Novel features of degenerative retinoschisis identified using ultra-widefield multicolor channels: A review of 139 eyes

BACKGROUND/OBJECTIVE

To utilize ultra-widefield multimodal imaging (Optos PLC) to describe novel findings in degenerative retinoschisis.

METHODS

This retrospective, non-comparative case series of degenerative retinoschisis received a waiver of consent from Advarra IRB, Protocol 00066379. Initial ultra-widefield pseudocolour, colour-separated, autofluorescence, and peripheral OCT imaging were analysed for characterizing features.

RESULTS

In total, 139 eyes were included. A hyporeflective reticular pattern associated with retinoschisis was seen on pseudocolour images in 39% of cases, but visible in 53% on green-separated images. Fine hyper-reflective foci were observed in 49%. In 27%, retinoschisis was confirmed with OCT.

CONCLUSIONS

Ultra-widefield pseudocolour and green-separated images are valuable for the diagnosis and characterization of degenerative retinoschisis. The findings described may prompt the evaluation of subtle retinoschisis with peripheral OCT.

Characterization and diagnosis of retinoschisis and schisis detachments using spectral domain optical coherence tomography

PURPOSE

To characterize retinoschisis in a large series using spectral domain optical coherence tomography (SD-OCT), including rates of schisis detachment and macular involvement in cases of peripheral retinoschisis.

METHODS

In this retrospective, cross-sectional, descriptive study, consecutive patients with diagnosis of retinoschisis in at least one eye were identified using billing codes between January 2012 and May 2021. Charts were reviewed to verify diagnosis of retinoschisis or schisis detachment. SD-OCT and clinical examination was used to identify frequency of macular schisis, peripheral schisis, and schisis detachment, and characteristics of retinoschisis including frequency of inner and outer wall breaks, distribution of layers split, and location of involvement of peripheral pathology. SD-OCT images of insufficient quality were excluded from the pertinent analysis.

RESULTS

281 eyes of 191 patients were included. 195 (69.4%) eyes had peripheral retinoschisis, 15 (5.3%) had schisis detachment, 66 (23.5%) had macular retinoschisis alone, and 5 (1.8%) had combined macular and peripheral retinoschisis. Of the eyes without macular retinoschisis, 7.0% had schisis detachment. Of the remainder, 4 (2.1%) had inner wall breaks, and 24 (12.3%) had outer wall breaks. In eyes with peripheral retinoschisis, splitting occurred in the outer plexiform layer in 58.9%, the retinal nerve fiber layer in 8.9%, a combination of layers in 26.8%, and indeterminate in 5.4%. Location of peripheral involvement was inferotemporal in 58.5%, superotemporal in 14.1%, temporal in 13.7%, and inferior in 12.2%.

CONCLUSION

SD-OCT helped to identify the presence of schisis detachment and breaks, confirmed diagnosis in challenging cases, and demonstrated the layer of splitting within the neurosensory retina. This series represents the largest such study to date.

Surgical Outcomes of Progressive Retinoschisis-Related Retinal Detachments: A 17-Year Survey From a Large Academic Center

BACKGROUND AND OBJECTIVE

To provide an overview of progressive retinoschisis-related retinal detachment (RSRD) management at a tertiary referral center.

MATERIALS AND METHODS

Single-institution retrospective case series from January 1, 2003, to May 1, 2020.

RESULTS

Progressive RSRD occurred in 0.9% of patients with retinoschisis. Mean (range) age at time of surgery was 58.7 years (40.0 to 74.0). Ten eyes were initially treated with scleral buckle, three eyes with vitrectomy, and three eyes with combined scleral buckle and vitrectomy. Overall reattachment rate was 100.0%; single-surgery success was 56.2%. Proliferative vitreoretinopathy developed in 10.0% of scleral buckles, 33.3% of vitrectomies, and 33.3% of combined surgeries.

CONCLUSIONS

Progressive RSRD is rare and poses surgical management challenges. Final retinal attachment can be achieved successfully but often requires secondary and staged surgeries. Localization of outer retinal breaks may help guide surgical management. Further research-such as a large-scale, prospective, multicenter, randomized trial-would be needed to determine the optimal surgical technique. [Ophthalmic Surg Lasers Imaging Retina. 2022;53:132-138.].

Diagnosis and Management of Degenerative Retinoschisis and Related Complications

Degenerative retinoschisis is a common condition characterized by elevation of the inner layers of the peripheral retina. While uncomplicated retinoschisis (i.e. with no associated retinal layer breaks) is almost invariably a benign process, retinal detachment associated with isolated outer layer breaks (termed schisis-detachment) is fairly common. Historically, schisis-detachment has been treated with a variety of interventions ranging from retinopexy to intraocular surgery. Based on published descriptions of the natural history of the disease, these interventions are likely unnecessary in many cases and may place the patient's vision at unnecessary risk. Progressive symptomatic schisis-related retinal detachment, on the other hand, is a vision threatening condition that requires intervention. While clinical examination remains the mainstay of diagnosis, recent advances in multimodal imaging can provide supplemental information in subtle cases and may prove valuable for long-term disease monitoring. When evaluating patients with peripheral retinal elevation, it is important for ophthalmologists to make an accurate diagnosis and understand the risk-benefit ratio associated with intervention. Thus, we summarize the current literature on the natural history, clinical and imaging diagnosis, and surgical management of degenerative retinoschisis and its related complications.

Feasibility and Clinical Utility of Ultra-Widefield–Navigated Swept-Source Optical Coherence Tomography Imaging

Purpose:

This work aims to evaluate the clinical utility and feasibility of a novel scanning laser ophthalmoscope-based navigated ultra-widefield swept-source optical coherence tomography (UWF SS-OCT) imaging system.

Methods:

A retrospective, single-center, consecutive case series evaluated patients between September 2019 and October 2020 with UWF SS-OCT (modified Optos P200TxE, Optos PLC) as part of routine retinal care. The logistics of image acquisition, interpretability of images captured, nature of the peripheral abnormality, and clinical utility in management decisions were recorded.

Results:

Eighty-two eyes from 72 patients were included. Patients were aged 59.4 ± 17.1 years (range, 8-87 years). During imaging, 4.4 series of images were obtained in 4.1 minutes, with 86.4% of the image series deemed to be diagnostic of the peripheral pathology on blinded image review. The most common pathologic findings were chorioretinal scars (18 eyes). In 31 (38%) eyes, these images were meaningful in supporting clinical decision-making with definitive findings. Diagnoses imaged included retinal detachment combined with retinoschisis, retinal hole with overlying vitreous traction and subretinal fluid, vitreous inflammation overlying a peripheral scar, Coats disease, and peripheral retinal traction in sickle cell retinopathy.

Conclusions:

Navigated UWF SS-OCT imaging was clinically practical and provided high-quality characterization of peripheral retinal lesions for all eyes. Images directly contributed to management plans, including laser, injection or surgical treatment, for a clinically meaningful set of patients (38%). Future studies are needed to further assess the value of this imaging modality and its role in diagnosing, monitoring, and treating peripheral lesions.

Fundus autofluorescence imaging

Fundus autofluorescence (FAF) imaging is an in vivo imaging method that allows for topographic mapping of naturally or pathologically occurring intrinsic fluorophores of the ocular fundus. The dominant sources are fluorophores accumulating as lipofuscin in lysosomal storage bodies in postmitotic retinal pigment epithelium cells as well as other fluorophores that may occur with disease in the outer retina and subretinal space. Photopigments of the photoreceptor outer segments as well as macular pigment and melanin at the fovea and parafovea may act as filters of the excitation light. FAF imaging has been shown to be useful with regard to understanding of pathophysiological mechanisms, diagnostics, phenotype-genotype correlation, identification of prognostic markers for disease progression, and novel outcome parameters to assess efficacy of interventional strategies in chorio-retinal diseases. More recently, the spectrum of FAF imaging has been expanded with increasing use of green in addition to blue FAF, introduction of spectrally-resolved FAF, near-infrared FAF, quantitative FAF imaging and fluorescence life time imaging (FLIO). This article gives an overview of basic principles, FAF findings in various retinal diseases and an update on recent developments.