Biological Basis of Behavior (BIBB)

BIBB 030 Neurobiology of Brain Disorders

The human brain is clearly the most complicated and magical organ in the body. We don't completely understand how it works, but we do know, unfortunately, fora variety of reasons, the human brain is prone to failure, either by acute injury, chronic degeneration, genetic flaws in its composition, or unknown disturbances in its behavior. Diseases of the brain can take many forms but are all uniformly devastating for individuals, families, and our society, and are also very costly. This course will explore the ways in which various brain disorders (both neurological and psychiatric) manifest themselves and discuss their underlying neurobiological mechanisms. In addition, the social and economic inpact of these diseases in society will be considered, as well as some well publicized political issues surrounding many of these brain disorders.

Taught by: Dichter

Activity: Seminar

1.0 Course Unit

BIBB 050 Forensic Neuroscience

Progress in behavioral neuroscience and brain imaging techniques, such as functional and structural Magnetic Resonance Imaging (MRI) and Positron Emission Tomography (PET) has forced the courts to reconsider the role of behavioral sciences in courtroom decision-making. The goal of this course is to enable students to understand and interpret the use of behaviorial neuro evidence in the justice system. The course will introduce the students to the relevant behavioral neuroscience constructs, principles of brain imaging and rules of scientific evidence. Students will be asked to use this introductory knowledge to critically evaluate the use of brain imaging and other behavioral neuroscience techniques as evidence in representative legal cases. For each case, students will serve as neuroscience experts for the defense or prosecution and prepare, present and defend their testimony against the opposing team. Through this course, students will develop the ability to critically evaluate brain imaging and other neuroscience data in forensic and legal settings.

Taught by: Langleben

Activity: Seminar

1.0 Course Unit

BIBB 060 Music and the Brain

Every human culture that has ever been described makes some form of music. The musics of different cultures cover a wide range of styles, but also display fascinating similarities, and a number of features are shared by even the most disparate musical traditions. Within our own culture, music is inescapable-there are very few individuals who do not listen to some form of music every day and far more who listen to music virtually all day long. Appreciation of music comes very early: newborns prefer music to normal speech and mothers all over the world sing to their babies in a fundamentally similar way. And yet, despite this seeming ubiquity, the real origin and purpose of music remains unknown. Music is obviously related to language, but how? Why do so many cultures make music in such fundamentally similar ways? What goes into the formation of music "taste" and preferences? Does music have survival value, or is it merely "auditory cheesecake", a superfluous byproduct of evolution as some critics have maintained? What is the nature of musical ability and how do musicians differ from non-musicians? In this course, we will look for answers by looking at the brain. Almost 200 years of scientific research into brain mechanisms underlying the production and appreciation of music is beginning to shed light on these and other questions. Although the sciences and the arts are often seen as entirely separate or even in opposition, studying the brain is actually telling us a lot about music, and studying music is telling us just as much about the brain.

Taught by: Kaplan

Activity: Seminar

1.0 Course Unit

BIBB 090 Your Brain on Food

What motivates us to eat? Why do many of us eat even in the absence of hunger? How do our food preferences and habits form? And how can eating transition from regulated to dysregulated? This seminar class investigates these questions and many others, with a focus on how our brains regulate food intake. We will explore the neuroscience behind eating, as well as the genetic, psychological, social, cultural, and societal influences that shape our behavior. Through readings, assignments, and class discussions, we will navigate the biological forces behind normal eating, as well as how eating becomes disordered in diseases like obesity and eating disorders. Through this course, students will learn about behavioral neuroscience research from human and animal studies and will develop critical thinking, reading, and writing skills. There are no prerequisites except for a love of food.

Taught by: Alhadeff

Course usually offered in fall term

Activity: Seminar

1.0 Course Unit

BIBB 109 Introduction to Brain and Behavior

Introduction to the structure and function of the vertebrate nervous system. We begin with the cellular basis of neuronal activities, then discuss the physiological bases of motor control, sensory systems, motivated behaviors, and higher mental processes. This course is intended for students interested in the neurobiology of behavior, ranging from animal behaviors to clinical disorders.

For BA Students: Living World Sector

Taught by: Kane and McLean

One-term course offered either term

Also Offered As: BIOL 109, PSYC 109

Activity: Lecture

1.0 Course Unit

BIBB 159 Memory

This course presents an integrative treatment of the cognitive and neural processes involved in learning and memory, primarily in humans. We will survey the major findings and theories on how the brain gives rise to different kinds of memory, considering evidence from behavioral experiments, neuroscientific experiments, and computational models.

Taught by: Schapiro

Also Offered As: PSYC 159

Activity: Lecture

1.0 Course Unit

BIBB 160 ABCS of Everyday Neuroscience

This course is an opportunity for undergraduates to share their interest and enthusiasm for neuroscience with students in grades 9-12 attending urban public schools in West Philadelphia. The course will allow Penn students to develop their science communication and teaching skills. Students will prepare neuroscience demonstrations, hands-on activities, and assessment tools. In parallel, the course aims to engage local high school students, increasing their interest and knowledge in science, and ultimately promoting lifelong science literacy.

Taught by: Lori Flanagan-Cato

Prerequisite: BIBB 109

Activity: Lecture

1.0 Course Unit

BIBB 217 Visual Neuroscience

An introduction to the scientific study of vision, with an emphasis on the biological substrate and its relation to behavior. Topics will typically include physiological optics, transduction of light, visual thresholds, color vision, anatomy and physiology of the visual pathways, and the cognitive neuroscience of vision.

Taught by: Stocker

Course usually offered in spring term

Also Offered As: PSYC 217, VLST 217

Prerequisite: PSYC 109

Activity: Lecture

1.0 Course Unit

BIBB 227 Physiology of Motivated Behaviors

This course focuses on evaluating the experiments that have sought to establish links between brain structure (the activity of specific brain circuits) and behavioral function (the control of particular motivated and emotional behaviors). Students are exposed to concepts from regulatory physiology, systems neuroscience, pharmacology, and endocrinology and read textbooks as well as original source materials. The course focuses on the following behaviors: feeding, sex, fear, anxiety, the appetite for salt, and food aversion. The course also considers the neurochemical control of responses with an eye towards evaluating the development of drug treatments for: obesity, anorexia/cachexia, vomiting, sexual dysfunction, anxiety disorders, and depression.

Taught by: Grill

One-term course offered either term

Also Offered As: PSYC 127

Prerequisite: PSYC 001

Activity: Lecture

1.0 Course Unit

BIBB 231 Evolution of Behavior: Animal Behavior

The evolution of social behavior in animals, with special emphasis on group formation, cooperation among kin, mating systems, territoriality and communication.

Taught by: Seyfarth/Cheney

Course not offered every year

Also Offered As: BIOL 231, PSYC 231

Prerequisite: BIOL 102 OR BIOL 121 OR PSYC 001

Activity: Lecture

1.0 Course Unit

BIBB 233 Neuroethology

In course, students will learn how neurobiologists study the relationship between neural circuitry and behavior. Behaviors such as bat echolocation, birdsong, insect olfaction, spatial navigation, eye movement and others will be used to explore fundamental principles of brain function that include brain oscillations, population codes, efference copy, sensorimotor maps and sleep replay. The course will also discuss the various methodologies that are used to address these questions. The reading material will be derived mostly from the primary literature.

Taught by: McLean

Course usually offered in spring term

Also Offered As: PSYC 233

Prerequisite: BIBB 109

Activity: Lecture

1.0 Course Unit

BIBB 240 Chronobiology and Sleep

Topics to be covered include basic principles of chronobiology; neuroscience mechanisms of circadian rhythms and sleep; phylogeny and ontongeny of sleep; human sleep and sleep disorders; circadian dysfunction; circadian and sleep homeostatic influences in human health and safety. Students may not recieve credit for both BIBB 240 and BIBB 040.

Taught by: Dinges

Course usually offered in spring term

Prerequisite: BIBB 109

Activity: Lecture

1.0 Course Unit

BIBB 249 Cognitive Neuroscience

The study of the neuronal systems that underlie human perception, memory and language; and of the pathological syndromes that result from damage to these systems.

Taught by: Epstein or Mackey

One-term course offered either term

Also Offered As: PSYC 149

Prerequisite: PSYC 001 OR COGS 001

Activity: Lecture

1.0 Course Unit

BIBB 251 Molecular and Cellular Neurobiology

Cellular physiology of neurons and excitable cells; molecular neurobiology and development. Topics include: action potential generation; synaptic transmission; molecular and physiological studies of ion channels; second messengers; simple neural circuits; synaptic plasticity; learning and memory; and neural development. Prerequisite: PHYS 105 or 151 strongly recommended

Taught by: Schmidt

Course usually offered in fall term

Also Offered As: BIOL 251

Prerequisites: BIOL 101 and 102, or BIOL 121;

Activity: Lecture

1.0 Course Unit

BIBB 260 Neuroendocrinology

This course is designed to examine the various roles played by the nervous and endocrine systems in controlling both physiological processes and behavior. First, the course will build a foundation in the concepts of neural and endocrine system function. Then, we will discuss how these mechanisms form the biological underpinnings of various behaviors and their relevant physiological correlates. We will focus on sexual and parental behaviors, stress, metabolism, neuroendocrine-immune interactions, and mental health.

Taught by: Flanagan-Cato

One-term course offered either term

Also Offered As: PSYC 239

Prerequisite: BIBB 109

Activity: Lecture

1.0 Course Unit

BIBB 269 Autonomic Physiology

This course will introduce the student to the functioning of the autonomic nervous system (ANS), which is critically involved in the maintenance of body homeostasis through regulation of behavior and physiology. The course will begin with a review of the basic anatomy and physiology of the ANS including the sympathetic, parasympathetic and enteric divisions. The mechanisms by which the ANS regulates peripheral tissues will be discussed, including reflex and regulatory functions, as will the effect of drugs which modulate ANS activity. The role of the ANS in regulating behavior will be addressed in the context of thirst, salt appetite and food intake.

Taught by: Heerding

Course usually offered in spring term

Prerequisite: BIBB 109

Activity: Lecture

1.0 Course Unit

BIBB 270 Drugs, Brain and Mind

The course will begin with a review of basic concepts in pharmacology including: routes of drug administration, drug metabolism, the dose response curve, tolerance and sensitization. Following a brief overview of cellular foundations of neuropharmacology (neuronal biology, synaptic and receptor function), the course will focus on several neurotransmitter systems and the molecular and behavioral mechanisms mediating the mind-altering, additive and neuropsychiatric disorders, including depression, schizophrenia and anxiety with an emphasis on their underlying neurobiological causes, as well as the pharmacological approaches for treatment.

Taught by: Kane

Course usually offered in fall term

Also Offered As: PSYC 225

Prerequisite: BIBB 109 OR PSYC 109

Activity: Lecture

1.0 Course Unit

BIBB 273 Neuroeconomics

This course will introduce students to neuroeconomics, a field of research that combines economic, psychological, and neuroscientific approaches to study decision-making. The course will focus on our current understanding of how our brains give rise to decisions, and how this knowledge might be used to constrain or advance economic and psychological theories of decision-making. Topics covered will include how individuals make decisions under conditions of uncertainty, how groups of individuals decide to cooperate or compete, and how decisions are shaped by social context, memories, and past experience.

Taught by: Kable

Course not offered every year

Also Offered As: PSYC 273

Activity: Lecture

1.0 Course Unit

BIBB 310 Functional Neuroanatomy Laboratory

A laboratory course designed to familiarize the student with the fundamental gross and histological organization of the brain. The mammalian brain will be dissected and its microscopic anatomy examined using standard slide sets. Comparative brain material will be introduced, where appropriate, to demonstrate basic structural-functional correlations.

Taught by: McLean

One-term course offered either term

Also Offered As: PSYC 210

Prerequisite: BIBB 109

Activity: Laboratory

1.0 Course Unit

BIBB 334 Computational Neuroscience Lab

This course will focus on computational neuroscience from the combined perspective of data collection, data analysis, and computational modeling. These issues will be explored through lectures as well as Matlab-based tutorials and exercises. The course requires no prior knowledge of computer programming and a limited math background, but familiarity with some basic statistical concepts will be assumed. The course is an ideal preparation for students interested in participating in a more independent research experience in one of the labs on campus. For the Spring 2019 semester, the course will focus on the topic of visual memory.

Taught by: Nicole Rust

Course usually offered in spring term

Also Offered As: PSYC 434

Prerequisite: BIBB 109

Activity: Laboratory

1.0 Course Unit

BIBB 350 Developmental Neurobiology

This course will focus on cellular and molecular mechanisms of the organogenesis of the central nervous system. A goal of the course will be to understand the form, function and pathology of the adult nervous system in terms of antecedent developmental processes.

Taught by: Julie McGurk

One-term course offered either term

Prerequisite: BIBB 109 AND BIOL 101

Activity: Lecture

1.0 Course Unit

BIBB 375 Laboratory in Animal Behavior

This course will allow students to understand the variety, function, and evolution of complex behaviors in simple animals and how the genes governing these behaviors can be used to provide insight into human behavior and brain disease. The course is structured to allow students to experience what it is like to work in a neuroscience research laboratory. We will use the fruit fly (Drosophila melanogaster) as our model organism (with one class dedicated to song birds). Over the course of the semester, we will examine the underlying neurobiology, physiology, and genetics of a variety of fly behaviors to understand aggression, taste, learning and memory, courtship, neurodegenerative diseases, and circadian rhythms. We will review both current and historical research advances in detail by focusing on primary literature. Students will be expected to design, analyze and interpret the behavioral experiments that are employed. Students will learn how to conduct animal behavior research, enhance their ability to critically read scientific literature, and improve their written and oral communication skills through paper presentations and written reports.

Taught by: Kane

Course usually offered in spring term

Prerequisite: BIBB 109 AND (BIOL 101 OR BIOL 102) OR (BIOL 123 OR BIOL 124)

Activity: Laboratory

1.0 Course Unit

BIBB 399 Independent Research

Individual research of an experimental nature with a member of the standing faculty leading to a written paper. The grade is based primarily on a serious term paper describing original research carried out by the student. Students must submit a proposal prior to registering. During the semester, students must attend two seminars to discuss planning and independent research project, ethical concerns in research and writing a scientific paper. Attendance at the meetings is mandatory. Students doing more than one credit of independent study will be required to present a poster at the annual BBB Symposium.

Taught by: Standing Faculty

One-term course offered either term

Prerequisite: BIBB 109

Activity: Independent Study

1.0 Course Unit

BIBB 420 Smell and Taste

All organisms respond to chemicals in their environment. This chemosensation guides diverse behaviors such as a feeding, avoiding predators, sex, and social interactions. This course will provide a broad survey of our current understanding of taste and smell, focusing on insect and rodent model systems as well as studies in humans. The course will begin with a review of chemical signal transduction mechanisms, and build to an exploration of the cortical integration of chemical signals and chemical guided behaviors. Class time will emphasize primary literature, discussion, and student presentations. The goal is to reach an integrated understanding of the physiology and psychology of chemical sensory systems. In the process, students will learn to read and critically evaluate data from primary research articles.

Taught by: Lewandowski

Course not offered every year

Activity: Seminar

1.0 Course Unit

BIBB 421 Functional Imaging of the Human Brain

The course will provide a detailed overview of functional brain imaging and its potential uses. Issues regarding advantages and disadvantages of different modalities, study design image analysis & interpretation and how these relate to various neurological & psycholigical phenomena will be discussed. Class will cover the following specific topics in this general time frame: Introduction to functional brain function, basics of nuclear medicine imaging (including instrumentation, image acquisition, and radiopharmaceuticals for positron emission tomography and single photon emission computed tomography), imaging of neurological disorders, imaging of psychological disorders, introduction to activation studies, image analysis and statistical problems, study design, literature review, journal article presentation, tour of Penn imaging facilities, interpretation of imaging studies, implications for clinical and research, and implications for understanding the human mind and consciousness.

Taught by: Newberg

Course usually offered in spring term

Prerequisite: BIBB 109

Activity: Seminar

1.0 Course Unit

BIBB 429 Big Data, Memory, and the Human Brain

Advances in brain recording methods over the last decade have generated vastly more brain data than had been collected by neuroscientists during the previous century. To understand the human brain, scientist must now use computational methods that exploit the power of these huge data sets. This course will introduce you to the use of big data analytics in the study of human memory and its neural basis. Through hands-on programming projects, we will analyze multi-terabyte data sets both to replicate existing phenomena and to make new discoveries. Although the course has no formal neuroscience or psychology prerequisites it does require CIS121 and Python experience. Because of the heavy comouting resources required to perform the assignment enrollment is limited to 15 students and there is a required course application. https://frms.gle/CfeogYQm5mwUBk3x7

Taught by: Kahana

Also Offered As: PSYC 429

Prerequisite: CIS 121

Activity: Seminar

1.0 Course Unit

BIBB 430 Neurobiological Basis of Autism

This course examines the neurobiological processes underlying autism spectrum disorders. In this seminar course, we will first examine the brain phenotypes associated with Autism Spectrum Disorders (ASD), in addition to investigating the genetic and environmental contributions to the etiology and pathophysiology of ASD. After an initial examination of the clinical literature and research, we will focus on animal models of ASD, including those of syndromic causes of autism (Rett Syndrome, Tuberous Sclerosis, Fragile X) and investigate changes in neurotransmitter systems and synaptic dysfunctions in the brain of these models.

Taught by: Herrington

One-term course offered either term

Prerequisite: BIBB 109

Activity: Lecture

1.0 Course Unit

BIBB 440 The Neuroscience behind the Addiction to Chocolate, Wine, Coffee and Tobacco

Both clinical observations and popular culture support the idea that food might have addictive properties. Similar to the narrative for addictive drugs,individuals and the media use terms like "food addict" and "chocoholic", and refer to cravings, symptoms of withdrawal, and escalating patterns of eating that might be viewed as evidence of tolerance. The class will discuss chocolate and coffee as examples of so-called "addictive" food and compare their effects and mechanisms with those of alcohol and nicotine, two substances with well-characterzed addictive properties. Furthermore, we will discuss why some forms of overeating are thought to reflect an addictive behavior. Considering the social dimension of alcohol,coffee, and tobacco consumption and the fact that large numbers of the population consume them together, we will also discuss the possible interactive effects of combinationsof these psychoactive substances on mood and disease state. At the end of the course the student will become familiar with the diagnostic criteria for substance dependence, the anatomy and physiology of the brain circuits involvedin reward processing and drug depencence, and the neurotransmitter systems involved.

Taught by: Mariella De Biasi, PhD

One-term course offered either term

Activity: Lecture

1.0 Course Unit

BIBB 442 Neurobiology of Learning and Memory

This course focuses on the current state of our knowledge about the neurobiological basis of learning and memory. A combination of lectures and student seminars will explore the molecular and cellular basis of learning in invertebrates and vertebrates from a behavioral and neural perspective.

Taught by: Abel

Course usually offered in fall term

Also Offered As: BIOL 442, NGG 575, PSYC 421

Prerequisite: BIOL 251 AND BIBB 251

Activity: Seminar

1.0 Course Unit

BIBB 460 Neuroendocrinology Seminar

This course is an upper-level seminar, designed to examine the various roles played by the nervous and endocrine systems in controlling both physiological processes and behavior. We will focus on sexual and parental behaviors, stress, metabolism, neuroendocrine-immune interactions, and mental health. The format will be a mixture of lectures and journal club discussions based on recent primary literature in the field of neuroendocrinology. Students will also write several short papers based on the clinical neuroendocrinology.

Taught by: Flangan-Cato

One-term course offered either term

Also Offered As: PSYC 439

Prerequisite: BIBB 109

Activity: Seminar

1.0 Course Unit

BIBB 466 Molecular Genetics of Neurological Disease

This course will focus on the molecular basis of neurological diseases, exploring in detail key papers that cover topics including defining the disease genes, development of animal models that provide mechanistic insight, and seminal findings that reveal molecular understanding. Diseases covered will include neurological diseases of great focus today such as Alzheimer's, Fragile-X and autism, dementia, motor neuron degeneration, and microsatellite repeat expansion disorders. The course will provide a perspective from initial molecular determination through current status. Students will gain an understanding of how the molecular basis of a disease is discovered (from classical genetics to modern genomics) and how such diseases can be modeled in simple genetic systems for mechanistic insight. The course will be comprised of lectures with detailed analysis of primary literature and in-class activities. Grading will be based on class participation, exams, and written papers. Prerequisite: BIOL 251 and BIOL 41 are recommended.

Taught by: Bonini

Course usually offered in fall term

Also Offered As: BIOL 466

Prerequisite: BIOL 221

Activity: Lecture

1.0 Course Unit

BIBB 469 Stress Neuroscience

Stress can be caused by a variety of conditions, ranging from low-level noise in the workplace to life-threatening situations and these stressors can cause changes in the physiology and behavior of individuals. This course will examine the neural mechanisms underlying physiological and emotional responses to stress in a journal club format. Topics to be covered include anxiety disorders, depression and other mood disorders, the differential effects of stress on males and females, the physiological effects of stress on the immune system and feeding behavior, the effects of maternal stress on offspring as well as strategies to mitigate the effects of stress.

Taught by: Heerding

One-term course offered either term

Prerequisite: BIBB 109

Activity: Seminar

1.0 Course Unit

BIBB 470 Animal Models of Neuropsychiatric Disorders

This seminar will focus on the significant role of animal models in the investigation of the pathophysiology of a variety of human neuropsychiatric disorders as well as in the development of treatments for these disorders. The course will focus on the use of genetically modified mice in the investigation of Autistic Spectrum Disorders (ASD), anxiety and affective disorders, schizophrenia and obsessive-compulsive disorder (OCD), with an emphasis on the limitations of such models. Class time will consist of short lectures and open discussions via student-led presentations. Emphasis will be placed on the critical analysis of primary literature.

Taught by: Kane

Course not offered every year

Prerequisite: BIBB 109

Activity: Seminar

1.0 Course Unit

BIBB 473 Neuroeconomics

This course will review recent research that combines psychological, economic and neuroscientific approaches to study human and animal decision-making. A particular focus will be on how evidence about the neural processes associated with choices might be used to constrain economic and psychological theories of decision-making. Topics covered will include decisions involving risk and uncertainty, reinforcement learning, strategic interactions and games, and social preferences.

Taught by: Joseph Kable

One-term course offered either term

Also Offered As: NGG 706, PSYC 473

Prerequisite: PSYC 149 OR PSYC 253 OR PSYC 265

Activity: Seminar

1.0 Course Unit

BIBB 475 Neurodegenerative Diseases

This course will familiarize students with advances in our understanding of the clinical features and pathogenesis of a wide range of neurodegenerative diseases, including Alzheimer's disease and other dementias, prion diseases, Parkinson's disease and atypical parkinsonisms, neurodegenerative ataxias, motoneuron diseases, degenerative diseases with chorea, iron and copper disorders, and mitochondrial diseases. Students will analyze original research reports on a range of proposed pathological cellular processes that may represent steps in cell dealth pathways leading to neuron loss seen in these diseases. Significant emphasis will be placed on the fast-expanding fieldexploring genetic contributions to neurodegenerative disease, as identification of genetic mutations pathogenenic for familial neurodegenerative diseases has been a major driving force in neurodegenerative research and pointed researchers towards essential molecular process that may underlie these disorders. Strategies for therapeutic intervention in the management, prevention, and cure of neurodegenerative disease will be addressed.

Taught by: Lexow

One-term course offered either term

Prerequisite: BIBB 109

Activity: Seminar

1.0 Course Unit

BIBB 479 Neural Systems and Behavior

This course will investigate neural processing at the systems level. Principles of how brains encode information will be explored in both sensory (e.g. visual, auditory, olfactory, etc.) and motor systems. Neural encoding strategies will be discussed in relation to the specific behavioral needs of the animal. Examples will be drawn from a variety of different model systems.

Taught by: Schmidt, M./Medina

Course usually offered in spring term

Also Offered As: BIOL 451, PSYC 479

Prerequisite: BIOL 251 OR BIBB 251

Activity: Lecture

1.0 Course Unit

BIBB 480 Biological Basis of Psychiatric Disorders

The contributions of basic sciences (neuroanatomy, neurophysiology, neurochemistry, and neuropharmacology) to an understanding of behavior and behavioral disorders will be covered and important psychiatric disorders will be discussed, primarily from the viewpoint of their biological aspects. Emphasis will be placed on critical evaluation of research strategies and hypotheses.

Taught by: Lexow

One-term course offered either term

Prerequisite: BIBB 109

Activity: Seminar

1.0 Course Unit

BIBB 481 Behavioral Pharmacology

This seminar course reviews the behavioral effects of drugs in animals, the general biological and psychological principles of drug action, and the relationship between drugs that affect brain monoamine and opiate systems and their behavioral effects. Introductory lectures on general topics will be followed by advanced discussion of specific topics in a journal club format through student presentations.

Taught by: Heerding

Course not offered every year

Prerequisite: BIBB 109

Activity: Seminar

1.0 Course Unit

BIBB 482 Clinical Psychopharmacology

This course examines the history, rationale and putative mechanism of action of drugs used in the treatment of psychiatric disorders. Emphasis is placed on neurobiological processes underlying psychopathology and pharmacological intervention. Drugs currently in use as well as new drugs in development will be covered. Strategies, techniques, issues and challenges of clinical psychopharmacological research will be addressed and new approaches to drug discovery, including the use of pharmacogenomics and proteomics to understand variability in drug response and identify new molecular drug targets, will be covered in depth. Specific drug classes to be considered include antidepressants, anxiolytics, typical and atypical antipsychotics, narcotic analgesics, sedative hypnotics, and antiepileptic medications. A contrasting theme throughout the course will be the use of drugs as probes to identify neural substrates of behavior.

Taught by: Lexow

Course not offered every year

Prerequisite: BIBB 109

Activity: Seminar

1.0 Course Unit

BIBB 485 Nerve and Muscle in Health and Disease

In this seminar course, we will deepen our understanding about excitability in the nervous system and in skeletal and cardiac muscle. A particular focus of the course will be the roles which calcium ions play as second messengers in nerve, muscle and synapse. We will study disease processes involving excitability and calcium handling, such as Long QT syndrome and hyperkalemic periodic paralysis. The later part of the course will have a journal club format, based on the reading and presentation of original papers, including papers about non-opioid analgesia and malignant hyperthermia. We will learn about the techniques used to study intracellular calcium and about how calcium is handled in nerve and muscle. Classical, physiological experiments will be interpreted in terms of modern molecular knowledge.

Taught by: Hollingworth

Course usually offered in spring term

Prerequisite: BIBB 251

Activity: Seminar

1.0 Course Unit

BIBB 492 Experimental Methods in Synaptic Physiology

In this lab course, a small number of students meet once per week to discuss topics in synaptic physiology and to become proficient at sharp electrode techniques for intracellular recording, using isolated ganglia from the snail Heliosoma. The first part of each class will consist of discussion of weekly reading from the primary literature, with the remainder of the class devoted to hands-on experiments. After learning to record from and characterize single neurons, students will study synaptic transmission by stimulating incoming nerve trunks or by recording from pairs of interconnected neurons. As a midterm assignment, students will prepare and present a short research proposal using this model system, to be evaluated by the class. For the last half of the course, the class will work together on one or two of these proposals, meeting at the end of each class to pool our data, analyze the results and discuss their significance. Lab Fee: $100.

Taught by: Kaplan

One-term course offered either term

Prerequisite: BIBB 251

Activity: Laboratory

1.0 Course Unit

BIBB 499 Advanced Independent Research

Continuation of BIBB 399 research. Students will be required to give an oral presentation of their research at the annual BBB symposium Honors Seminar and attend weekly seminars.

Taught by: McLean

One-term course offered either term

Prerequisite: BIBB 399

Activity: Independent Study

1.0 Course Unit

BIBB 585 Theoretical and Computational Neuroscience

This course will develop theoretical and computational approaches to structural and functional organization in the brain. The course will cover: (i) the basic biophysics of neural responses, (ii) neural coding and decoding with an emphasis on sensory systems, (iii) approaches to the study of networks of neurons, (iv) models of adaptation, learning and memory, (v) models of decision making, and (vi) ideas that address why the brain is organized the way that it is. The course will be appropriate for advanced undergraduates and beginning graduate students. A knowledge of multi-variable calculus, linear algebra and differential equations is required (except by permission of the instructor). Prior exposure to neuroscience and/or Matlab programming will be helpful.

Taught by: Vijay Balasubramanian

Course usually offered in spring term

Also Offered As: BE 530, NGG 594, PHYS 585, PSYC 539

Activity: Lecture

1.0 Course Unit