Searched for: person:od4
Development and Adaptive Function in Individuals With SCN2A-Related Disorders
Goad, Beatrice Southby; Rodda, Jill; Allen, Meagan; Bamborschke, Daniel; Overmars, Isabella; Kerr, Rachel J; Bushlin, Ittai; Chopra, Saurabh; Coorg, Rohini; Dabscheck, Gabriel; Freeman, Jeremy L; Mackay, Mark T; Devinsky, Orrin; Guerrini, Renzo; Parrini, Elena; Bölsterli, Bigna; Hughes, Inna; Huh, Linda L; Kamate, Mahesh; Kunz, Abby B; Melikishvili, Gia; Miteff, Christina; Myers, Kenneth Alexis; Olson, Heather E; Poduri, Annapurna; Pillai, Sekhar; Riney, Catherine Kate; Sinclair, Adriane; Calvert, Sophie; Reynolds, Thomas Q; Martinez, Ana Roche; Russo, Angelo; Sadleir, Lynette Grant; Sanchez-Albisua, Iciar; Sartori, Stefano; Shea, Stephanie; Smith-Hicks, Constance L; Spooner, Claire G; Thomas, Rhys H; Ardern-Holmes, Simone L; Webster, Richard Ian; Valeriani, Massimiliano; Veggiotti, Pierangelo; Masnada, Silvia; Ware, Tyson L; Yoong, Michael; Berecki, Geza; De Dominicis, Angela; Specchio, Nicola; Trivisano, Marina; Møller, Rikke Steensbjerre; Wolff, Markus; Fazeli, Walid; Scheffer, Ingrid; Howell, Katherine B
BACKGROUND AND OBJECTIVES/OBJECTIVE:-related disorders, although descriptions are limited. We aimed to determine trajectories and outcomes of development and adaptive function. METHODS:-containing 2q24.3 copy number variants (CNVs) were considered separately. We collected medical and developmental history from parents/caregivers and medical records. Adaptive function and behavior were characterized using functional classification system levels and Vineland Adaptive Behavior Scales-3 (VABS-3) Parent/Caregiver Form. We repeated analyses on individuals with variants known to result in gain-of-function (GOF, typically EO phenotypes) or loss-of-function (LOF, typically LO phenotypes). RESULTS:< 0.01). Analyses of individuals with confirmed GOF/LOF variants (n = 57) showed similar results to the EO/LO analyses. DISCUSSION/CONCLUSIONS:-related disorders is extremely broad. Phenotypic subgroups provide prognostic information and critically inform clinical trial design.
PMID: 40694750
ISSN: 1526-632x
CID: 5901452
Saccades track visual associative memory processes with precision and sensitivity
Henin, Simon; Tefera, Eden; Borges, Helen; Devinsky, Orrin; Ranganath, Charan; Liu, Anli
Humans primarily use vision to engage with and learn about the world. The hippocampus plays a crucial role in binding visual experiences of people, objects and contexts over time to create event memories. Thus, eye tracking could read out hippocampal dynamics in a precise and sensitive manner. Furthermore, eye tracking could potentially detect subjective memory decline reported by temporal lobe epilepsy patients that is missed by standardized cognitive testing. We asked whether eye movements could precisely and sensitively detect memory variability within trials and between subject cohorts. We predicted that (i) eye-tracking behaviour during visual retrieval could be validated against accuracy-based tests and that (ii) memory failures would be characterized by distinct spatiotemporal patterns of visual scanning. Fourteen healthy controls and 30 temporal lobe epilepsy patients participated in a visual object association task while eye movements and pupil size were recorded. We found a difference in accuracy during retrieval between healthy controls and temporal lobe epilepsy patients. Correct retrieval trials correlated with fewer saccades, early target preference, and a more organized search pattern. Eye-movement patterns could predict retrieval accuracy at the single trial level with outstanding performance, with percentage of gaze time on the target versus the lure as the most important features. Even during correct retrieval trials, temporal lobe epilepsy patients exhibited a more chaotic scanning pattern compared to healthy controls, suggesting a weaker memory trace. Healthy versus epilepsy diagnosis could be predicted with good performance, with trial entropy and pupillary changes as key predictive factors. Saccade patterns correlated with individual subjects' accuracy scores and performance on standardized cognitive tests but provided a greater range of performance. In summary, scanning behaviour provides a continuous measure of associative memory function that capture meaningful variability during trials, between trials, and between subjects. Thus, eye tracking could be a precise and sensitive method to detect subtle memory decline in temporal lobe epilepsy or other neuropsychiatric populations with memory impairment and may generate precise behavioural phenotyping in research settings.
PMCID:12204191
PMID: 40585809
ISSN: 2632-1297
CID: 5887532
Cyclical Vomiting Syndrome in Individuals With BPTF Haploinsufficiency
Ferretti, Alessandro; Furlan, Margherita; Glinton, Kevin E; Fenger, Christina D; Boschann, Felix; Zeidler, Shimriet; Stoltenburg, Corinna; Barakat, Tahsin Stefan; Martinez-Agosto, Julian A; Devinsky, Orrin; Furia, Francesca; Rubboli, Guido; Di Napoli, Anteo; Bellone, Giulia; Furio, Silvia; Piccirillo, Marisa; Mennini, Maurizio; Di Nardo, Giovanni; Parisi, Pasquale; Møller, Rikke S; Yang, Yaping; Stankiewicz, Pawel; Gardella, Elena
BACKGROUND:Haploinsufficiency of the bromodomain PHD finger transcription factor (BPTF) gene, essential in chromatin remodeling, leads to a neurodevelopmental disorder characterized by dysmorphic facies, distal limb anomalies, neurological disturbances, epilepsy, and gastrointestinal symptoms. METHODS:Families with BPTF-related neurodevelopmental disorders, with or without gastrointestinal symptoms, were recruited through an international collaboration. Data were collected via questionnaires on demographics, clinical features, genetics, and comorbidities, focusing on cyclical vomiting syndrome (CVS). CVS was diagnosed using criteria from the International Classification of Headache Disorders, 3rd edition (ICHD-3). Genetic variants were analyzed for pathogenicity, and effectiveness of therapies was assessed. RESULTS:We enrolled 15 individuals with likely pathogenic/pathogenic BPTF variants (median age: 8.8 years). Three individuals (20%) were diagnosed with CVS, and an additional four individuals (26.7%) met at least three of the ICHD-3 criteria for CVS. Among these seven individuals, the median age at onset of recurrent vomiting episodes was 3 years. In all seven individuals, recurrent vomiting episodes, typically lasting under an hour, were triggered by poor sleep (50%) and fever (66.7%). Acute therapy (ondansetron or domperidone) was administered in 42.8% of cases, and prophylactic therapy was provided in 57.1% of cases with cyproheptadine, levetiracetam combined with lamotrigine, and domperidone; all therapies were associated with clinical benefit. Episodes disrupted families' daily lives, causing emotional stress (85.7%) and routine disruptions (85.7%). CONCLUSIONS:This study broadens the syndromic phenotype associated with BPTF haploinsufficiency, highlighting CVS as a core feature. The findings raise clinician awareness, guide management, and enhance understanding of this rare condition.
PMID: 40614698
ISSN: 1873-5150
CID: 5888562
The "Podcast" ECoG dataset for modeling neural activity during natural language comprehension
Zada, Zaid; Nastase, Samuel A; Aubrey, Bobbi; Jalon, Itamar; Michelmann, Sebastian; Wang, Haocheng; Hasenfratz, Liat; Doyle, Werner; Friedman, Daniel; Dugan, Patricia; Melloni, Lucia; Devore, Sasha; Flinker, Adeen; Devinsky, Orrin; Goldstein, Ariel; Hasson, Uri
Naturalistic electrocorticography (ECoG) data are a rare but essential resource for studying the brain's linguistic capabilities. ECoG offers high temporal resolution suitable for investigating processes at multiple temporal timescales and frequency bands. It also provides broad spatial coverage, often along critical language areas. Here, we share a dataset of nine ECoG participants with 1,330 electrodes listening to a 30-minute audio podcast. The richness of this naturalistic stimulus can be used for various research questions, from auditory perception to narrative integration. In addition to the neural data, we extracted linguistic features of the stimulus ranging from phonetic information to large language model word embeddings. We use these linguistic features in encoding models that relate stimulus properties to neural activity. Finally, we provide detailed tutorials for preprocessing raw data, extracting stimulus features, and running encoding analyses that can serve as a pedagogical resource or a springboard for new research.
PMCID:12226714
PMID: 40610484
ISSN: 2052-4463
CID: 5888402
Febrile Seizures and Sudden Death Risk: A Case-Control Analysis
Gould, Laura; Friedman, Steven; Wisniewski, Thomas; Devinsky, Orrin
BACKGROUND:Febrile seizures occur in 3%-4% of US children aged six months to five years and are considered benign. However, sudden unexplained death in childhood is associated with 10 times increase in febrile seizures. We assessed the characteristics of children with febrile seizure and sudden death to identify factors that confer increased sudden death risk. METHODS:We conducted a case-control analysis of children with febrile seizure and subsequent sudden death versus living controls from December 2021 to June 2023 through an ∼10-minute anonymous online survey. We enrolled parents of children, living or deceased, whose child had experienced a febrile seizure from age six months to six years. Subjects were excluded if the child had an afebrile seizure or parents had not witnessed a febrile seizure. Demographic characteristics, parasomnias, and febrile seizure features were analyzed. RESULTS:A total of 381 completed surveys were received; 53 (14%) cases of febrile seizure with sudden death and 328 (86%) living controls. Cases reported febrile seizure onset >2 months earlier (P = 0.013) and reported developmental concerns (odds ratio [OR] = 2.32, 95% confidence interval [CI] [1.14, 4.71], P = 0.03), less frequent night awakenings (OR = 0.34, 95% CI [0.18, 0.65], P = 0.001), and less restless sleep (OR = 0.37, 95% CI [0.16, 0.85], P = 0.02). Cases were also less likely to drool (OR = 0.442, 95% CI [0.218, 0.900], P = 0.032) or be unresponsive for more than one minute (OR = 0.45, 95% CI [0.238, 0.854], P = 0.021). CONCLUSIONS:We report novel associations of febrile seizure and sudden death related to age, development, sleep, and observed ictal features. Anonymous survey methodology cannot exclude ascertainment bias and any related potential effect on results. Our findings suggest that impaired arousal mechanisms may increase risk of death in subjects with febrile seizure.
PMID: 40602049
ISSN: 1873-5150
CID: 5888072
Precise spatial tuning of visually driven alpha oscillations in human visual cortex
Yuasa, Kenichi; Groen, Iris I A; Piantoni, Giovanni; Montenegro, Stephanie; Flinker, Adeen; Devore, Sasha; Devinsky, Orrin; Doyle, Werner; Dugan, Patricia; Friedman, Daniel; Ramsey, Nick F; Petridou, Natalia; Winawer, Jonathan
Neuronal oscillations at about 10 Hz, called alpha oscillations, are often thought to arise from synchronous activity across the occipital cortex and are usually largest when the cortex is inactive. However, recent studies measuring visual receptive fields have reported that local alpha power increases when cortex is excited by visual stimulation. This contrasts with the expectation that alpha oscillations are associated with cortical inactivity. Here, we used intracranial electrodes in human patients to measure alpha oscillations in response to visual stimuli whose location varied systematically across the visual field. We hypothesized that stimulus-driven local increases in alpha power result from a mixture of two effects: a reduction in alpha oscillatory power and a simultaneous increase in broadband power. To test this, we implemented a model to separate these components. The two components were then independently fit by population receptive field (pRF) models. We find that the alpha pRFs have similar center locations to pRFs estimated from broadband power but are several times larger and exhibit the opposite effect: alpha oscillatory power decreases in response to stimuli within the receptive field, reinforcing the link between alpha oscillations and cortical inactivity, whereas broadband power increases. The results demonstrate that alpha suppression in the human visual cortex can be precisely tuned, but that to measure these effects, it is essential to separate the oscillatory signal from broadband power changes. Finally, we show how the large size and the negative valence of alpha pRFs can explain key features of exogenous visual attention.
PMID: 40511786
ISSN: 2050-084x
CID: 5869762
Decoding words during sentence production with ECoG reveals syntactic role encoding and structure-dependent temporal dynamics
Morgan, Adam M; Devinsky, Orrin; Doyle, Werner K; Dugan, Patricia; Friedman, Daniel; Flinker, Adeen
Sentence production is the uniquely human ability to transform complex thoughts into strings of words. Despite the importance of this process, language production research has primarily focused on single words. It remains a largely untested assumption that the principles of word production generalize to more naturalistic utterances like sentences. Here, we investigate this using high-resolution neurosurgical recordings (ECoG) and an overt production experiment where ten patients produced six words in isolation (picture naming) and in sentences (scene description). We trained machine learning classifiers to identify the unique brain activity patterns for each word during picture naming, and used these patterns to decode which words patients were processing while they produced sentences. Our findings confirm that words share cortical representations across tasks, but reveal a division of labor within the language network. In sensorimotor cortex, words were consistently activated in the order in which they were said in the sentence. However, in prefrontal cortex, the order in which words were processed depended on the syntactic structure of the sentence. In non-canonical sentences (passives), we further observed a spatial code for syntactic roles, with subjects selectively encoded in inferior frontal gyrus (IFG) and objects selectively encoded in middle frontal gyrus (MFG). We suggest that these complex dynamics of prefrontal cortex may impose a subtle pressure on language evolution, potentially explaining why nearly all the world's languages position subjects before objects.
PMCID:12133590
PMID: 40461573
ISSN: 2731-9121
CID: 5862322
Patients with status epilepticus and new-onset refractory status epilepticus display drastically altered fecal microbiomes compared to chronic epilepsy patients
Steriade, Claude; Thomas, Scott C; Xu, Fangxi; Ahituv, Amit; Hanin, Aurélie; Pleshkevich, Maria; Hwang, Samantha; Ramirez, Alexandra; Foreman, Brandon; Yoo, Jiyeoun; Eka, Onome; Kellogg, Marissa; Oliger, Audrey; Wainwright, Mark S; Morales, Mikaela; Gaspard, Nicolas; Hirsch, Lawrence J; Devinsky, Orrin; Saxena, Deepak
OBJECTIVE:New-onset refractory status epilepticus (NORSE) occurs in people without pre-existing epilepsy or a rapidly identified structural, toxic, metabolic, or other cause. NORSE is a rare disorder with high morbidity and mortality rates and limited evidence for effective therapies. We aimed to assess whether the gut microbiome of NORSE and status epilepticus (SE) differs from that of chronic epilepsy, whether NORSE differs from SE at different disease time points, and to examine the correlations between specific gut microbiota and cytokines in NORSE and SE. METHODS:This longitudinal cohort study observed patients with NORSE (n = 15), SE (n = 17), and chronic epilepsy who were not in SE (n = 12). NORSE patients were recruited through the NORSE Consortium. Patients with NORSE and SE underwent longitudinal serial biospecimen collection. Fecal samples were subjected to whole-community shotgun metagenomics to characterize microbiome features. Cohorts were evaluated for prokaryotic, eukaryotic, and functional diversity. Correlations between blood inflammatory cytokine levels and microbiome features and covariate analysis with critical illness and clinical treatments were examined for NORSE and SE patients during and after SE resolution. RESULTS:During SE, NORSE and SE patients had significantly different prokaryotic, eukaryotic, and functional microbiome levels compared to chronic epilepsy patients without SE. Limited microbiome differences were observed within and between NORSE and SE, although these groups displayed differing correlation patterns between microbial species and cytokines. Patients who later died or were tube-fed harbored significantly different microbiomes than those who survived or were orally fed. SIGNIFICANCE/CONCLUSIONS:NORSE and SE patients present with a more variable and dramatically different fecal microbiome than chronic epilepsy patients, which may indicate gut dysbiosis that may be reciprocally linked to inflammatory responses. Although NORSE and SE patients had similar microbiome structures, fungal and bacterial correlates with inflammatory cytokines differed between NORSE and SE, with confounding factors influencing microbiome structure. Our data suggest a microbiome-specific response to NORSE and SE, with implications for future treatment strategies.
PMID: 40387216
ISSN: 1528-1167
CID: 5852492
Open multi-center intracranial electroencephalography dataset with task probing conscious visual perception
Seedat, Alia; Lepauvre, Alex; Jeschke, Jay; Gorska-Klimowska, Urszula; Armendariz, Marcelo; Bendtz, Katarina; Henin, Simon; Hirschhorn, Rony; Brown, Tanya; Jensen, Erika; Kozma, Csaba; Mazumder, David; Montenegro, Stephanie; Yu, Leyao; Bonacchi, Niccolò; Das, Diptyajit; Kahraman, Kyle; Sripad, Praveen; Taheriyan, Fatemeh; Devinsky, Orrin; Dugan, Patricia; Doyle, Werner; Flinker, Adeen; Friedman, Daniel; Lake, Wendell; Pitts, Michael; Mudrik, Liad; Boly, Melanie; Devore, Sasha; Kreiman, Gabriel; Melloni, Lucia
We introduce an intracranial EEG (iEEG) dataset collected as part of an adversarial collaboration between proponents of two theories of consciousness: Global Neuronal Workspace Theory and Integrated Information Theory. The data were recorded from 38 patients undergoing intracranial monitoring of epileptic seizures across three research centers using the same experimental protocol. Participants were presented with suprathreshold visual stimuli belonging to four different categories (faces, objects, letters, false fonts) in three orientations (front, left, right view), and for three durations (0.5, 1.0, 1.5 s). Participants engaged in a non-speeded Go/No-Go target detection task to identify infrequent targets with some stimuli becoming task-relevant and others task-irrelevant. Participants also engaged in a motor localizer task. The data were checked for its quality and converted to Brain Imaging Data Structure (BIDS). The de-identified dataset contains demographics, clinical information, electrode reconstruction, behavioral performance, and eye-tracking data. We also provide code to preprocess and analyze the data. This dataset holds promise for reuse in consciousness science and vision neuroscience to answer questions related to stimulus processing, target detection, and task-relevance, among many others.
PMCID:12102287
PMID: 40410191
ISSN: 2052-4463
CID: 5853792
A left-lateralized dorsolateral prefrontal network for naming
Yu, Leyao; Dugan, Patricia; Doyle, Werner; Devinsky, Orrin; Friedman, Daniel; Flinker, Adeen
The ability to connect the form and meaning of a concept, known as word retrieval, is fundamental to human communication. While various input modalities could lead to identical word retrieval, the exact neural dynamics supporting this process relevant to daily auditory discourse remain poorly understood. Here, we recorded neurosurgical electrocorticography (ECoG) data from 48 patients and dissociated two key language networks that highly overlap in time and space, critical for word retrieval. Using unsupervised temporal clustering techniques, we found a semantic processing network located in the middle and inferior frontal gyri. This network was distinct from an articulatory planning network in the inferior frontal and precentral gyri, which was invariant to input modalities. Functionally, we confirmed that the semantic processing network encodes word surprisal during sentence perception. These findings elucidate neurophysiological mechanisms underlying the processing of semantic auditory inputs ranging from passive language comprehension to conversational speech.
PMID: 40347472
ISSN: 2211-1247
CID: 5843782