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Documents disponibles écrits par cet auteur (4)
Faire une suggestion Affiner la rechercheBrain functional connectivity correlates of autism diagnosis and familial liability in 24-month-olds / John R. Jr PRUETT in Journal of Neurodevelopmental Disorders, 17 (2025)
Titre : Brain functional connectivity correlates of autism diagnosis and familial liability in 24-month-olds Type de document : texte imprimé Auteurs : John R. Jr PRUETT, Auteur ; Alexandre A. TODOROV, Auteur ; Zoë W. HAWKS, Auteur ; Muhamed TALOVIĆ, Auteur ; Tomoyuki NISHINO, Auteur ; Steven E. PETERSEN, Auteur ; Savannah DAVIS, Auteur ; Lyn STAHL, Auteur ; Kelly N. BOTTERON, Auteur ; John N. CONSTANTINO, Auteur ; Stephen R. DAGER, Auteur ; Jed T. ELISON, Auteur ; Annette M. ESTES, Auteur ; Alan C. EVANS, Auteur ; Guido GERIG, Auteur ; Jessica B. GIRAULT, Auteur ; Heather HAZLETT, Auteur ; Leigh MACINTYRE, Auteur ; Natasha MARRUS, Auteur ; Robert C. MCKINSTRY, Auteur ; Juhi PANDEY, Auteur ; Robert T. SCHULTZ, Auteur ; William D. SHANNON, Auteur ; Mark D. SHEN, Auteur ; Abraham Z. SNYDER, Auteur ; Martin STYNER, Auteur ; Jason J. WOLFF, Auteur ; Lonnie ZWAIGENBAUM, Auteur ; Joseph PIVEN, Auteur ; THE IBIS NETWORK, Auteur Langues : Anglais (eng) Mots-clés : Humans Male Female Magnetic Resonance Imaging Autism Spectrum Disorder/physiopathology/diagnostic imaging Child, Preschool Brain/physiopathology/diagnostic imaging Support Vector Machine Connectome Nerve Net/physiopathology/diagnostic imaging Infant Siblings Default mode network Familial Functional connectivity MRI reviewed and approved by the internal review boards of Washington University School of Medicine, IRB IDs 201103140 and 201301110, the University of Washington, IRB IDs 12317 and STUDY00012991, The Children’s Hospital of Philadelphia, IRB ID 07-005689, and the University of North Carolina at Chapel Hill, IRB ID 05-2293. Informed consent was signed by all study participants. Competing interests: Dr. Robert McKinstry serves on the advisory board of Nous Imaging, Inc. and receives funding for meals and travel from Siemens Healthineers and Philips Healthcare. Abraham Z. Snyder is a consultant for Sora Neuroscience, LLC. All other authors report no financial relationships with commercial interests. Index. décimale : PER Périodiques Résumé : BACKGROUND: fcMRI correlates of autism spectrum disorder (ASD) diagnosis and familial liability were studied in 24-month-olds at high (older affected sibling) and low familial likelihood for ASD. METHODS: fcMRI comparisons of high-familial-likelihood (HL) ASD-positive (HLP, N = 23) and ASD-negative (HLN, N = 91), and low-likelihood ASD-negative (LLN, N = 27) 24-month-olds from the Infant Brain Imaging Study (IBIS) Network were conducted, employing object oriented data analysis (OODA), support vector machine (SVM) classification, and network-level fcMRI enrichment analyses. RESULTS: OODA (alpha = 0.0167, 3 comparisons) revealed differences in HLP and LLN fcMRI matrices (p = 0.012), but none for HLP versus HLN (p = 0.047) nor HLN versus LLN (p = 0.225). SVM distinguished HLP from HLN (accuracy = 99%, PPV = 96%, NPV = 100%), based on connectivity involving many networks. SVM accurately classified (non-training) LLN subjects with 100% accuracy. Enrichment analyses identified a cross-group fcMRI difference in the posterior cingulate default mode network 1 (pcDMN1)- temporal default mode network (tDMN) pair (p = 0.0070). Functional connectivity for implicated connections in these networks was consistently lower in HLP and HLN than in LLN (p = 0.0461 and 0.0004). HLP did not differ from HLN (p = 0.2254). Secondary testing showed HL children with low ASD behaviors still differed from LLN (p = 0.0036). CONCLUSIONS: 24-month-old high-familial-likelihood infants show reduced intra-DMN connectivity, a potential neural finding related to familial liability, while widely distributed functional connections correlate with ASD diagnosis. En ligne : https://dx.doi.org/10.1186/s11689-025-09621-9 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=576
in Journal of Neurodevelopmental Disorders > 17 (2025)[article] Brain functional connectivity correlates of autism diagnosis and familial liability in 24-month-olds [texte imprimé] / John R. Jr PRUETT, Auteur ; Alexandre A. TODOROV, Auteur ; Zoë W. HAWKS, Auteur ; Muhamed TALOVIĆ, Auteur ; Tomoyuki NISHINO, Auteur ; Steven E. PETERSEN, Auteur ; Savannah DAVIS, Auteur ; Lyn STAHL, Auteur ; Kelly N. BOTTERON, Auteur ; John N. CONSTANTINO, Auteur ; Stephen R. DAGER, Auteur ; Jed T. ELISON, Auteur ; Annette M. ESTES, Auteur ; Alan C. EVANS, Auteur ; Guido GERIG, Auteur ; Jessica B. GIRAULT, Auteur ; Heather HAZLETT, Auteur ; Leigh MACINTYRE, Auteur ; Natasha MARRUS, Auteur ; Robert C. MCKINSTRY, Auteur ; Juhi PANDEY, Auteur ; Robert T. SCHULTZ, Auteur ; William D. SHANNON, Auteur ; Mark D. SHEN, Auteur ; Abraham Z. SNYDER, Auteur ; Martin STYNER, Auteur ; Jason J. WOLFF, Auteur ; Lonnie ZWAIGENBAUM, Auteur ; Joseph PIVEN, Auteur ; THE IBIS NETWORK, Auteur.
Langues : Anglais (eng)
in Journal of Neurodevelopmental Disorders > 17 (2025)
Mots-clés : Humans Male Female Magnetic Resonance Imaging Autism Spectrum Disorder/physiopathology/diagnostic imaging Child, Preschool Brain/physiopathology/diagnostic imaging Support Vector Machine Connectome Nerve Net/physiopathology/diagnostic imaging Infant Siblings Default mode network Familial Functional connectivity MRI reviewed and approved by the internal review boards of Washington University School of Medicine, IRB IDs 201103140 and 201301110, the University of Washington, IRB IDs 12317 and STUDY00012991, The Children’s Hospital of Philadelphia, IRB ID 07-005689, and the University of North Carolina at Chapel Hill, IRB ID 05-2293. Informed consent was signed by all study participants. Competing interests: Dr. Robert McKinstry serves on the advisory board of Nous Imaging, Inc. and receives funding for meals and travel from Siemens Healthineers and Philips Healthcare. Abraham Z. Snyder is a consultant for Sora Neuroscience, LLC. All other authors report no financial relationships with commercial interests. Index. décimale : PER Périodiques Résumé : BACKGROUND: fcMRI correlates of autism spectrum disorder (ASD) diagnosis and familial liability were studied in 24-month-olds at high (older affected sibling) and low familial likelihood for ASD. METHODS: fcMRI comparisons of high-familial-likelihood (HL) ASD-positive (HLP, N = 23) and ASD-negative (HLN, N = 91), and low-likelihood ASD-negative (LLN, N = 27) 24-month-olds from the Infant Brain Imaging Study (IBIS) Network were conducted, employing object oriented data analysis (OODA), support vector machine (SVM) classification, and network-level fcMRI enrichment analyses. RESULTS: OODA (alpha = 0.0167, 3 comparisons) revealed differences in HLP and LLN fcMRI matrices (p = 0.012), but none for HLP versus HLN (p = 0.047) nor HLN versus LLN (p = 0.225). SVM distinguished HLP from HLN (accuracy = 99%, PPV = 96%, NPV = 100%), based on connectivity involving many networks. SVM accurately classified (non-training) LLN subjects with 100% accuracy. Enrichment analyses identified a cross-group fcMRI difference in the posterior cingulate default mode network 1 (pcDMN1)- temporal default mode network (tDMN) pair (p = 0.0070). Functional connectivity for implicated connections in these networks was consistently lower in HLP and HLN than in LLN (p = 0.0461 and 0.0004). HLP did not differ from HLN (p = 0.2254). Secondary testing showed HL children with low ASD behaviors still differed from LLN (p = 0.0036). CONCLUSIONS: 24-month-old high-familial-likelihood infants show reduced intra-DMN connectivity, a potential neural finding related to familial liability, while widely distributed functional connections correlate with ASD diagnosis. En ligne : https://dx.doi.org/10.1186/s11689-025-09621-9 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=576
Titre : Brain volumes, cognitive, and adaptive skills in school-age children with Down syndrome Type de document : texte imprimé Auteurs : Rebecca GRZADZINSKI, Auteur ; Kattia MATA, Auteur ; Ambika S. BHATT, Auteur ; Alapika JATKAR, Auteur ; Dea GARIC, Auteur ; Mark D. SHEN, Auteur ; Jessica B. GIRAULT, Auteur ; Tanya ST JOHN, Auteur ; Juhi PANDEY, Auteur ; Lonnie ZWAIGENBAUM, Auteur ; Annette ESTES, Auteur ; Audrey M. SHEN, Auteur ; Stephen DAGER, Auteur ; Robert SCHULTZ, Auteur ; Kelly BOTTERON, Auteur ; Natasha MARRUS, Auteur ; Martin STYNER, Auteur ; Alan EVANS, Auteur ; Sun Hyung KIM, Auteur ; Robert MCKINSTRY, Auteur ; Guido GERIG, Auteur ; Joseph PIVEN, Auteur ; Heather HAZLETT, Auteur ; IBIS NETWORK, Auteur Langues : Anglais (eng) Mots-clés : Humans Down Syndrome/diagnostic imaging/physiopathology/pathology Male Female Child Magnetic Resonance Imaging Adaptation, Psychological/physiology Cognition/physiology Brain/diagnostic imaging/pathology/physiopathology Autism Spectrum Disorder/diagnostic imaging/physiopathology/pathology Organ Size Cerebellum/diagnostic imaging/pathology/physiopathology Adaptive Autism spectrum disorder Brain volumes Cognitive Cortical volumes Down syndrome Intellectual disability Mri Neurobehavioral/behavioral profiles Neurodevelopmental disorder Neuroimaging School-age children in this work was approved by the local Institutional Review Board. Consent for publication: All authors have reviewed the manuscript and approved it for publication. Competing interests: The authors declare no competing interests. Index. décimale : PER Périodiques Résumé : BACKGROUND: Down syndrome (DS) is the most common congenital neurodevelopmental disorder, present in about 1 in every 700 live births. Despite its prevalence, literature exploring the neurobiology underlying DS and how this neurobiology is related to behavior is limited. This study fills this gap by examining cortical volumes and behavioral correlates in school-age children with DS. METHODS: School-age children (mean = 9.7 years ± 1.1) underwent comprehensive assessments, including cognitive and adaptive assessments, as well as an MRI scan without the use of sedation. Children with DS (n = 35) were compared to available samples of typically developing (TD; n = 80) and ASD children (n = 29). ANOVAs were conducted to compare groups on cognitive and adaptive assessments. ANCOVAs (covarying for age, sex, and total cerebral volume; TCV) compared cortical brain volumes between groups. Correlations between behavioral metrics and cortical and cerebellar volumes (separately for gray (GM) and white matter (WM)) were conducted separately by group. RESULTS: As expected, children with DS had significantly lower cognitive skills compared to ASD and TD children. Daily Living adaptive skills were comparable between ASD children and children with DS, and both groups scored lower than TD children. Children with DS exhibited a smaller TCV compared to ASD and TD children. Additionally, when controlling for TCV, age, and sex, children with DS had significantly smaller total GM and tissue volumes. Cerebellum volumes were significantly correlated with Daily Living adaptive behaviors in the DS group only. CONCLUSIONS: Despite children with DS exhibiting lower cognitive skills and smaller brain volume overall than children with ASD, their deficits in Socialization and Daily Living adaptive skills are comparable. Differences in lobar volumes (e.g., Right Frontal GM/WM, Left Frontal WM, and Left and Right Temporal WM) were observed above and beyond overall differences in total volume. The correlation between cerebellum volumes and Daily Living adaptive behaviors in the DS group provides a novel area to explore in future research. En ligne : https://dx.doi.org/10.1186/s11689-024-09581-6 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=576
in Journal of Neurodevelopmental Disorders > 16 (2024)[article] Brain volumes, cognitive, and adaptive skills in school-age children with Down syndrome [texte imprimé] / Rebecca GRZADZINSKI, Auteur ; Kattia MATA, Auteur ; Ambika S. BHATT, Auteur ; Alapika JATKAR, Auteur ; Dea GARIC, Auteur ; Mark D. SHEN, Auteur ; Jessica B. GIRAULT, Auteur ; Tanya ST JOHN, Auteur ; Juhi PANDEY, Auteur ; Lonnie ZWAIGENBAUM, Auteur ; Annette ESTES, Auteur ; Audrey M. SHEN, Auteur ; Stephen DAGER, Auteur ; Robert SCHULTZ, Auteur ; Kelly BOTTERON, Auteur ; Natasha MARRUS, Auteur ; Martin STYNER, Auteur ; Alan EVANS, Auteur ; Sun Hyung KIM, Auteur ; Robert MCKINSTRY, Auteur ; Guido GERIG, Auteur ; Joseph PIVEN, Auteur ; Heather HAZLETT, Auteur ; IBIS NETWORK, Auteur.
Langues : Anglais (eng)
in Journal of Neurodevelopmental Disorders > 16 (2024)
Mots-clés : Humans Down Syndrome/diagnostic imaging/physiopathology/pathology Male Female Child Magnetic Resonance Imaging Adaptation, Psychological/physiology Cognition/physiology Brain/diagnostic imaging/pathology/physiopathology Autism Spectrum Disorder/diagnostic imaging/physiopathology/pathology Organ Size Cerebellum/diagnostic imaging/pathology/physiopathology Adaptive Autism spectrum disorder Brain volumes Cognitive Cortical volumes Down syndrome Intellectual disability Mri Neurobehavioral/behavioral profiles Neurodevelopmental disorder Neuroimaging School-age children in this work was approved by the local Institutional Review Board. Consent for publication: All authors have reviewed the manuscript and approved it for publication. Competing interests: The authors declare no competing interests. Index. décimale : PER Périodiques Résumé : BACKGROUND: Down syndrome (DS) is the most common congenital neurodevelopmental disorder, present in about 1 in every 700 live births. Despite its prevalence, literature exploring the neurobiology underlying DS and how this neurobiology is related to behavior is limited. This study fills this gap by examining cortical volumes and behavioral correlates in school-age children with DS. METHODS: School-age children (mean = 9.7 years ± 1.1) underwent comprehensive assessments, including cognitive and adaptive assessments, as well as an MRI scan without the use of sedation. Children with DS (n = 35) were compared to available samples of typically developing (TD; n = 80) and ASD children (n = 29). ANOVAs were conducted to compare groups on cognitive and adaptive assessments. ANCOVAs (covarying for age, sex, and total cerebral volume; TCV) compared cortical brain volumes between groups. Correlations between behavioral metrics and cortical and cerebellar volumes (separately for gray (GM) and white matter (WM)) were conducted separately by group. RESULTS: As expected, children with DS had significantly lower cognitive skills compared to ASD and TD children. Daily Living adaptive skills were comparable between ASD children and children with DS, and both groups scored lower than TD children. Children with DS exhibited a smaller TCV compared to ASD and TD children. Additionally, when controlling for TCV, age, and sex, children with DS had significantly smaller total GM and tissue volumes. Cerebellum volumes were significantly correlated with Daily Living adaptive behaviors in the DS group only. CONCLUSIONS: Despite children with DS exhibiting lower cognitive skills and smaller brain volume overall than children with ASD, their deficits in Socialization and Daily Living adaptive skills are comparable. Differences in lobar volumes (e.g., Right Frontal GM/WM, Left Frontal WM, and Left and Right Temporal WM) were observed above and beyond overall differences in total volume. The correlation between cerebellum volumes and Daily Living adaptive behaviors in the DS group provides a novel area to explore in future research. En ligne : https://dx.doi.org/10.1186/s11689-024-09581-6 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=576
Titre : Sleep in Infants with Down Syndrome or Familial Likelihood of Autism in the First Year of Life Type de document : texte imprimé Auteurs : Emma R. COCO, Auteur ; Jeffrey MUNSON, Auteur ; Tanya ST JOHN, Auteur ; Stephen R. DAGER, Auteur ; Kelly BOTTERON, Auteur ; Jed ELISON, Auteur ; Dea GARIC, Auteur ; Heather HAZLETT, Auteur ; Chimei LEE, Auteur ; Natasha MARRUS, Auteur ; John R. PRUETT, Auteur ; Robert SCHULTZ, Auteur ; Mark SHEN, Auteur ; Lonnie ZWAIGENBAUM, Auteur ; Joseph PIVEN, Auteur ; Annette ESTES, Auteur Article en page(s) : p.4439-4449 Langues : Anglais (eng) Index. décimale : PER Périodiques Résumé : Sleep problems have been associated with atypical development, but there is limited understanding of when sleep problems arise and how they differ across clinical populations. We aimed to evaluate sleep characteristics of infants with Down syndrome (DS), higher familial likelihood of autism (HL) and lower familial likelihood of autism (LL) at 6 and 12 months of age. Participants were from two longitudinal, multi-site, studies. Sleep was estimated by parent report on the Brief Infant Sleep Questionnaire at 6 months (59 DS, 173 HL, 54 LL); 12 months (58 DS, 129 HL, 30 LL); and in a longitudinal subset at both 6 and 12 months (100 HL; 23 LL; 33 DS). At 6-months, DS parents reported less concern about infant sleep and less night wakefulness than LL parents; HL parents reported longer sleep onset latency (SOL). At 12 months DS parents reported less night sleep and more night wakefulness; HL parents reported less night sleep, more night wakefulness and longer SOL compared to LL. Night wakefulness increased significantly in the DS and HL groups from 6 to 12 months of age. A higher proportion of DS and HL infants decreased Night Sleep and increased Night Wakefulness compared with the LL group. A higher proportion of DS infants increased SOL compared with the LL group. Sleep alterations are present in the first year of life and may differ in DS and HL infants. The mechanisms behind these sleep alterations may be an important early intervention target. En ligne : https://doi.org/10.1007/s10803-025-06927-4 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=572
in Journal of Autism and Developmental Disorders > 55-12 (December 2025) . - p.4439-4449[article] Sleep in Infants with Down Syndrome or Familial Likelihood of Autism in the First Year of Life [texte imprimé] / Emma R. COCO, Auteur ; Jeffrey MUNSON, Auteur ; Tanya ST JOHN, Auteur ; Stephen R. DAGER, Auteur ; Kelly BOTTERON, Auteur ; Jed ELISON, Auteur ; Dea GARIC, Auteur ; Heather HAZLETT, Auteur ; Chimei LEE, Auteur ; Natasha MARRUS, Auteur ; John R. PRUETT, Auteur ; Robert SCHULTZ, Auteur ; Mark SHEN, Auteur ; Lonnie ZWAIGENBAUM, Auteur ; Joseph PIVEN, Auteur ; Annette ESTES, Auteur . - p.4439-4449.
Langues : Anglais (eng)
in Journal of Autism and Developmental Disorders > 55-12 (December 2025) . - p.4439-4449
Index. décimale : PER Périodiques Résumé : Sleep problems have been associated with atypical development, but there is limited understanding of when sleep problems arise and how they differ across clinical populations. We aimed to evaluate sleep characteristics of infants with Down syndrome (DS), higher familial likelihood of autism (HL) and lower familial likelihood of autism (LL) at 6 and 12 months of age. Participants were from two longitudinal, multi-site, studies. Sleep was estimated by parent report on the Brief Infant Sleep Questionnaire at 6 months (59 DS, 173 HL, 54 LL); 12 months (58 DS, 129 HL, 30 LL); and in a longitudinal subset at both 6 and 12 months (100 HL; 23 LL; 33 DS). At 6-months, DS parents reported less concern about infant sleep and less night wakefulness than LL parents; HL parents reported longer sleep onset latency (SOL). At 12 months DS parents reported less night sleep and more night wakefulness; HL parents reported less night sleep, more night wakefulness and longer SOL compared to LL. Night wakefulness increased significantly in the DS and HL groups from 6 to 12 months of age. A higher proportion of DS and HL infants decreased Night Sleep and increased Night Wakefulness compared with the LL group. A higher proportion of DS infants increased SOL compared with the LL group. Sleep alterations are present in the first year of life and may differ in DS and HL infants. The mechanisms behind these sleep alterations may be an important early intervention target. En ligne : https://doi.org/10.1007/s10803-025-06927-4 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=572
Titre : The Brain Gene Registry: a data snapshot Type de document : texte imprimé Auteurs : Dustin BALDRIDGE, Auteur ; Levi KASTER, Auteur ; Catherine SANCIMINO, Auteur ; Siddharth SRIVASTAVA, Auteur ; Sophie MOLHOLM, Auteur ; Aditi GUPTA, Auteur ; Inez OH, Auteur ; Virginia LANZOTTI, Auteur ; Daleep GREWAL, Auteur ; Erin Rooney RIGGS, Auteur ; Juliann M. SAVATT, Auteur ; Rachel HAUCK, Auteur ; Abigail SVEDEN, Auteur ; BRAIN GENE REGISTRY CONSORTIUM, Auteur ; John N. CONSTANTINO, Auteur ; Joseph PIVEN, Auteur ; Christina A. GURNETT, Auteur ; Maya CHOPRA, Auteur ; Heather HAZLETT, Auteur ; Philip R.O. PAYNE, Auteur Langues : Anglais (eng) Mots-clés : Humans Male Female Autism Spectrum Disorder/genetics Autistic Disorder Neurodevelopmental Disorders Intellectual Disability Brain Registries Methyltransferases Brain gene registry Electronic health records Neurodevelopmental disorders Index. décimale : PER Périodiques Résumé : Monogenic disorders account for a large proportion of population-attributable risk for neurodevelopmental disabilities. However, the data necessary to infer a causal relationship between a given genetic variant and a particular neurodevelopmental disorder is often lacking. Recognizing this scientific roadblock, 13 Intellectual and Developmental Disabilities Research Centers (IDDRCs) formed a consortium to create the Brain Gene Registry (BGR), a repository pairing clinical genetic data with phenotypic data from participants with variants in putative brain genes. Phenotypic profiles are assembled from the electronic health record (EHR) and a battery of remotely administered standardized assessments collectively referred to as the Rapid Neurobehavioral Assessment Protocol (RNAP), which include cognitive, neurologic, and neuropsychiatric assessments, as well as assessments for attention deficit hyperactivity disorder (ADHD) and autism spectrum disorder (ASD). Co-enrollment of BGR participants in the Clinical Genome Resource's (ClinGen's) GenomeConnect enables display of variant information in ClinVar. The BGR currently contains data on 479 participants who are 55% male, 6% Asian, 6% Black or African American, 76% white, and 12% Hispanic/Latine. Over 200 genes are represented in the BGR, with 12 or more participants harboring variants in each of these genes: CACNA1A, DNMT3A, SLC6A1, SETD5, and MYT1L. More than 30% of variants are de novo and 43% are classified as variants of uncertain significance (VUSs). Mean standard scores on cognitive or developmental screens are below average for the BGR cohort. EHR data reveal developmental delay as the earliest and most common diagnosis in this sample, followed by speech and language disorders, ASD, and ADHD. BGR data has already been used to accelerate gene-disease validity curation of 36 genes evaluated by ClinGen's BGR Intellectual Disability (ID)-Autism (ASD) Gene Curation Expert Panel. In summary, the BGR is a resource for use by stakeholders interested in advancing translational research for brain genes and continues to recruit participants with clinically reported variants to establish a rich and well-characterized national resource to promote research on neurodevelopmental disorders. En ligne : https://dx.doi.org/10.1186/s11689-024-09530-3 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=575
in Journal of Neurodevelopmental Disorders > 16 (2024)[article] The Brain Gene Registry: a data snapshot [texte imprimé] / Dustin BALDRIDGE, Auteur ; Levi KASTER, Auteur ; Catherine SANCIMINO, Auteur ; Siddharth SRIVASTAVA, Auteur ; Sophie MOLHOLM, Auteur ; Aditi GUPTA, Auteur ; Inez OH, Auteur ; Virginia LANZOTTI, Auteur ; Daleep GREWAL, Auteur ; Erin Rooney RIGGS, Auteur ; Juliann M. SAVATT, Auteur ; Rachel HAUCK, Auteur ; Abigail SVEDEN, Auteur ; BRAIN GENE REGISTRY CONSORTIUM, Auteur ; John N. CONSTANTINO, Auteur ; Joseph PIVEN, Auteur ; Christina A. GURNETT, Auteur ; Maya CHOPRA, Auteur ; Heather HAZLETT, Auteur ; Philip R.O. PAYNE, Auteur.
Langues : Anglais (eng)
in Journal of Neurodevelopmental Disorders > 16 (2024)
Mots-clés : Humans Male Female Autism Spectrum Disorder/genetics Autistic Disorder Neurodevelopmental Disorders Intellectual Disability Brain Registries Methyltransferases Brain gene registry Electronic health records Neurodevelopmental disorders Index. décimale : PER Périodiques Résumé : Monogenic disorders account for a large proportion of population-attributable risk for neurodevelopmental disabilities. However, the data necessary to infer a causal relationship between a given genetic variant and a particular neurodevelopmental disorder is often lacking. Recognizing this scientific roadblock, 13 Intellectual and Developmental Disabilities Research Centers (IDDRCs) formed a consortium to create the Brain Gene Registry (BGR), a repository pairing clinical genetic data with phenotypic data from participants with variants in putative brain genes. Phenotypic profiles are assembled from the electronic health record (EHR) and a battery of remotely administered standardized assessments collectively referred to as the Rapid Neurobehavioral Assessment Protocol (RNAP), which include cognitive, neurologic, and neuropsychiatric assessments, as well as assessments for attention deficit hyperactivity disorder (ADHD) and autism spectrum disorder (ASD). Co-enrollment of BGR participants in the Clinical Genome Resource's (ClinGen's) GenomeConnect enables display of variant information in ClinVar. The BGR currently contains data on 479 participants who are 55% male, 6% Asian, 6% Black or African American, 76% white, and 12% Hispanic/Latine. Over 200 genes are represented in the BGR, with 12 or more participants harboring variants in each of these genes: CACNA1A, DNMT3A, SLC6A1, SETD5, and MYT1L. More than 30% of variants are de novo and 43% are classified as variants of uncertain significance (VUSs). Mean standard scores on cognitive or developmental screens are below average for the BGR cohort. EHR data reveal developmental delay as the earliest and most common diagnosis in this sample, followed by speech and language disorders, ASD, and ADHD. BGR data has already been used to accelerate gene-disease validity curation of 36 genes evaluated by ClinGen's BGR Intellectual Disability (ID)-Autism (ASD) Gene Curation Expert Panel. In summary, the BGR is a resource for use by stakeholders interested in advancing translational research for brain genes and continues to recruit participants with clinically reported variants to establish a rich and well-characterized national resource to promote research on neurodevelopmental disorders. En ligne : https://dx.doi.org/10.1186/s11689-024-09530-3 Permalink : https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=575
