Atypical Phenotype Research Articles

Analysis of genotype effects and inter-individual variability in iPSC-derived trisomy 21 neural progenitor cells

Abstract Trisomy of human chromosome 21 (T21) gives rise to Down syndrome (DS), the most frequent live-born autosomal aneuploidy. T21 triggers genome-wide transcriptomic alterations that result in multiple atypical phenotypes with highly variable penetrance and expressivity in individuals with DS. Many of these phenotypes, including atypical neurodevelopment, emerge prenatally. To enable in vitro analyses of the cellular and molecular mechanisms leading to the neurological alterations associated with T21, we created and characterized a panel of genomically diverse T21 and euploid induced pluripotent stem cells (iPSCs). We subsequently differentiated these iPSCs to generate a panel of neural progenitor cells (NPCs). Alongside characterizing genotype effects from T21, we found that T21 NPCs showed inter-individual variability in growth rates, oxidative stress, senescence characteristics, and gene and protein expression. Pathway enrichment analyses of T21 NPCs identified vesicular transport, DNA repair, and cellular response to stress pathways. These results demonstrate T21-associated variability at the cellular level and suggest that cell lines from individuals with DS should not solely be analyzed as a homogenous population. Examining large cohorts of genetically diverse samples may more fully reveal the effects of aneuploidy on transcriptomic and phenotypic characteristics in T21 cell types. A panel of genomically diverse T21 and euploid induced pluripotent stem cells (iPSCs) were created and subsequently differentiated into neural progenitor cells (NPCs). T21 NPCs showed reduced growth, increased oxidative stress, and inter-individual variability in gene and protein expression. This inter-individual variability suggests that studies with large cohorts of genetically diverse T21 samples may more fully reveal the effects of aneuploidy.

Identification of atypical pediatric diabetes mellitus cases using electronic medical records

IntroductionThere are no established methods to identify children with atypical diabetes for further study. We aimed to develop strategies to systematically ascertain cases of atypical pediatric diabetes using electronic medical...

Severe co-infection caused by difficult-to-diagnose hypermucoviscous Klebsiella pneumoniae K1-ST82 in a patient with COVID-19: a case report

BackgroundCo-infection with Klebsiella pneumoniae presents a significant concern in hospitalized patients with coronavirus disease (COVID-19), increasing the risk of severe disease progression. Hypervirulent (hv) and hypermucoviscous (hm) K. pneumoniae (Kp) has gained prominence in Asia due to its capacity to cause invasive community-acquired infections. However, recognition of hvKp/hmKp co-infections in the context of COVID-19 remains limited. We report a severe case of rapidly progressing co-infection with hmKp exhibiting “difficult-to-diagnose” phenotypes in a hospitalized patient with COVID-19.Case presentationA 61-year-old woman with COVID-19 initially exhibited mild symptoms resembling the common cold. However, her condition rapidly deteriorated over 7 days, leading to hospital admission with the development of dyspnea. The patient required supplemental oxygen, antibiotic treatment, and mechanical ventilation. Gram-negative bacteria with atypical phenotypes were isolated from alveolar lavage fluid and blood cultures. Both strains formed small, glossy, non-lactose-fermenting colonies on clinically relevant media and were susceptible to ampicillin. Conventional biochemical tests failed to identify the Enterobacteriales strains owing to the urease-negative phenotype. Consequently, the identification of K. pneumoniae was difficult until matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF MS) analysis was performed. A positive string test indicated mucoviscosity, but with variability in the material used for stretching colonies. Whole-genome sequencing performed on the MiSeq and GridION platforms revealed the blood-derived strain JARB-RN-0063 as belonging to serotype K1 and sequence type (ST) 82. The hvKp-associated genes rmpA and iroCD were located on a 5.0-Mb chromosome, and iucABCD-iutA was identified on a 217.9-kb IncFIB(K)/IncR-type plasmid. Therefore, JARB-RN-0063 was genetically classified as hvKp with a Kleborate virulence score of 3. The intrinsic penicillinase gene blaSHV was defective owing to an IS1F element insertion, resulting in the strain being atypically susceptible to ampicillin.ConclusionsThis is the first case of severe COVID-19-associated co-infection with a difficult-to-diagnose K. penummoniae strain. Notably, co-infection by the hmKp K1-ST82 clone exhibited atypical phenotypes, including stunted growth, non-lactose fermentation, urease-negative reaction, ampicillin susceptibility, and abnormal mucoviscosity, posing diagnostic challenges for clinical laboratories and impedes the identification of hvKp/hmKp. Delayed identification may worsen patient outcomes, highlighting the need for increased clinical awareness of such difficult-to-diagnose clones to prevent deterioration.

Resolution of the Expert Council on the problem of early diagnosis of Alzheimer's disease

Alzheimer's disease (AD) is the most common neurodegenerative disease and the most common cause of dementia. In daily practice, AD is often diagnosed late, while the early stages of the disease are overlooked or mistaken for cerebrovascular pathology. However, the efficacy of existing and newly developed (disease-modifying) AD therapies is the greatest in the early stages of the disease. An accurate diagnosis of AD is possible when biological markers of the main pathological process (cerebral amyloidosis, tauopathy) are detected using positron emission tomography or neurochemical examination of cerebrospinal fluid, which are gradually being introduced into practice in Russia. The experts discussed the clinical aspects of the use of biological markers, obtained in the leading specialized centers of our country for the diagnosis and treatment of cognitive impairment (CI). First and foremost, biomarker testing is indicated in patients with mild CI and mild dementia possibly associated with AD, so that disease-modifying (pathogenetic) therapy can be initiated as early as possible upon on its availability (currently, drugs for anti-amyloid disease-modifying therapy are not registered in the Russian Federation). Patients with a non-classical (non-amnestic) or atypical AD phenotype are another group of patients in whom it is also advisable to analyze biomarkers for differential diagnostic purposes.

Default mode network tau predicts future clinical decline in atypical early Alzheimer's disease.

Identifying individuals with early-stage Alzheimer's disease (AD) at greater risk of steeper clinical decline would enable better-informed medical, support, and life planning decisions. Despite accumulating evidence on the clinical prognostic value of tau positron emission tomography (PET) in typical late-onset amnestic AD, its utility in predicting clinical decline in individuals with atypical forms of AD remains unclear. Across heterogeneous clinical phenotypes, patients with atypical AD consistently exhibit abnormal tau accumulation in the posterior nodes of the default mode network of the cerebral cortex. This evidence suggests that tau burden in this functional network could be a common imaging biomarker for prognostication across the syndromic spectrum of AD. Here, we examined the relationship between baseline tau PET signal and the rate of subsequent clinical decline in a sample of 48 A+/T+/N+ patients with mild cognitive impairment or mild dementia due to AD with atypical clinical phenotypes: Posterior Cortical Atrophy (n = 16), logopenic variant Primary Progressive Aphasia (n = 15), and amnestic syndrome with multi-domain impairment and young age of onset < 65 years (n = 17). All patients underwent magnetic resonance imaging (MRI), tau PET, and amyloid PET scans at baseline. Each patient's longitudinal clinical decline was assessed by calculating the annualized change in the Clinical Dementia Rating Sum-of-Boxes (CDR-SB) scores from baseline to follow-up (mean time interval = 14.55 ± 3.97 months). Atypical early AD patients showed an increase in CDR-SB by 1.18 ± 1.25 points per year: t(47) = 6.56, p < .001, Cohen's d = 0.95. Across clinical phenotypes, baseline tau in the default mode network was the strongest predictor of clinical decline (R2 = .30), outperforming a simpler model with baseline clinical impairment and demographic variables (R2 = .10), tau in other functional networks (R2 = .11-.26), and the magnitude of cortical atrophy (R2 = .20) and amyloid burden (R2 = .09) in the default mode network. Overall, these findings point to the contribution of default mode network tau to predicting the magnitude of clinical decline in atypical early AD patients one year later. This simple measure could aid the development of a personalized prognostic, monitoring, and treatment plan, which would help clinicians not only predict the natural evolution of the disease but also estimate the effect of disease-modifying therapies on slowing subsequent clinical decline given the patient's tau burden while still early in the disease course.

7316 A Unique Presentation of Diabetes Mellitus in an 8-Year-Old Male Positive For 3 Different Mutations Related to MODY

Abstract Disclosure: R. Senguttuvan: None. A. Pamfil: None. Background: Maturity-Onset Diabetes of the Young (MODY) is the most common form of inherited non-autoimmune diabetes mellitus, characterized by autosomal dominant inheritance, young age at onset and beta cell dysfunction. There are at least 14 MODY mutations and we present a pediatric case not meeting criteria for type 1[T1DM] or type 2 diabetes mellitus[T2DM], who tested positive for mutations in 3 different genes known to cause MODY. Case: An 8-year-old male, born full term, 2776 grams and 48.3 cm, without history of neonatal hypoglycemia or hyperglycemia, was referred for new onset diabetes mellitus management. While undergoing evaluation for abdominal pain and constipation, he was found to have a fasting glucose of 126 mg/dL (7 mmol/L) and hemoglobin A1C of 6.5%. He endorsed polyuria, but no polydipsia. He had no clinical signs of insulin resistance (e.g., acanthosis nigricans) and a BMI of 23.65 kg/m2, at the 97th percentile. Family history is positive for diabetes mellitus requiring insulin, in father (diagnosed at 11 years) and paternal grandmother and T2DM in paternal aunt. Laboratory evaluation was negative for all 5 antibodies (GAD, IA-2, Anti-islet cell antibody, Zinc Transporter 8 and Insulin antibodies) and revealed an insulin level of 15.9 uIU/mL (RR: &amp;lt;2.0-13.0) and C peptide: 2.3 ng/mL (RR: 1.1-4.4). Lacking diagnostic criteria for T1DM or T2DM, genetic testing was performed. Patient tested heterozygous for mutations in 3 genes known to cause MODY: GCK [(c.350 G&amp;gt;T p. (G117V)], ABCC8 [(c.2270 C&amp;gt;G p.(T757R)], and HNF1B [(c.68A&amp;gt;G p.(K23R)], all variant of uncertain significance. Over an 8-month period, patient's weight decreased from 98 lbs. (44.9 kg) to 90 lbs. (41.1 kg) after meeting with our dietician and implementing healthy dietary changes, and his beta cell function markers improved from diagnosis: Fasting insulin (4.5 uIU/mL), C peptide (1.3 ng/mL), and glucose 119 mg/dL; Hemoglobin A1C remained relatively stable at 6.1%. A kidney ultrasound was normal. No medical intervention were started yet, and patient is being monitored clinically and biochemically every 3-4 months. Discussion: Clinical monitoring over time, genetic testing in the parents, are critical in this patient’s long-term treatment plan and prognosis. To our knowledge, this may be the first case of diabetes mellitus in a pediatric patient, positive for mutations in 3 different genes known to cause MODY. South Texas has one of the highest incidences of T2DM in the USA. In addition to screening for genetic forms of diabetes, in patients with negative T1DM antibodies and atypical phenotype for T2DM, we should consider genetic screening in mildly obese pediatric and young adult patients without significant acanthosis nigricans, who were already diagnosed as T2DM. Presentation: 6/1/2024

A novel KCNC3 gene variant in the voltage-dependent Kv3.3 channel in an atypical form of SCA13 with dominant central vertigo.

Potassium channel mutations play an important role in neurological diseases, such as spinocerebellar ataxia (SCA). SCA is a heterogeneous autosomal-dominant neurodegenerative disorder with multiple sub-entities, such as SCA13, which is characterized by mutations in the voltage-gated potassium channel Kv3.3 (KCNC3). In this study, we present a rare and atypical case of SCA13 with a predominant episodic central rotational vertigo, while the patient suffered only from mild progressive cerebellar symptoms, such as dysarthria, ataxia of gait and stand, and recently a cognitive impairment. In this patient, we identified a heterozygous variant in KCNC3 (c.2023G > A, p.Glu675Lys) by next-generation sequencing. This Kv3.3E675K variant was studied using voltage-clamp recordings in Xenopus oocytes. While typical SCA13 variants are dominant-negative, show shifts in the voltage-dependence of activation or an altered TBK1 regulation, the Kv3.3E675K variant caused only a reduction in current amplitude and a more pronounced cumulative inactivation. Thus, the differences to phenotypes observed in patients with classical SCA13 mutations may be related to the mechanism of the observed Kv3.3 loss-of-function. Treatment of our patient with riluzole, a drug that is known to also activate potassium channels, turned out to be partly beneficial. Strikingly, we found that the Kv3.3 and Kv3.3E675K inactivation and the frequency-dependent cumulative inactivation was antagonized by increased extracellular potassium levels. Thus, and most importantly, carefully elevated plasma potassium levels in the physiological range, or novel drugs attenuating Kv3.3 inactivation might provide novel therapeutic approaches to rescue potassium currents of SCA13 variants per se. In addition, our findings broaden the phenotypic spectrum of Kv3.3 variants, expanding it to atypical phenotypes of Kv3.3-associated neurological disorders.

A Case Series of Atypical Neuroimaging Phenotypes in Wilson’s Disease

Abstract Wilson’s disease (WD) is an inherited disorder of copper metabolism that leads to excessive copper deposition, predominantly involving the hepatic and neural parenchyma. The clinical presentation may vary from being completely asymptomatic to hepatic cirrhosis with or without frank extrapyramidal symptoms. Neuroimaging plays a crucial role in diagnosis and follow-up among these patients. The myriad neuroimaging features in WD depend on the chronicity of the disease and are also associated with the extent of hepatolenticular degeneration. Here, we present various atypical imaging phenotypes encountered in a cohort of 13 patients with the expected clinical presentation. All of them are proven cases of WD either based on genetic/ceruloplasmin levels. Asymmetry of the bilateral hyperintensities, involvement of the parahippocampal gyri, lingual gyri, insular necrosis, preferential affliction of the thalamus, and brainstem sparing the neostriatum were some of the observed atypical neuroimaging phenotypes which are hitherto undescribed to the best of our knowledge. Timely recognition of the atypical imaging findings and apt clinical correlation results in effective and early management decisions.

Characteristics and outcome of chronic inflammatory demyelinating polyradiculoneuropathy patients according to their diagnostic certainty based on the 2021 EAN/PNS criteria

IntroductionTo describe the clinical characteristics and long term outcome of CIDP patients according to 2021 EAN/PNS diagnostic certainty categories. MethodsWe reviewed clinical data, response to treatment, cerebrospinal fluid examination, and nerve conduction studies parameters of 39 adult “CIDP” and 24 “possible CIDP” patients. Data were collected at diagnosis and after one (T1), two (T2), three (T3) and five years (T5). ResultsAt diagnosis, “possible CIDP” patients' phenotypes were more atypical (especially focal/multifocal, p < .01) and “CIDP” patients had a higher NIS and INCAT scores (p = .08 and 0.08). Compared to baseline: median NIS score decreased in “CIDP” and was stable in “possible CIDP” patients at T1 (p < .05), T2 (p < .05) and T3 (p < .01); median MRC score slightly increased in “CIDP” and was stable in “possible CIDP” patients at T2 (p < .05); and INCAT disability scale slightly decreased in “CIDP” and was stable in “possible CIDP” patients at T3 (p < .05). The proportion of moderate to severely disabled (mRS > 2) patients in “possible CIDP” group was higher than in “CIDP” group (not significant). “CIDP” patients had a better objective response to immunotherapy (59 % responders) than “possible CIDP” patients (29 % responders, p < .05), especially among typical CIDP patients (86 % of responders in “CIDP” versus 33 % of responders in “possible CIDP” patients, p < .05). Conclusion“CIDP” patients had a more severe neuropathy, estimated with the NIS and INCAT scores, and “possible CIDP” patients had a more atypical phenotype at baseline. Our data suggest that long-term patient outcome and response to immunotherapy is better in “CIDP” than “possible CIDP”.

Antibody-Mediated Nodo- and Paranodopathies.

The recent discovery of pathogenic antibodies targeting cell adhesion molecules of the node of Ranvier has prompted efforts to develop a new classification for a subset of antibody-mediated peripheral neuropathies. These autoimmune nodo- and paranodopathies encompass epitopes such as neurofascin 155, neurofascin 186, contactin-1, and contactin-associated protein 1, with a high likelihood of involving additional yet unidentified proteins. So far, the investigation of this subset of patients was primarily focused on adults, with only rare reports of pediatric cases. Low awareness among pediatricians and insufficient availability of appropriate diagnostic methods in many laboratories may mask a higher pediatric incidence than currently observed. Diagnosis is made by transfected cell-based assays and ELISA to characterize the specific target antigen and antibody subclass that provides insight into the pathophysiology. Clinical features often resemble those of CIDP or GBS in adults, whilst in pediatric patients, although rare, an atypical CIDP phenotype has predominantly been reported. Yet, in contrast to classical immune-mediated neuropathies, the clinical course is usually rapidly progressive, and response to classical first-line therapy often poor. Although electrophysiological signs of demyelination are observed, segmental demyelination and inflammation are not present on pathological examination. Rather, few neuropathological reports demonstrate features of axonal neuropathy without signs of true de- or remyelination. This review aims to summarize recent findings on such nodo- and paranodoneuropathies, shining light on features of these disorders in pediatric patients, a still little-explored field with only a few reports currently present.

Sacsin levels in PBMCs: A diagnostic assay for SACS variants in peripheral blood cells - A PROSPAX study.

Autosomal recessive spastic ataxia of Charlevoix-Saguenay (ARSACS) is a common recessive ataxia that is still underdiagnosed worldwide. An easily accessible diagnostic biomarker might help to diagnostically confirm patients presenting SACS variants of unknown significance (VUS) or atypical phenotypes. To detect sacsin in peripheral blood mononuclear cells (PBMCs) and to validate its diagnostic biomarker quality to discriminate biallelic SACS patients (including patients with VUS and/or atypical phenotypes) against healthy controls, non-ARSACS spastic ataxia patients, and heterozygous SACS carriers. Sacsin protein levels in PBMCs were assessed in patients versus controls and validated in skin-derived fibroblasts. Patients with biallelic SACS variants - including patients with VUS and/or atypical phenotypes - showed loss of sacsin in PBMCs, with discriminative performance against healthy, heterozygous, and non-ARSACS controls. This included all investigated SACS missense variants. Also, C-terminal variants escaping nonsense-mediated decay, while not differing from controls in expression level, showed lower molecular weight in this assay. Assessing sacsin levels using PBMCs offers an easy, peripherally accessible diagnostic biomarker for ARSACS, with PBMCs being much less invasive and easier to handle than fibroblasts. Additionally, this might be a potential target-engagement blood biomarker for sacsin-increasing therapies. © 2024 International Parkinson and Movement Disorder Society.

Growth defect of domain III glycoprotein B mutants of human cytomegalovirus reverted by compensatory mutations co-localizing in post-fusion conformation.

Cell entry is a crucial step for a virus to infect a host cell. Human cytomegalovirus utilizes glycoprotein B (gB) to fuse the viral and host cell membranes upon receptor binding of gH/gL-containing complexes. Fusion is mediated by major conformational changes of gB from a metastable pre-fusion to a stable post-fusion state whereby the central trimeric coiled-coils, formed by domain (Dom)III α helices, remain structurally nearly unchanged. To better understand the role of the stable core, we individually introduced three potentially helix-breaking or one disulfide bond-breaking mutation in the DIII α3 to study different aspects of the viral behavior upon long-term culturing. Two of the three helix-breaking mutations, gB_Y494P and gB_I495P, were lethal for the virus in either fibroblasts or epithelial cells. The third substitution, gB_G493P, on the other hand, displayed a delayed replication and spread, which was more pronounced in epithelial cells, hinting at an impaired fusion. Interestingly, the disulfide bond-breaker mutation, gB_C507S, performed strikingly differently in the two cell types - lethal in epithelial cells and an atypical phenotype in fibroblasts, respectively. Replication curve analyses paired with the infection efficiency, the spread morphology, and the cell-cell fusogenicity suggest a dysregulated fusion process, which could be reverted by second-site mutations mapping predominantly to gB DomV. Our findings underline the functional importance of a stable DomIII core for a well-regulated DomV rearrangement during fusion.IMPORTANCEHuman cytomegalovirus (HCMV) can establish a lifelong infection. In most people, the infection follows an asymptomatic course; however, it is a major cause of morbidity and mortality in immunocompromised patients or neonates. HCMV has a very broad cell tropism, ranging from fibroblasts to epi- and endothelial cells. The virus uses different entry pathways utilizing the core fusion machinery consisting of glycoprotein complexes gH/gL and glycoprotein B (gB). The fusion protein gB undergoes fundamental rearrangements from a metastable pre-fusion to a stable post-fusion conformation. Here, we characterized the viral behavior after the introduction of four single-point mutations in the gB central core. These led to various cell type-specific atypical phenotypes and the emergence of compensatory mutations, demonstrating an important interaction between domains III and V. We provide a new basis for the development of a structurally and functionally altered gB, which can further serve as a tool for drug and vaccine development.

Co-occurrence of neurofibromatosis type 1, caused by Alu insertion, and 16p13.11 microduplication

BackgroundNeurofibromatosis type 1 (NF1), an autosomal dominant disorder, characterized by a spectrum of diverse neurocutaneous manifestations, is caused by heterozygous pathogenic variants in NF1 gene. While patients with NF1 often exhibit characteristic features, atypical phenotypes can arise, necessitating consideration of differential diagnoses or concurrent pathologies.Case presentationA seven-year-old boy with suspected NF1 underwent clinical evaluation. He presented hallmark café-au-lait spots, axillary freckling, and neurofibromas. Neuroimaging revealed a cranial plexiform neurofibroma. Additionally, he exhibited attention-deficit hyperactivity disorder and developmental delay. Genetic testing identified an Alu insertion variant within the NF1 gene, and subsequent array comparative genomic hybridization detected a 16p13.11 duplication.ConclusionsThis case underscores the intricate molecular bases of NF1 by identifying a rare Alu insertion variant. The patient's neurocognitive challenges and dysmorphic features prompted exploration of a potential overlapping genetic condition. Coexisting genetic disorders have been documented in NF1 patients, emphasizing the necessity of discerning atypical manifestations. The observed 16p13.11 duplication likely contributes to the patient's phenotype, enhancing the precision of diagnosis, prognosis, and genetic counseling.

Inflammatory Bowel Disease in Children

Background: Pediatric inflammatory bowel disease (IBD) is an idiopathic inflammatory disease in the digestive system with chronic onset, which often presents with unique and atypical phenotypes. This study aimed to dissect the important features of inflammatory bowel disease in children Discussion: The two types of inflammatory bowel disease (IBD) are ulcerative colitis (UC) and Crohn’s disease (CD). In children, IBD may exhibit classic symptoms such as weight loss, abdominal pain, and bloody diarrhea. However, many patient present with atypical symptoms such as isolated poor growth, anemia, or other extraintestinal manifestations. Early diagnosis of IBD in children is crucial as delayed diagnosis may lead to serious complications like bowel narrowing or abnormal connections, and stunted growth. The recommended initial evaluations in a pediatric patient with suspected IBD are complete blood test, stool examination, endoscopy and imaging. Furthermore, the aims of IBD treatment in children are to improve quality of life, relieve symptoms, promote normal growth, and prevent complications, all while minimizing medication side effects. Conclusion: Early diagnosis and treatment are essential in managing pediatric IBD. Additionally, addressing the disease's impact on bone health, growth, development, and psychosocial well-being is also crucial to achieve comprehensive management.

Contemporary Multimodality Imaging for Diagnosis and Management of Fabry Cardiomyopathy.

Fabry disease (FD) is an X-linked lysosomal storage disorder which leads to the accumulation of globotriaosylceramide (Gb3) in various organs, including the heart. FD can be subdivided into classic disease resulting from negligible residual enzyme activity and a milder, atypical phenotype with later onset and less severe clinical presentation. The use of multimodality cardiac imaging including echocardiography, cardiac magnetic resonance and nuclear imaging is important for the diagnostic and prognostic evaluation in these patients. There are gaps in the literature regarding the comprehensive description of cardiac findings of FD and its evaluation by multimodality imaging. In this review, we describe the contemporary practices and roles of multimodality cardiac imaging in individuals affected with Fabry disease.

Systematic analysis of SCN5A variants associated with inherited cardiac diseases

BackgroundSCN5A variants are associated with a spectrum of cardiac electrical disorders with clear phenotypes. However, they may also be associated with complex phenotypic traits like overlap syndromes or pleiotropy, which have not been systematically described. In addition, the involvement of SCN5A in dilated cardiomyopathies (DCMs) remains controversial. ObjectiveWe aimed to evaluate the different phenotypes associated with pathogenic (P)/likely pathogenic (LP) SCN5A variants and to determine the prevalence of pleiotropy in a large multicentric cohort of P/LP SCN5A variant carriers. MethodsThe DNA of 13,510 consecutive probands (9960 with cardiomyopathies) was sequenced with a custom panel of genes. Individuals carrying a heterozygous single P/LP SCN5A variant were selected and phenotyped. ResultsThe study included 170 P/LP variants found in 495 patients. Of them, 119 (70%) were exclusively associated with a single well-established phenotype: 91 with Brugada syndrome, 15 with type 3 long QT syndrome, 6 with progressive cardiac conduction disease, 4 with multifocal ectopic Purkinje-related premature contractions, and 3 with sick sinus syndrome. Thirty-two variants (19%) were associated with overlap syndromes or pleiotropy. The 19 remaining variants (11%) were associated with atypical or unclear phenotypes. Of those, 8 were carried by 8 patients presenting with DCM with a debatable causative genotype/phenotype link. ConclusionMost P/LP SCN5A variants were found in patients with primary electrical disorders, mainly Brugada syndrome. Nearly 20% were associated with overlap syndromes or pleiotropy, underscoring the need for comprehensive phenotypic evaluation. The concept of SCN5A variants causing DCM is extremely rare (8/9960) if not questionable.

Prenatal detection of distal 18p deletion by chromosomal microarray analysis: Three case reports and literature review.

Chromosome 18p deletion syndrome is caused by total or partial deletion of the short arm of chromosome 18 and associated with cognitive impairment, growth retardation and mild facial dysmorphism. However, most studies on the genotype-phenotype correlations in the 18p region are diagnosed postnatally. Prenatal reports involving 18p deletions are limited. Three pregnant women opted for invasive prenatal testing due to noninvasive prenatal testing indicating high risk for chromosome 18 abnormalities. Karyotypic analysis and chromosomal microarray analysis (CMA) were performed simultaneously. The pregnancy outcomes for all cases were followed up. Meanwhile, we also made a literature review on prenatal phenotypes of 18p deletions. G-banding analysis showed that 2 fetuses presented abnormal karyotypes: 45,XN,der(18)t(18;21)(p11; q11),-21 (case 2) and 46,XN,18p- (case 3). The karyotype of case 1 was normal. Meanwhile, CMA detected 4.37 Mb (case 1), 7.26 Mb (case 2) and 14.97 Mb (case 3) deletions in chromosome 18p region. All 3 pregnancies were terminated finally according to genetic counseling based upon abnormal CMA results. Prenatal diagnosis of 18p deletion syndrome is full of challenges due to the phenotypic diversity, incomplete penetrance and lack of prenatal phenotypes. Increased nuchal translucency and holoprosencephaly are common prenatal phenotypes of distal 18p deletion. For fetuses carrying 18p deletions with atypical sonographic phenotypes, noninvasive prenatal testing could be adopted as an effective approach.

Perspectives from cystinosis: access to healthcare may be a confounding factor for variant classification.

Genetic variability persists across diverse populations, and it may impact the characterization of heritable diseases in different ancestral groups. Cystinosis is a metabolic disease caused by pathogenic variants in the CTNS gene causing the cellular accumulation of cystine. We attempted to assess the currently poorly characterized prevalence of cystinosis by employing a population genetics methodology. However, we encountered a significant challenge due to genetic variations across different populations, and the consideration of potential disparities in access to healthcare made our results inconclusive. Pathogenic CTNS variants were identified in a representative global population cohort using The Human Gene Mutation Database (HGMD) and the 1000 Genomes (1KG) database. The c.124G>A (p.Val42Ile) variant was reported to be pathogenic based on an observation in the white population presenting with atypical phenotypes, but it would be reclassified as benign in the African ancestral group if applying the ACMG allele frequency guideline due to its high allele frequency specifically in this population. Inclusion or exclusion of this c.124G>A (p.Val42Ile) variant results in a significant change in estimated disease prevalence, which can impact the diagnosis and treatment of affected patients with a broad range of phenotypic presentations. This observation led us to postulate that pathogenic manifestations of the disease may be underdiagnosed due to variable expressivity and systemic inequities in access to care, specifically in the African subpopulation. We call for a more cautious and inclusive approach to achieve more equitable care across diverse populations.

Diagnostic criteria for amyotrophic lateral sclerosis.

The present review will discuss the evolution of diagnostic criteria for amyotrophic lateral sclerosis (ALS) and biomarker considerations. To address the limitations of existing ALS diagnostic criteria, a consortium of key stakeholders developed the Gold Coast consensus criteria (GCC). The GCC has similar or greater sensitivity compared with the revised El Escorial (rEEC) and Awaji criteria (AC), particularly for atypical phenotypes, maintained across disease duration, severity, and site of onset. In addition to improving diagnostic sensitivity, using the GCC in clinical trials may promote an increased enrolment of up to 50% of ALS patients who do not currently meet the full diagnostic eligibility requirements of the rEEC. Future inclusion of genetic biomarkers may mitigate some limitations of the GCC, to further improve diagnostic utility. In advance of such a process, validation of these biomarkers will be required before inclusion as additional criteria. The GCC are simpler to use than previous consensus criteria, with demonstrated greater sensitivity and, enabling an earlier and more definitive ALS diagnosis, thereby facilitating wider enrolment into clinical trials. Broader implementation of the GCC in clinical trial settings is currently underway, globally.

Early Childhood Onset Vanishing White Matter Disease with Multiple Cranial Nerve Enhancement: A New Consensus Criteria?

Vanishing White Matter Disease (VWM), also known as Childhood Ataxia with Central Nervous System Hypomyelination (CACH), although a rare neurological condition, is a prevalent hereditary leukoencephalopathy with a characteristic phenotype of gradual neurologic deterioration with ataxia being a prominent feature. It is characterized by a wide range of onset, from antenatal and infantile periods to early childhood and later adulthood periods. The early childhood form is considered the prevailing form, characterized by a preceding phase of normal development until the second or 3rd year of life, followed by progressive neurologic deterioration, accentuated by certain stressors, such as infections or minor trauma. Diagnosis is achieved based on the clinical pretext combined with distinctive MRI brain features, confirmed by DNA analysis detection of elf2B mutation. Our case is a healthy 18-month-old male who after a preceding upper respiratory tract infection, developed an ataxic gait, encephalopathy, and recurrent generalized seizures. Physical assessment revealed signs of generalized spasticity and hyperreflexia. Neuroimaging revealed diffuse symmetric supratentorial and infratentorial diffuse white matter hypomyelination. Interestingly, there was notable enhancement of the 3rd and 5th cranial nerves. Differential diagnosis included acute demyelinating leukoencephalopathies; and neuromatobolic disorders with acute presentations (including leukodystrophies, hypomyelinating disorders, and mitochondrial encephalopathies). In the early course of his management, he received immunomodulatory therapy in the form of pulse steroids, intravenous immunoglobulins, and oral tapering course of steroids. He had limited response to these interventions. Whole exome sequencing yielded a homozygous mutation in EIF2B3, confirming the diagnosis of VWMD/CACH. The presence of enhancing cranial neuropathies represent an atypical phenotype reported in other case reports and should alert the physician to avoid unnecessary intervention with immunosuppressive therapies.