Author: BD

Undergraduate Research Award Recipients 2021-2022

The Undergraduate Research Supply Award provides students with funds that they can use toward supplies and other expenses associated with an ongoing independent research project. The Undergraduate Summer Research Award provides funds for students to conduct independent research during the summer session.

Fall 2021 and Spring 2022

Research Supply Award Recipients

  • Mandira Gowda – Advisor: Etan Markus
  • Mahit Gupta – Advisor: Ephraim Trakhtenberg
  • Alison Guy – Advisor: Etan Markus
  • Amisha Paul – Advisor: Joanne Conover
  • Anika Veeraraghav – Advisor: Gerry Altmann

Summer 2021

Summer Research Award Recipients

  • Margaux Acorda – Advisor: Inge-Marie Eigsti
  • Olivia Arciero – Advisor: Letty Naigles
  • Tristan Evans – Advisor: Michael O’Neill
  • Jamie Masthay – Advisor: John Salamone
  • Xinming Zhou – Advisor: Emily Myers

Seed Grant Recipients 2020-2021

IBACS Seed Grants provide funding for collaborative research projects across the brain and cognitive sciences. Seed Grants also support applications for equipment, research workshops, events, and other activities compatible with the mission of the Institute.

2020-2021 Recipients

Learn about the PIs and projects that received IBACS Seed Grants this year.

David Martinelli, Neuroscience

Title of Project: Creation of a novel mouse allele to investigate the role of the C1QL protein in the brain

Our research focuses on the brain-specific protein C1q-like (C1QL) and its involvement in the creation of myelin – a substance required for proper cognition. Loss of myelin, such as what occurs in multiple sclerosis (MS), causes neurodegeneration and cognitive defects. We now also appreciate that adaptive changes in myelin can modulate cognition in healthy brains. Myelin is made by oligodendrocyte cells in the brain, and C1QL is selectively expressed in the oligodendrocyte lineage. We have evidence that C1QL drives oligodendrocyte maturation. Therefore, we hypothesize that modulating the signaling activity of C1QL will cause oligodendrocytes to increase myelin production. This could potentially enhance cognition and perhaps be a novel treatment for MS and other diseases. We hope to initiate a collaborative research program combining the molecular genetics of C1QL, a biophysical analysis, and a behavioral analysis using a mouse model for MS to assay for cognitive decline. We need to determine the subcellular location of the C1QL protein. Grant reviewers have repeatedly insisted on this information as required preliminary data. Thus, we hope to acquire funds to generate a novel mouse allele in which the endogenous C1ql gene locus has been modified to include a small epitope tag. With the creation of this new tool, determination of the subcellular location of the protein is expected to be straightforward, and will fuel two co-PI R01 grant applications. The first with Dr. Stephen Crocker will focus on cellular and behavioral consequences of C1QL activity promoting myelin creation, and the second with Dr. Susanne Ressl will focus on the biophysics and biochemistry of C1QL and its receptors. The allele will be created at UConn’s Center for Mouse Genome Modification.

Kevin Manning, Psychiatry

Title of Project: Testing Adaptive Interoception in Aging using Bladder Sensations and Simulated Driving

Social bladder control is predicated on interoceptive knowledge of bladder content.  Cognitive processes interpret and potentially modulate the sensory neural data stream about bladder volume to optimize homeostasis by resolving external experience with internal expectations1,2.  Thus cognitive aging could be one major contributor to disordered urinary perceptions, one that is relatively independent of the actual afferent data stream generated by bladder volumes3.  Yet existing research has not directly explored this possibility. Demonstrating the effect of cognitive aging on the ability to maintain normal urinary perceptions would offer a strong translational link to the laboratory-supported hypothesis that the aging bladder must be understood as reflecting a strained but resilient adaptive system that is subject to the influences of cognitive aging.  A necessary first step in this line of research is the development of an allostatic cognitive challenge which will be sufficiently sensitive to bladder changes and testable in a safe clinical environment. We will use driving simulation as a cognitive stressor and will manipulate the degree of driving difficulty encountered while recording subject reports of bladder fullness through cystometry.  PI Manning has expertise with the use of this driving simulation as a cognitive / allostatic challenge and will supervise this aspect of the testing.  PI Smith has expertise with cystometry (both in the laboratory and as director of the clinical UConn Urodynamics Unit). CO-PI Costello has expertise in cognitive aging and statistical analyses. The project will enable us to measure the impact of cognitive aging on perceptual and driving performance resilience, and directly contribute to pilot data for a NIA R-level grant involving the departments of Geriatrics, Psychiatry, and Urology.

Nicole Landi, Psychological Sciences

Title of Project: Decoding dyslexia: decoding the human mind

Misconceptions about dyslexia are common among laypeople. These misconceptions matter because they could potentially prevent individuals from recognizing the early warning signs of dyslexia, engender mistrust in behavioral diagnostic tests, and promote skepticism about the efficacy of interventions.  Recent findings from our team suggest that these misconceptions arise from intuitive psychology, specifically from Dualism and Essentialism.  In this IBACS grant we explore whether these misconceptions about dyslexia are also present in parents and teachers of children with dyslexia. By unveiling the source of these beliefs, we hope to help elucidate the reason for these lingering misconceptions and, by extension, improve understanding surrounding the diagnosis and treatment for children in need.

Dimitris Xygalatas & Alexandra Paxton, Anthropology & Psychological Sciences 

Title of Project: Psychosocial effects of virtual social gatherings

The current pandemic has both disrupted and highlighted the importance of human connection. Although virtual forms of interaction have stepped in to fill the gap, the degree to which these interactions are sufficiently good substitutes for in-person interaction remains unknown. This project explores the psychosocial dynamics of participation in virtual gatherings through a combination of psychometric surveys and wearable technology. We will use these tools to study on-line and in-person group yoga sessions by investigating group synchrony and how it relates to outcomes pertaining to social connection and mental health. In addition, the project will serve to develop a paradigm that can be used in other real-life social settings. 

Summer Graduate Fellows 2021

IBACS Summer Graduate Fellowships provide three months of research funding to graduate students working on topics with relevance to the brain and cognitive sciences.

2021 Fellowship Recipients

William Armstrong, Physiology & Neurobiology

Current Research: My research will characterize the role of C1QL3 in HCRT/OX projections to NA neurons in the LC, which are critical to sleep- wake regulation. To approach this question, I will use several techniques including IHC, stereotaxic viral injections, mouse genetics and electrophysiology. First, I will perform IHC and fluorescent in situ hybridization to confirm C1ql3 localization in HCRT/OX neurons. I will then inject AAV-Cre-tdT (tdTomato) into the LHA of a C1ql3-mVenusflox/flox mouse to knock out C1ql3. This will allow me to observe differences in HCRT/OX projections to the LC between control and knockout mice. I hypothesize that C1ql3 knockout will result in decreased HCRT/OX synapse density onto NA neurons in the LC, which I will visualize with IHC and quantify. I also expect decreased synaptic function, which I will assess through slice electrophysiology measuring miniature, spontaneous, and evoked EPSCs. Finally, I will inject AAV-Cre+C1ql3-tdT which I hypothesize will rescue C1QL3 expression and restore HCRT/OX fiber density and transmission to the LC.

This interdisciplinary approach will be the first to identify the function of C1QL3 in HCRT/OX neurons and provides a powerful link between molecular neuroscience and broader behavioral phenomena such as sleep and its disorders. My work could also identify a novel genetic marker or therapeutic avenue for narcolepsy if C1QL3 knockout inhibits HCRT/OX function, paving the way for behavioral assays studying sleep in knockout mice.

Megan Chiovaro, Psychological Sciences

Current Research:

At UConn, I am currently engaged in a variety of projects focused on how individuals work together without leaders. Continuing our work on the Arab Spring, my co-authors and I are investigating the differences between publicly available event datasets. Each dataset has a different way of collecting event data, and these different collection methods can produce drastically different results. We are investigating how these differences impact the results of political science research.

My collaborators and I are also writing a paper for a special issue of Behavior Research Methods comparing various time series analyses, including recurrence quantification analysis, vector auto-regression, and cross-correlation. Each method has strengths and disadvantages, but they are rarely used together. Through this project, we hope to introduce researchers to a variety of time series methods and help outline which may be best for their particular situation.

I am also working on a paper using nonlinear analyses for video and audio time series data. Using data-intensive audio and video analysis techniques, we are analyzing how groups of researchers develop ideas for joint research projects aimed at solving difficult societal health problems. This work is also being formulated as a tutorial with accompanying open source code, so that researchers can use our materials to learn these nonlinear methods.

Kelsey Davinson, Psychological Sciences

Current Research:

My current research on infant neural oscillatory development involves two areas of inquiry: resting-state EEG and EEG mu rhythm’s functional properties. Resting-state EEG (RS-EEG) measures brain rhythms while an individual is awake and not engaged in a task or active cognitive/affective processing. What is not yet understood in infancy is how different RS-EEG contexts affect EEG measures, which is informative when determining the appropriate context for RS-EEG acquisition. Further, an examination of co-occurring EEG rhythms in infancy is rare, but essential to more holistic perspectives of brain development. My secondary data analyses examine RS theta/beta ratio as a measure of the dynamic relationship between multiple neural oscillations in different contexts and across infancy. The focus of my other research plans is on the emergence of EEG mu rhythm’s functional properties. It is reactive during action observation and execution, and these “neural mirroring” properties are potentially informative of social information processing. I will be coding, processing, and EEG recordings from 6- to 9-week-old infants during the performance and perception of mouth gestures. My work will identify the mu rhythm frequency range and if there are neural mirroring properties observed at this early age, both have yet to be explored and will inform our understanding of social cognitive processing. My research incorporates cognitive neuroscience and biopsychosocial approaches to development.

Katelyn DeNegre, Molecular & Cell Biology

Current Research: The goal of my study is to understand the function of Xlr genes in brain development, and to confirm the observation of a transgenerational neurobehavioral defect in our knockdown model. Beginning with a male mouse homozygous for the Xlr3 transgene (P), we will investigate the integrity of brain-specific imprinting, brain transcriptomic profiles and neurobehavioral defects in subsequent generations. Imprinted expression of Xlr3b,4b and 4c will be assessed in F1 female who have inherited the compromised X chromosome from the P males. This female then passes the epimutated X to her offspring (F2). F2 male offspring are of interest because they have exhibited behavioral defects in previous experiments. Total RNA will be extracted from brains from neonatal F2 males and subjected to global transcriptome profiling via RNAseq. Additionally, F2 males grown to adulthood will undergo behavior testing in the MBNF. P generation knockdown males are currently in outcross matings to produce the F1 generation. The outcross allows tracing of X chromosome parental origin in F1 females for imprinting assays. The F2 generation will consist of males who possess the lineage traced X chromosome and are either homozygous for the transgene or are wild-type controls. RNA Seq will allow me to explore whether depletion of Xlr3 mRNA affects transcription of other genes in this tissue, thereby confirming Xlr3 as a mediator of transgenerational effects on neurodevelopment.

Caitrin Hall, Psychological Sciences

Current Research: Underlying my research interests is my desire to support marginalized communities and help eradicate oppressive structures. This has motivated me to advance beyond my psychology coursework to learn about critical race theory, systemic racism, and the resulting detrimental outcomes. My recent experience taking White Racism with sociologist Dr. Noel Cazenave emphasized racism as a system of oppression that requires change at the structural, rather than solely the individual, level. While psychology research will be necessary in restructuring social systems, we must study individuals within the context of the whole. In my future work, I aim to bridge the gap between the individual-level focus of psychology and the societal-level focus of sociology in order to progress toward social justice.

Specifically, I will explore the relationship between individual and collective behavior. Research has found that group synchrony cultivates social connectedness, contributes to interpersonal liking, and increases pain tolerance. Previous findings also demonstrate a link between social connectivity and reduced anxiety levels. Together, these results suggest that synchronizing with others may improve wellbeing. By investigating how environmental and social contexts modulate behavior/health outcomes, we may augment our understanding of perception, action, and cognition while advocating for structural changes and interventions that may increase wellness and success in oppressed populations.

Nathan Lautz, Psychological Sciences

Current Research: I’m currently investigating the functional involvement of visual simulation during language comprehension. After hearing the sentence "The hiker saw an eagle in the sky," people are faster to verify that an image of an eagle with outspread wings depicts something in the sentence than an image of an eagle with closed wings. This "shape match effect" could indicate that sentence comprehension involves perceptual simulation (here, simulating the visual form of the eagle). Ostarek et al. (2019) recently challenged this interpretation, using visual interference targeting different levels of visual processing (from low-level up to images of everyday objects with semantic content) to test if this interference disrupted the match effect. They found that only the stimuli with semantic content eliminated the effect, arguing that perceptual simulation does not underlie the match effect. Alternately, we hypothesized a linear trend in the disruption of the effect as visual interference targets successively higher levels of visual processing, indicating increased functional involvement of the visual system in perceptual simulation in successively higher processing areas. Preliminary modeling has revealed this trend. Next we will examine existing fMRI data to ascertain whether the interference stimuli are indeed processed by regions of increasing computational distance from the periphery. This will help elucidate the neurocognitive basis of perceptual simulation during language processing.

Ruth McLeod, Psychological Sciences

Current Research:In the summer of 2021, my plan is to go back into original medical records to collect additional data about our subjects, including quantification of any underlying conditions that may have further affected their developmental outcomes. This will include the infant’s length of stay in the NICU (an indirect measure of health complications), whether the infant experienced necrotizing enterocolitis (a common form of neonatal GI inflammation), as well as any other complications that may have caused trauma or inflammation during birth. We will use this additional data to get a more detailed and refined picture of how inflammatory conditions and general health modulate the neuroprotective effectiveness of adenosine antagonist treatment. We will also be working to collect data from infants who received no treatment with an adenosine antagonist, and comparing their developmental outcomes to those of matched GA who were treated, either early (< 48 hours post-birth) or late (>48 hours post-birth). This will help us to understand the extent of adenosine antagonist protection, and offer new insights to possible mechanisms of action of adenosine antagonists in the context of inflammatory profiles. Specifically, it remains unclear exactly how adenosine antagonists enhance outcomes in preterms. Putative pathways include a reduction in molecular events following ATP failure that could reduce neuronal death, an attenuation of microglial activation that could preserve neuronal integrity.

Hannah Mechtenberg, Psychological Sciences

Current Research: I have several ongoing projects that span neuroscience and psychology. One current focus is on prepositional, or four-term, analogies that take the structure A:B::C:D. Of particular interest over the next six months is to clarify how psycholinguistic properties—including word frequency, word length, concreteness, and age of acquisition—may affect the perceived difficulty of a given analogy. I am currently running an online behavioral study that will provide evidence for which psycholinguistic properties may matter, and at which position within the prepositional analogy. These results will help guide construction of a new stimuli set that will limit confounds and enable us to examine how semantics influences analogical reasoning. I am also working with a team of researchers at UConn on a project that is using fMRI to characterize the neural networks that support passive listening of continuous speech. Not only are we considering how the phonetic information is represented and disambiguated neurally, but the acoustic, lexical, syntactic, and semantic information as well. A project of this scope transcends typical studies of speech perception that tend to target only one level in the processing hierarchy. Over the next six months we hope to organize each stream of research into a cohesive article that elegantly describes how each thread interacts to support naturalistic speech perception.

Katelyn Mooney, Physiology & Neurobiology

Current Research: Currently I am working on investigating the effectiveness of the ketogenic metabolite beta-hydroxybutyrate (BHB) at mediating the effects of traumatic brain injury in Drosophila melanogaster. Traumatic brain injury (TBI) is induced by concussive head trauma which is commonly seen in contact sports like football, rugby, and soccer. TBI is induced in D. melanogaster by a high- impact trauma (HIT) device, commonly referred to as the “fly banger.” The ketogenic diet (KD) is a low carbohydrate and high fat diet that has been successfully used as a therapy for individuals with seizure disorders like epilepsy. Our research aims to test the effectiveness of the KD at treating the effects of TBI on D. melanogaster, particularly male-male aggression and reduced learning. Due to the KD being difficult to implement in model organisms, it will be simulated by adding the metabolite BHB to standard food formula. BHB is present in two enantiomeric forms, S-beta-hydroxybutyrate and R-beta- hydroxybutyrate. Currently, my research is working to understand which form of BHB is most effective at alleviating post-TBI symptoms. In the past we have been successful at reducing male aggression and improving learned behavior following TBI by supplementing food with racemic BHB, so this research aims to micro analyze whether or not a specific enantiomer (R or S) is required and at what levels, to be most effective.

Undergraduate Research Award Recipients 2020-2021

The Undergraduate Research Supply Award provides students with funds that they can use toward supplies and other expenses associated with an ongoing independent research project. The Undergraduate Summer Research Award provides funds for students to conduct independent research during the summer session.

Fall 2020 and Spring 2021

Research Supply Award Recipients

  • Audra Logan – Advisor: Umay Suanda
  • Julia Levin – Advisor: Etan Markus
  • Siddhe Patel – Advisor: Etan Markus
  • Murphy Kenny – Advisor: Linnaea Ostroff

Summer 2020

Summer Research Award Recipients

  • Kerry Morgan – Advisor: James Li
  • Veronica Eskander – Advisor: Anastasios Tzingounis
  • Matthew Phillips – Advisor: Emily Myers

Seed Grant Recipients 2019-2020

IBACS Seed Grants provide funding for collaborative research projects across the brain and cognitive sciences. Seed Grants also support applications for equipment, research workshops, events, and other activities compatible with the mission of the Institute.

2019-2020 Recipients

Learn about the PIs and projects that received IBACS Seed Grants this year.

Ed Large, Psychological Sciences

Title of Project: Teaching a neural network to dance

Performing and responding to music involves remarkable feats of coordination. In contexts ranging from rock concerts to classical ballet, musicians, dancers, and listeners synchronize in time, matching their actions with high accuracy. We have developed a system of wearable sensors will provide a new means of collecting detailed measurements of the timing of dance and music in a variety of performance contexts. We will measure Bulgarian folk dance and music because they are especially complex.
In this project, we will teach a neural network to associate dance movements with musical rhythms. The model will be trained with data collected from Bulgarian dancers, and will be used to make predictions about coordination of complex sounds and complex movements.

 Marie Coppola, Inge-Marie Eigsti & Kristin Walker, Psychological Sciences

Title of Project: Adapting the Autism Diagnostic Observation Schedule (ADOS-2) to assess Deaf individuals who use American Sign Language (ASL)

The Autism Diagnosis Observation Schedule (ADOS-2) is the gold standard for identifying autism. No such instrument currently exists for deaf people who use American Sign Language (ASL). Our team, composed of Deaf and hearing researchers and clinicians, will adapt and translate the ADOS-2 to be used with Deaf ASL users. Our results will support an external grant application to validate this instrument and to better understand the impact of language deprivation on autism diagnosis.

Sandra Villata, Psychological Sciences & Linguistics 

Title of Project: An empirical investigation of non-categorical, gradient effects in language

Theories of grammar are categorical — sentences are grammatical or ungrammatical. There is a converging set of results, however, revealing that ungrammatical sentences exhibit gradient acceptability. At the empirical level, this project aims to expand the data types to probe gradience; at the theoretical level, it probes fundamental questions concerning the nature of the mind (categorical or gradient?) through the angle of one of the most tractable high-level cognition systems, natural language.

 Eric Levine, Neuroscience

Title of Project: Effects of a common BDNF gene variant in mouse and human neurons

Significant differences in cognitive abilities among humans exist, partly due to genetic variations that may modulate aspects of synaptic plasticity. Of particular interest is a relatively common variant in the gene for BDNF, a brain growth factor that plays a key role in learning and memory. We will explore the effects of this BDNF variant on synaptic signaling in both mouse and human neurons and explore its contribution to the cognitive impairment in Alzheimer's disease.

Adrian Garcia-Sierra, Speech, Language & Hearing Sciences

Title of Project: Interaction between sentence context and bilingualism in sentence processing

We want to know if knowing two languages, and therefore two grammars, facilitates the processing of grammatical errors with respect to the preceding sentence context. By measuring brain activity to study this interaction between languages, we aim to uncover language processing patterns that are unique to bilinguals that can be used to distinguish from those patterns unique to language disorders.

Sharon Casavant, Nursing

Title of Project: Predicting Neurodevelopmental Outcomes of Preterm Infants Using Genetic Measures

Preterm infants undergo numerous stressful/painful procedures while hospitalized in the Neonatal Intensive Care Unit (NICU) as part of routine lifesaving care. This study examines the genetic changes that occur as a result of these procedures and whether it influences neurodevelopmental outcomes.

 

Summer Graduate Fellows 2020

IBACS Summer Graduate Fellowships provide three months of research funding to graduate students working on topics with relevance to the brain and cognitive sciences.

2020 Fellowship Recipients

Jeffrey Crawford, Psychological Sciences

Current Research: I'm interested in understanding the neural underpinnings of deficits in different domains of cognition in clinical disorders. Specifically, I want to research how sensory perception is integrated by our mind and how that perception can be altered by interference from external and internal stimuli. I am hopeful that this research can lead to the identification of biomarkers that can help better identify disorders such as schizophrenia and autism.

Ashley Parker, Speech, Language, and Hearing Sciences

Current Research: Ashley is a Ph.D. student in the Department of Speech, Language, and Hearing Sciences working with Dr. Erika Skoe. Her research examines biological indices of auditory function, primarily using electrophysiological and blood-based measures. Her current research project examines an inner-ear protein, prestin, as a biomarker of cochlear function across the lifespan.

Delaina Pedrick, Biomedical Engineering

Current Research: I recently presented an auditory model I designed of sound mixtures containing speech plus a variety of competing background sounds at the 2019 Advances and Perspectives in Auditory Neuroscience meeting and the 2019 Society for Neuroscience international meeting. The model quantifies the amount of distortion in sound mixtures created by the background noise and can thus be used as a metric of the amount of masking for each background. The contributions from the sounds’ spectrum and amplitude modulation have been considered separately to show that different backgrounds have highly varied masking potential trends despite having identical input SNRs. It also demonstrates that the amount and type of masking depends strongly on the model responses or sound feature being measured (e.g., spectrum vs. modulation). Additionally, I was able to present preliminary electrophysiology data from the Inferior Colliculus (IC) in response to signal in noise sound mixtures motivated by my model. These conferences allowed me to showcase my research and challenged me to present and interpret the results for audiences that ranged from experts in the field to those from entirely unrelated disciplines. With the support of the IBACS I intend to continue to research how the brain encodes sound in the IC as well as the Auditory Cortex and to model the signal transformations that occur naturally in noisy environments in these areas of the brain.

Madeline Quam, Psychological Sciences

Current Research:

As part of Dr. Coppola’s Study of Language and Math, I am investigating the impact of language exposure on non-linguistic representations of exact quantities. In the “Mr. E” task, X balls are dropped into a large elephant toy; either X or X-1 balls exit via his trunk. The child must answer if any balls remain inside. The task is non-verbal since children do not need to count, but instructions and responses require language. The literature holds that performance on non-verbal tasks, in this case, tracking quantities up to 3, does not depend on language. Language exposure for many deaf children begins later, regardless if spoken or signed. Thus, we should not expect differences between deaf and hearing children whose language input begins at birth (Early Language) and for deaf children whose input begins later in development (Later Language). However, preliminary data show that Later Language groups performed worse, even on small quantities. Early Language groups performed similarly independent of language modality.

I will first look at practice trials to ensure that only those who understood the task are included in the analyses. Then I will analyze performance on small quantity trials (2 and 3) to see if success is associated with timing of language exposure.

This research links the fields of language development, cognitive development, and education. These findings are important to scholars as well as the Deaf community with regard to education and language deprivation.

Gianna Raimondi, Physiology and Neurobiology

Current Research: As we have established foundational methodology for tracking the estrous cycle and optimized conditions for inclusion of female subjects, we will explore sexual dimorphisms of fear memory with circuit and synaptic focuses, and add a layer of complexity by understanding shifts in female circuitry over the reproductive cycle. Human imaging studies show differences in amygdala activation between men and women when exposed to emotional stimuli. We will investigate how sex differences may contribute to variations in fear and anxiety circuitry and bridge the interdisciplinary gap between behavioral neuroscience and molecular studies. An interesting hypothesis in sex differences literature claims that the function of sexual dimorphisms on a circuit level exist to converge behavior of males and females into similar outputs. These similarities initially led researchers to believe that behavioral similarities indicate no differences in circuitry, yet we may expect sex differences in the susceptibility to cellular and molecular perturbation as a compensation mechanism. We will study sexual dimorphisms in fear behavior and circuitry, and engage in a robust analysis of these changes, including but not limited to: changes in spine density, diversity of synapse morphology, and changes in gene and protein expression in the amygdala. This will establish a solid foundation of preliminary data to support our applications for external funding.

Skyler Sklenarik, Psychological Sciences

Current Research: My current research aims to explore physiological correlates of approach tendencies and their associations with approach bias scores on an AAT. Currently, we are collecting galvanic skin response measures from male pornography users as they view erotic and neutral images that automatically move toward (approach) or away from (avoid) the participant based on image orientation (i.e., no joystick is used). We also ask participants to complete the erotic-AAT and to respond to pornography use measures. Previously, we demonstrated that erotic approach bias is significantly positively associated with pornography use severity (Sklenarik et al., 2019). Our current research aims to determine whether physiological responses can predict approach biases for erotic stimuli and pornography use severity. Examining these physiological indices provides a unique convergence of the cognitive and physiological components of addiction, which are typically studied separately. We also plan to examine approach biases for addictive substances, including opiates and caffeine, in order to compare the roles that cognitive biases play in behavioral and substance addictions. Importantly, my current research has provided the groundwork for future studies targeting the manipulation of approach biases in order to reduce problematic behaviors. Interventions that aim to reverse approach biases for addictive stimuli could inform treatments based on the modification of maladaptive cognitive processes.

Amanda Wadams, Speech, Language, and Hearing Sciences

Current Research: During the Spring 2020 semester, I will complete the analysis of the pilot data. I aim to identify what constitutes a metacognitive impairment based on the results of typical functioning of the control population. I will then determine 1) The degree to which metacognitive impairments are present in PWA 2) Whether metacognitive impairments are related to aphasia severity, aphasia type or the lesion location. We intend to publish these findings in early 2020. In addition, I will be completing a systematic review of metacognitive treatment in people with acquired brain injury, also to be submitted for publication in 2020. The goal of the review is to identify which metacognitive treatments have been found to be effective in the treatment of cognitive and language impairments thus far. We will use this review as a foundation upon which to base planned work on the application of metacognitive treatment for PWA. I am a SLAC trainee and in order to expand my technical skill set and to fulfill the SLAC and IBACS mission of of interdisciplinary collaboration, I have begun a new study in collaboration with Jon Sprouse in the Department of Linguistics. We will be using EEG to determine the relationship of working memory to language in PWA. In my dissertation I intend to bring together the elements learned from the systematic review, the study of metacognition in PWA and NBI, and the EEG study with a goal of making a comprehensive case for the use of metacognitive training for PWA.

Katherine Zavez, Statistics

Current Research: The objective of my dissertation is to develop new theoretical and computational frameworks for dealing with incomplete data in functional data analysis (FDA). In general, functional data are data that are collected continuously or intermittently over a continuum (e.g., EEG, MRI, and sound levels), and are analyzed using FDA. A functional variable (for use in a model) can be constructed by fitting a curve to a set of densely sampled observations over time, space, etc. However, in FDA, complete data are required to estimate model parameters and if data are incomplete, the current default is to exclude incomplete cases from analysis. Consequently, this reduces sample size and may impact the representativeness, which have been shown in the scalar case to lead to inefficient and biased estimates. Incompleteness in functional data is an extensive problem that includes missing scalars, completely missing functions, and incomplete functions. While techniques have been developed to impute missing values in scalar data sets, little has been done theoretically by statisticians to address these problems in functional data sets. My goal is to develop statistical methods for handling incomplete functional data, which researchers across disciplines could apply to various functional data structures to allow them to study topics, questions, and populations that would have otherwise been excluded from research.

Undergraduate Research Award Recipients 2019-2020

The Undergraduate Research Supply Award provides students with funds that they can use toward supplies and other expenses associated with an ongoing independent research project. The Undergraduate Summer Research Award provides funds for students to conduct independent research during the summer session.

Fall 2019 and Spring 2020

Research Supply Award Recipients

  • Cheyenne Harris-Starling – Advisor: Eiling Yee
  • Caroline Hebert – Advisor: Marie Coppola
  • Qingli Hu – Advisor: Etan Markus
  • Joel Lopez – Advisor: Gregory Sartor
  • Akriti Mishra – Advisor: Marie Coppola
  • Murphy Kenny – Advisor: Linnaea Ostroff
  • Natalie Nanez – Advisor: Geoff Tanner
  • Areej Sayeed – Advisor: Robert Astur
  • Aditi Anam – Advisor: Etan Markus
  • Alexis Cleri – Advisor: Marie Coppola
  • Samantha Grubb – Advisor: James Magnuson
  • Derek Pan – Advisor: Joanne Conover/li>
  • Grace Roy – Advisor: Gerry Altmann
  • Aditi Sirsikar – Advisor: Inge-Marie Eigsti

Summer 2019

Summer Research Award Recipients

  • Maxime Braun – Advisor: John Salamone
  • Kirantheja Daggula – Advisor: Holly Fitch
  • Jairo Orea – Advisor: Linnaea Ostroff

Seed Grant Recipients 2018-2019

IBACS Seed Grants provide funding for collaborative research projects across the brain and cognitive sciences. Seed Grants also support applications for equipment, research workshops, events, and other activities compatible with the mission of the Institute.

2018-2019 Recipients

Learn about the PIs and projects that received IBACS Seed Grants this year.

James Dixon, Psychological Sciences

Title of Project: Artificial neural network controller for the postural balance of a compliant simulated bot

Postural balance in humans is essentially unstable, thus requiring active and anticipatory compensation from the nervous system that depends on reliable perception. This project presents an artificial neural network that anticipates and controls the state of a simulated bot made of rods and springs by sensing and adjusting the length of the springs. The network can adapt up to a certain point to intrinsic noise and degradation in the quality of the available information.

James Li, Genetics & Genome Sciences

Title of Project: Roles of Foxp1 and Foxp2 in the development and function of the cerebellum

The cerebellum is well known for its roles in motor functions. However, emerging evidence suggests that the cerebellum also plays an important role in non-motor functions such as cognition, emotion, and language. This project will evaluate roles of transcription factors Foxp1 and Foxp2 in cerebellar development, and behavioral changes in mice with cerebellum-specific deletion of Foxp1 and Foxp2.

 

James Magnuson, Psychological Sciences 

Title of Project: Interactive activation and the neural basis of spoken language processing

Our team will use neuroimaging to test predictions from two theories of human speech recognition. One, "interactive activation", proposes that word knowledge guides speech perception by sending excitatory top-down feedback from neural regions specialized for words to regions specialized for phonemes. another, "predictive coding", proposes that word regions send inhibitory feedback to phoneme regions. The actual neural organization has implications for language processing in aging. Our results will support an external grant application on aging.

Alexandra Paxton, Psychological Sciences 

Title of Project:  Dyadic coupling in simulated firefighter search-and-rescue tasks

Firefighters face incredibly complex navigational challenges as they search for victims in low-light conditions, high ambient noise, and unforgiving time constraints. Firefighters generally work in pairs to balance the time pressure of finding victims with care for the firefighters' own safety: If a firefighter is injured, the search for victims must stop until that firefighter is rescued. Under such extreme situational pressures, how do these firefighter dyads become an effective "person-rescuing" system? Studying this important real-world setting provides a unique opportunity to improve firefighting practice and expand the science of interpersonal dynamics. Little is known about how dyads jointly navigate a complex space, especially when their “coupling” is constrained. In this project, we bring together a multidisciplinary team to study how interpersonal coupling shapes the dyad’s effectiveness and evolution as a new system over time by studying both undergraduate dyads and real firefighting teams.

Devin Kearns, Educational Psychology 

Title of Project: Neuromodulation for Reading Improvement (NeuRI)

Reading disorder (RD) is a neurodevelopmental disorder that is challenging to remediate through behavioral intervention alone. This project will evaluate whether transcranial direct current stimulation (tDCS)—a safe, non-invasive method of briefly altering brain activity—can increase the efficacy of behavioral reading training. Uniquely, we are using high density tDCS to precisely target reading pathways and test the specificity of tDCS for different aspects of reading.

Geoffrey Tanner, Physiology & Neurobiology

Title of Project:  Understanding the molecular and cellular underpinnings of elevated aggression following traumatic brain injury (TBI).

Traumatic brain injury (TBI) is pervasive in contact-sport athletes, military personnel, and accident victims. The genetic and cellular-level links between TBI and subsequent cognitive-behavioral changes such as elevated aggression and learning deficits is not clearly understood. We seek to elucidate these connections using a Drosophila model wherein we apply dietary interventions to improve behavioral abnormalities following TBI. In so doing, we expect further to understand how metabolism may affect neuronal survival and function, and thus, disease outcomes.

James Chrobak, Psychological Sciences

Title of Project: Audio synchronization of intrinsic brain oscillations to augment perception and memory.

Perception of speech and other sound sequences depends on the dynamic interplay between a subject’s intrinsic brain oscillations and the time-varying nature of the sensory input. This project uses brain-computer-interface to determine the time-scales for synchronizing brain activity in order to augment perception and memory of dynamic vocalization sequences.

Corina Goodwin, Linguistics

Title of Project: Developing Alternative Language Assessments for Children with Diverse Language Backgrounds

Children with cochlear implants often hear no language during the first several months or years of their lives. Existing standardized language tests were designed for hearing children exposed to language from birth. Therefore, these tests cannot identify language disorders in children with delayed language exposure. We are adapting assessments originally created by cognitive and developmental psychologists to identify the most appropriate interventions for children with cochlear implants, depending on the presence of a language disorder.   

Summer Graduate Fellows 2019

IBACS Summer Graduate Fellowships provide three months of research funding to graduate students working on topics with relevance to the brain and cognitive sciences.

2019 Fellowship Recipients

Megan Chiovaro, Psychological Sciences

Current Research: As a trained beekeeper, I have accumulated an in-depth knowledge of invertebrate social dynamics. Having recently delved into the field of collective intelligence, I see striking parallels between social insects and humans. In my short time here I have become familiar with current work applying models of their behaviors to other fields, such as neuroscience and engineering. With the help of my graduate advisor, Alex Paxton, I am preparing a submission for the 2019 International Conference of Perception and Action (ICPA). We are working to create a symposium on collective behavior and are planning a talk to bridge psychology and ecology, beginning with collective intelligence in honeybees. After submission, I plan to focus on collective behavior as a dynamical system, paying special attention to the individual processes that lead to emergent group-level behavior. I hope to inform the literature of underlying laws and social dynamics that enable their impeccable ability to create emergent whole-hive actions. I am particularly interested in modeling nest-site selection, in which bees must identify suitable hive locations and attempt to convince the rest of the hive to choose it over other sites. Previous research has already established parallels between this phenomena and human neural decision-making processes (Visscher, 2007; Passino et al., 2008). My strong interdisciplinary background in mathematics, dynamics, and ecology will be a great asset for these fields and for IBaCS.

Lana Delasanta, Psychological Sciences

Current Research: The goal of the IBACS Summer Fellowship proposal is to determine the functional neuroanatomical basis of the Neural Resonance Theory (NRT) dynamical systems model by identifying the brain regions involved in neural entrainment to acoustic rhythms. Wasserman et al. (in prep) were able to uncover clear evidence of entrainment of neural oscillations to musical rhythms. Using a model based on the NRT, which consists of two oscillatory neural networks that are predicted to be located in sensory and motor planning brain regions, they demonstrated that model sensory and motor networks together can explain a significant proportion of the variance observed in the collected EEG responses. This experiment utilized 32-channel EEG, however, so the true origins of the EEG responses cannot be identified. My research is extending this paradigm to use 256-channel EEG together with structural MRI scans to localize the sources of activity, testing the functional neuroanatomy of the NRT. Subjects will come into the lab and listen to complex (and simple and randomized controls) rhythms while EEG is recorded and then tap along once they find a steady pulse. Using inverse current models, I expect to show that both motor and auditory regions of the brain become entrained, and that source activity within these regions is predicted by the NRT model. The results of this project will provide pilot data for the resubmission of an R01 grant by Drs. Hancock, Large, and Chen, as well as my NRSA application.

Eleanor Fisk, Human Development & Family Sciences

Current Research: During my first year as a doctoral student in the HDFS department, I have been working with Dr. Caitlin Lombardi exploring topics related to the development of cognitive and behavioral skills over early childhood and the role of children’s early care and education (ECE) experiences. In one project, we are examining how children’s ECE experiences influence the economic and psychological functioning of parents. A large body of existing literature has documented beneficial associations between ECE and children’s development, but links between ECE and parental well-being have received much less attention. Theoretical perspectives suggest that ECE settings that are developmentally supportive and stimulating for children may have significant implications for parents, in terms of employment quality, mental health, stress, and anxiety. Our goal here is to understand how these contextual aspects of children’s early developmental environments may benefit parents in ways that indirectly influence children’s development. This work has been submitted to be presented at the Society for Research on Child Development’s Biennial Meeting in March.

The findings from this work, along with the supervision and collaboration with Dr. Lombardi, who is trained in understanding influences in children’s school readiness skills, will provide a background for this fellowship in which I hope to explore the interconnections between the development of behavioral and cognitive skills over early childhood.

Phillip Frazier, Psychological Sciences

Current Research: My research extends the concept of self-organization to the dynamics of goal-directed action. My question is this: How do organisms assemble their degrees of freedom (DOF) to jointly satisfy goal and task constraints. In one set of studies, I presented students with repeating sequences of L and R arrows, and they responded by pressing the matching key. There are two ways to realize the goal "press matching key": 1) wait for the arrow and then respond; or 2) learn the sequence and respond in anticipation of the arrow. When both options are available, we have a case of "bi-stability," where students switch between modes. Increasing the sequence length makes the first more attractive; decreasing it makes the second more attractive. From the self-organization perspective, the two modes are attractors, and we should see signatures of metastability and criticality in the resulting RT time series. Using the well-established Hurst exponent (H), we can predict changes in long-range correlations and fractal structure. My research has confirmed the above stated hypotheses: on average, the shorter the sequence of L and R arrows, the higher the H. This suggests that goal directedness involves the setting up of attractors which recruit appropriate DOF. My research crosses traditional boundaries by grounding inquiry in self-organization, using tools from statistical physics and dynamical systems, and integrating questions about goals and intentionality with those from movement science.

Cara Hardy, Neuroscience/Center on Aging

Current Research:My work lies at the intersection of neuroscience, aging, and urinary physiology. In animal models, we study the brain-bladder axis in the context of aging to determine if the urinary dysfunction often seen in aged populations is a result of central nervous system failures, failures in the bladder tissue, or a combination of both. Our results are supportive of a new model of urinary dysfunction in which the brain, not the bladder, may be the primary culprit of age-related dysfunction. We will now leverage this new understanding to investigate urinary dysfunction in Alzheimer’s disease (AD), long presumed to be the result of cognitive dysfunction. Since our findings point to urinary dysfunction being a systemic problem, we hypothesize an AD bladder structural and functional phenotype. This will be my primary work over the next few years as I complete my PhD training. The overlap of molecular investigations in neurodegeneration, bladder physiology, and cognitive neuroscience will provide with an optimal platform from which to launch an interdisciplinary academic research career.

Julianna Herman, Physiology & Neurobiology

Current Research: During my first semester, I began to investigate the effects of in utero neuraminidase injection (intraventricular) on the ependymal lining of the lateral ventricle. Neuraminidase is a major component of the influenza virus that causes loss of ependymal cells. It cleaves the glycosidic linkages binding ependymal cells at the ventricle surface, potentially leading to developmental complications such as hydrocephalus in neonatal mice. To study this further, I will perform intraventricular injection of mouse-adapted influenza virus via in utero injection. With collaboration from Dr. Paulo Verardi’s virology lab in the Department of Pathobiology, neuraminidase and influenza injections will be compared to parse component effects of infection. The brains of affected mice will be assessed following coronal sectioning and analysis of brain tissue using immunohistochemistry in combination with detailed confocal microscopy to identify cellular damage. Simultaneously, I will perform influenza injections into the placenta of mice to more accurately simulate fetal exposure to influenza. This will help to determine how embryonic exposure to mouse-adapted influenza virus impacts brain development of embryonic mice during a mother’s illness, specifically through the interference with the ependyma and stem cell niche at the ventricular surface. Receiving the 2018 IBACS Graduate Fellowship would support my research efforts and help to make my NIH F31 application competitive.

Derek Lee, Physiology & Neurobiology

Current Research: In a Drosophila model of traumatic brain injury (TBI), we mimic administration of the putatively neuroprotective high-fat, low-carbohydrate ketogenic diet (KD) via direct addition of ketone bodies (KBs) to standard high-carbohydrate fly diets. Our initial experiments have shown that KB supplementation exerts significant amelioration of negative behavioral outcomes subsequent to TBI. Specifically, flies subjected to TBI show reduced aggression and improved performance on learning tasks when fed KB-supplemented diets, as compared with Drosophila fed a standard diet. These results suggest that previously-reported neuroprotective properties of an actual KD may be due to the presence of KBs, regardless of carbohydrate concentration. Additionally, we found no difference in basal fly motility under any dietary or head-trauma condition, suggesting that observed behavioral effects may operate through neuroprotection of behaviorally-specific neurocircuitry, as opposed to general lethargy.

KBs are thought to work in part through opening KATP channels (Ma et al., 2007; Tanner et al., 2011), a class of metabolically-sensitive hyperpolarizing (inhibiting) ion channels. We added a KATP blocker and opener (tolbutamide and diazoxide, respectively) to KB-supplemented food. We observed that Drosophila treated with diazoxide exhibit very similar patterns of aggression as those fed with the ketone body supplementation; addition of tolbutamide blocks KB effects, highlighting KATP channel's role.

Amanda Mankovich, Psychological Sciences

Current Research:During the Spring 2019 semester I will take a novel approach to Dr. Naigles’ Longitudinal Study of Early Language by evaluating the relationship between exploratory play and language. Previously, these videos were coded for language profiles and joint attention episodes. In collaboration with Drs. Naigles and Sheya, I will study what the child and parent are actually doing with their verbal and manual attention during joint attention episodes. The purpose of this project is to explore whether children who engage in more sophisticated types of object play acquire words more quickly. This is potentially evident in comprehension measures (i.e., degree of shape bias) as well as production measures (spontaneous speech, checklist data). And crucially, to what degree is emerging object play a function of the parental input elicited during the play? The data consists of 40 video recorded sessions of mom-child dyads engaged in 30 minutes of free and structured play. Participants include children with autism spectrum disorder and initially language-matched neurotypical children. To evaluate relationships between parent-child lexical organization and sensory-motor behaviors, I will code moment-to-moment parent-child actions on objects, attention and language. Our analysis merges language and social coordination research by comparing temporal sequences of the exploration data to concurrent and subsequent language profiles and joint attention episodes.

Hannah Morrow, Psychological Sciences

Current Research: Much of my work at UConn has focused on how we acquire and use conceptual knowledge. Concepts are integral to almost every aspect of our lives; for almost any task, one needs an understanding of an object, an emotion, a person, or various other "things" that make up our conceptual knowledge. This topic stands at the intersection of developmental, psycholinguistic, clinical, cognitive, and neuroscience research. For example, I am running an EEG experiment looking into the neural dynamics of integrating visual, auditory, and lexical information into a single concept. This cognitive neuroscience project has implications in developmental and clinical domains, as individuals with autism spectrum disorder and schizophrenia both struggle with sensory integration, which can impede processes like speech perception, learning, etc. I am also leading a project on the effects of transcranial direct current stimulation (tDCS) on cognitive control, with the aim of understanding how different regions of the brain participate in selectively attending to relevant information about a concept in order to achieve a goal. Additionally, I have been involved in an external collaboration with Gary Lupyan at the University of Wisconsin-Madison on how linguistic elements of labels influence how we name objects. This is a project rooted in psycholinguistics, with developmental implications for how we learn and name objects.

Briana Oshiro, Mathematics

Current Research: My research uses interdisciplinary methods and theory from mathematics, education, and cognitive neuroscience to develop applied approaches to teaching problem-solving skills. Recently, applying problem-solving research to the education of children and adults has become increasingly relevant. Improving children’s problem-solving skills is one goal in the Common Core Mathematics Standards, and both the international assessments PIAAC and PISA contain a dedicated problem-solving section on their tests (1, 2, 3). However, only recently have neuroimaging methods been applied to problem-solving research, and my study seeks to integrate these methods with the theories in existing problem-solving literature.

Specifically, my research focuses on the mathematical problem-solving of expert mathematicians and differentiating the neurocognitive bases of heuristics and problem-solving techniques using fMRI methods. Further studies can then evaluate educational methods by measuring the change between subjects’ brain activation patterns and that of the expert models.

1. National Governors Association Center for Best Practices, Council of Chief State School Officers. Mathematics Standards. Common Core State Standards (National Governors Association Center for Best Practices, 2010).
2. OECD. The Survey of Adult Skills: Reader’s Companion, Second Edition. (OECD Publishing, 2016).
3. OECD. PISA 2015 Results (Volume V): Collaborative Problem Solving. (OECD Publishing, 2017).

Robert Pijewski, Neuroscience

Current Research: My current research at UConn Health is elucidating the bioenergetic function of neural progenitor cells derived from patients with multiple sclerosis. More specifically, I am identifying salient characteristics of mitochondrial morphology and function as a way to identify causes of downstream glial pathology. The objective of my work is to understand how disease-related changes in cellular metabolism lead to glial pathology in the CNS. I will use MS patient-derived iPS cells, differentiate these into neural progenitor cells and study the how perturbed metabolism in these NPCs affects glia differentiation. My current work is to explore findings our lab has recently reported that patient iPS-derived cells fundamentally differ from age-matched controls..

Over the next six months, I am refining the experimental methods to isolate and study mitochondria from these patient-derived cells. Mitochondria have become a focus in our lab because previous research has shown that NPCs from MS patients exhibit a unique cellular aging phenotype called cellular senescence. My research proposal is aimed to characterize the morphological, functional, and genetic differences in mitochondria from patient-derived NPCs.

Kasey Smith, Psychological Sciences

Current Research: In the next 6 months, I will collaborate on an interdisciplinary project with advisors James Chrobak, Heather Read, and Monty Escabi to examine and unify theories of vocalization sequence perception and short-term memory. My first goal is to complete and submit our current study to J Neuroscience. In Jan. 2019, we will begin a study examining discrimination of species-specific vocalization sequences. Markus Wohr (Seffer et al., 2014) found rats classify prosocial and pup calls, but these studies have not determined brain mechanisms, perceptual resolution, or short-term memory dependence for this ability. We will train rats and quantify how perceptual discrimination varies with timing and number of vocalizations in a sequence. The Brain Computer Interface (BCI) core will calibrate, deliver and monitor the vocalizations which are inaudible to humans. Starting in May, we will implant intracranial μECoG arrays in trained rats on an IACUC protocol (Escabi, Read et al., 2014). The BCI core can record 300 channels from the arrays in awake-behaving rats (Insanally et al., J Neural Eng 2016). We will record sound-evoked potentials to examine the hypothesis that categorical perception of vocalization sequences varies with alignment with intrinsic brain oscillations and onset of sounds. I will submit the study to the Association for Research in Otolaryngology 2019 conference (aro.org) and will use the pilot data to apply for a federal pre-doctoral National Research Service Award.

Preeti Srinivasan, Communication

Current Research: I am investigating attentional patterns via eye-tracking to test how news stimuli presented using three different formats (text, video, video with text) on social media differ and whether this can affect learning outcomes. I am also examining the effects of cognitive processes such as elaboration (using a thought-listing task), engagement (willingness and actual engagement), and need for cognition, on learning (recognition and recall). The study uses a mixed methods approach wherein participants first answer questions about their general social media news consumption, and then engage with one of six news stories [2(story type: Science, Health) X 2(presentation: text, video, video with text)]. Participants will then be shown a video clip of their attentional patterns and asked to reflect on their experience (qualitative interviews). In line with past literature, we anticipate that mode of presentation will affect attention such that text (text only and text in the video with text condition) elicits greater attention than videos and graphics. Using principles from traditional Cognitive Science and Human-Computer interaction, the study seeks to answer the research question on how modality affects learning outcomes. Further, we intend to tease apart differences between intentions and actual engagement, using the qualitative interviews. This experiment should help us shed light on attentional processes and their impacts on various stages of information processing.

Vivi Tecoulesco, Psychological Sciences

Current Research: Next semester I will collecting ABR pilot data for an NSF grant submission by Emily Myers and Erika Skoe. I am again doing cross-disciplinary work with SLHS now investigating categorical perception. I will also be collecting data for a project examining the relationship between ABR specificity and semantics in adults. This is an investigation of the degree to which early neural encoding of speech by the brainstem has a cascading effect on phonology and lexical semantics. I will be recording ABRs to three speech sounds (/da/, /ba/, and /ga/) and analyzing how specific the responses are for the three sounds, that is how distinctly the brainstem encodes these three sounds, and how much the neural encoding of these sounds overlaps. Individual differences in ABR specificity will then be related to phonological discrimination ability and vocabulary size. I will also be designing and producing the stimuli and test measures for my F31submission (see below) which will also be my dissertation project. I would like to start collecting pilot data in the summer. Smaller projects I am working on include studying morphological skills in children with ASD via a Wug test, and analyzing the spectral content of ABRs to speech sounds in children with ASD. My work attempts to cross boundaries by bringing the gap between the earliest neural encoding of speech and higher order language outcomes.

Jen-Hau Yang, Psychological Sciences

Current Research:Using the established mouse touchscreen paradigm, I will be investigating the role of the vesicular monoamine transport 2 (VMAT-2) gene in motivated behavior. VMAT-2 is a crucial protein that transports monoamines, especially DA, into synaptic vesicles. Previous studies from our lab have shown that rats treated with VMAT-2 inhibitor tetrabenazine (TBZ) showed a low-effort bias. Specifically, they shift their preference from lever-pressing for preferred food pellets to eating less preferred but concurrently available lab chow. The current project aims to examine the effects of TBZ on well-trained C57/BL6 mice performing touchscreen effort-related choice paradigm. Additionally, genetically altered mice with higher or lower VMAT-2 gene expression will be tested on various ratio requirements (the number of PPs needed for preferred milkshake reward). It is hypothesized that a motivational impairment will be induced by TBZ, and also will be seen in mice with lower VMAT-2 expression, particularly when the work requirement of the schedule is high. In other words, mice with limited VMAT-2 activity will show a shift in preference from PP to PI compared with vehicle treated or wild-type mice, respectively. This project may have significance for cross-species validation and translational research. More importantly, by combining pharmacological and genetic studies, our work sheds light on the relation between cognitive sciences and the neural basis of motivational pathologies.

Yuan Zhang, Human Development & Family Sciences

Current Research: Currently, I am working on applying developmental frameworks: Family Stress Theory and Process Model of Parenting to explore how acculturative stress and parent-child acculturation gaps affect the behavioral and cognitive development of adolescents in Asian immigrant families. Under the supervision of Dr. Linda Halgunseth, I am working on the literature review of Asian parents’ parental behavior, cultural childrearing beliefs, and parental stress, and their associations with the use of hostile parenting. I am also in the progress of conducting a meta-analysis on immigrant parents’ acculturative stress and its influence on adolescents’ developmental outcomes. In addition, I am utilizing hierarchical linear modeling to analyze longitudinal data from the Early Childhood Longitudinal Study (ECLS-K) to explore the influence of parent-child interactions on the developmental trajectories (growth curve) of Asian adolescents’ academic performance under the guidance of Dr. Eric Loken. Extending upon this HLM project, I am also using a structural equation model (SEM) to see if the frequency of parent-child interactions and adolescent self-esteem changes over time. Most recently, I am in the beginning stages of analyzing a dataset from a nation-wide longitudinal study on The Adolescent Brain Cognitive Development (ABCD). Using ABDC data, I am interested in examining the developmental consequences of Asian parents’ acculturation stress using HLM and structural equation model (SEM).

Undergraduate Research Award Recipients 2018-2019

The Undergraduate Research Supply Award provides students with funds that they can use toward supplies and other expenses associated with an ongoing independent research project. The Undergraduate Summer Research Award provides funds for students to conduct independent research during the summer session.

Fall 2018 and Spring 2019

Research Supply Award Recipients

  • Kirantheja Daggula – Advisor: Holly Fitch
  • Jason Gallo – Advisor: John Salamone
  • Amar Kalaria – Advisor: Joanne Conover
  • Timothy O’Toole – Advisor: Geoffrey Tanner
  • Lily Zhong – Advisor: Alexander Jackson
  • Christina Deoss – Advisor: Marie Coppola
  • Corine Sylvain – Advisor: Marie Coppola
  • James Frageau – Advisor: Geoffrey Tanner
  • Caroline Hebert – Advisor: Marie Coppola
  • Elliott Willion – Advisor: James Li
  • Arsal Shah – Advisor: John Salamone
  • Olivia Dimarco – Advisor: John Salamone

Summer 2018

Summer Research Award Recipients

  • Rohit Makol – Advisor: David Martinelli
  • Skylar Sklenarik – Advisor: Robert Astur
  • Krishna Vali – Advisor: Geoffrey Tanner