North Carolina macular dystrophy shows a particular drusen phenotype and atrophy progression.

Background/aim: To provide a comprehensive multimodal retinal imaging characterisation of patients with North Carolina macular dystrophy (NCMD).

Methods: Clinical evaluation and retinal imaging in six families.

Results: Twenty-one subjects showed phenotypic characteristics of NCMD .

Severe retinitis pigmentosa phenotype associated with novel CNGB1 variants.

Purpose: To report a severe phenotype of retinitis pigmentosa associated with novel mutations in .

Observations: Six siblings, age range 50-75 years old, were examined using optical coherence tomography and fundus autofluorescene, electroretinogram testing, Goldman visual field testing, and genetic testing using next generation sequencing.In four affected siblings, two novel compound heterozygous variants in were detected: in exon 26 the missense variant c.

A Specific Macula-Predominant Retinal Phenotype Is Associated With the CDHR1 Variant c.783G>A, a Silent Mutation Leading to In-Frame Exon Skipping.

Purpose: To report the clinical and molecular findings in patients with retinal dystrophy associated with the c.783G>A variant in CDHR1.

Methods: The retinal phenotype of 10 patients with CDHR1-related retinopathy was characterized by multimodal imaging including color fundus photography, optical coherence tomography (OCT), and blue- and near-infrared fundus autofluorescence imaging.

Pathogenic homozygous variations in ACTL6B cause DECAM syndrome: Developmental delay, Epileptic encephalopathy, Cerebral Atrophy, and abnormal Myelination.

The extensive usage of next generation sequencing, particularly for the patients affected with neurodevelopmental disorders, has increased our understanding and enabled identifying novel disorder genes. Here, we report an extended consanguineous family having at least three affected children with ACTL6B-related neurodevelopmental disorder and expand the known phenotypic spectrum by characterizing the clinical findings using a standardized vocabulary, Human Phenotype Ontology Terms.

Genetic testing in patients with retinitis pigmentosa: Features of unsolved cases.

Importance: Uncommon characteristics in genetically unsolved retinitis pigmentosa (RP) patients may indicate an incorrect clinical diagnosis or as yet unknown genetic causes resulting in specific retinal phenotypes. The diagnostic yield of targeted next-generation sequencing may be increased by a reasonable preselection of RP-patients.

Background: To systematically evaluate and compare features of genetically solved and unsolved RP-patients.

Next-generation sequencing identifies unexpected genotype-phenotype correlations in patients with retinitis pigmentosa.

Retinitis pigmentosa (RP) is an inherited degenerative disease causing severe retinal dystrophy and visual impairment mainly with onset in infancy or adolescence. Targeted next-generation sequencing (NGS) has become an efficient tool to encounter the enormous genetic heterogeneity of diverse retinal dystrophies, including RP. To identify disease-causing mutations in unselected, consecutive RP patients, we conducted Sanger sequencing of genes commonly involved in the suspected genetic RP subtype, followed by targeted large-panel NGS if no mutation was identified, or NGS as primary analysis.

Comprehensive Study of the Clinical Phenotype of Germline BAP1 Variant-Carrying Families Worldwide.

Background: The BRCA1-associated protein-1 (BAP1) tumor predisposition syndrome (BAP1-TPDS) is a hereditary tumor syndrome caused by germline pathogenic variants in BAP1 encoding a tumor suppressor associated with uveal melanoma, mesothelioma, cutaneous melanoma, renal cell carcinoma, and cutaneous BAP1-inactivated melanocytic tumors. However, the full spectrum of tumors associated with the syndrome is yet to be determined. Improved understanding of the BAP1-TPDS is crucial for appropriate clinical management of BAP1 germline variant carriers and their families, including genetic counseling and surveillance for new tumors.

Novel causative variants in patients with achromatopsia.

Purpose: To report five novel genetic variants in seven unrelated consanguineous families with achromatopsia (ACHM).

Methods: Patients were examined with multimodal retinal imaging and full-field electroretinography (ffERG). Genetic testing was conducted using next-generation sequencing (NGS).

Olfactory Dysfunction in Patients With CNGB1-Associated Retinitis Pigmentosa.

Importance: Co-occurrence of retinitis pigmentosa (RP) and olfactory dysfunction may have a common genetic cause.

Objective: To report olfactory function and the retinal phenotype in patients with biallelic mutations in CNGB1, a gene coding for a signal transduction channel subunit expressed in rod photoreceptors and olfactory sensory neurons.

Design, Setting, And Participants: This case series was conducted from August 2015 through July 2017.

Risk Factors for Early Dialysis Dependency in Autosomal Recessive Polycystic Kidney Disease.

Objective: To identify prenatal, perinatal, and postnatal risk factors for dialysis within the first year of life in children with autosomal recessive polycystic kidney disease (ARPKD) as a basis for parental counseling after prenatal and perinatal diagnosis.

Study Design: A dataset comprising 385 patients from the ARegPKD international registry study was analyzed for potential risk markers for dialysis during the first year of life.

Results: Thirty-six out of 385 children (9.

Clinical and genetic characteristics of 251 consecutive patients with macular and cone/cone-rod dystrophy.

Macular and cone/cone-rod dystrophies (MD/CCRD) demonstrate a broad genetic and phenotypic heterogeneity, with retinal alterations solely or predominantly involving the central retina. Targeted next-generation sequencing (NGS) is an efficient diagnostic tool for identifying mutations in patient with retinitis pigmentosa, which shows similar genetic heterogeneity. To detect the genetic causes of disease in patients with MD/CCRD, we implemented a two-tier procedure consisting of Sanger sequencing and targeted NGS including genes associated with clinically overlapping conditions.

A C-terminal nonsense mutation links PTPRQ with autosomal-dominant hearing loss, DFNA73.

PurposeHearing loss is genetically extremely heterogeneous, making it suitable for next-generation sequencing (NGS). We identified a four-generation family with nonsyndromic mild to severe hearing loss of the mid- to high frequencies and onset from early childhood to second decade in seven members.MethodsNGS of 66 deafness genes, Sanger sequencing, genome-wide linkage analysis, whole-exome sequencing (WES), semiquantitative reverse-transcriptase polymerase chain reaction.

Heterozygous mutation in associated with early-onset retinal dystrophy with atypical maculopathy.

Purpose: Heterozygous mutations in have been associated with a range of ocular and pituitary abnormalities. We report a novel heterozygous deletion in underlying early-onset retinal dystrophy with atypical maculopathy.

Methods: Clinical examination included electroretinography and multimodal retinal imaging.

Novel Insights Into the Phenotypical Spectrum of KIF11-Associated Retinopathy, Including a New Form of Retinal Ciliopathy.

Purpose: This study sought to characterize the ophthalmic and extraocular phenotype in patients with known and novel KIF11 mutations.

Methods: Four patients (3, 5, 36, and 38 years of age, on father-daughter constellation) from three unrelated families were characterized by retinal examination including multimodal retinal imaging, investigation for syndromic disease manifestations, and targeted next-generation sequencing. The subcellular localization of Kif11 in the retina was analyzed by light and electron microcopy.

Advances in renal genetic diagnosis.

Most genetic disorders are clinically and genetically heterogeneous. Next-generation sequencing (NGS) has revolutionized the field and is providing rapidly growing insights into the pathomechanism of hereditary nephropathies. Current best-practice guidelines for most hereditary nephropathies include genetic diagnostics.

Ubiquitin ligase RNF146 coordinates bone dynamics and energy metabolism.

Cleidocranial dysplasia (CCD) is an autosomal dominant human disorder characterized by abnormal bone development that is mainly due to defective intramembranous bone formation by osteoblasts. Here, we describe a mouse strain lacking the E3 ubiquitin ligase RNF146 that shows phenotypic similarities to CCD. Loss of RNF146 stabilized its substrate AXIN1, leading to impairment of WNT3a-induced β-catenin activation and reduced Fgf18 expression in osteoblasts.

A deep intronic CLRN1 (USH3A) founder mutation generates an aberrant exon and underlies severe Usher syndrome on the Arabian Peninsula.

Deafblindness is mostly due to Usher syndrome caused by recessive mutations in the known genes. Mutation-negative patients therefore either have distinct diseases, mutations in yet unknown Usher genes or in extra-exonic parts of the known genes - to date a largely unexplored possibility. In a consanguineous Saudi family segregating Usher syndrome type 1 (USH1), NGS of genes for Usher syndrome, deafness and retinal dystrophy and subsequent whole-exome sequencing each failed to identify a mutation.

Retinoic acid catabolizing enzyme CYP26C1 is a genetic modifier in SHOX deficiency.

Mutations in the homeobox gene SHOX cause SHOX deficiency, a condition with clinical manifestations ranging from short stature without dysmorphic signs to severe mesomelic skeletal dysplasia. In rare cases, individuals with SHOX deficiency are asymptomatic. To elucidate the factors that modify disease severity/penetrance, we studied a three-generation family with SHOX deficiency.

Extension of the clinical and molecular phenotype of DIAPH1-associated autosomal dominant hearing loss (DFNA1).

In about 20% of non-syndromic hearing loss (NSHL) cases, inheritance is autosomal dominant (ADNSHL). DIAPH1 mutations define the ADNSHL locus DFNA1. We identified two new families with heterozygous truncating DIAPH1 mutations (p.

Monoallelic ABCA4 Mutations Appear Insufficient to Cause Retinopathy: A Quantitative Autofluorescence Study.

Purpose: To investigate the effect of ABCA4 mutation status on lipofuscin-related quantitative autofluorescence (qAF) in humans and on bisretinoid accumulation in mice.

Methods: Genotyped parents (n = 26; age 37-64 years) of patients with biallelic ABCA4-related retinopathy underwent in-depth retinal phenotyping including qAF imaging as a surrogate measure for RPE lipofuscin accumulation. In addition, bisretinoids as the main components of autofluorescent lipofuscin at the ocular fundus were quantified in Abca4-/-, Abca4+/-, and wild-type mice.

PEX6 is Expressed in Photoreceptor Cilia and Mutated in Deafblindness with Enamel Dysplasia and Microcephaly.

Deafblindness is part of several genetic disorders. We investigated a consanguineous Egyptian family with two siblings affected by congenital hearing loss and retinal degeneration, initially diagnosed as Usher syndrome type 1. At teenage, severe enamel dysplasia, developmental delay, and microcephaly became apparent.

TALPID3 controls centrosome and cell polarity and the human ortholog KIAA0586 is mutated in Joubert syndrome (JBTS23).

Joubert syndrome (JBTS) is a severe recessive neurodevelopmental ciliopathy which can affect several organ systems. Mutations in known JBTS genes account for approximately half of the cases. By homozygosity mapping and whole-exome sequencing, we identified a novel locus, JBTS23, with a homozygous splice site mutation in KIAA0586 (alias TALPID3), a known lethal ciliopathy locus in model organisms.

C21orf2 is mutated in recessive early-onset retinal dystrophy with macular staphyloma and encodes a protein that localises to the photoreceptor primary cilium.

Background/aim: We have noted a phenotype of early-onset retinal dystrophy with macular staphyloma but without high myopia. The aim of this study is to report the underlying genetic mutations and the subcellular localisation of the gene product in the retina.

Methods: Retrospective case series (2012-2015); immunohistochemical analyses of mammalian retina for in situ protein localisation.