Macular Splitting Research Articles

Incidence, Management, and Surgical Outcomes of Macular Splitting Rhegmatogenous Retinal Detachment.

Limited knowledge exists regarding macular splitting retinal detachment (RD). The purpose of this study is to investigate clinical features and outcomes of macular splitting RD. This was a retrospective case series performed at a single practice. Macular splitting RD was identified clinically and on optical coherence tomography (OCT). Primary outcomes were anatomical and functional success, and secondary outcomes were factors associated with postoperative visual acuity. The overall number of patients with OCT-confirmed macular splitting RD was 16 of 664, which is an incidence rate of 2.4%. Preoperative and final logMAR were 0.33 and 0.13, respectively (P = .002). Presenting visual acuity (VA) (P = 0.015) and duration of symptoms (P = .007) were associated with final VA, whereas time to surgery was not significant (P = .581). The incidence of macular splitting RD is higher than previously reported. Anatomical and functional outcomes were excellent in this study. [Ophthalmic Surg Lasers Imaging Retina. 2021;52:602-608.].

Traumatic chiasmal syndrome. Case report

Traumatic chiasmal syndrome is one of the rare etiologies of chiasmal syndrome, characterized by optic chiasm injury following head trauma. The main visual defect associated is bitemporal hemianopia with macular splitting; however, it can present with a variety of other visual defects and neurologic signs. The authors report a case of complete bitemporal hemianopia after head trauma, with multiple frontal and skull base fractures and no other neurologic deficits, or hypothalamic-pituitary abnormality. Most cases of traumatic chiasmal syndrome are [...]

Transient Homonymous Superior Quadrantanopsia in Nonketotic Hyperglycemia: A Case Report and Systematic Review.

Background and PurposeNonketotic hyperglycemia often causes transient visual field defects, but only scattered anecdotes are available in the literature.MethodsWe report a patient with homonymous superior quadrantanopsia due to nonketotic hyperglycemia and provide a systematic literature review of the clinical features of 40 previously reported patients (41 in total, including our case) with homonymous visual field defects in association with nonketotic hyperglycemia.ResultsThe typical visual field defect was congruous (84.6%), homonymous hemianopsia (87.8%) with macular splitting (61.5%) or sparing (38.5%). It was transient and repetitive in 54.5% of the patients, but it developed as a persistent form in the remainder. Positive visual symptoms such as hallucinations and phosphenes developed in 73.2% of patients. Brain MRI revealed corresponding abnormalities in most patients (84.8%), characterized by a low-intensity white-matter signal or a high-intensity gray-matter signal on T2-weighted or fluid-attenuated inversion recovery images with diffusion restriction or gadolinium enhancement. Most (97.0%) patients recovered completely, with 48.5% treated by glycemic control alone and the remainder also receiving antiepileptic agents.ConclusionsNonketotic hyperglycemia should be considered a possible cause of transient visual field defects, especially when it is associated with repetitive positive visual symptoms and typical MRI findings in hyperglycemic patients.

Vitrectomy combined with posterior scleral reinforcement for high myopic macular retinoschisis

Objective To investigate the clinical efficacy of vitrectomy combined with internal limiting membrane peeling and posterior scleral reinforcement for the treatment of high myopic macular retionschisis. Methods The data of 37 eyes of 37 patients with high myopia and macular splitting who were treated in our hospital from Mar. 2014 to Feb. 2017 were analyzed retrospectively. All patients were treated with posterior scleral reinforcement combined with vitrectomy, internal limiting membrane peeling and intravitreal injection of air. Among them partial cataract patients were treated with phacoemulsification and intraocular lens implantation. The follow-up time was 12 months. Results After operation, the retinoschisis was completely closed in 37 eyes. The thickness of central macular retina at 3 months after operation was significantly lower than that before operation (P<0.05). The best corrected visual acuity at 6 months postoperatively was significantly higher than preoperatively(P<0.05), and the visual acuity at 12 months after operation was higher than that at 6 months after operation (P<0.05). The axial length at 6 months after operation was significantly shorter than that preoperatively(P<0.05), and the axial length at 12 months after operation was shorter than that at 6 months after operation (P<0.01). Transient high intraocular pressure occurred in 2 eyes. No secondary surgery treated or other complication occurred. Conclusion The clinical efficacy of posterior scleral reinforcement combined with vitrectomy and internal limiting membrane peeling for the treatment of high myopic macular retionschisis is good. Key words: Reinforcement, posterior sclera; Retinopathy; Myopia, high; Splitting, macula

Wide-Field Spectral-Domain Optical Coherence Tomography in Patients and Carriers of X-linked Retinoschisis

To evaluate macular and extramacular retinal anatomy in patients and carriers of X-linked retinoschisis (XLRS) using a wide-field spectral-domain optical coherence tomography (SD-OCT) imaging technique. Case series. Six XLRS-affected male subjects and 3 XLRS female carriers. The subjects prospectively underwent XLRS DNA genotyping and comprehensive ophthalmic examination, including visual acuity, 30-2 Humphrey visual field, fundus photography, and wide-field SD-OCT, a montage technique to generate SD-OCT images spanning approximately 50 degrees horizontally and 35 degrees vertically of the posterior pole. Distribution and location of schisis cavities. Among male subjects affected by XLRS, asymmetric bilateral schisis was seen in all eyes imaged with montage SD-OCT (11 eyes). Wide-field OCT images demonstrated schisis cavities only in the central macula in 6 eyes (55%), throughout the macula extending to the outside of the temporal arcades in 3 eyes (27%), and throughout the macula extending nasal to the optic nerve in 2 eyes (18%). Cystoid spaces accounting for macular splitting were present in the inner nuclear layer (INL) in all 11 eyes and in the outer nuclear layer (ONL) in 4 eyes. A few small cysts were seen parafoveally in the ganglion cell layer (GCL) or nerve fiber layer (NFL) in 4 eyes. Subclinical extramacular schisis spaces were seen (n=5 eyes) within the INL in 1 eye, the ONL in 1 eye, the INL/GCL/NFL in 1 eye, the ONL/GCL/NFL in 1 eye, and the INL/ONL/GCL/NFL in 1 eye. Schisis was rarely seen nasal to the optic nerve (2 eyes). Central/paracentral visual field defects were seen in 9 eyes. Female carriers did not show schisis on examination or OCT. Wide-field SD-OCT is a useful tool for evaluating complex retinal anatomy. In patients with XLRS, the foveomacular schisis was seen most frequently in the INL. Subclinical extramacular schisis was seen in 45% of eyes and was equally prevalent in the INL, ONL, and GCL/FNL. The GCL/FNL cystoid spaces were small and seen near the fovea and the arcades only. Carriers were schisis-free. The author(s) have no proprietary or commercial interest in any materials discussed in this article.

Efficacy of vitreoretinal surgery for X-linked retinoschisis and its complications

Objective To evaluated the efficacy of vitreoretinal surgery for X-linked retinoschisis (XLRS) and its complications.Methods Twenty-one XLRS patients (27 eyes) with retinal detachment or vitreous hemorrhage who were treated by vitreoretinal surgery were enrolled in this study. There were microcystis-like splitting in all the eyes.The mean visual acuity was 0.11 ± 0.09 and the mean area of macular splitting was (1.09±0.56) mm2.Among the eyes,there were 12 eyes with rhegmatogenous retinal detachment,five eye with traction retinal detachment,six eyes with vitreous hemorrhage and four eyes with retinal detachment and vitreous hemorrhage.All the patients underwent a standard three-port pars plana vitrectomy.Internal limiting membrane peeling,laser photocoagulation,and C3F8 gas or silicone oil tamponade were carried out in different condition.The follow-up was 9 - 122 months (average 51 months).The preoperative visual acuity and anatomic structure of retina were observed.Results The mean visual acuity at last visit was increased to 0.26±0.15,the difference was significant (t=-6.320,P=0.000).It improved in 20 eyes (74.1％ ),remained unchanged in seven eyes (25.9 ％).The retina remained attached in 27 eyes.The mean area of macular splitting was decreased to (0.29 ±0.21) mm2,the difference was significant (t=10.358,P=0.000).The complications were found in four eyes (14.8％) which including two eyes with proliferative vitroretinopathy and traction retinal detachment six and eight months after surgery,one eye with cataract four months after surgery,and one eye with vitreous hemorrhage 15 months after surgery.The retina remained attached in these four eyes after reoperation.Conclusion Vitreoretinal surgery can significantly improve visual acuity,resume the anatomic structure of retina. Key words: Retinoschisis/congenital; Retinoschisis/surgery; Vitrectomy/methods; Treatment outcome

Correlation between RS1 gene mutation genotypes and phenotypes in X-linked retinoschisis

Objective To investigate the correlation between mutation genotypes and phenotypes of X-linked retinoschisis (XLRS) patients. Methods33 male XLRS patients, 26 female carriers and 100normal subjects were enrolled in this study. All 33 XLRS patients were bilateral, which included 18 patients from 8 families and 15 sporadic patients. Among 66 XLRS eyes, there are microcystis-like foveal splitting in 49 eyes (74.2％), lamellar macular splitting in 43 eyes (65.2％), peripheral splitting in 32 eyes (48. 5％),retinal detachment in 17 eyes (25.8％), and vitreous hemorrhage in 8 eyes (13. 6％). Electroretinogram was performed on 42 eyes which showed decreased amplitude of b-wave. The 6 exons of RS1 gene were amplified by polymerase chain reaction and then directly sequenced. The correlation analysis was performed between mutation genotypes and phenotypes. Results There were 19 RS1 gene mutations including 6 novel mutations (p. Gly70Cys, p. Trp112Arg, p. Arg156Trp, p. His207ProfsX56, p. Arg209AlafsX28, p.Cys223Tyr). There was no correlation between mutation genotypes and phenotypes (X2 =0. 731, 3. 438,0. 820, 3. 208, 1. 992; P＞0. 05). ConclusionsRS1 gene mutation is a major cause of XLRS. The RS1 mutation genotype is not correlated with phenotype, so that the prognosis cannot be predicted by the genotypes. Key words: Retinoschisis/congenital; Retinoschisis/genetics; Genes; Mutation;

The Effect of Posterior Scleral Reinforcement for High Myopia Macular Splitting

This study investigated the effect of posterior scleral reinforcement for high myopia macular splitting in 15 patients with high myopia and macular splitting (20 eyes), including three eyes with shallow retinal detachment. Main outcome measures included best-corrected visual acuity, refractive error, axial length, optical coherence tomography (OCT) findings and post-surgical complications. Best-corrected visual acuity, myopial dioptres and axial length reduced significantly post-surgery. The OCT findings showed different degrees of reduction in the split-cavity between inner and outer retinal layers, and that retinal thickness declined significantly post-operatively. No serious complications were observed. Posterior scleral reinforcement was effective, with a good safety profile, for patients with high myopia macular splitting with or without retinal detachment.

Uso da dorzolamida tópica em paciente portador de retinosquise juvenil ligada ao X

X-linked juvenile retinoschisis is a hereditary and recessive vitreous-retinal disease. The main ophthamic manifestation is the bilateral macular cystic-like stellate maculopathy and splitting of the retina between the nerve fiber and ganglion cell layers. There were no treatments with efficacy in order to estabilize the visual acuity in the affected patients. This article presents a clinical case of a patient with a bilateral X- linked juvenil retinoschisis who was treated by the use of topical dorzolamide, a carbonic anhydrase inhibitor.

Posterior cortical atrophy with [11C] Pittsburgh compound B accumulation in the primary visual cortex

Sirs, Posterior cortical atrophy (PCA) is a presenile dementia that presents primarily with signs and symptoms of cortical visual dysfunction [1]. The most common associated pathologic findings of PCA are amyloid plaques and neurofibrillary tangles predominantly affecting the visual association areas [8]. Although [C] Pittsburgh compound B (PIB) PET studies of amnestic Alzheimer’s disease (AD) have been conducted [2, 3, 5], the link between amyloid-b (Ab) and regional brain dysfunction remains controversial. However, two PIB studies of PCA supported the possible link between Ab deposition and clinical features [7, 10]. Here, we describe a patient with PCA who showed left homonymous hemianopsia and uncoupling between PIB uptake and glucose metabolism in the right occipital lobe. A 63-year-old woman consulted our hospital with a 5-year history of poor vision. She first noticed that characters on posters appeared to be shaking. One year later, she found difficulty in reading subtitles in movies and then she became unable to read books. On neurological examination, she showed left homonymous hemianopsia. A Goldmann dynamic visual field examination demonstrated macular-sparing left homonymous hemianopsia. Visual acuity was normal and bilateral light reflexes were prompt. Other neurological examinations were normal. On neuropsychological evaluations, she showed visuospatial dysfunction and dyscalculia. MMSE score was 26 of 30. Memory function was preserved. She demonstrated disturbed recognition of superimposed figures. Face and color recognition were normal. Cerebrospinal fluid (CSF) Ab42 was decreased (297 pg/ ml) and in normal controls, the levels are 874 ± 293 pg/ml (mean ± SD, INNOTEST b-AMYLOID(1-42), Innogenetics, Ghent, Belgium). CSF tau protein phosphorylated at serine 199 was increased (1.36 pM). In normal controls, these levels are 0.6 ± 0.4 pM [4]. [F] fluorodeoxyglucose (FDG) PET image was acquired for 6 min starting 45 min after the injection of 150 MBq of tracer. The accumulation of [C] PIB was evaluated by a standardized uptake value ratio (SUVR) on a summing image obtained 40–60 min after injection of 500 MBq of tracer taking the cerebellar cortex as a reference region. [F] FDG PET showed hypometabolism in the temporo-parieto-occipital lobe predominantly on the right (Fig. 1d–f). [C] PIB PET demonstrated increased uptake in the bilateral frontal lobes and parietal and occipital cortices with more intense uptake on the right (Fig. 1g–i). In the right occipital lobe, FDG uptake showed lower metabolism in the lateral occipital cortex (Fig. 1d, e, arrow) than in the calcarine cortex (Fig. 1d, e, arrowhead). In contrast, amyloid imaging demonstrated high PIB uptake in the right calcarine cortex (Fig. 1g, h, arrowhhead) while the adjacent lateral occipital cortex showed normal PIB uptake (Fig. 1g, h, arrow). It was shown that macular sparing occurred when the posterior part of the calcarine cortex was spared in patients with striate cortical disease such as infarction, neoplasm and cerebromalacia, while macular splitting occurred when the occipital pole and operculum were involved [6]. Neuroimaging studies of our patient demonstrated that in the occipital lobe, there were two regions showing different T. Kambe Y. Motoi (&) N. Hattori Department of Neurology, Juntendo University School of Medicine, 2-1-1, Hongo Bunkyo-ku, Tokyo 113-8421, Japan e-mail: motoi@juntendo.ac.jp

Isolated homonymous hemianopsia due to lateral posterior choroidal artery region infarction: A case report

An 86-year-old, right-handed, hypertensive man suddenly experienced blurring of vision predominating in the left visual field. Neurological examinations were normal, except for left homonymous hemianopsia. Goldmann visual field testing revealed a left congruent incomplete homonymous hemianopsia with macular splitting. Brain MRI, with a T2-weighted image, demonstrated a lesion of high intensity in the right lateral geniculate body (LGB), as well as the posterior part of the caudate nucleus, posterolateral thalamus, and dorsolateral thalamus. MRA revealed severe stenosis at the second segment of right posterior cerebral artery (PCA). SPECT revealed significantly decreased blood perfusion in the striate cortex. To the best of our knowledge, this is the first case of an isolated, congruent, incomplete, homonymous hemianopsia due to lateral posterior choroidal artery (LPChA) region infarction. The LPChA possibly supplied the LGB through the PCA system. A horizontal, homonymous sectoranopia is typically the hallmark of an LPChA region infarction. However, a homonymous hemianopsia may also occur when the entire LGB has been affected. In the case of homonymous hemianopsia, LGB damage due to LPChA region infarction should be considered, in addition to lesions of the visual pathway, such as the optic tract, optic radiations, and occipital cortex.

“Bottom-up” and “top-down” effects on reading saccades: a case study

Objective: To investigate the role right foveal/parafoveal sparing plays in reading single words, word arrays, and eye movement patterns in a single case with an incongruous hemianopia. Methods: The patient,...

A historical review of the representation of the visual field in primary visual cortex with special reference to the neural mechanisms underlying macular sparing

This article comprises a historical review of the literature pertaining to the representation of the visual field in human primary visual cortex. A brief survey of the anatomy of the visual system is followed by a critical evaluation of the key studies that have informed both the issue of the disproportionate representation of central vision within primary visual cortex, and the anatomical basis underlying the phenomena of macular sparing and macular splitting hemianopia.

Reading disorders due to visual field defects: a neuro-ophthalmological view

Background: Reading disorders can be caused by visual field defects. Analysis of the reading process provides important information about perceptual preconditions and cortical adaptive strategies, which are also of significance for rehabilitation. Methods: Reading performance was examined using a scanning laser ophthalmoscope (SLO), which allows the simultaneous assessment of the preferred retinal locus (PRL) in relation to the stimuli and the eye movements. Visual fields were measured using Tuebingen perimetry and a self-developed SLO perimetry, attentional fields using the Test of Sustained Attention. Results: Patients with absolute central scotomas are only able to read if they learn to use an eccentric PRL. With a ring scotoma, reading ability depends on the size of the intact central island and the fixation behavior.With hemianopia, it is crucial whether there is macular splitting or sparing. Without sparing, reading performance depends on adaptive strategies such as predictive saccades or eccentric fixation.The latter causes a shift of the field border towards the hemianopic side in conventional perimetry. Locations of high attentional capability during central fixation (early stage of maculopathy) correspond to the later eccentric PRL during follow-up. Conclusions: Reading performance depends on the size of the perceptual area and the resolution of the PRL used for reading. Compensating strategies are crucial for regaining reading ability. Eccentric fixation causes a shift of the sensory and oculomotor reference, indicating high cortical plasticity. There is evidence that the location of a future PRL is influenced by sustained attention – a mechanism that could be utilized for specific training. Reading disorders are strongly connected with neuro-ophthalmological issues.

Transition from macular splitting to macular sparing in right homonymous hemianopia complicating a left occipitoparietal hemorrhage

The authors describe a 62-year-old patient who developed a complete right homonymous hemianopia due to an occipitoparietal hemorrhage. Within several weeks the macular splitting pattern of hemianop...

Loss of Visual Acuity after Trabeculectomy

Glaucoma filtration surgery can result in loss of visual acuity by a variety of mechanisms. The existence of "wipe-out" (loss of the central visual field in the absence of other explanation) as a cause of postoperative loss of visual acuity has been debated. This study defines the incidence and etiology of visual acuity loss within 3 months of trabeculectomy. The authors reviewed 508 eyes of 440 patients who underwent trabeculectomy to find cases of postoperative visual acuity loss (2 or more Snellen lines or a category change) and randomly selected a control group of 85 eyes to analyze the risk factors for each cause of visual acuity loss. Forty-two eyes (8.3%) showed loss of visual acuity after 3 months, caused mainly by lens opacification (n = 16), hypotony maculopathy (n = 6), and "wipe-out" (n = 4). Older patients (P = 0.0108), those in whom the visual field preoperatively showed macular splitting (P = 0.0084) and those who had severe hypotony (intraocular pressure [IOP] < or = 2 mmHg) on the first postoperative day (P = 0.0246) were more likely to experience "wipe-out." Older age (P = 0.0495) and shallow anterior chamber (P = 0.0003) were correlated to the development of lens opacification. Hypotony maculopathy was associated with coronary artery disease (P = 0.0397) and systemic hypertension (P = 0.0118). Lens opacification was the main cause of early visual acuity loss after trabeculectomy, followed by hypotony maculopathy. "Wipe-out," although rare, does exist, and older patients with advanced visual field defects are at increased risk.

Entopic Phenomena in Pregeniculate and Postgeniculate Hemianopsia with Splitting of Macula by Perimetry

With splitting of macula by perimetry, the entopic phenomena (the perception of one's own foveal xanthophilic pigment and macular vessel leukocytes) were utilized to study the character of macular sparing or splitting in patients with pregeniculate or postgeniculate hemianopsia. In the pregeniculate group, 11 of 14 eyes perceived the Haidinger brushes figure as a half circle corresponding to the perimetric macular splitting, whereas flying corpuscles were not perceived at all or were less numerous on the hemianoptic side than on the normal field side. In contrast, six of seven patients with postgeniculate lesions perceived the Haidinger brushes figure as a complete circle, four of six perceived fewer flying corpuscles on the hemianoptic side than on the normal field side, and two patients reported perceiving an equal number in all quadrants. This study indicated that in pregeniculate hemianopsia there is usually a true splitting of the macula, whereas in postgeniculate hemianopsia, there is some macular sparing even when perimetry shows macular splitting.

Orthophorization after Occlusion-Induced Exotropia

A 36-year-old male had been constantly wearing a patch to avoid diplopia since an operation on the right parietal area of the brain. Postsurgical visual field evaluation indicated a complete bilateral left hemianopia with macular splitting. The patient had a constant alternating comitant exotropia with no suppression. By terminating the patching, establishing the appropriate fixing eye, and applying relieving prisms, diplopia was removed. Once binocularity was thus established, it was found (over the course of 7 months) that binocular function was possible with diminishing amounts of prism power. During this 7-month period, measurements of the patient's heterophoria, motor fusion, and sensory fusion revealed that he adapted from his occlusion-induced exotropia toward an habitual heterophoria. Such vergence adaptation has been defined as orthophorization. The occurrence of vergence adaptation after sensory fusion indicates that sensory fusion plays an important role in the etiology of prism adaptation.

Perimetry, visual evoked potentials and visual evoked spectrum array in homonymous hemianopsia

Confrontation field examination, perimetry, visual evoked potentials (VEPs) to pattern hemi-field stimulation and visual evoked spectrum array to flash stimulation were compared in 50 patients with homonymous hemianopsia. Visual field could be examined by confrontation in all patients and demonstrated the field defect in 96% of cases. Goldmann perimetry could only be performed in 60% of patients, but always quantitatively defined the margins of the defect. VEPs could only be tested in 77% of patients and demonstrated an abnormality in 79% of cases. VEPs were absent to stimulation of the affected hemifield in every case of homonymous field defects with macular splitting. Visual evoked spectrum array could be tested in 95% of patients and revealed abnormalities in 67% of cases. The relative value of each test is discussed.

Visual evoked potentials and positron emission tomographic mapping of regional cerebral blood flow and cerebral metabolism: Can the neuronal potential generators be visualized?

Visual evoked potentials (VEPs) and visual evoked spectrum array (VESA) to flashes and pattern-reversal were correlated with regional cerebral blood flow (rCBF) or local cerebral glucose metabolism in 4 hemianopsic patients and one subject with cortical blindness. Normal VEPs, topographical distribution and occipital rCBF were noted in hemianopsic patients with macular sparing. A dissociation of topographical distribution of VEPs to flashes and pattern-reversal was demonstrated in one patient with hemianopsia and macular splitting. In this case, rCBF showed unilateral activation of visual areas 17, 18 and 19 of the cortex. The distribution of surface-recorded potentials reflected the complex interaction of electrical field potentials within at least 3 cortical areas rather than volume transmission of striate dipoles alone. VEPs were preserved in a cortically blind patient. rCBF and local cerebral glucose metabolism revealed a functioning island of occipital cortex that most likely represented the generator of the VEP. The combination of VEP and PET permits the correlation of electrophysiological events with the visualization of cortical areas presumably activated by the same visual stimulus.