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College of Arts and Sciences

Faculty

The Carolina Autism and Neurodevelopment (CAN) Research Center at USC brings together an interdisciplinary group of faculty from across campus to collaborate and advance research in the fields of autism and neurodevelopment.

 

Faculty Member Department Focus Area

Sarah Edmunds smiling

Sarah Edmunds, Ph.D.

Lab Website

Psychology
Assistant Professor

Dr. Edmunds studies neurodiversity-informed interventions that address functional impairments associated with autism spectrum disorder (ASD), such as in social communication, flexibility, emotion regulation, and anxiety. She aims to investigate how to best implement, tailor, and increase accessibility for evidence-based interventions for ASD within early intervention, school, and mental healthcare systems.

Jessica Bradshaw smiling.

Jessica Bradshaw, Ph.D.

Lab Website

Psychology
Associate Professor

Dr. Bradshaw’s research focuses on early identification of autism spectrum disorder (ASD) in the first years of life, including: 1) quantifying the emergence of, and interrelations between, social behavior, visual attention, and motor skills in neonates, infants, and toddlers, 2) identifying aberrant neurodevelopmental pathways that lead to the emergence of autism spectrum disorder (ASD), and 3) translating these basic findings to early detection and intervention strategies for ASD.

Dan Foster smiling

Daniel Foster, Ph.D.

Lab Website

Pharmacology, Physiology, & Neuroscience 
Assistant Professor

Dr. Foster’s research is focused on understanding how specific neuronal circuits regulate repetitive behaviors and habitual behaviors in rodents with the goal of identifying novel therapeutic strategies for treating symptoms observed in numerous disorders including autism spectrum disorder and obsessive-compulsive disorder. 

Norma Frizzell smiling.

Norma Frizzell, Ph.D.

Pharmacology, Physiology, & Neuroscience 
Associate Professor

The Frizzell laboratory is interested in the neurodevelopmental manifestations of mitochondrial diseases, with a focus on the biochemical mechanisms underlying neurologic deficits. They aim to characterize metabolic changes in mitochondrial diseases that exacerbate the existing genetic defects, and they anticipate that this knowledge will inform tailored therapeutic interventions.

Jessica Green smiling

Jessica Green, Ph.D.

Psychology
Associate Professor

Dr. Green’s research uses non-invasive brain recordings to examine multisensory perception and attention, including how these processes are altered in individuals with autism spectrum disorder.

Neset Hikmet smiling.

Neset Hikmet, Ph.D.

Computer Science and Engineering 
Professor

Dr. Hikmet is heavily involved in research and health sector related activities. He has led numerous distributed data collection and management projects and led and participated in grant-funded health informatics research in a wide range of contexts. His recent research project Health Services Utilization Dashboard leverages Health Sciences South Carolina’s (HSSC) 2.7 million patient based clinical data set which provides insightful information.

Kim Hills smiling

Kimberly Hills, Ph.D.

Psychology
Clinical Professor

Dr. Hills provides clinical training in ASD assessment skills to clinicians across the state of South Carolina. Her current research interests focus on autism diagnosis, psychological assessment, prevention and intervention for at-risk youth and positive psychology.

Jessie Fu smiling

Xiaoxue (Jessie) Fu, Ph.D.

Psychology
Assistant Professor

Dr. Fu studies the impact of early vulnerability on the development of the neural basis of social cognition and its association with socioemotional adjustment. She uses a variety of measurements, including eye tracking, fNIRS, and fMRI, to assess how children process social information in different contexts. She aims to examine and characterize the neurocognitive and behavioral processes that lead to either adaptive or maladaptive developmental pathways for at-risk children.

Liz Will smiling

Liz Will, Ph.D., BCBA

Communication Sciences and Disorders
Assistant Professor

Dr. Will's research investigates early atypical development and co-occurring autism in genetic conditions associated with intellectual disability, specifically Down syndrome. She is particularly interested in attention and motor phenotypes and aims to understand how they interact across development to shape outcomes related to cognition, communication, and co-occurring conditions including autism and ADHD.

Susan Wood smiling

Susan Wood, Ph.D.

Pharmacology, Physiology & Neuroscience
Associate Professor

Dr. Wood's research focuses on using behavioral models to identify novel neurobiological substrates underlying individual differences in susceptibility to stress-related disorders in males and females. Her lab also studies how stress exposure can lead to comorbidity between psychiatric disorders and cardiovascular disease risk.

Rob Hock smiling

Robert Hock, Ph.D., LMSW

Lab website

Social Work
Associate Professor

Dr. Hock’s research is aimed at promoting healthy parenting and family-centered service delivery for families of children with autism spectrum disorder (ASD) and behavioral health challenges.  Dr. Hock is particularly committed to developing and testing family-system interventions to improve caregiver mental health, strengthen parent-child relationships, support co-parenting effectiveness, and increase service access. He has been an investigator on five interventions for parents, and is currently an MPI (with Dr. Mark Feinberg) of an NIH R01 Clinical trial (R01HD099295) titled, “Test of an Innovative, Scalable Support Program for Parents with a Child Recently Diagnosed with Autism Spectrum Disorder.”

Abigail Hogan smiling

Abigail Hogan, Ph.D.

Lab website

Communication Sciences & Disorders
Assistant Professor

Dr. Hogan's research focuses on social communication in neurodevelopmental disorders (e.g., autism spectrum disorder, fragile X syndrome), with an emphasis on factors that contribute to social communication development in young children with neurodevelopmental disorders. Dr. Hogan is especially interested in understanding the relationship between physiological regulation, anxiety symptoms, and social communication difficulties in young children. Dr. Hogan directs the Communication in Autism and Neurodevelopmental Disorders (CANDi) Lab in the Department of Communication Sciences and Disorders.

Fiona Hollis smiling

Fiona Hollis, Ph.D.

Lab website

Pharmacology, Physiology, & Neuroscience 
Assistant Professor

Dr. Fiona Hollis is a behavioral neuroscientist who studies the role of brain mitochondrial function in social behavior. Her research uses preclinical rodent models to investigate the mechanisms underlying social behaviors important to neurodevelopmental and neuropsychiatric disorders.

Xianzheng Huang, Ph.D.

Statistics
Professor

Dr. Huang’s longstanding research endeavor is studying effects of measurement error on statistical inference and developing nonparametric methods for mean regression, mode regression, and density estimation in the presence or absence of measurement error.

Caitlin Hudac smiling

Caitlin Hudac, Ph.D.

Lab website

Psychology
Associate Professor

Dr. Hudac's research focuses on brain development in infants, children, and adults with neurodevelopmental disorders (NDDs) and with a genetic mutation linked to  NDDs.  She uses multiple techniques (EEG, ERP, eye tracking, fMRI) to target the underlying biology associated with social attention and cognition. 

Jessica Klusek smiling

Jessica Klusek, Ph.D.

Lab website

Communication Sciences & Disorders
Associate Professor

Dr. Klusek’s research program focuses on delineating communication, social, and cognitive associated with FMR1 gene dysfunction, such as in fragile X syndrome and carriers of the FMR1 premutation. Research interests include genetic and environmental influences on phenotypic expression across the lifespan; use of cross-syndrome methods to identify areas of phenotypic overall and divergence with autism and the broad autism phenotype; identification of biological correlates of symptom expression, with a focus on autonomic dysfunction and genetic markers.

David Mott smiling

David Mott, Ph.D.

Pharmacology, Physiology, & Neuroscience 
Associate Professor

Dr Mott’s research focuses on circuit mechanisms in the brain that underlie social behaviors and emotional memory relevant to neurodevelopmental disorders, such as Fragile X Syndrome and Autism Spectrum Disorders.

 Vignesh Narayanan smiling

Vignesh Narayanan, Ph.D.

Lab webiste

Computer Science and Engineering
Assistant Professor

Dr. Narayanan's research focuses on dynamic modeling, network science, and data science. We aim to use systems-theoretic and machine learning tools to uncover dynamic biomarkers for understanding complex neural mechanisms.

Ana Pocivavsek smiling

Ana Pocivavsek, Ph.D.

Lab webiste

Pharmacology, Physiology, & Neuroscience 
Assistant Professor

Dr. Pocivavsek's research aims to understand the underlying molecular mechanisms of cognitive dysfunction. Poor sleep quality is associated with impairments in cognitive function.  Her research strives to unravel common molecular mechanisms between sleep disturbances and cognitive impairments and introduce new therapeutic approaches to alleviate these outcomes.

Christian O'Reilly smiling

Christian O'Reilly, Ph.D.

Lab website

Computer Science and Engineering 
Assistant Professor

Dr. O'Reilly's main interests are related to better understanding the brain across spatial and temporal scales in order to address complex neurodevelopmental issues such as autism and other neurodevelopmental disorders. The methods he uses include analytical techniques (e.g., EEG source reconstruction, functional connectivity) and modeling (e.g., point neurons, morphologically-detailed neurons, neural masses), as well as the combination of these two approaches through Bayesian model-driven analyses. He is further interested in novel ways to empower the study of neuroscience through AI and to empower AI through biologically inspired neural networks. 

Fabienne Poulain smiling

Fabienne Poulain, Ph.D.

Lab website

Biological Sciences
Associate Professor

Research in the Poulain lab aims at understanding how neuronal circuits are formed, maintained and refined during development. They use a unique combination of genetic, biochemical and high resolution live imaging approaches in zebrafish to decipher the cellular and molecular mechanisms of brain wiring directly in vivo. Their discoveries may give new insight on the etiology of neurodevelopmental disorders that originate from miswiring of neuronal circuits during development.

John Richards smiling

John Richards, Ph.D.

Psychology
Carolina Distinguished Professor

Dr. Richards is a developmental cognitive neuroscientist interested in the relation between brain development and attention development. The lab uses structural MRI, DTI, functional MRI to evaluate brain development, and EEG/ERP during face processing to examine the role of the brain in attention to faces. They also study children and adults, and have some collaborative work on FXS and ASD.

Michelle Brown smiling

Michelle Brown, Ph.D.

Lab website

Psychology
Assistant Professor

Dr. Brown uses a developmental psychopathology framework to: (1) understand how interpersonal relationships influence victimized children’s risk for developing adverse socioemotional outcomes and (2) elucidate biopsychosocial factors that influence treatment outcomes for victimized children.

Jane Roberts smiling

Jane Roberts, Ph.D.

Lab website

Psychology & Dean for Natural Sciences
Carolina Distinguished Professor

Dr. Roberts is a  Carolina Distinguished Professor and Chair of the Department of Psychology. Her work focuses on understanding the biological mechanisms that underlie cognitive and behavioral functioning in children and adults with neurodevelopmental disorders such as autism, fragile X syndrome, and ADHD.

Deanna Smith smiling

Deanna Smith, Ph.D.

Lab website

Biological Sciences
Professor

Dr. Smith studies how a microtubule motor (dynein) is regulated by the lissencephaly protein, LIS1. Her lab is particularly interested in how LIS1 controls axonal transport, a process vital to the maintenance of neural circuits and neural health. Currently, they are studying the effect of LIS1 missense mutations, including a mutation found in a child with autism. 

Aaron Jasnow smiling

Aaron Jasnow, Ph.D.

Lab website

Pharmacology, Physiology & Neuroscience
Associate Professor

Dr. Jasnow's lab aims to gain a better understanding of overlapping neural circuits and molecular mechanisms regulating aversive behavior (fear and stress-responsive behaviors) and appetitive behavior (drug seeking and social behavior).  He integrates several interrelated fields that include behavioral neuroendocrinology, social behavior & stress, learning and memory, the neural control of fear, and addiction. 

Jeff Twiss smiling

Jeff Twiss, Ph.D.

Lab website

Biological Sciences & Dean for Research and Graduate Studies
Professor

Dr. Twiss  is a professor in the Department of Biological Sciences, SmartState Chair in Childhood Neurotherapeutics, and Associate Dean for Research and Graduate Studies. The Twiss lab uses molecular and cellular biology approaches to understand how neurons develop and function. They are particularly interested in how post-transcriptional regulation impacts neuron growth, focusing on subcellular mRNA translation and RNA dynamics in neurons.

Kristy Welshhans smiling

Kristy Welshhans, Ph.D.

Lab website

Biological Sciences
Assistant Professor

Dr. Welshhans’ research focuses on molecular mechanisms in the brain that regulate the formation of nervous system connectivity during development. Using both mouse and human cellular models, her lab aims to identify how changes in these mechanisms may contribute to Down syndrome and the intellectual disability phenotype.

Marlene Wilson smiling

Marlene Wilson, Ph.D.

Pharmacology, Physiology, & Neuroscience 
Professor

Dr. Wilson is a stress neurobiologist and her research program investigates the neurobiological basis of sex-dependent individual differences in anxiety-like, stress and fear responses in preclinical models. She uses both conditioned and unconditioned models to investigate behavioral, endocrine, autonomic, and anatomical parameters, including rodent ultrasonic vocalizations.

Katie Wolfe smiling

Katie Wolfe, Ph.D.

Educational Studies - Special Education
Associate Professor

Dr. Wolfe’s research focuses on communication interventions for individuals with autism, data-based decision making for educators and other practitioners, and the analysis of single-case research data.

Qun Lu smiling

Qun Lu, Ph.D.

Chemistry and Biochemsitry
Professor and SmartState Endowed Chair

Dr. Lu aims to understand how cellular functions are modulated by signaling molecules under physiological conditions and in complex neurological diseases. With better understanding of underlying molecular mechanisms of disease progression, Dr. Lu develops and investigates next generation neurotherapeutics.

Yuexuan Wu smiling

Yuexuan Wu, Ph.D.

Statistics
Assistant Professor

Dr. Wu's research focuses on developing statistical and machine-learning methodologies to analyze high-dimensional and complex data stemming from neuroimaging, neuroscience, and broader biological and medical research. Dr. Wu is interested in neuroimaging analysis, shape and functional data analysis, computational neuroscience, and causal inference.

Shanghong Xie smiling

Shanghong Xie, Ph.D.

Statistics
Assistant Professor

Dr. Xie is interested in research about machine learning, network analysis, precision medicine, functional data analysis, causal inference, and mediation analysis with neuroimaging and genetic biomarkers, to investigate the etiology and progression of diseases, particularly focusing on applications to neurological and psychiatric disorders as well as neurodevelopment in childhood and adolescence.

Will Consagra smiling

William Consagra, Ph.D.

Statistics
Assistant Professor

Dr. Consagra's research centers on computational statistics, functional data analysis, and deep learning, applied to neuroimaging inverse problems and connectomics.

 

 

 

 

 

 

 

 

 


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