choroidal neovascularization (CNV).
METHODS:
This retrospective case series included eyes with chorioretinal coloboma diagnosed between 1995 and 2014 with a focus on RD and CNV as related complications. Cases of CNV were managed with laser photocoagulation or intravitreal injection of bevacizumab. For eyes with CNV, therapeutic success was defined as resolution of the subretinal hemorrhage on fundus examination and resolution of the subretinal and intraretinal fluid on optical coherence tomography (OCT). For eyes with RD, anatomic success following surgical intervention was defined as attachment of the retina at the last follow-up visit.
RESULTS:
Fifty-one eyes of 31 patients with chorioretinal coloboma were identified for review. Bilateral chorioretinal coloboma was present in 64.5% of subjects. RD developed in 15 eyes (29.4%). Among 15 eyes with RD, 4 eyes (27%) had retinal breaks identified within the coloboma, 5 eyes (33%) had retinal breaks outside the coloboma, 2 eyes (13%) showed retinal breaks both inside and outside the coloboma, and in 4 eyes (27%) the causative retinal break was not localized. The overall rate of anatomic success after RD repair was 85.7%. CNV developed in 7 eyes (13.7%) and was located along the margin of the coloboma in all cases. CNV was bilateral in 2 of the 5 affected individuals (40%).
CONCLUSION:
RD and CNV were present in a high percentage of eyes with chorioretinal coloboma in these series. The frequent finding of retinal breaks outside the coloboma bed suggests that vitreoretinal interface abnormalities may play a role in development of RD in these eyes
CONGENITAL TOXOPLASMOSIS ASSOCIATED WITH TRACTIONAL RETINAL DETACHMENT.
PURPOSE: We report a case of congenital toxoplasmosis associated with retinal detachment.
METHODS: A 9-month-old white boy presented a unilateral tractional retina detachment associated with congenital toxoplasmosis retinochoroiditis.
RESULTS: The diagnosis is supported by positive IgG (\u3e400) for toxoplasmosis and intracranial calcification on magnetic resonance imaging, along with positive family history of Toxoplasma infection in the mother.
CONCLUSION: Tractional retinal detachment is an infrequent and unconventional presentation of congenital Toxoplasma infection. Inflammatory interference with normal sequence of vitreous development may explain pathogenesis of tractional retinal detachments in the setting of congenital ocular toxoplasmosis
Chorioretinal Coloboma Complications: Retinal Detachment and Choroidal Neovascular Membrane
PURPOSE:
To report the chorioretinal coloboma, and its association with increased risk of retinal detachment (RD) and choroidal neovascularization (CNV).
METHODS:
This retrospective case series included eyes with chorioretinal coloboma diagnosed between 1995 and 2014 with a focus on RD and CNV as related complications. Cases of CNV were managed with laser photocoagulation or intravitreal injection of bevacizumab. For eyes with CNV, therapeutic success was defined as resolution of the subretinal hemorrhage on fundus examination and resolution of the subretinal and intraretinal fluid on optical coherence tomography (OCT). For eyes with RD, anatomic success following surgical intervention was defined as attachment of the retina at the last follow-up visit.
RESULTS:
Fifty-one eyes of 31 patients with chorioretinal coloboma were identified for review. Bilateral chorioretinal coloboma was present in 64.5% of subjects. RD developed in 15 eyes (29.4%). Among 15 eyes with RD, 4 eyes (27%) had retinal breaks identified within the coloboma, 5 eyes (33%) had retinal breaks outside the coloboma, 2 eyes (13%) showed retinal breaks both inside and outside the coloboma, and in 4 eyes (27%) the causative retinal break was not localized. The overall rate of anatomic success after RD repair was 85.7%. CNV developed in 7 eyes (13.7%) and was located along the margin of the coloboma in all cases. CNV was bilateral in 2 of the 5 affected individuals (40%).
CONCLUSION:
RD and CNV were present in a high percentage of eyes with chorioretinal coloboma in these series. The frequent finding of retinal breaks outside the coloboma bed suggests that vitreoretinal interface abnormalities may play a role in development of RD in these eyes
SURGICAL MANAGEMENT OF TRACTIONAL RETINOSCHISIS ASSOCIATED WITH VITREOUS HEMORRHAGE IN RETINOPATHY OF PREMATURITY.
PURPOSE: The tractional retinoschisis is a poorly understood, rare, and likely underappreciated entity in retinopathy of prematurity. The purpose of this article is to describe clinical findings and surgical management of tractional retinoschisis in retinopathy of prematurity, masquerading as Stage 4 retinopathy of prematurity retinal detachment.
METHODS: A retrospective review of a single case with literature review and case discussion.
RESULTS: In this report, we describe a child with retinopathy of prematurity and tractional schisis, who initially presented with vitreous hemorrhage and was effectively managed by vitrectomy and inner wall retinectomy. At 5 months after vitrectomy, the child demonstrated complete collapse of the retinoschisis with intact posterior pole and brisk light perception.
CONCLUSION: Vitrectomy with or without inner wall retinectomy is effective in the management of tractional retinoschisis
THE CUTTING EDGE OF RETINOPATHY OF PREMATURITY CARE: Expanding the Boundaries of Diagnosis and Treatment.
PURPOSE: To discuss the latest advances and controversies in the diagnosis and care of infants with retinopathy of prematurity (ROP).
METHODS: Literature review.
RESULTS: Retinopathy of prematurity remains a major global issue. Industrialized nations now treat profoundly premature infants with posterior and aggressive disease, and middle-income nations are experiencing ROP epidemics. Remote digital imaging may address the decreasing ratio of ROP providers to premature infants, in addition to improving patient care. Widefield angiography, optical coherence tomography, and the Wnt signaling pathway have provided new insights into ROP pathogenesis. Anti-vascular endothelial growth factor treatment is increasing in popularity, but the dearth of information to guide dosing, unpredictable reactivation, persistent vascular abnormalities, the crunch phenomenon, and the presently unknown effects of systemic vascular endothelial growth factor suppression remain issues to continue investigating. Neurodevelopmental delay has been raised as a potential consequence, but the evidence currently is weak. Vitrectomy is the treatment of choice for Stages 4 and 5. Illumination techniques, ab interno incisions, plasmin-assisted vitrectomy, staged surgery in the interest of corneal clearing for advanced Stage 5, and immediate sequential bilateral vitreoretinal surgery, are useful techniques.
CONCLUSION: We are making progress in ROP management. Our goal as clinicians is to continue expanding the boundaries of our abilities to keep this blinding disease in check globally