Variable Phenotype of Congenital Corneal Opacities in Biallelic CYP1B1 Pathogenic Variants.

PURPOSE: The aim of this study is to describe the variable phenotype of congenital corneal opacities occurring in patients with biallelic CYP1B1 pathogenic variants. METHODS: A retrospective chart review was conducted to identify patients with congenital corneal opacities and CYP1B1 pathogenic variants seen at UPMC Children's Hospital of Pittsburgh. Ophthalmic examination, high-frequency ultrasound, anterior segment optical coherence tomography, histopathologic images, and details of genetic testing were reviewed. RESULTS: Three children were identified. All presented with raised intraocular pressure. Two patients showed bilateral limbus-to-limbus avascular corneal opacification that did not resolve with intraocular pressure control; 1 showed unilateral avascular corneal opacity with a crescent of clear cornea, iridocorneal adhesions, iridolenticular adhesions, and classical features of congenital glaucoma in the fellow eye (enlarged corneal diameter, Haab striae, and clearing of the corneal clouding with appropriate intraocular pressure control). The first 2 patients were visually rehabilitated with penetrating keratoplasty. Histopathology revealed distinct features: a variably keratinized epithelium; a thick but discontinuous Bowman-like layer with areas of disruption and abnormal cellularity; Descemet membrane, when observed, showed reduced endothelial cells; and no pathological changes of Haab striae were identified. Two patients had compound heterozygous pathogenic variants in CYP1B1 causing premature stop codons, whereas 1 was homozygous for a pathogenic missense variant. CONCLUSIONS: Congenital corneal opacities seen in biallelic CYP1B1 pathogenic variants have a variable phenotype. One is that commonly termed as Peters anomaly type 1 (with iridocorneal adhesions, with or without iridolenticular adhesions) and the other is a limbus-to-limbus opacity, termed CYP1B1 cytopathy. Clinicians should be aware of this phenotypic variability.

Corneal Plana-Like Phenotype With Peripheral Scleralization Associated With a Pathogenic Variant of PITX2 : A Case Report.

PURPOSE: The aim of this study was to report a case of corneal plana-like phenotype with bilateral peripheral scleralization associated with a PITX2 pathogenic variant. METHODS: Clinical findings were obtained by ophthalmologic examination. Molecular diagnosis was performed by whole-exome sequencing in the patient and his parents. RESULTS: A 12-month-old male patient present with bilateral peripheral corneal scleralization, corneal plana-like phenotype, and iris hypoplasia. The genetic analysis revealed a de novo PITX2 pathogenic variant (c.323G>A, p.R108H). CONCLUSIONS: PITX2 c.323G>A (p.R108H) can be associated with a unique corneal plana-like phenotype with peripheral scleralization, and thus, PITX2 should be targeted in genetic testing of this specific phenotype.

Technique for the Management of Extensive Ocular Surface Lipodermoid Involving the Cornea of Children.

PURPOSE: Ocular surface lipodermoids with corneal involvement may require surgical intervention; if deep, ocular surface reconstruction with lamellar corneal tissue or amniotic membrane may be needed. We describe a staged technique using autologous ipsilateral simple limbal epithelial transplantation. METHODS: After verifying sparing of Descemet membrane, the conjunctival portion of the lipodermoid was debulked in the first stage. Six weeks later, the corneal portion was excised, followed by autologous ipsilateral simple limbal epithelial transplantation to promote rapid reepithelialization of the residual stromal bed. Temporary tarsorrhaphy was used for patient comfort and to expedite ocular surface healing. RESULTS: Three eyes of 3 children with grade III large ocular surface lipodermoids that encroached the visual axis and hindered proper eyelid closure underwent surgery without complications. In all cases, the visual axis was cleared and eyelid closure was improved. At the last follow-up (mean 35.7 months, median 36.0 months), the bed of the original dermoid showed minimal haze in 1 case, while 2 eyes developed small pseudopterygium; best spectacle-corrected visual acuity improved from 20/200 to 20/70 in the first case, from fix and follow to 20/50 in the second case, and remained fix and follow in the last case, but this child had congenital hydrocephalus with severe developmental delay. CONCLUSIONS: This surgical technique is a promising option for children with grade III large ocular surface lipodermoids given its effectiveness in clearing the visual axis and in improving eyelid closure. Moreover, it does not require lamellar corneal transplantation or intervention to the fellow eye.

Congenital Corneal Opacity in 22q11.2 Deletion Syndrome: A Case Series.

PURPOSE: The purpose of this study was to describe the deep phenotype of congenital corneal opacities (CCO) in patients with 22q11.2 deletion syndrome (22q11.2 DS) and to identify putative regions or genes that could explain the CCO. METHODS: A retrospective chart review was conducted to identify patients with 22q11.2 DS seen in the ophthalmology clinic of a tertiary referral children's hospital. Thirty patients were identified, with molecular confirmation. Twenty-six did not show structural anterior segment anomalies aside from posterior embryotoxon (n = 4), whereas 4 had bilateral CCO, of which 3 had preoperative images. We reviewed medical, operative, and pathology reports; anterior segment optical coherence tomography; high-frequency ultrasound; histopathologic slides; and genetic testing. To identify putative genes responsible for CCO, chromosomal breakpoints in patients with and without CCO were compared. RESULTS: In the 3 patients with preoperative imaging and CCO, a pattern of paracentral corneal opacification with central clearing accompanied by iridocorneal or keratolenticular adhesions was observed. Anterior segment optical coherence tomography and histopathologic images showed central stromal thinning with a residual structure consistent with Descemet membrane. One patient presented at birth with unilateral corneal perforation, suggestive of likely stromal thinning. A comparison of the breakpoints across all cases failed to reveal unique regions or genes in patients with CCO. CONCLUSIONS: 22q11.2 DS can rarely be associated with CCO. We describe a consistent pattern of central clearing related to posterior stromal thinning, with or without ICA/KLA. Possible candidate genes for corneal opacification in 22q11.2 DS remain elusive.

El control de la calidad de los analisis inmunohematologicos en la Region de las Americas / Quality control of immunologic testing of blood in the Region of the Americas

Assuring the best quality in transfusion medicine necessarily involves exercising exhaustive control over the entire system and developing protocols for procedures and techniques, the reagents and equipment used, personnel training and so on. Additional guarantees can come from adequately organizing the work and perhaps automating processes in order to avoid errors. Another way to avoid errors in the laboratory is to register and continuosly analyze the mistakes that do occur, since that makes it necessary to change procedures in order to avoid repeating them. External quality control programs (EQCP) make it possible to perform a periodic overall assessment of the suitability of techniques, reagents, and training of personnel in relation to the valdity of the results obtained. By voluntarily participating in an EQCP, the blood center shows its commitment to the quality of care. In the Region of the Americas, the Pan American Health Organization's Immunohematology Quality Control Program has made it possible to objectively quantify the improvement attained in the formative level reached by participating blood banks in the four years the Program has been in operation (AU)

El control de la calidad de los análisis inmunohematológicos en la Región de las Américas / Quality control of immunologic testing of blood in the Region of the Americas

Assuring the best quality in transfusion medicine necessarily involves exercising exhaustive control over the entire system and developing protocols for procedures and techniques, the reagents and equipment used, personnel training, and so on. Additional guarantees can come from adequately organizing the work and perhaps automating processes in order to avoid errors. Another way to avoid errors in the laboratory is to register and continuously analyze the mistakes that do occur, since that makes it necessary to change procedures in order to avoid repeating them. External quality control programs (EQCP) make it possible to perform a periodic overall assessment of the suitability of techniques, reagents, and training of personnel in relation to the validity of the results obtained. By voluntarily participating in an EQCP, the blood center shows its commitment to the quality of care. In the Region of the Americas, the Pan American Health Organization's Immunohematology Quality Control Program has made it possible to objectively quantify the improvement attained in the formative level reached by participating blood banks in the four years the Program has been in operation