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202. Use of fluorescence imaging during lymphatic surgery: A Delphi survey of experts worldwide

Author

Dip, Fernando, Alexandru, Nistor, Amore, Miguel, Becker, Corinne, Belgrado, Jean-Paul, Bourgeois, Pierre, Chang, Edward I-Fei, Koshima, Isao, Liberale, Gabriel, Masia, Jaume, Mortimer, Peter, Neligan, Peter, Batista, Bernardo Nogueira, Olszewski, Waldemar, Salvia, Sophia Alexia, Suami, Hiroo, Vankerckhove, Sophie, Yamamoto, Takumi, Lo Menzo, Emanuele, White, Kevin P., and Rosenthal, Raul J.

Published
2022
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205. A speech envelope landmark for syllable encoding in human superior temporal gyrus.

Author

Oganian, Yulia and Chang, Edward F

Subjects
Temporal Lobe, Humans, Acoustic Stimulation, Brain Mapping, Speech, Speech Perception, Phonons
Abstract

The most salient acoustic features in speech are the modulations in its intensity, captured by the amplitude envelope. Perceptually, the envelope is necessary for speech comprehension. Yet, the neural computations that represent the envelope and their linguistic implications are heavily debated. We used high-density intracranial recordings, while participants listened to speech, to determine how the envelope is represented in human speech cortical areas on the superior temporal gyrus (STG). We found that a well-defined zone in middle STG detects acoustic onset edges (local maxima in the envelope rate of change). Acoustic analyses demonstrated that timing of acoustic onset edges cues syllabic nucleus onsets, while their slope cues syllabic stress. Synthesized amplitude-modulated tone stimuli showed that steeper slopes elicited greater responses, confirming cortical encoding of amplitude change, not absolute amplitude. Overall, STG encoding of the timing and magnitude of acoustic onset edges underlies the perception of speech temporal structure.

Published
2019

206. A Modular Approach to Vocal Learning: Disentangling the Diversity of a Complex Behavioral Trait

Author

Wirthlin, Morgan, Chang, Edward F, Knörnschild, Mirjam, Krubitzer, Leah A, Mello, Claudio V, Miller, Cory T, Pfenning, Andreas R, Vernes, Sonja C, Tchernichovski, Ofer, and Yartsev, Michael M

Subjects
Biological Psychology, Biomedical and Clinical Sciences, Neurosciences, Psychology, Genetics, Basic Behavioral and Social Science, Behavioral and Social Science, Alligators and Crocodiles, Animals, Auditory Perception, Behavior, Animal, Birds, Comprehension, Fishes, Formative Feedback, Imitative Behavior, Learning, Macaca, Phenotype, Phoca, Vocalization, Animal, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology
Abstract

Vocal learning is a behavioral trait in which the social and acoustic environment shapes the vocal repertoire of individuals. Over the past century, the study of vocal learning has progressed at the intersection of ecology, physiology, neuroscience, molecular biology, genomics, and evolution. Yet, despite the complexity of this trait, vocal learning is frequently described as a binary trait, with species being classified as either vocal learners or vocal non-learners. As a result, studies have largely focused on a handful of species for which strong evidence for vocal learning exists. Recent studies, however, suggest a continuum in vocal learning capacity across taxa. Here, we further suggest that vocal learning is a multi-component behavioral phenotype comprised of distinct yet interconnected modules. Discretizing the vocal learning phenotype into its constituent modules would facilitate integration of findings across a wider diversity of species, taking advantage of the ways in which each excels in a particular module, or in a specific combination of features. Such comparative studies can improve understanding of the mechanisms and evolutionary origins of vocal learning. We propose an initial set of vocal learning modules supported by behavioral and neurobiological data and highlight the need for diversifying the field in order to disentangle the complexity of the vocal learning phenotype.

Published
2019

207. Deep learning as a tool for neural data analysis: Speech classification and cross-frequency coupling in human sensorimotor cortex.

Author

Livezey, Jesse A, Bouchard, Kristofer E, and Chang, Edward F

Subjects
Humans, Speech, Computational Biology, Signal Processing, Computer-Assisted, Sensorimotor Cortex, Electrocorticography, Deep Learning, cs.NE, q-bio.NC, Signal Processing, Computer-Assisted, Neurosciences, Basic Behavioral and Social Science, Bioengineering, Clinical Research, Behavioral and Social Science, 1.1 Normal biological development and functioning, Neurological, Mental Health, Biological Sciences, Information and Computing Sciences, Mathematical Sciences, Bioinformatics
Abstract

A fundamental challenge in neuroscience is to understand what structure in the world is represented in spatially distributed patterns of neural activity from multiple single-trial measurements. This is often accomplished by learning a simple, linear transformations between neural features and features of the sensory stimuli or motor task. While successful in some early sensory processing areas, linear mappings are unlikely to be ideal tools for elucidating nonlinear, hierarchical representations of higher-order brain areas during complex tasks, such as the production of speech by humans. Here, we apply deep networks to predict produced speech syllables from a dataset of high gamma cortical surface electric potentials recorded from human sensorimotor cortex. We find that deep networks had higher decoding prediction accuracy compared to baseline models. Having established that deep networks extract more task relevant information from neural data sets relative to linear models (i.e., higher predictive accuracy), we next sought to demonstrate their utility as a data analysis tool for neuroscience. We first show that deep network's confusions revealed hierarchical latent structure in the neural data, which recapitulated the underlying articulatory nature of speech motor control. We next broadened the frequency features beyond high-gamma and identified a novel high-gamma-to-beta coupling during speech production. Finally, we used deep networks to compare task-relevant information in different neural frequency bands, and found that the high-gamma band contains the vast majority of information relevant for the speech prediction task, with little-to-no additional contribution from lower-frequency amplitudes. Together, these results demonstrate the utility of deep networks as a data analysis tool for basic and applied neuroscience.

Published
2019

208. Real-time decoding of question-and-answer speech dialogue using human cortical activity.

Author

Moses, David A, Leonard, Matthew K, Makin, Joseph G, and Chang, Edward F

Subjects
Cerebral Cortex, Humans, Epilepsy, Brain Mapping, Electrodes, Implanted, Speech, Time Factors, Female, Brain-Computer Interfaces, Electrocorticography, Electrodes, Implanted
Abstract

Natural communication often occurs in dialogue, differentially engaging auditory and sensorimotor brain regions during listening and speaking. However, previous attempts to decode speech directly from the human brain typically consider listening or speaking tasks in isolation. Here, human participants listened to questions and responded aloud with answers while we used high-density electrocorticography (ECoG) recordings to detect when they heard or said an utterance and to then decode the utterance's identity. Because certain answers were only plausible responses to certain questions, we could dynamically update the prior probabilities of each answer using the decoded question likelihoods as context. We decode produced and perceived utterances with accuracy rates as high as 61% and 76%, respectively (chance is 7% and 20%). Contextual integration of decoded question likelihoods significantly improves answer decoding. These results demonstrate real-time decoding of speech in an interactive, conversational setting, which has important implications for patients who are unable to communicate.

Published
2019

209. Direct and indirect costs associated with stereotactic radiosurgery or open surgery for medial temporal lobe epilepsy: Results from the ROSE trial.

Author

Langfitt, John T, Quigg, Mark, Yan, Guofen, Yu, Wei, Ward, Mariann M, Barbaro, Nicholas M, Chang, Edward F, Broshek, Donna K, Laxer, Kenneth D, Cole, Andrew J, Sneed, Penny K, Hess, Christopher, Tripathi, Manjari, Heck, Christiaanne N, Miller, John W, Garcia, Paul A, McEvoy, Andrew, Fountain, Nathan B, Salanova, Vicenta, Knowlton, Robert C, Bagić, Anto, Henry, Thomas, Kapoor, Siddharth, McKhann, Guy, Palade, Adriana E, Reuber, Markus, Tecoma, Evelyn, and ROSE Trial Study Group

Subjects
ROSE Trial Study Group, Humans, Epilepsy, Temporal Lobe, Radiosurgery, Adult, Middle Aged, Costs and Cost Analysis, Health Care Costs, Patient Acceptance of Health Care, Female, Male, costs, epilepsy, health care, lobectomy, radiosurgery, Neurodegenerative, Neurosciences, Epilepsy, Clinical Research, Patient Safety, Brain Disorders, Clinical Sciences, Neurology & Neurosurgery
Abstract

ObjectiveTo determine whether a less-invasive approach to surgery for medically refractory temporal lobe epilepsy is associated with lower health care costs and costs of lost productivity over time, compared to open surgery.MethodsWe compared direct medical costs and indirect productivity costs associated with treatment with stereotactic radiosurgery (SRS) or anterior temporal lobectomy (ATL) in the ROSE (Radiosurgery or Open Surgery for Epilepsy) trial. Health care use was abstracted from hospital bills, the study database, and diaries in which participants recorded health care use and time lost from work while seeking care. Costs of use were calculated using a Medicare costing approach used in a prior study of the costs of ATL. The power of many analyses was limited by the sample size and data skewing.ResultsCombined treatment and follow-up costs (in thousands of US dollars) did not differ between SRS (n = 20, mean = $76.6, 95% confidence interval [CI] = 50.7-115.6) and ATL (n = 18, mean = $79.0, 95% CI = 60.09-103.8). Indirect costs also did not differ. More ATL than SRS participants were free of consciousness-impairing seizures in each year of follow-up (all P

Published
2019

210. Immature excitatory neurons develop during adolescence in the human amygdala.

Author

Sorrells, Shawn F, Paredes, Mercedes F, Velmeshev, Dmitry, Herranz-Pérez, Vicente, Sandoval, Kadellyn, Mayer, Simone, Chang, Edward F, Insausti, Ricardo, Kriegstein, Arnold R, Rubenstein, John L, Manuel Garcia-Verdugo, Jose, Huang, Eric J, and Alvarez-Buylla, Arturo

Subjects
Hippocampus, Neurons, Cell Nucleus, Fetus, Humans, Sequence Analysis, RNA, Adolescent Development, Neuronal Plasticity, Adolescent, Adult, Aged, Middle Aged, Child, Child, Preschool, Infant, Infant, Newborn, Male, Neurogenesis, Young Adult, Neural Stem Cells, Single-Cell Analysis, Basolateral Nuclear Complex
Abstract

The human amygdala grows during childhood, and its abnormal development is linked to mood disorders. The primate amygdala contains a large population of immature neurons in the paralaminar nuclei (PL), suggesting protracted development and possibly neurogenesis. Here we studied human PL development from embryonic stages to adulthood. The PL develops next to the caudal ganglionic eminence, which generates inhibitory interneurons, yet most PL neurons express excitatory markers. In children, most PL cells are immature (DCX+PSA-NCAM+), and during adolescence many transition into mature (TBR1+VGLUT2+) neurons. Immature PL neurons persist into old age, yet local progenitor proliferation sharply decreases in infants. Using single nuclei RNA sequencing, we identify the transcriptional profile of immature excitatory neurons in the human amygdala between 4-15 years. We conclude that the human PL contains excitatory neurons that remain immature for decades, a possible substrate for persistent plasticity at the interface of the hippocampus and amygdala.

Published
2019

211. Speaker-normalized sound representations in the human auditory cortex.

Author

Sjerps, Matthias J, Fox, Neal P, Johnson, Keith, and Chang, Edward F

Subjects
Auditory Cortex, Humans, Acoustic Stimulation, Speech Perception, Voice, Speech Acoustics, Phonetics, Adult, Female, Male, Electrocorticography, Behavioral and Social Science, Clinical Research, Neurosciences, Basic Behavioral and Social Science, 1.2 Psychological and socioeconomic processes, Mental Health, Neurological, Ear, MD Multidisciplinary
Abstract

The acoustic dimensions that distinguish speech sounds (like the vowel differences in "boot" and "boat") also differentiate speakers' voices. Therefore, listeners must normalize across speakers without losing linguistic information. Past behavioral work suggests an important role for auditory contrast enhancement in normalization: preceding context affects listeners' perception of subsequent speech sounds. Here, using intracranial electrocorticography in humans, we investigate whether and how such context effects arise in auditory cortex. Participants identified speech sounds that were preceded by phrases from two different speakers whose voices differed along the same acoustic dimension as target words (the lowest resonance of the vocal tract). In every participant, target vowels evoke a speaker-dependent neural response that is consistent with the listener's perception, and which follows from a contrast enhancement model. Auditory cortex processing thus displays a critical feature of normalization, allowing listeners to extract meaningful content from the voices of diverse speakers.

Published
2019

212. The Encoding of Speech Sounds in the Superior Temporal Gyrus

Author

Yi, Han Gyol, Leonard, Matthew K, and Chang, Edward F

Subjects
Neurosciences, Brain Disorders, Behavioral and Social Science, Clinical Research, Rehabilitation, 1.2 Psychological and socioeconomic processes, 1.1 Normal biological development and functioning, Underpinning research, Electrocorticography, Humans, Neural Pathways, Phonetics, Spatio-Temporal Analysis, Speech Acoustics, Speech Perception, Temporal Lobe, acoustic-phonetic features, auditory cortex, context-dependent representation, electrocorticography, phonological sequence, speech processing, superior temporal gyrus, temporal integration, temporal landmarks, temporally recurrent connections, Psychology, Cognitive Sciences, Neurology & Neurosurgery
Abstract

The human superior temporal gyrus (STG) is critical for extracting meaningful linguistic features from speech input. Local neural populations are tuned to acoustic-phonetic features of all consonants and vowels and to dynamic cues for intonational pitch. These populations are embedded throughout broader functional zones that are sensitive to amplitude-based temporal cues. Beyond speech features, STG representations are strongly modulated by learned knowledge and perceptual goals. Currently, a major challenge is to understand how these features are integrated across space and time in the brain during natural speech comprehension. We present a theory that temporally recurrent connections within STG generate context-dependent phonological representations, spanning longer temporal sequences relevant for coherent percepts of syllables, words, and phrases.

Published
2019

213. The peri-Sylvian cortical network underlying single word repetition revealed by electrocortical stimulation and direct neural recordings

Author

Leonard, Matthew K, Cai, Ruofan, Babiak, Miranda C, Ren, Angela, and Chang, Edward F

Subjects
Biological Psychology, Cognitive and Computational Psychology, Biomedical and Clinical Sciences, Psychology, Basic Behavioral and Social Science, Behavioral and Social Science, Neurosciences, Clinical Research, 1.1 Normal biological development and functioning, Underpinning research, Neurological, Acoustic Stimulation, Adult, Aged, Brain Mapping, Cerebral Cortex, Cognition, Cohort Studies, Electric Stimulation, Electrocorticography, Female, Humans, Male, Middle Aged, Nerve Net, Speech, Speech Perception, Electrocortical stimulation, Verbal repetition, Peri-Sylvian cortex, Neurosurgery, Speech perception, Speech production, Medical and Health Sciences, Psychology and Cognitive Sciences, Language, Communication and Culture, Experimental Psychology, Biomedical and clinical sciences, Language, communication and culture
Abstract

Verbal repetition requires the coordination of auditory, memory, linguistic, and motor systems. To date, the basic dynamics of neural information processing in this deceptively simple behavior are largely unknown. Here, we examined the neural processes underlying verbal repetition using focal interruption (electrocortical stimulation) in 58 patients undergoing awake craniotomies, and neurophysiological recordings (electrocorticography) in 8 patients while they performed a single word repetition task. Electrocortical stimulation revealed that sub-components of the left peri-Sylvian network involved in single word repetition could be differentially interrupted, producing transient perceptual deficits, paraphasic errors, or speech arrest. Electrocorticography revealed the detailed spatio-temporal dynamics of cortical activation, involving a highly-ordered, but overlapping temporal progression of cortical high gamma (75-150Hz) activity throughout the peri-Sylvian cortex. We observed functionally distinct serial and parallel cortical processing corresponding to successive stages of general auditory processing (posterior superior temporal gyrus), speech-specific auditory processing (middle and posterior superior temporal gyrus), working memory (inferior frontal cortex), and motor articulation (sensorimotor cortex). Together, these methods reveal the dynamics of coordinated activity across peri-Sylvian cortex during verbal repetition.

Published
2019

214. Biases in processing of mood-congruent facial expressions in depression

Author

Van Vleet, Thomas, Stark-Inbar, Alit, Merzenich, Michael M, Jordan, Joshua T, Wallace, Deanna L, Lee, Morgan B, Dawes, Heather E, Chang, Edward F, and Nahum, Mor

Subjects
Biological Psychology, Psychology, Clinical Research, Behavioral and Social Science, Brain Disorders, Depression, Mind and Body, Mental Health, Mental health, Adult, Affect, Bias, Cognition, Depressive Disorder, Major, Emotions, Facial Expression, Female, Happiness, Humans, Male, Middle Aged, Reaction Time, Young Adult, Major depressive disorder, MDD, Mood disorders, Affect perception, Processing bias, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Clinical sciences, Clinical and health psychology
Abstract

Cognitive models of depression suggest that depressed individuals exhibit a tendency to attribute negative meaning to neutral stimuli, and enhanced processing of mood-congruent stimuli. However, evidence thus far has been inconsistent. In this study, we sought to identify both differential interpretation of neutral information as well as emotion processing biases associated with depression. Fifty adult participants completed standardized mood-related questionnaires, a novel immediate mood scale questionnaire (IMS-12), and a novel task, Emotion Matcher, in which they were required to indicate whether pairs of emotional faces show the same expression or not. We found that overall success rate and reaction time on the Emotion Matcher task did not differ as a function of severity of depression. However, more depressed participants had significantly worse performance when presented with sad-neutral face pairs, as well as increased reaction times to happy-happy pairs. In addition, accuracy of the sad-neutral pairs was found to be significantly associated with depression severity in a regression model. Our study provides partial support for the mood-congruent hypothesis, revealing only a potential bias in interpretation of sad and neutral expressions, but not a general deficit in processing of facial expressions. The potential of such bias in serving as a predictor for depression should be further examined in future studies.

Published
2019

215. Speech synthesis from neural decoding of spoken sentences

Author

Anumanchipalli, Gopala K, Chartier, Josh, and Chang, Edward F

Subjects
Clinical Research, Neurosciences, Rehabilitation, Bioengineering, Basic Behavioral and Social Science, Behavioral and Social Science, Adult, Biomechanical Phenomena, Cerebral Cortex, Female, Humans, Male, Movement, Neural Networks, Computer, Speech, Speech Acoustics, Speech Articulation Tests, Speech Intelligibility, General Science & Technology
Abstract

Technology that translates neural activity into speech would be transformative for people who are unable to communicate as a result of neurological impairments. Decoding speech from neural activity is challenging because speaking requires very precise and rapid multi-dimensional control of vocal tract articulators. Here we designed a neural decoder that explicitly leverages kinematic and sound representations encoded in human cortical activity to synthesize audible speech. Recurrent neural networks first decoded directly recorded cortical activity into representations of articulatory movement, and then transformed these representations into speech acoustics. In closed vocabulary tests, listeners could readily identify and transcribe speech synthesized from cortical activity. Intermediate articulatory dynamics enhanced performance even with limited data. Decoded articulatory representations were highly conserved across speakers, enabling a component of the decoder to be transferrable across participants. Furthermore, the decoder could synthesize speech when a participant silently mimed sentences. These findings advance the clinical viability of using speech neuroprosthetic technology to restore spoken communication.

Published
2019

216. A valid alternative for in-person language assessments in brain tumor patients: feasibility and validity measures of the new TeleLanguage test.

Author

De Witte, Elke, Piai, Vitória, Kurteff, Garret, Cai, Ruofan, Mariën, Peter, Dronkers, Nina, Chang, Edward, and Berger, Mitchel

Subjects
Biomedical and Clinical Sciences, Neurosciences, Oncology and Carcinogenesis, Stroke, Brain Disorders, Behavioral and Social Science, Cancer, Clinical Research, aphasia, awake brain surgery, language test, telephone assessment, tumor surgery, Oncology and carcinogenesis
Abstract

BackgroundAlthough language deficits after awake brain surgery are usually milder than post-stroke, postoperative language assessments are needed to identify these. Follow-up of brain tumor patients in certain geographical regions can be difficult when most patients are not local and come from afar. We developed a short telephone-based test for pre- and postoperative language assessments.MethodsThe development of the TeleLanguage Test was based on the Dutch Linguistic Intraoperative Protocol and existing standardized English batteries. Two parallel versions were composed and tested in healthy native English speakers. Subsequently, the TeleLanguage Test was administered in a group of 14 tumor patients before surgery and at 1 week, 1 month, and 3 months after surgery. The test includes auditory comprehension, repetition, semantic selection, sentence or story completion, verbal naming, and fluency tests. It takes less than 20 minutes to administer.ResultsHealthy participants had no difficulty performing any of the language tests via the phone, attesting to the feasibility of a phone assessment. In the patient group, all TeleLanguage test scores significantly declined shortly after surgery with a recovery to preoperative levels at 3 months postsurgery for naming and fluency tasks and a recovery to normal levels for the other language tasks. Analysis of the in-person language assessments (until 1 month) revealed a similar profile.ConclusionThe use of the TeleLanguage battery to conduct language assessments from afar can provide convenience, might optimize patient care, and enables longitudinal clinical research. The TeleLanguage is a valid tool for various clinical and scientific purposes.

Published
2019

217. Critical Language Areas Show Increased Functional Connectivity in Human Cortex

Author

Rolston, John D and Chang, Edward F

Subjects
Neurodegenerative, Epilepsy, Brain Disorders, Clinical Research, Neurosciences, 1.1 Normal biological development and functioning, Underpinning research, Neurological, Adult, Brain Mapping, Cerebral Cortex, Electric Stimulation, Electrocorticography, Female, Humans, Male, Neural Pathways, ROC Curve, Speech, Speech Perception, alpha band, electrical stimulation, electrocorticography, mapping, speech, Psychology, Cognitive Sciences, Experimental Psychology
Abstract

Electrocortical stimulation (ECS) mapping is routinely used to identify critical language sites before resective neurosurgery. The precise locations of these sites are highly variable across patients, occurring in the frontal, temporal, and parietal lobes-it is this variability that necessitates individual patient mapping. But why these particular anatomical sites are so privileged in each patient is unknown. We hypothesized that critical language sites have greater functional connectivity with nearby cortex than sites without critical functions, since they serve as central nodes within the language network. Functional connectivity across language, motor, and cleared sites was measured in 15 patients undergoing electrocortiographic (ECoG) mapping for epilepsy surgery. Critical language sites had significantly higher connectivity than sites without critical functions (P = 0.001), and this also held for motor sites (P = 0.022). These data support the hypothesis that critical language sites are highly connected within the local cortical network, perhaps explaining why their disruption with ECS leads to transient disturbances in language function. It is our hope that improved understanding of the mechanisms of ECS will permit improved surgical planning and perhaps contribute to the understanding of normal language physiology.

Published
2018

218. Neural Encoding of Auditory Features during Music Perception and Imagery

Author

Martin, Stephanie, Mikutta, Christian, Leonard, Matthew K, Hungate, Dylan, Koelsch, Stefan, Shamma, Shihab, Chang, Edward F, del R Millán, José, Knight, Robert T, and Pasley, Brian N

Subjects
Clinical Research, Neurosciences, Assistive Technology, Bioengineering, Acoustic Stimulation, Auditory Perception, Brain Mapping, Cerebral Cortex, Evoked Potentials, Auditory, Feedback, Sensory, Gamma Rhythm, Humans, Imagination, Music, Neurons, auditory cortex, electrocorticography, frequency tuning, spectrotemporal receptive fields, Psychology, Cognitive Sciences, Experimental Psychology
Abstract

Despite many behavioral and neuroimaging investigations, it remains unclear how the human cortex represents spectrotemporal sound features during auditory imagery, and how this representation compares to auditory perception. To assess this, we recorded electrocorticographic signals from an epileptic patient with proficient music ability in 2 conditions. First, the participant played 2 piano pieces on an electronic piano with the sound volume of the digital keyboard on. Second, the participant replayed the same piano pieces, but without auditory feedback, and the participant was asked to imagine hearing the music in his mind. In both conditions, the sound output of the keyboard was recorded, thus allowing precise time-locking between the neural activity and the spectrotemporal content of the music imagery. This novel task design provided a unique opportunity to apply receptive field modeling techniques to quantitatively study neural encoding during auditory mental imagery. In both conditions, we built encoding models to predict high gamma neural activity (70-150 Hz) from the spectrogram representation of the recorded sound. We found robust spectrotemporal receptive fields during auditory imagery with substantial, but not complete overlap in frequency tuning and cortical location compared to receptive fields measured during auditory perception.

Published
2018

219. Reductions in brain pericytes are associated with arteriovenous malformation vascular instability.

Author

Winkler, Ethan A, Birk, Harjus, Burkhardt, Jan-Karl, Chen, Xiaolin, Yue, John K, Guo, Diana, Rutledge, W Caleb, Lasker, George F, Partow, Carlene, Tihan, Tarik, Chang, Edward F, Su, Hua, Kim, Helen, Walcott, Brian P, and Lawton, Michael T

Subjects
Blood-Brain Barrier, Pericytes, Brain, Endothelial Cells, Humans, Intracranial Arteriovenous Malformations, Vascular Diseases, Receptor, Platelet-Derived Growth Factor beta, Adolescent, Adult, Middle Aged, Child, Female, Male, Young Adult, BBB = blood-brain barrier, CD13 = aminopeptidase N, CD31 = platelet endothelial adhesion molecule 1, GFAP = glial fibrillary acidic protein, MTT = mean transit time, NVLC = nonvascular lesion control, PDGFRβ = platelet-derived growth factor receptor–beta, ROI = region of interest, arteriovenous malformations, bAVM = brain arteriovenous malformation, blood-brain barrier, intracerebral hemorrhage, microhemorrhage, pericytes, stroke, vascular disorders, Neurosciences, Aetiology, 2.1 Biological and endogenous factors, Cardiovascular, Clinical Sciences, Neurology & Neurosurgery
Abstract

OBJECTIVEBrain arteriovenous malformations (bAVMs) are rupture-prone tangles of blood vessels with direct shunting of blood flow between arterial and venous circulations. The molecular and/or cellular mechanisms contributing to bAVM pathogenesis and/or destabilization in sporadic lesions have remained elusive. Initial insights into AVM formation have been gained through models of genetic AVM syndromes. And while many studies have focused on endothelial cells, the contributions of other vascular cell types have yet to be systematically studied. Pericytes are multifunctional mural cells that regulate brain angiogenesis, blood-brain barrier integrity, and vascular stability. Here, the authors analyze the abundance of brain pericytes and their association with vascular changes in sporadic human AVMs.METHODSTissues from bAVMs and from temporal lobe specimens from patients with medically intractable epilepsy (nonvascular lesion controls [NVLCs]) were resected. Immunofluorescent staining with confocal microscopy was performed to quantify pericytes (platelet-derived growth factor receptor-beta [PDGFRβ] and aminopeptidase N [CD13]) and extravascular hemoglobin. Iron-positive hemosiderin deposits were quantified with Prussian blue staining. Syngo iFlow post-image processing was used to measure nidal blood flow on preintervention angiograms.RESULTSQuantitative immunofluorescent analysis demonstrated a 68% reduction in the vascular pericyte number in bAVMs compared with the number in NVLCs (p < 0.01). Additional analysis demonstrated 52% and 50% reductions in the vascular surface area covered by CD13- and PDGFRβ-positive pericyte cell processes, respectively, in bAVMs (p < 0.01). Reductions in pericyte coverage were statistically significantly greater in bAVMs with prior rupture (p < 0.05). Unruptured bAVMs had increased microhemorrhage, as evidenced by a 15.5-fold increase in extravascular hemoglobin compared with levels in NVLCs (p < 0.01). Within unruptured bAVM specimens, extravascular hemoglobin correlated negatively with pericyte coverage (CD13: r = -0.93, p < 0.01; PDGFRβ: r = -0.87, p < 0.01). A similar negative correlation was observed with pericyte coverage and Prussian blue-positive hemosiderin deposits (CD13: r = -0.90, p < 0.01; PDGFRβ: r = -0.86, p < 0.01). Pericyte coverage positively correlated with the mean transit time of blood flow or the time that circulating blood spends within the bAVM nidus (CD13: r = 0.60, p < 0.05; PDGFRβ: r = 0.63, p < 0.05). A greater reduction in pericyte coverage is therefore associated with a reduced mean transit time or faster rate of blood flow through the bAVM nidus. No correlations were observed with time to peak flow within feeding arteries or draining veins.CONCLUSIONSBrain pericyte number and coverage are reduced in sporadic bAVMs and are lowest in cases with prior rupture. In unruptured bAVMs, pericyte reductions correlate with the severity of microhemorrhage. A loss of pericytes also correlates with a faster rate of blood flow through the bAVM nidus. This suggests that pericytes are associated with and may contribute to vascular fragility and hemodynamic changes in bAVMs. Future studies in animal models are needed to better characterize the role of pericytes in AVM pathogenesis.

Published
2018

220. Neural correlates of sine-wave speech intelligibility in human frontal and temporal cortex

Author

Khoshkhoo, Sattar, Leonard, Matthew K, Mesgarani, Nima, and Chang, Edward F

Subjects
Behavioral and Social Science, Neurosciences, Basic Behavioral and Social Science, Clinical Research, Neurological, Adult, Connectome, Female, Frontal Lobe, Humans, Male, Speech Intelligibility, Speech Perception, Temporal Lobe, Speech, Sine-wave speech, Electrocorticography, Language, Perception, Comprehension, Auditory, Medical and Health Sciences, Psychology and Cognitive Sciences, Language, Communication and Culture, Experimental Psychology
Abstract

Auditory speech comprehension is the result of neural computations that occur in a broad network that includes the temporal lobe auditory cortex and the left inferior frontal cortex. It remains unclear how representations in this network differentially contribute to speech comprehension. Here, we recorded high-density direct cortical activity during a sine-wave speech (SWS) listening task to examine detailed neural speech representations when the exact same acoustic input is comprehended versus not comprehended. Listeners heard SWS sentences (pre-exposure), followed by clear versions of the same sentences, which revealed the content of the sounds (exposure), and then the same SWS sentences again (post-exposure). Across all three task phases, high-gamma neural activity in the superior temporal gyrus was similar, distinguishing different words based on bottom-up acoustic features. In contrast, frontal regions showed a more pronounced and sudden increase in activity only when the input was comprehended, which corresponded with stronger representational separability among spatiotemporal activity patterns evoked by different words. We observed this effect only in participants who were not able to comprehend the stimuli during the pre-exposure phase, indicating a relationship between frontal high-gamma activity and speech understanding. Together, these results demonstrate that both frontal and temporal cortical networks are involved in spoken language understanding, and that under certain listening conditions, frontal regions are involved in discriminating speech sounds.

Published
2018

221. Visual field defects after radiosurgery versus temporal lobectomy for mesial temporal lobe epilepsy: Findings of the ROSE trial.

Author

Quigg, Mark, Barbaro, Nicholas M, Ward, Mariann M, Chang, Edward F, Broshek, Donna K, Langfitt, John T, Yan, Guofen, Laxer, Kenneth D, Cole, Andrew J, Sneed, Penny K, Hess, Christopher P, Yu, Wei, Newman, Steven A, Mueller, Susanne, Tripathi, Manjari, Heck, Christiaanne N, Miller, John W, Garcia, Paul A, McEvoy, Andrew, Fountain, Nathan B, Salanova, Vincenta, Knowlton, Robert C, Bagić, Anto, Henry, Thomas, Kapoor, Siddharth, McKhann, Guy, Palade, Adriana E, Reuber, Markus, and Tecoma, Evelyn

Subjects
Humans, Epilepsy, Temporal Lobe, Vision Disorders, Postoperative Complications, Sclerosis, Treatment Outcome, Radiosurgery, Anterior Temporal Lobectomy, Incidence, Visual Fields, Adult, Female, Male, Visual Field Tests, Epilepsy surgery, Mesial temporal lobe epilepsy, Partial seizures, Randomized controlled trial, Visual field defects, gamma knife, Neurodegenerative, Epilepsy, Clinical Research, Neurosciences, Brain Disorders, Aetiology, 2.1 Biological and endogenous factors, Clinical Sciences, Psychology, Neurology & Neurosurgery
Abstract

PurposeStereotactic radiosurgery (SRS) may be an alternative to anterior temporal lobectomy (ATL) for mesial temporal lobe epilepsy (MTLE). Visual field defects (VFD) occur in 9-100% of patients following open surgery for MTLE. Postoperative VFD after minimally invasive versus open surgery may differ.MethodsThis prospective trial randomized patients with unilateral hippocampal sclerosis and concordant video-EEG findings to SRS versus ATL. Humphries perimetry was obtained at 24 m after surgery. VFD ratios (VFDR = proportion of missing homonymous hemifield with 0 = no VFD, 0.5 = complete superior quadrantanopsia) quantified VFD. Regressions of VFDR were evaluated against treatment arm and covariates. MRI evaluated effects of volume changes on VFDR. The relationships of VFDR with seizure remission and driving status 3 years after surgery were evaluated.ResultsNo patients reported visual changes or had abnormal bedside examinations, but 49 of 54 (91%) of patients experienced VFD on formal perimetry. Neither incidence nor severity of VFDR differed significantly by treatment arm. VFDR severity was not associated with seizure remission or driving status.ConclusionThe nature of VFD was consistent with lesions of the optic radiations. Effective surgery (defined by seizure remission) of the mesial temporal lobe results in about a 90% incidence of typical VFD regardless of method.

Published
2018

222. Subcellular organization of UBE3A in human cerebral cortex

Author

Burette, Alain C, Judson, Matthew C, Li, Alissa N, Chang, Edward F, Seeley, William W, Philpot, Benjamin D, and Weinberg, Richard J

Subjects
Biomedical and Clinical Sciences, Neurosciences, Mental Health, Stem Cell Research, Rare Diseases, Stem Cell Research - Nonembryonic - Human, Intellectual and Developmental Disabilities (IDD), Brain Disorders, Autism, Underpinning research, 1.1 Normal biological development and functioning, Neurological, Adolescent, Adult, Aged, Aged, 80 and over, Angelman Syndrome, Cerebral Cortex, Epilepsy, Female, Glial Fibrillary Acidic Protein, Humans, Male, Microscopy, Electron, Middle Aged, Neurons, Ubiquitin-Protein Ligases, Young Adult, gamma-Aminobutyric Acid, Angelman syndrome, E6-AP, Axon terminal, Mitochondria, Euchromatin, Clinical Sciences, Clinical sciences, Biological psychology
Abstract

BackgroundLoss of UBE3A causes Angelman syndrome, whereas excess UBE3A activity appears to increase the risk for autism. Despite this powerful association with neurodevelopmental disorders, there is still much to be learned about UBE3A, including its cellular and subcellular organization in the human brain. The issue is important, since UBE3A's localization is integral to its function.MethodsWe used light and electron microscopic immunohistochemistry to study the cellular and subcellular distribution of UBE3A in the adult human cerebral cortex. Experiments were performed on multiple tissue sources, but our results focused on optimally preserved material, using surgically resected human temporal cortex of high ultrastructural quality from nine individuals.ResultsWe demonstrate that UBE3A is expressed in both glutamatergic and GABAergic neurons, and to a lesser extent in glial cells. We find that UBE3A in neurons has a non-uniform subcellular distribution. In somata, UBE3A preferentially concentrates in euchromatin-rich domains within the nucleus. Electron microscopy reveals that labeling concentrates in the head and neck of dendritic spines and is excluded from the PSD. Strongest labeling within the neuropil was found in axon terminals.ConclusionsBy highlighting the subcellular compartments in which UBE3A is likely to function in the human neocortex, our data provide insight into the diverse functional capacities of this E3 ligase. These anatomical data may help to elucidate the role of UBE3A in Angelman syndrome and autism spectrum disorder.

Published
2018

223. The genetic landscape of ganglioglioma

Author

Pekmezci, Melike, Villanueva-Meyer, Javier E, Goode, Benjamin, Van Ziffle, Jessica, Onodera, Courtney, Grenert, James P, Bastian, Boris C, Chamyan, Gabriel, Maher, Ossama M, Khatib, Ziad, Kleinschmidt-DeMasters, Bette K, Samuel, David, Mueller, Sabine, Banerjee, Anuradha, Clarke, Jennifer L, Cooney, Tabitha, Torkildson, Joseph, Gupta, Nalin, Theodosopoulos, Philip, Chang, Edward F, Berger, Mitchel, Bollen, Andrew W, Perry, Arie, Tihan, Tarik, and Solomon, David A

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Genetics, Biotechnology, Cancer, Human Genome, Brain Disorders, Aetiology, 2.1 Biological and endogenous factors, Adolescent, Adult, Brain Neoplasms, Child, Child, Preschool, Cohort Studies, Cyclin-Dependent Kinase Inhibitor p16, Female, Ganglioglioma, Genetic Association Studies, Humans, Male, Middle Aged, Mitogen-Activated Protein Kinase 1, Mutation, Proto-Oncogene Proteins B-raf, Signal Transduction, Statistics, Nonparametric, Young Adult, Epilepsy, Seizures, Glioneuronal tumor, Targeted next-generation sequencing, Ras-Raf-MEK-ERK, MAP kinase signaling pathway, BRAF, KRAS, RAF1, NF1, FGFR1, FGFR2, ABL2, Biochemistry and Cell Biology, Clinical Sciences, Neurosciences, Biochemistry and cell biology
Abstract

Ganglioglioma is the most common epilepsy-associated neoplasm that accounts for approximately 2% of all primary brain tumors. While a subset of gangliogliomas are known to harbor the activating p.V600E mutation in the BRAF oncogene, the genetic alterations responsible for the remainder are largely unknown, as is the spectrum of any additional cooperating gene mutations or copy number alterations. We performed targeted next-generation sequencing that provides comprehensive assessment of mutations, gene fusions, and copy number alterations on a cohort of 40 gangliogliomas. Thirty-six harbored mutations predicted to activate the MAP kinase signaling pathway, including 18 with BRAF p.V600E mutation, 5 with variant BRAF mutation (including 4 cases with novel in-frame insertions at p.R506 in the β3-αC loop of the kinase domain), 4 with BRAF fusion, 2 with KRAS mutation, 1 with RAF1 fusion, 1 with biallelic NF1 mutation, and 5 with FGFR1/2 alterations. Three gangliogliomas with BRAF p.V600E mutation had concurrent CDKN2A homozygous deletion and one additionally harbored a subclonal mutation in PTEN. Otherwise, no additional pathogenic mutations, fusions, amplifications, or deletions were identified in any of the other tumors. Amongst the 4 gangliogliomas without canonical MAP kinase pathway alterations identified, one epilepsy-associated tumor in the temporal lobe of a young child was found to harbor a novel ABL2-GAB2 gene fusion. The underlying genetic alterations did not show significant association with patient age or disease progression/recurrence in this cohort. Together, this study highlights that ganglioglioma is characterized by genetic alterations that activate the MAP kinase pathway, with only a small subset of cases that harbor additional pathogenic alterations such as CDKN2A deletion.

Published
2018

224. Outcomes for recurrent oral cavity squamous cell carcinoma

Author

Contrera, Kevin J., Zafereo, Mark E., Yaniv, Dan, Roberts, Diane B., Gillenwater, Ann M., Hanna, Ehab Y., Weber, Randal S., Myers, Jeffrey N., Chang, Edward I., Garvey, Patrick B., Hanasono, Matthew M., Yu, Peirong, Hutcheson, Katherine A., Fuller, Clifton D., Tyler, Matthew A., and Neskey, David M.

Published
2022
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227. Negative Life Events and Suicide Risk in College Students: Conditional Indirect Effects of Hopelessness and Self-Compassion

Author

Hirsch, Jameson K., Hall, Benjamin B., Wise, Haley A., Brooks, Byron D., Chang, Edward C., and Sirois, Fuschia M.

Abstract

Objective: Suicide risk is a significant public health concern for college students and may be exacerbated by hopelessness resulting from negative life events (NLE), yet may be ameliorated by self-compassion. We examined the mediating role of hopelessness in the relation between NLE and suicidal behavior, and the moderating influence of self-compassion on all model paths. Participants: Participants were 338 undergraduates (89% white; 67% female). Data were collected from December 2014 to December 2015. Methods: Participants completed the Life Events Checklist for College Students, Beck Hopelessness Inventory, Self-Compassion Scale, and Suicidal Behaviors Questionnaire -- Revised. Results: Negative life events were related to greater hopelessness and, in turn, to more suicidal behavior, yet self-compassion attenuated this effect. Conclusions: Self-compassion may buffer the NLE--hopelessness linkage, thereby reducing suicide risk among college students. Therapeutic promotion of self-compassion, and reduction of hopelessness, may be important suicide prevention strategies on college campuses.

Published
2021
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235. Distributed Training Large-Scale Deep Architectures

Author

Zou, Shang-Xuan, Chen, Chun-Yen, Wu, Jui-Lin, Chou, Chun-Nan, Tsao, Chia-Chin, Tung, Kuan-Chieh, Lin, Ting-Wei, Sung, Cheng-Lung, and Chang, Edward Y.

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Learning, Statistics - Machine Learning
Abstract

Scale of data and scale of computation infrastructures together enable the current deep learning renaissance. However, training large-scale deep architectures demands both algorithmic improvement and careful system configuration. In this paper, we focus on employing the system approach to speed up large-scale training. Via lessons learned from our routine benchmarking effort, we first identify bottlenecks and overheads that hinter data parallelism. We then devise guidelines that help practitioners to configure an effective system and fine-tune parameters to achieve desired speedup. Specifically, we develop a procedure for setting minibatch size and choosing computation algorithms. We also derive lemmas for determining the quantity of key components such as the number of GPUs and parameter servers. Experiments and examples show that these guidelines help effectively speed up large-scale deep learning training.

Published
2017

236. Representation Learning on Large and Small Data

Author

Chou, Chun-Nan, Shie, Chuen-Kai, Chang, Fu-Chieh, Chang, Jocelyn, and Chang, Edward Y.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Deep learning owes its success to three key factors: scale of data, enhanced models to learn representations from data, and scale of computation. This book chapter presented the importance of the data-driven approach to learn good representations from both big data and small data. In terms of big data, it has been widely accepted in the research community that the more data the better for both representation and classification improvement. The question is then how to learn representations from big data, and how to perform representation learning when data is scarce. We addressed the first question by presenting CNN model enhancements in the aspects of representation, optimization, and generalization. To address the small data challenge, we showed transfer representation learning to be effective. Transfer representation learning transfers the learned representation from a source domain where abundant training data is available to a target domain where training data is scarce. Transfer representation learning gave the OM and melanoma diagnosis modules of our XPRIZE Tricorder device (which finished $2^{nd}$ out of $310$ competing teams) a significant boost in diagnosis accuracy., Comment: Book chapter

Published
2017

237. Union of Intersections (UoI) for Interpretable Data Driven Discovery and Prediction

Author

Bouchard, Kristofer E., Bujan, Alejandro F., Roosta-Khorasani, Farbod, Ubaru, Shashanka, Prabhat, Snijders, Antoine M., Mao, Jian-Hua, Chang, Edward F., Mahoney, Michael W., and Bhattacharyya, Sharmodeep

Subjects
Statistics - Machine Learning
Abstract

The increasing size and complexity of scientific data could dramatically enhance discovery and prediction for basic scientific applications. Realizing this potential, however, requires novel statistical analysis methods that are both interpretable and predictive. We introduce Union of Intersections (UoI), a flexible, modular, and scalable framework for enhanced model selection and estimation. Methods based on UoI perform model selection and model estimation through intersection and union operations, respectively. We show that UoI-based methods achieve low-variance and nearly unbiased estimation of a small number of interpretable features, while maintaining high-quality prediction accuracy. We perform extensive numerical investigation to evaluate a UoI algorithm ($UoI_{Lasso}$) on synthetic and real data. In doing so, we demonstrate the extraction of interpretable functional networks from human electrophysiology recordings as well as accurate prediction of phenotypes from genotype-phenotype data with reduced features. We also show (with the $UoI_{L1Logistic}$ and $UoI_{CUR}$ variants of the basic framework) improved prediction parsimony for classification and matrix factorization on several benchmark biomedical data sets. These results suggest that methods based on the UoI framework could improve interpretation and prediction in data-driven discovery across scientific fields., Comment: 42 pages; a conference version is in NIPS 2017

Published
2017

238. Free fibula mandible reconstruction for osteoradionecrosis is more challenging than for primary cancer.

Author

Lee, Z‐Hye, Shuck, John W., Largo, Rene D., Chang, Edward I., Hanasono, Matthew M., Yu, Peirong, and Garvey, Patrick B.

Subjects
SURGICAL site infections, INJURY risk factors, HEAD & neck cancer, LOGISTIC regression analysis, NEOADJUVANT chemotherapy, MANDIBLE surgery, FREE flaps
Abstract

Introduction: Osteoradionecrosis (ORN) of the mandible is an unfortunate potential sequela of radiotherapy for head and neck cancer. In advanced cases of ORN, mandibulectomy, and free fibula flap reconstruction are required. We hypothesized that patients undergoing fibula free flap reconstruction and mandibulectomy for ORN pose unique challenges and experience more complications than patients undergoing fibula free flaps after oncologic mandibulectomy. Methods: After IRB approval, we created a database of all free fibula flaps for mandible reconstruction from April 2005 through February 2019. Medical records were retrospectively reviewed for patient and surgical characteristics and postoperative outcomes. Results: Four‐hundred seventy‐nine patients met the inclusion criteria (168 ORN vs. 311 non‐ORN patients). Propensity‐matching was performed based on age, BMI, smoking status, preoperative chemotherapy, and virtual surgery planning use, which yielded 159 patients in each group. ORN patients received more double‐skin‐island fibula flaps than non‐OR patients (20.8% vs. 5.7%, p < 0.001). Recipient artery other than the facial artery was utilized more commonly in ORN patients (42.1% vs. 17.0%, p < 0.001). In the unmatched cohort, ORN patients had higher rates of delayed wound healing (26.2% vs. 16.8%, p = 0.01) and surgical site infections (21.4% vs. 13.2%, p = 0.02). Rates of flap loss, return to the operating room, hematoma, operative time, and length of stay were similar between the groups. On logistic regression analysis, osteoradionecrosis was an independent risk factor for delayed wound healing. Conclusion: Based on these data, mandibular reconstruction with fibula flaps for osteoradionecrosis appears more complicated than mandible reconstruction following de novo cancer resection. Surgeons should anticipate employing two skin islands for intraoral and extraoral resurfacing, utilizing unconventional recipient vessels, and managing the delayed wound healing that ensues more commonly than non‐ORN patients. [ABSTRACT FROM AUTHOR]

Published
2024
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241. Effect of Gamma Irradiation on the Structure, Morphology, and Memristive Properties of CVD Grown ReS2 Thin Film.

Author

Aggarwal, Pallavi, Bisht, Prashant, Jana, Subhajit, Mishra, Ambuj, Ray, Samit Kumar, Chang, Edward Yi, Mehta, Bodh Raj, and Singh, Rajendra

Subjects
PHASE transitions, VALENCE fluctuations, CHEMICAL vapor deposition, PHOTOELECTRON spectroscopy, PHOTOLUMINESCENCE measurement, IRRADIATION
Abstract

In this work, effect of gamma irradiation on chemical vapor deposition grown ReS2 thin films vis‐a‐vis change in its structure, morphology, chemical composition, and memristive behaviour is reported to assess its radiation hardness for space applications. High‐resolution transmission electron micrographs and selected area electron diffraction pattern infer polycrystalline to amorphous phase transition and increase in the number of grain boundaries (GBs) after exposure to 25 kGy of gamma radiation. X‐ray photoelectron spectroscopy and low‐temperature photoluminescence measurements reveal the formation of sulfur vacancies (SV) accompanied with partial oxidation of film. Memristors are then fabricated on the as‐grown film using different metal electrodes, which are Ag, Pt, and Ti in lateral geometry, and their resistive switching (RS) mechanism is studied along with the impact of gamma irradiation. RS is attributed to the formation of conducting filaments due to GB‐mediated migration of metal ions, SV, and oxygen ions from the partially oxidized film. Furthermore, irradiation is found to increase current in the high resistance state of the device, which subsequently reduces the memory window. This impact is observed to be consistent across all the devices which validates the effect of irradiation irrespective of the nature of the metal electrode used. [ABSTRACT FROM AUTHOR]

Published
2024
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242. Impact of temperature on threshold voltage instability under negative bias in ferroelectric charge trap (FEG) GaN-HEMT.

Author

Rathaur, Shivendra K., Dixit, Abhisek, and Chang, Edward Yi

Subjects
MODULATION-doped field-effect transistors, TWO-dimensional electron gas, ELECTRON gas, ELECTRON emission, THRESHOLD voltage, THIN film transistors
Abstract

This Letter pioneers an investigation into the influence of temperature on threshold voltage (VTH) instability under negative bias in ferroelectric charge trap gate stack (FEG) high electron mobility transistors. Based on the experimental stress condition, i.e., gate bias of −20 V and temperature (T) range from 30 to 150 °C, our findings reveal a unidirectional VTH shift with 30 °C < T < 90 °C, and transitioning to a bidirectional VTH shift at 90 °C ≤ T ≤ 150 °C. The observed VTH < 0 V can be ascribed to the emission of electrons from the trapping layer, prompted by the pre-poling of the ferroelectric (FE) layer and the presence of interface traps. In contrast, under high-temperature stress, where VTH > 0 V, it indicates the depletion of the two-dimensional electron gas electrons due to de-poling and saturation of the polarization in the reverse direction. Moreover, this phenomenon is consistent with extracted activation energies (Ea) of 0.55 ± 0.01 and 0.79 ± 0.01 eV. Additionally, the recovery characteristics validate the trapping/detrapping process. [ABSTRACT FROM AUTHOR]

Published
2024
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247. Speech Decoding as Machine Translation

Author

Makin, Joseph G., Moses, David A., Chang, Edward F., Gan, Woon-Seng, Series Editor, Kuo, C.-C. Jay, Series Editor, Zheng, Thomas Fang, Series Editor, Barni, Mauro, Series Editor, Guger, Christoph, editor, Allison, Brendan Z., editor, and Gunduz, Aysegul, editor

Published
2021
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248. Developing a Closed-Loop Brain-Computer Interface for Treatment of Neuropsychiatric Disorders Using Electrical Brain Stimulation

Author

Yang, Yuxiao, Sani, Omid G., Lee, Morgan B., Dawes, Heather E., Chang, Edward F., Shanechi, Maryam M., Gan, Woon-Seng, Series Editor, Kuo, C.-C. Jay, Series Editor, Zheng, Thomas Fang, Series Editor, Barni, Mauro, Series Editor, Guger, Christoph, editor, Allison, Brendan Z., editor, and Tangermann, Michael, editor

Published
2021
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249. Syntax

Author

Kinno, Ryuta, Chang, Edward, Friederici, Angela D., Mandonnet, Emmanuel, editor, and Herbet, Guillaume, editor

Published
2021
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250. Megastudies improve the impact of applied behavioural science

Author

Milkman, Katherine L., Gromet, Dena, Ho, Hung, Kay, Joseph S., Lee, Timothy W., Pandiloski, Pepi, Park, Yeji, Rai, Aneesh, Bazerman, Max, Beshears, John, Bonacorsi, Lauri, Camerer, Colin, Chang, Edward, Chapman, Gretchen, Cialdini, Robert, Dai, Hengchen, and Eskreis-Winkler, Lauren

Subjects
Psychological research -- Methods, Social sciences -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Policy-makers are increasingly turning to behavioural science for insights about how to improve citizens' decisions and outcomes.sup.1. Typically, different scientists test different intervention ideas in different samples using different outcomes over different time intervals.sup.2. The lack of comparability of such individual investigations limits their potential to inform policy. Here, to address this limitation and accelerate the pace of discovery, we introduce the megastudy--a massive field experiment in which the effects of many different interventions are compared in the same population on the same objectively measured outcome for the same duration. In a megastudy targeting physical exercise among 61,293 members of an American fitness chain, 30 scientists from 15 different US universities worked in small independent teams to design a total of 54 different four-week digital programmes (or interventions) encouraging exercise. We show that 45% of these interventions significantly increased weekly gym visits by 9% to 27%; the top-performing intervention offered microrewards for returning to the gym after a missed workout. Only 8% of interventions induced behaviour change that was significant and measurable after the four-week intervention. Conditioning on the 45% of interventions that increased exercise during the intervention, we detected carry-over effects that were proportionally similar to those measured in previous research.sup.3-6. Forecasts by impartial judges failed to predict which interventions would be most effective, underscoring the value of testing many ideas at once and, therefore, the potential for megastudies to improve the evidentiary value of behavioural science. A massive field study whereby many different treatments are tested synchronously in one large sample using a common objectively measured outcome, termed a megastudy, was performed to examine the ability of interventions to increase gym attendance by American adults., Author(s): Katherine L. Milkman [sup.1] , Dena Gromet [sup.2] , Hung Ho [sup.1] [sup.26] , Joseph S. Kay [sup.2] , Timothy W. Lee [sup.2] [sup.27] , Pepi Pandiloski [sup.3] , [...]

Published
2021
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