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Physiological Digital Imaging

MEDS 5306 - Physiological Digital Imaging

A combination lecture/seminar/project coursse in “Foundations of Imaging Science.” It covers the principal mechanisms of physiological imaging in digital applications and focuses on critical analysis of the performance of modern imaging sensors, modeling and measuring of visual perception parameters for image information and optimizing of digital imaging for the life sciences, pathology and radiology, including teleradiology. The course is intended for anyone who works with or will use digital images.

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MEDS 5307 - Critical Analysis of the Biological Literature

This course is intended to develop and improve each student’s capacity for critical analysis of research articles, with special emphasis on the logic used to frame hypotheses and justify conclusions. An understanding of experimental methods will also be emphasized. Each week one or two papers, across a wide spectrum of modern biomedical research, will be discussed in depth in a small group format.

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MEDS 5308 - The Nature of Evidence in Scientific Research

This course will examine the aspects of the scientific process that are common to all levels of biomedical investigations: frombiophysics in cell-free systems to molecular biology in cells, to physiology in whole organisms, to epidemiology and clinical investigation in humans. These features begin with enunciation of the question to be asked, and include (1)Identification of a system to address the question, (2)Specification of the systems and their manipulation, (3) Assessment of outcomes, and (4)Drawing inferences on the basis of results. The course will be designed as a discussion of seminal, published works on the topics. Two to three key papers will be distributed to participants at least one week before the scheduled discussions. There will be no examination for the course. Students are expected to actively participate in critical evaluation and discussion during each of the weekly two-hour sessions. Evaluation of performances will be based solely on such participation.

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MEDS 5309 - Molecular Basis of Disease

This is a seminar and discussion based course that reviews the molecular understanding of human disease.

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MEDS 5310 - Responsible Conduct in Research

This course introduces the student to ethical and legal issues associated with the practice and reporting of science. Thr course uses a case study approach and requires in-class student participation.

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MEDS 5313 - Biomaterials and Tissue Engineering

A broad introduction to the field of biomaterials and tissue engineering. Presents basic principles of biological, medical, and material science as applied to implantable medical devices, drug delivery systems and artificial organs. Also offered as BME 5700.

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MEDS 5322 - Developmental Biology

This course covers history, concepts, and experimental strategies in both classical and modern developmental biology. Topics ranging from early fertilization, to early embryonic development, to the formation of adult structures are considered and compared in a range of model organisms. Class format includes one hour of lecture by instructors and one hour of literature analysis and discussion by students each week. Course grade will combine results of class participation and a final exam.

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MEDS 5323 - Genetics and Developmental Biology Journal Club

Reading and discussion of current research in the fields of genetics and developmental biology with emphasis on molecular aspects. Periodic presentation of research papers and active discussion will be expected of all participants.

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MEDS 5325 - Computational Genomics Practicum

A practical introduction to computational genomics focusing on methods forprocessing/analyzing Next Generation Sequencing (NGS) data. 1. Programming: Introduction to the Linux command line, elements of Python and R programming. 2.Genomics software tools for performing sequence read-alignments,transcript-expression profiling, and robust procedures for gaugingdifferential gene expression. 3. Methods for genome assembly, genome variation detection, motif-finding, and data-visualization. 4. Statistical topics include: probability distributions, central limit theorem, hypothesis testing, linear models, and dimensionality reduction.

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MEDS 5327 - The Logic of Modern Biology

This course covers the fundamental biochemical and genetic principles that underlie all areas of modern biology. The biochemistry and genetics of both prokaryotes and eukaryotes are addressed. Reading and discussion of papers in the literature are important elements of the course.

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MEDS 5329 - Immunobiology I

An overview of basic concepts in immunology including antibody structure, function and production, molecular genetics of the immune system and cellular regulation of immunity.

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MEDS 5330 - Immunobiology II

This continuation of MEDS 329 will consider effect or mechanisms of the immune system in inflammation, hypersensitivity, transplantation and autoimmunity as well as regulation of the immune system by cells, cellular products and chemical or physical agents.

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MEDS 5330 - Immunobiology II

This continuation of MEDS 329 will consider effect or mechanisms of the immune system in inflammation, hypersensitivity, transplantation and autoimmunity as well as regulation of the immune system by cells, cellular products and chemical or physical agents.

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MEDS 5333 - Immunobiology of Transplantation

Immunogenetics of transplantation, alloantigen reaction lymphocytes, afferent recognition phase of transplantation immunity, cellular effector mechanisms and antibody participation in transplant immunity.

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MEDS 5335 - Advanced Molecular and Cellular Immunology I.

Major areas covered include: (1) Development of the immune system with respect to lymphoid organs and lymphocyte subsets; (2) Mechanisms of antigen processing and presentation; (3) Lymphocyte activation including the role of costimulatory molecules and (4) Regulation of the immune response including tolerance induction, cytokine interactions and signal transduction.

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MEDS 5336 - Advanced Molecular and Cellular Immunology II.

Major areas covered include: (1) Immunoglobulin genetics and structure; (2) T cell receptor genetics and structure; (3) Molecular nature of antigen recognition by T cell receptor; (4) Structure, function and molecular genetics of lymphocyte accessory molecules; (5) Mechanisms of cytolysis and (6) Complement and complement receptors.

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MEDS 5337 - Immunopathology

The immediate-type hypersensitivities will be considered, with special emphasis on anaphylactic-type responses, pathologic responses, pathologic responses to immunologic complexes, immunohematologic diseases and models such as virus immunopathology, and rheumatoid arthritis and systemic lupus erythematosus.

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MEDS 5338 - Techniques in Structural Biology

A short course to introduce graduate students and selected undergraduates to modern techniques in structural biology. Each course offering covers a specific technique: NMR, computational and graphical analysis of biomolecules, X-ray crystallography, analytical ultracentrifugation, spectroscopy, calorimetry, and others.

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MEDS 5341 - Molecular Neurobiology of Excitable Membranes

Emphasizes the relation between structure and function of biological interfaces that comprise electrically excitable and chemically excitable (synaptic) membranes. Models of electrically-and chemically-induced regulation of ion movement via channels and transporters are examined. Genetic manipulation of channel composition is evaluated with attention to altered function and inferences about their structure.

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MEDS 5349 - Principles of Pharmacology

An introductory course covering the basic principles of Pharmacology. Introduces the student to the concept that drugs and chemicals act on the body by binding to receptors. The physico-chemical properties of ligand-binding to macromolecules is examined, followed by an examination of the nature of receptors and the mechanisms whereby they exert their physiological responses to pharmacological agents. The uptake and fate of xenobiotics (compounds foreign to the body) in the body is discussed. The responses to chemicals, as therapeutic agents, i.e., the desired correction of diseased conditions, as well as toxins, carcinogens and teratogens. The mechanisms governing these different responses are examined in detail.

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MEDS 5350 - Biochemistry I

Introductory biochemistry of protein structure, function and synthesis, enzymology, structure and replication of nucleic acids, membrane structure and function.

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MEDS 5351 - Biochemistry II

This course covers fundamentals of biomolecular interactions and protein structure. Additionally, the course covers the structure/function of select proteins and enzymes essential to the following: metabolic pathways, DNA/RNA transactions, gene expression, cell cycle and signal transduction, and the cytoskeleton.

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MEDS 5365 - Genetics

Introduction to the principles and practices of molecular genetics of prokaryotes and eukaryotes. Topics include gene structure and function; gene transfer and recombination; gene regulation; molecular genetics of eukaryotic viruses, yeast, Drosophila, somatic cells and humans.

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MEDS 5367 - Introduction to Molecular Biology and Biochemistry

This course involves reading and discussing classic papers in Molecular Biology and Biochemistry in order to introduce first year students to the field and to develop critical skills. Topics will vary from year to year but may include nature of the gene, basic principles of transcription, translation, DNA replication, and membrane structure.Students taking this course will be assigned a final grade of S (satisfactory) or U (unsatistactory.)

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MEDS 5368 - Topics in Biochemistry and Molecular Biology

To be offered every semester by a different faculty member on a rotating basis. Topic to be determined by individual faculty member. The purpose of the course will be to discuss and critically evaluate relevant literature in each topic. The topics will include viral replication strategies, membrane molecular biology, growth factors and second messengers, molecular biology of microbial development, membrane receptors, extracellular matrix-cell interactions, and peptide hormones.Students taking this course will be assigned a final grade of S (satisfactory) or U (unsatistactory.)

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MEDS 5369 - Advanced Genetics and Molecular Biology

An advanced course emphasizing approaches to the genetic analysis of eukaryotic systems including yeast, fungi, Drosophila, mice, and humans. Topics include genome organization, DNA replication, regulation of gene expression, development, and differentiation.

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MEDS 5370 - Introductory Neuroscience

This course will provide an introduction to neuroscience as a discipline and the important concepts and problems that make the nervous system unique. The nervous system consists of the brain, spinal cord, and peripheral nervous structures. Our scientific understanding of sensation, movement, emotional behavior, homeostatic systems, and cognition each require knowledge and understanding of the nervous system. This course will provide the student with an introduction to the neurobiological bases of these behaviors and the experimental approaches that underlie modern neurobiological research. The course will also introduce the student to the unique cell and molecular biology of the nervous system. Neuroscience, as a discipline, incorporates data from many other scientific fields to address fundamental problems. Therefore, one goal of the course is to show how our understanding of the nervous system requires the integration of data from disciplines like endocrinology, genetics, computation biology, engineering, and biophysics. In addition, this course will introduce common diseases of the nervous system. Diseases are instructional since dysfunction may help explain normal function. More important though is that the cure of diseases, such as stroke, Alzheimers disease, and multiple sclerosis, provide a strong motivation for research in the nervous system.

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MEDS 5371 - Systems Neuroscience

Part of the core series in the Neuroscience graduate program. This course will address the functional organization of neural systems underlying sensation, movement, language, learning/plasticity, and emotion/arousal. Sensory systems will include the somatosensory, auditory, visual, vestibular, and chemosensory systems. Motor systems will include the spinal cord, brain stem, cerebellum, vestibular system, oculometer system, basal ganglia and cerebral cortex.

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MEDS 5372 - Neuroscience: Cellular and Molecular Neuroscience

Part of a core series in the Neuroscience Program, this course provides an introduction to basic concepts in the study of cell biology, neuroanatomy, neurophysiology, neurochemistry, and molecular biology of the nervous system.

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MEDS 5374 - Neuroscience: Structure, Function, and Development of the Nervous System

Provides systematic coverage of neuroanatomy, neurophysiology, neuropathology, neurochemistry and developmental neurobiology (including embryology and neural plasticity). Introduction to neuroendocrinology, degeneration and regeneration, communicative sciences (speech, hearing, chemical senses, and psychophysics), and research methods.

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MEDS 5375 - Neuroscience: Current Research Topics/Methods

The goal of this course is to familiarize students early in their education (first or second year) with various key methodologies to which they will be exposed in courses, journal club presentations, and seminars. After a brief overview of basic concepts, applications, controls, and permutations of the method in the classroom, students will observe and participate in a demonstration of important technical aspects of the method in the laboratory setting. The course is targeted especially toward students with an interest in neuroscience or neuroimmunology.

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MEDS 5376 - Developmental Neurobiology

Emphasis on the cellular and molecular mechanisms which underlie the development of the nervous system. Reading and discussion of research papers in the literature is stressed.

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MEDS 5377 - Neurobiology of Hearing

Provides in-depth analysis (using the Auditory System as a model system) with application of interdisciplinary approaches of cell and molecular biology, developmental neurobiology, neuroanatomy, neurophysiology/biophysics, neurochemistry, neural modeling, psychophysics, and plasticity, with state-of-the-art methods used in neuroscience research today. The team of faculty members contribute a variety of complementary fields of study.

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MEDS 5378 - Computational Neuroscience

Students study the function of single neurons and neural systems by the use of simulations on a computer. The course will combine lectures and classroom discussions with conducting computer simulations. The simulations will include exercises and a term project. Each student will complete a term project of neural simulation to be developed during the second half of the semester. The topic of the term project should be approved by the instructors by the middle of the semester. The grade will be based on the exercises and the term project. Course includes: analysis of electrical circuits modeling neuronal cell membrane and the related differential equations; the Hodgkin-Huxley model of voltage- and time-dependent sodium and potassium conductances in the squid axon; voltage-clamp and current-clamp; the relationship between two rate constants versus the steady-state value and time constant underlying each conductance; neuronal response properties that are related to voltage-dependent and calcium-dependent ion channels; single- and multi-compartment models with ionic conductances simulating specific neuronal response properties described in the literature; excitatory and inhibitory postsynaptic currents and underlying ligand-gated ion channels; dendritic electrotonus and synaptic integration; temporal and spatial interactions of synaptic inputs to the dendritic tree and the cell body; action potential propagation in axons; neural circuits.

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MEDS 5380 - Cell Biology

Basic eucaryotic cell biology. Major topics include: Methods in Cell Biology; Cell Growth and Proliferation; Cytoskeleton; Transport: Hormone Response; Cytoplasmic Organelles and Membrane Structure, Function, Biogenesis, Transport and Sorting; Cell Motility; Chromatin Structure and Organization; and Extracellular Matrix and Cell Adhesion.

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MEDS 5381 - Cell Biology and Physiology II

Part I: Lecture format on membrane biophysics (membrane structure and permeability, electrical properties and gated channels, concentration gradients, volume and shape control, energy transduction, membrane dynamics). Part II: Lecture/Seminar format. Topics in receptors and channels, cell biology of the senses, cell junctions in the nervous system, growth factors and cell activation, cell cytoskeleton and matrix. Emphasis on in-depth discussions of specific cell systems through current literature. Final paper required in the form of research proposal.

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MEDS 5382 - Practical Microscopy and Modeling for Cell Biologists

Intracellular signaling is one of the most rapidly advancing fields in cell biology. The objective of this course is to introduce to the students the most recent achievements in the field of intracellular signaling and regulation. Each of the participating faculty members will give an introductory lecture to provide an overview of signaling events in their field of expertise and discuss the most important recent papers.

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MEDS 5383 - Neurobiology of Disease

Discussion and Lecture, run by clinician and basic scientist, on diseases of the nervous system.

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MEDS 5384 - Brain Microcircuits

Brain Microcircuitry is an upper level course.

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MEDS 5385 - Molecular Mechanisms of Neurobiological Disorders

Discussion of current papers relevant to molecular analyses of neurobiological diseases.

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MEDS 5388 - Principles and Techniques of Biological Electron Microscopy

A lecture/laboratory course on the theory and practice of transmission and scanning electron microscopy as applied in the biological sciences. Topics include instrument design and operation, electron optics, specimen preparation, photography, microscopic image interpretation and special techniques. Laboratory students learn and carry out commonly used preparative techniques, observe and photograph specimens in the electron microscope, and complete an independent project.

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MEDS 5391 - Enzymes of Xenobiotic Biotransformation

Lectures and student presentations of journal articles relevant to the lectures plus one laboratory. Topics include an overview of metabolic routes of drugs and chemicals in the body with an emphasis on the hepatic cytochrome P450 monooxygenases. Other topics include conjugative xenobiotic metabolizing enzymes.

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MEDS 5395 - Independent Study

Independent Study

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MEDS 5415 - Craniofacial and Oral Biology

Craniofacial and Oral Biology is a combination lecture and literature discussioncourse with a focus on the on the underlying biochemical, molecular and genetic mechanisms involved in the pathogenesis of craniofacial and oral disorders, the identification of unsolved questions, and consideration of possible approaches to investigate these questions.

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MEDS 5418 - Stem Cells and Regenerative Biology

A literature based course on the fundamental aspects of stem cells; their nature, origin, self-renewal and differentiation during embryogenesis and tissue regeneration. Taught by a team of experts. Grade based on mid-term tests, class participation and presentation.

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MEDS 6372 - The Neurobiology of Glia

This course will provide a detailed introduction and advanced, in-depth discussion on specific topics related to the cellular biology and pathobiology of glia. This course will have two components. The first part of the course will be didactic lectures covering each of the types of glia in the central and peripheral nervous systems. The second part of the course will provide focused paper discussions on the specific roles of glia in particular diseases of the nervous system that may change with time to stay current with recent publications and innovations in the field.

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MEDS 6400 - Human Biology

Introduces the histology of the major types of tissues and cellular ultrastructure. Following this introductory material, the students will dissect the limbs, and study epithelia, connective tissue, and skin including the extracellular matrix and body fluid compartments. The course will also cover muscle, bone, peripheral nerves, the neuromuscular junction, blood vessels, and other elements essential to understanding the function of the limbs. For all tissues considered, there will be an integrated presentation of structure, biochemistry, and physiology. Also, presents the general principles of biochemistry and molecular biology. Fundamental processes involved in cellular growth and division are included as well as an overview of metabolism and energy production. This is followed by consideration of cellular differentiation. Finally, there will be a survey of the general principles of immunology and the lymphoid tissues including the function of blood cells and coagulation.

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MEDS 6401 - Organ Systems I

Presents, in an integrated fashion, the anatomy, histology, biochemistry, and physiology of the central nervous system. Concurrently, the students dissect the head and the neck.

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MEDS 6402 - Organ Systems II

Presents, in an integrated fashion, the anatomy, histology, biochemistry, and physiology of the cardiovascular, respiratory and renal-urinary systems. The emphasis is placed on how these organ systems interact and work together to maintain homeostasis. Concurrently, the students dissect the thorax. Introductory biostatistics and epidemiology are also presented at this time.

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MEDS 6403 - Organ Systems III

Presents, in an integrated fashion, the anatomy, histology, biochemistry and physiology of the gastrointestinal, endocrine and reproductive systems. Also presented is material related to principles of human genetics. At the same time, students dissect the abdomen and pelvis.

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MEDS 6404 - Correlated Medical Problem Solving – Part A

This course serves to expand upon and integrate basic science concepts introduced in the Human Systems.

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MEDS 6405 - Correlated Medical Problem Solving – Part B

Expands upon and integrates basic science concepts introduced in the Human Systems course.

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MEDS 6406 - Human Development & Health

The HDH course has been taken by combined MD/PhD students for graduate school credit in the 2nd year of study. The School of Medicine has now divided the course so that parts are taken in the 1st and 2nd years. In fall 2013, current second year students will enroll for 2 credits while current first year students and all subsequent classes will enroll for 1 credit in each of the first two years.

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MEDS 6407 - Mechanisms of Disease: Part A

Mechanisms of Disease (MOD) is a 30-week year long medical school course covering the pathology and pathophysiology of organ systems and basic principles of therapeutics. The instruction format includes about 50% lecture, 15% laboratory, 30% small group conference and 5% clinical-pathological correlations. The course covers General Pathology, Pharmacological Principles, and Infectious Disease; Diseases of Homeostasis; Oncology and Diseases of Metabolism; and Diseases of the Nervous System, Diseases of the Reproductive System and Immune and Non-immune Mediated Diseases.

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MEDS 6408 - Mechanisms of Disease: Part B

Mechanisms of Disease (MOD) is a 30-week year long medical school course covering the pathology and pathophysiology of organ systems and basic principles of therapeutics. The instruction format includes about 50% lecture, 15% laboratory, 30% small group conference and 5% clinical-pathological correlations. The course covers General Pathology, Pharmacological Principles, and Infectious Disease; Diseases of Homeostasis; Oncology and Diseases of Metabolism; and Diseases of the Nervous System, Diseases of the Reproductive System and Immune and Non-immune Mediated Diseases.

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MEDS 6409 - Mechanisms of Disease: Part C

Medicine. Oncology, metabolism, endocrinology, and the nervous system.

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MEDS 6410 - Mechanisms of Disease: Part D

Reproduction, immunology, and connective tissue.

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MEDS 6411 - Clinical Practicum

Clinical experience in the major disciplines including: Medicine, Surgery, Obstetrics & Gynecology, Psychiatry, Family Medicine, and Pediatrics.

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MEDS 6412 - Advanced Clinical Practicum

Advanced clinical work with opportunities in the major clinical disciplines.Students taking this course will be assigned a final grade of S (satisfactory) or U (unsatistactory.)

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MEDS 6413 - Cancer Biology

This is a survey course to explore the genetics and pathobiology of cancer by focusing on a variety of current research topics. Understanding the disease process requires studying normal mechanisms of growth control. Emphasis will be on topics such as differentiation, apoptosis, growth factors, oncogenes, tumor suppressor genes, viruses and signal transduction.

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MEDS 6414 - Advanced Correlated Medical Problem Solving – Part A

Expands upon and integrates basic science concepts introduced in Human Development and Health and Mechanisms of Disease.Students taking this course will be assigned a final grade of S (satisfactory) or U (unsatistactory.)

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MEDS 6417 - Advanced Correlated Medical Problem Solving – Part B

Expands upon and integrates basic science concepts introduced in Human Development and Health and Mechanisms of Disease.Students taking this course will be assigned a final grade of S (satisfactory) or U (unsatistactory.)

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MEDS 6418 - Classic Papers in Molecular Biology & Biochemistry

Students are required to read and critically analyze one or two papers selected by the instructor each week.Students taking this course will be assigned a final grade of S (satisfactory) or U (unsatistactory.)

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MEDS 6419 - Classic Papers in Neuroscience & Immunology

Students are required to read and critically analyze one or two papers selected by the instructor each week.Students taking this course will be assigned a final grade of S (satisfactory) or U (unsatistactory.)

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MEDS 6421 - Classic Papers in Cell Biology & Developmental Biology

Students are required to read and critically analyze one or two papers selected by the instructor each week.

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MEDS 6422 - Classic Papers in Cellular & Molecular Pharmacology

Students are required to read and critically analyze one or two papers selected by the instructor each week.

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MEDS 6423 - Cellular and Molecular Biology of the Vascular System

Systematic survey of classic and current literature in vascular biology, emphasizing the molecular and cellular basis of the development, function, and malfunction of the vascular system.

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MEDS 6424 - Neuropharmacology

Highlights the different neurotransmitter and neuromodulator systems and the pharmacological agents that affect them. Emphasis is placed on the mechanisms of drug action in the treatment of nervous system and mental disease, serving to complement other courses in neuroscience, pharmacology, immunology, and pharmaceutical science.

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MEDS 6425 - Neuroimmune Interactions

Addresses the chemical and physical relationships between the immune system and the nervous system and emphasizes the coordinate operations of the two systems.

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MEDS 6430 - Molecular and Medical Parasitology

Provides students with an in-depth knowledge of classical and modernparasitology. The course will focus on the molecular and cellular bases ofparasite development, differentiation, parthenogenesis and host-pathogeninteractions. The course also will address the most recent advances ingenomics, proteomics, bioinformatics and large-scale functional analyses andtheir contributions to treatment and prophylaxis of parasitic infections.

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MEDS 6444 - Medical Microbiology

Provides first and second year graduate students with a broad understanding of the molecular and medical aspects viruses and bacteria. For viruses, topics include entry, genome replication and gene expression, assembly, viral transformation, pathogenesis, host immune responses, clinical presentations viral immunology, treatment principles including vaccines and antiviral therapeutics, and emerging and re-emerging viruses that threaten human health. For bacteria, topics include development and differentiation, bacterial genetics and genomics, bacterial cell cycle (DNA replication, chromosome segregation and cell division), cell-cell communication, pathogenesis, host immune responses, clinical presentations and treatment principles. The course will include lecture, discussion of primary literature and student presentations. Grading will be based on class participation, student presentation and a short paper.

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MEDS 6445 - Skeletal Biology

A comprehensive survey of the cellular and molecular mechanisms that regulate the development, growth, differentiation, remodeling, and repair of the skeletal system.

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MEDS 6447 - Tool Kit for Scientific Communication

Through a series of lectures and workshops, this course is designed to improve the ability of students to present scientific data in written and oral format. These skills are essential, not only as a graduate student, but in future careers as scientist. The curriculum covers basic elements and logical order of presentations. Reviewer’s perspectives, grant writing resources, workshops, and evaluation of recent seminars help students to design and evaluate research projects.

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MEDS 6448 - Foundations of Biomedical Science I

Due to the diverse background of our entering first-year students and the recognized importance that each student should enter their thesis research years with a solid foundation of biomedical knowledge, this course has been designed to encompass topics considered fundamental to any student pursuing a Ph.D. in any Area of Concentration in the Biomedical Science Graduate Program. The course will combine an introduction to fundamental concepts along with a more in-depth analysis of the research that underlies some of these ideas. A variety of topics will be examined in approximately one-week modules that will include a basic, introductory one hour lecture on Mondays, a more in-depth discussion of one to two critical historical papers on an aspect of the topic on Wednesdays and then a small group discussion on a more modern paper related to the area on Fridays. Periodically, the course will include Consolidation weeks that discuss key methodologies in the context of new concepts or concepts previously discussed.

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MEDS 6449 - Foundations of Biomedical Science II

Due to the diverse background of our entering first-year students and the recognized importance that each student should enter their thesis research years with a solid foundation of biomedical knowledge, this course has been designed to encompass topics considered fundamental to any student pursuing a Ph.D. in any Area of Concentration in the Biomedical Science Graduate Program. The course will combine an introduction to fundamental concepts along with a more in-depth analysis of the research that underlies some of these ideas. A variety of topics will be examined in approximately one-week modules that will include a basic, introductory one hour lecture on Mondays, a more in-depth discussion of one to two critical historical papers on an aspect of the topic on Wednesdays and then a small group discussion on a more modern paper related to the area on Fridays. Periodically, the course will include Consolidation weeks that discuss key methodologies in the context of new concepts or concepts previously discussed.

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MEDS 6450 - Optical Microscopy and Bio-imaging

The course presents the current state of the art of optical imaging techniques and their applications in biomedical research. The course materials cover both traditional microscopies (DIC, fluorescence etc.) that have been an integrated part of biologists’ tool-box, as well as more advance topics, such as single-molecule imaging and laser tweezers. Four lab sessions are incorporated in the classes to help students to gain some hand-on experiences. Strong emphasis will be given on current research and experimental design. Also offered as BME 341.

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MEDS 6455 - Introduction to Systems Biology

The course will guide students into a biology world as seen by engineers, physicists,mathematicians and computer scientists. We will discuss different kinds of predictive mathematical models and their dynamical behavior; stability, switching and stochasticity of a biological system; resources needed to start building a model; models exchange, simulation and visualization; public databases and software tools available for a modeler. The goal is to provide the necessary background to read modeling papers, chooseSystems Biology resources that will help in biological projects, and be able to select a modeling technique appropriate for a given biological project.

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MEDS 6456 - Human Systems A

Human Systems (HS) is a 38-week long medical school course taken in the first year of the combined MD/PhD program. The course is divided into four sections: Human Biology, Organ Systems 1, Organ Systems 2 and Organ Systems 3. The course covers the basic elements of human anatomy, histology, biochemistry, physiology and genetics and an introduction to biostatistics and the principles of epidemiology. The instructional format includes about 50% didactic lectures, 30% laboratory and 20% small group sessions.

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MEDS 6457 - Human Systems B

Human Systems (HS) is a 38-week long medical school course taken in the first year of the combined MD/PhD program. The course is divided into four sections: Human Biology, Organ Systems 1, Organ Systems 2 and Organ Systems 3. The course covers the basic elements of human anatomy, histology, biochemistry, physiology and genetics and an introduction to biostatistics and the principles of epidemiology. The instructional format includes about 50% didactic lectures, 30% laboratory and 20% small group sessions.

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MEDS 6460 - Advanced Optical Microscopy and Bio-imaging

This course will cover several aspects of state of the art biological and biophysical imaging. We will focus on advanced techniques including nonlinear optical processes (multi-photon excitation, second harmonic generation, and stimulated Raman processes), as well as optical coherence tomography. 3 lab projects will supplement the lectures, providing hands-on experience with nonlinear optical methods. Special emphasis will be given to current imaging literature and experimental design. Also offered as BME 6460.

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MEDS 6461 - Clinical Radiation Sciences: Physics and Biology (Part A)

A continuous pair (i.e., MEDS 451 and 452) of semester lecture/seminar courses which examines the physical and biological principles underlying the uses of radiation and allied radiation sciences in clinical diagnosis and therapy. Characteristics of imaging systems, Nuclear Medicine, Radiation Therapy, biological effects of ionizing radiation, radiation measurement and dosimetry, and quality assurance will be covered through critical readings in texts and the literature. This course is available to individuals enrolled in residency programs of medical radiology, oral and maxillofacial radiology, and other specialties engaged in patient imaging. Some of these students will be enrolled in a concurrent degree program, either Master of Dental Science or PhD in Biomedical Sciences. The course is also available to individuals in Master’s or PhD level graduate studies who desire an in-depth study of radiation sciences, and how they apply to patient care.

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MEDS 6462 - Clinical Radiation Sciences: Physics and Biology (Part B)

A continuous pair (i.e., MEDS 6461 and 6462) of semester lecture/seminar courses which examines the physical and biological principles underlying the uses of radiation and allied radiation sciences in clinical diagnosis and therapy. Characteristics of imaging systems, Nuclear Medicine, Radiation Therapy, biological effects of ionizing radiation, radiation measurement and dosimetry, and quality assurance will be covered through critical readings in texts and the literature. This course is available to individuals enrolled in residency programs of medical radiology, oral and maxillofacial radiology, and other specialties engaged in patient imaging. Some of these students will be enrolled in a concurrent degree program, either Master of Dental Science or PhD in Biomedical Sciences. The course is also available to individuals in Master’s or PhD level graduate studies who desire an in-depth study of radiation sciences, and how they apply to patient care.

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MEDS 6471 - Physiological Systems I

Designed for engineers or other graduate students without a life sciences background. Contents: introduction to cell structure and function; the cardiovascular, respiratory, and renal/urinary systems; the basics of hematology, and the interactions between these organ systems to transport oxygen and eliminate wastes. Format: didactic session followed by group problem-solving. Course grade will be determined by level of participation in the problem-solving session and by two take-home problem-solving exams. This course is available to all students involved in the BEACON (Biomedical Engineering Alliance for Central Connecticut) program. Also offered as BME 310.

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MEDS 6472 - Physiological Systems II

A problem based learning course that focuses on in-depth coverage of four human organ systems with an engineering perspective. An extensive literature review is required for each topic which culminates in a major report that highlights the engineering standpoint unified mathematically. Case studies are used to develop each topic. Format: didactic session followed by group problem solving. Also offered as BME 6020.

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MEDS 6479 - Chemistry and Biology of Drugs of Abuse

An in-depth interdisciplinary approach to the neurobiology of drug abuse, integrating basic and clinical sciences. Lectures, student presentations of original research reports, and laboratory exercises dealing with methods to measure neurotransmitter transport, ligand binding to receptors and transmitter action on ligand-activated channels.

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MEDS 6495 - Independent Study

A reading course for those wishing to pursue special topics in the biomedical sciences under faculty supervision.

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MEDS 6496 - Laboratory Rotation

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MEDS 6497 - Graduate Seminar

Reading and discussion of recent research developments in various areas of biomedical science.

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MEDS 6498 - Special Topics in Biomedical Science

Special Topics

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