Analysis of Choroidal Thickness in Children with Congenital Aniridia.

Purpose: To evaluate the choroidal thickness (CT) in children with congenital aniridia in comparison with age-matched controls. Methods: This was a cross-sectional, observational study that included 64 eyes of 32 children with congenital aniridia (aged 5-12 years) and 80 eyes of 40 healthy subjects who were age-matched. In all subjects, subfoveal choroidal thickness (SFCT) was assessed at 750-µm intervals from the fovea to 1.5 mm in the temporal and nasal directions with spectral-domain optical coherence tomography (SD-OCT). Results: The mean SFCT was 207.67 ± 30.99 µm in the aniridic eyes. This SFCT was significantly thinner than that in control eyes (288.55 ± 30.06 µm) (P < .001). The SFCTs at 1.5 mm and 0.75 mm intervals in the temporal and nasal directions from the fovea were also significantly thinner in eyes with aniridia than control eyes (P < .001).There was a significant negative correlation between the SFCT and axial length in eyes with aniridia (B = -10.60, 95%CI = -19.31~-1.89, P = .017). Conclusions: The subfoveal and parafoveal CTs were significantly thinner in eyes with congenital aniridia than in control eyes. These choroidal changes could open up a new way for the research related to the pathophysiology of congenital aniridia.

Global and age-related neuroanatomical abnormalities in a Pax6-deficient mouse model of aniridia suggests a role for Pax6 in adult structural neuroplasticity.

PAX6 encodes a highly conserved transcription factor necessary for normal development of the eyes and central nervous system. Heterozygous loss-of-function mutations in PAX6 cause the disorder aniridia in humans and the Small eye trait in mice. Aniridia is a congenital and progressive disorder known for ocular phenotypes; however, recently, consequences of PAX6 haploinsufficiency in the brains of aniridia patients have been identified. These findings span structural and functional abnormalities, including deficits in cognitive and sensory processing. Furthermore, some of these abnormalities are accelerated as aniridia patients age. Although some functional abnormalities may be explained by structural changes, variability of results remain, and the effects of PAX6 heterozygous loss-of-function mutations on neuroanatomy, particularly with regard to aging, have yet to be resolved. Our study used high-resolution magnetic resonance imaging (MRI) and histology to investigate structural consequences of such mutations in the adult brain of our aniridia mouse model, Small eye Neuherberg allele (Pax6SeyNeu/+), at two adult age groups. Using both MRI and histology enables a direct comparison with human studies, while providing higher resolution for detection of more subtle changes. We show volumetric changes in major brain regions of the the Pax6SeyNeu/+ mouse compared to wild-type including genotype- and age-related olfactory bulb differences, age-related cerebellum differences, and genotype-related eye differences. We also show alterations in thickness of major interhemispheric commissures, particularly those anteriorly located within the brain including the optic chiasm, corpus callosum, and anterior commissure. Together, these genotype and age related changes to brain volumes and structures suggest a global decrease in adult brain structural plasticity in our Pax6SeyNeu/+ mice.

Characteristics and Utility of Fundus Autofluorescence in Congenital Aniridia Using Scanning Laser Ophthalmoscopy.

Purpose: To investigate fundus autofluorescence (FAF) and other fundus manifestations in congenital aniridia. Methods: Fourteen patients with congenital aniridia and 14 age- and sex-matched healthy controls were examined. FAF images were obtained with an ultra-widefield scanning laser ophthalmoscope. FAF intensity was quantified in the macular fovea and in a macular ring surrounding fovea and related to an internal reference within each image. All aniridia patients underwent an ophthalmologic examination, including optical coherence tomography and slit-lamp biomicroscopy. Results: Mean age was 28.4 ± 15.0 years in both the aniridia and control groups. Fovea could be defined by subjective assessment of FAF images in three aniridia patients (21.4%) and in all controls (P = 0.001). Mean ratio between FAF intensity in the macular ring and fovea was 1.01 ± 0.15 in aniridia versus 1.18 ± 0.09 in controls (P = 0.034). In aniridia, presence of foveal hypoplasia evaluated by biomicroscopy correlated with lack of foveal appearance by subjective analyses of FAF images (P = 0.031) and observation of nystagmus (P = 0.009). Conclusions: Aniridia patients present a lower ratio between FAF intensity in the peripheral and central macula than do healthy individuals. Both subjective and objective analyses of FAF images are useful tools in evaluation of foveal hypoplasia in aniridia.

Gillespie syndrome in a South Asian child: a case report with confirmation of a heterozygous mutation of the ITPR1 gene and review of the clinical and molecular features.

BACKGROUND: Gillespie syndrome is a rare, congenital, neurological disorder characterized by the association of partial bilateral aniridia, non-progressive cerebellar ataxia and intellectual disability. Homozygous and heterozygous pathogenic variants of the ITPR1 gene encoding an inositol 1, 4, 5- triphosphate- responsive calcium channel have been identified in 13 patients recently. There have been 22 cases reported in the literature by 2016, mostly from the western hemisphere with none reported from Sri Lanka. CASE PRESENTATION: A 10-year-old girl born to healthy non-consanguineous parents with delayed development is described. She started walking unaided by 9 years with a significantly unsteady gait and her speech was similarly delayed. Physical examination revealed multiple cerebellar signs. Slit lamp examination of eyes revealed bilateral partial aniridia. Magnetic resonance imaging of brain at the age of 10 years revealed cerebellar (mainly vermian) hypoplasia. Genetic testing confirmed the clinical suspicion and demonstrated a heterozygous pathogenic variant c.7786_7788delAAG p.(Lys2596del) in the ITPR1 gene. CONCLUSION: The report of this child with molecular confirmation of Gillespie syndrome highlights the need for careful evaluation of ophthalmological and neurological features in patients that enables correct clinical diagnosis. The availability of genetic testing enables more accurate counseling of the parents and patients regarding recurrence risks to other family members.

Two Paired Box 6 mutations identified in Chinese patients with classic congenital aniridia and cataract.

Congenital aniridia is a rare genetic disorder characterized by a variable degree of hypoplasia or absence of iris. It is frequently associated with keratopathy, cataract, juvenile­onset glaucoma and foveal and optic nerve hypoplasia. Mutations in the Paired Box 6 (PAX6) gene on chromosome 11p13 have been demonstrated to cause aniridia. The aim of the present study was to investigate the genetic variations of PAX6 in two sporadic patients from southern China with classic congenital aniridia and cataract. Complete ophthalmic and physical examinations were performed, including best­corrected visual acuity, intraocular pressure, slit­lamp examination, fundus examination, optical coherence tomography, ultrasound biomicroscopy, and Pentacam scanning. Genomic DNA was extracted from leukocytes of peripheral blood collected from the two patients, their unaffected parents and 200 unrelated control subjects from the same population. Exons 4­13 of the PAX6 gene were amplified by polymerase chain reaction and sequenced directly. Patient 1 was affected with aniridia accompanied by congenital cataract and nystagmus. A novel heterozygous PAX6 frameshift mutation c.277delG (p.Glu93SerfsX31) in exon 6 was identified in this patient. Patient 2 was presented with aniridia, congenital cataract, lens subluxation and glaucoma. A recurrent nonsense mutation c.718C>T (p.Arg240X) in exon 9 was identified in this patient. The present results expand the mutation spectrum of PAX6 and will be valuable for genetic counseling in the affected families. Additionally, the identification of these mutations reiterates the importance of PAX6 in ocular development and sheds light on the pathogenesis of congenital aniridia.

Microstructural differences in visual white matter tracts in people with aniridia.

Aniridia is a panocular disorder characterized chiefly by iris hypoplasia. Most cases result from mutations of the PAX6 gene, which is important in both eye and brain development. In addition to ocular alterations, differences in global brain volume and functional connectivity have been reported in humans with aniridia. Understanding neural alterations in aniridia may require examination of possible differences in white matter structure, as few studies have assessed white matter in this population. The current study utilized diffusion-weighted imaging to assess white matter structure in 11 people with aniridia and 11 healthy comparison participants, matched for sex and age. A map of the local connectome was calculated to compare quantitative anisotropy (QA), an index of white matter tract density, in all white matter voxels, revealing subcomponents of white matter tracts with differing QA between people with aniridia and healthy comparisons. The analysis indicated that QA was lower for people with aniridia in portions of bilateral optic tract [t(20)=-4.23, P=0.001, d=-1.80], bilateral optic radiation [t(20)=-4.06, P=0.001, d=-1.73], forceps major [t(20)=-3.65, P=0.002, d=-1.55], bilateral superior longitudinal fasciculus [left: t(20)=-3.15, P=0.005, d=-1.34; right, t(20)=-4.28, P<0.001, d=-1.83], and right posterior corona radiata [t(20)=-3.19, P=0.006, d=-1.36]. These differences demonstrate that white matter structure is altered in people with aniridia in both visual tracts and associated posterior visual pathways.

Diagnostic impact of anterior segment angiography of limbal stem cell insufficiency in PAX6-related aniridia.

PAX6 is a master gene of ocular development and postnatal ocular equilibrium. Congenital aniridia is the hallmark of PAX6 gene haploinsufficiency (Chr. 11 p. 13), but PAX6-associated aniridia is a profound, progressive pan-ocular developmental disorder often leading to blindness. There is congenital visual impairment with advancing loss of vision mainly due to secondary glaucoma and to corneal blindness caused by limbal stem cell insufficiency (LSCI). LSCI leads to ARK (aniridia-related keratopathy), which typically develops in four stages. Incipient LSCI with vessels starting to grow into the cornea can be imaged by fluorescein anterior segment angiography, which enables fine vessels to be more easily detected than by routine slit lamp examination, especially in patients with nystagmus. Thus, clinical stage 1 ARK is often diagnosed at stage 2 by angiography. Corneal neovascularizations often start at the 12 and 6 positions and subsequently progress circumferentially, not at the 3 and 9 positions as previously believed. Anterior segment angiography can provide an easily standardizable tool for monitoring progress, treatment-induced regress or stabilization of ARK. Especially in children, angiography could be used to monitor new treatment regimens for reducing LSCI. Angiography could enable treatment to begin earlier to preserve corneal hemostasis. In addition, the fact that vascularization often starts at the subpalpebral 6 and 12 positions as opposed to the 3 and 9 positions raises more questions concerning factors that promote LSCI and related corneal injuries. Clin. Anat. 31:392-397, 2018. © 2018 Wiley Periodicals, Inc.

Clinical anatomy of the anterior chamber angle in congenital aniridia and consequences for trabeculotomy/cyclophotocoagulation.

Intraocular pressure lowering surgery in congenital aniridia glaucoma (CAG) can be complicated by dysgenesis of the limbal region, anterior chamber angle, iris, and lens. The anterior segments of 23 eyes (17 patients) with congenital aniridia were investigated under general anesthesia using ultrasound biomicroscopy (UBM). The structures of the anterior segment were examined: distance of ciliary body processes from the anterior chamber angle and positioning of Schlemm's canal. A surgical plan was created on the basis of these data. Schlemm's canal was detected in 21 of the 23 examined eyes. The mean distance from the anterior chamber angle was 1.3 ± 0.4 mm (range: 0.5-to 2.1 mm). The mean distance between the anterior chamber angle and the ciliary body was 561 ± 301 µm (range: 270-1,300 µm). The mean prominence of the ciliary body towards the lens was 799 ± 352 µm (range: 210-1,660 µm). This resulted in a precise UBM-based trabeculotomy. In addition, the ciliary body was detected and coagulated ab externo with a diode laser probe (810 nm) using diaphanoscopy and UBM. An initial UBM examination of the anterior segment is essential in eyes with CAG scheduled for trabeculotomy or cyclophotocoagulation. Clin. Anat. 31:64-67, 2018. © 2017 Wiley Periodicals, Inc.

A case of aniridia with unilateral Peters anomaly.

Aniridia is an autosomal-dominant, panocular, congenital anomaly transmitted with high penetrance and largely caused by mutations in the PAX6 gene. Although Peters anomaly may also be caused by mutations in PAX6, there has not to our knowledge been a report of aniridia associated with lens displacement into the anterior chamber and lenticular-corneal attachment. We report a child with aniridia and Peters anomaly associated with a PAX6 gene mutation.

Combined aniridia ring implantation and cataract surgery in an Axenfeld-Rieger syndrome: a UBM report.

PURPOSE: To describe ultrasound biomicroscopy (UBM) features in a patient with Axenfeld-Rieger syndrome (ARS) and cataract before and after anterior segment surgery using intraocular lens (IOL) and aniridic ring implantation (Morcher Aniridia rings 50 D). METHODS: Visual acuity, subjective glare disability, intraocular pressure, endothelial cell density, and UBM imaging were reviewed over a period of 1 year. RESULTS: One month after surgery, the operated eye showed improved visual acuity and visual comfort, and UBM examination showed a well-centered IOL and well-aligned aniridic ring fins. After 8 months, UBM examination showed contraction of the capsular bag, which appeared wrinkled, fibrous, and thickened. The capsular bag comprised the aniridic ring fins, causing misalignment. The glare disability had dropped from grade 0 to 3. The same outcome was present at 1 year. CONCLUSION: Ultrasound biomicroscopy is a useful noninvasive diagnostic means to picture anatomic details before and after surgery; it suggested that capsular bag shrinking caused migration of the aniridic rings, 8 months after surgery.

Ultrasound biomicroscopic findings in aniridia.

PURPOSE: To describe the ultrasound biomicroscopic features of eyes with aniridia. DESIGN: Observational case series. METHODS: Nineteen eyes of 10 patients with aniridia (six males and four females) ranging in age from 3 months to 53 years (21.0 +/- 16.4, mean +/- SD), and 50 normal subjects (30 men and 20 women) ranging from 16 to 56 years (31.1 +/- 13.2) were evaluated. Ultrasound biomicroscopic findings were recorded in the 3-, 6-, 9-, and 12-o'clock directions. Adult patients (aged 16 years or older) with aniridia were compared with the age-matched controls. RESULTS: Ultrasound biomicroscopy (UBM) detected extremely tiny irises in all eyes with aniridia. The eyes with aniridia showed significantly smaller values than the controls in ciliary body length (4.49 +/- 0.63 versus 5.79 +/- 0.44 mm, P <.001, unpaired Student t test), ciliary body thickness (0.75 +/- 0.17 versus 1.24 +/- 0.22 mm, P <.001), iris root thickness (0.47 +/- 0.14 versus 0.61 +/- 0.07 mm, P <.001), scleral-ciliary process angle (31.7 +/- 3.26 versus 43.1 +/- 4.48 degree, P <.001), and anterior chamber depth (1.99 +/- 0.43 versus 2.94 +/- 0.34 mm, P <.001). In the aniridia eyes, there was a significantly positive correlation between iris thickness and ciliary body thickness (Pearson r = 0.829, P =.001). CONCLUSION: Ultrasound biomicroscopic imaging demonstrated that not only iris hypoplasia but also ciliary body hypoplasia exist in aniridia. Anterior inclination of the ciliary process was also found, which was thought to be at least partly responsible for the shallow anterior chamber.

[Postoperative ultrasound biomicroscopic evaluation of the tangible position of black diaphragm posterior chamber lenses in congenital and traumatic aniridia in comparison with gonioscopy]. / Postoperative ultraschallbiomikroskopische Bestimmung der Haptiklage von Irisblendenlinsen bei kongenitaler und traumatischer Aniridie im Vergleich zu Gonioskopie.

BACKGROUND: Ultrasound biomicroscopy (UBM) allows to determine the haptic position of posterior chamber lenses (PCL) in relation to adjacent structures. In transsclerally sutured PCLs, the comparison between intraoperatively endoscopically and postoperatively localized haptic positions via UBM showed a correspondence of only 81%. The different localisation of 19% of the examined haptic positions was explained with postoperative dislocation without any proof for this assumption. The purpose of this study therefore was the correlation of UBM results with simultaneously determined haptic positions via gonioscopy in aniridia after black diaphragm PCL implantation. PATIENTS AND METHODS: The haptic positions of black diaphragm PCL implants in 20 patients with congenital and 13 patients with traumatic aniridia were determined via UBM (50-MHz-probe) and gonioscopy 44.4 (6-75) months postoperatively. RESULTS: 39/66 haptic positions could be localized in gonioscopy as well as in UBM. 38 haptics (97.4%) showed the same position in both examination techniques. Determination of the haptic position through one of the two examination techniques was impossible in 27/66 haptics (11 haptics in gonioscopy, 16 haptics in UBM). Reasons for this were primarily haptic position behind iris remnants and corneal opacities in gonioscopy and scarring of the ciliary body in UBM. CONCLUSIONS: The validity of UBM in localization of PCLs was confirmed gonioscopically, which also confirms our prior assumption of postoperative displacement of IOL-haptics after transscleral suturing in about 20% of cases. Scarring of the ciliary body was the most important obstacle in the determination of PCL haptic positions in relation to adjacent structures.

Unbalanced translocation of chromosome 3p in Wilms' tumor.

Genetic studies in Wilms' tumor have most commonly shown a deletion involving band 13 on the p arm of chromosome 11 in association with aniridia. Structural rearrangements of chromosome 3p have been found in carcinoma of renal cell and lung origin but have not been previously reported in Wilms' tumors. We present two phenotypically normal, unrelated patients with Wilms' tumors, one of which was bilateral, in which cytogenetic analysis of the tumors showed an unbalanced translocation of the p arm of chromosome 3. Two biopsies were done in the patient with bilateral Wilms' tumor. The first biopsy specimen showed a translocation between chromosome 3 and 13 with partial trisomy of 3p and loss of material from 13q. The second biopsy three and a half months later again showed trisomy of chromosome 3p. The unilateral Wilms' tumor showed trisomy of 3p with partial loss of 7p. Neither patient showed a constitutional chromosomal abnormality and neither tumor showed any cytogenetic abnormality involving chromosome 11p. Quantitative DNA analysis was performed in the tumors of both patients. The bilateral Wilms' tumor was nearly diploid with a DNA index of 1.284 (mean ploidy, 2.45; SD, 0.854) while the unilateral Wilms' tumor was aneuploid with a DNA index of 1.531 (mean ploidy, 3.35; SD, 0.976). DNA analysis results are discussed in relationship to the chromosome abnormality seen on the karyotype analysis. These cytogenetic findings suggest that genetic oncogenesis in Wilms' tumor is heterogenous.