Online courses directory (19947)
In this class we will come to understand the vast changes in Spanish life that have taken place since Franco's death in 1975. We will focus on the new freedom from censorship, the re-emergence of movements for regional autonomy, the new cinema, reforms in education and changes in daily life: sex roles, work, and family that have occurred in the last decade. In so doing, we will examine myths that are often considered commonplaces when describing Spain and its people.
This course provides an introduction to the language and culture of the Portuguese-speaking world, with special attention to Brazilian Portuguese. This course focuses are on basic oral expression, listening comprehension, and elementary reading and writing. Students develop their vocabulary and understanding of grammatical concepts through active communication. This is a coordinated language lab program and is designed for students with no knowledge of Portuguese. Class is conducted entirely in Portuguese.
This course is a collaborative offering of Sana, Partners in Health, and the Institute for Healthcare Improvement (IHI). The goal of this course is the development of innovations in information systems for developing countries that will (1) translate into improvement in health outcomes, (2) strengthen the existing organizational infrastructure, and (3) create a collaborative ecosystem to maximize the value of these innovations. The course will be taught by guest speakers who are internationally recognized experts in the field and who, with their operational experiences, will outline the challenges they faced and detail how these were addressed.
This course covers the growth, development and structure of normal bone and joints, the biomechanics of bone connective tissues, and their response to stress, calcium and phosphate homeostasis. Additional topics include regulation by parathyroid hormone and vitamin D, the pathogenesis of metabolic bone diseases and diseases of connective tissues, joints and muscle with consideration of possible mechanisms and underlying metabolic derangements.
Lecturers
Dr. Paul Joseph Anderson
Dr. Robert Horatio Brown, Jr.
Dr. Marie Demay
Dr. Stephen Martin Krane
Dr. Young-Jo Kim
Dr. Henry Jay Mankin
Dr. Bjorn Reino Olsen
Dr. John Thomas Potts
Dr. Alan Lewis Schiller
Dr. Brian Dale Snyder
This course provides a comprehensive overview of human pathology with emphasis on mechanisms of disease and diagnostic medicine. Topics include:
- Cellular Mechanisms of Disease
- Molecular Pathology
- Pathology of Major Organ Systems
- Review of Diagnostic Tools from Traditional Surgical Pathology to Diagnostic Spectroscopy
- Functional and Molecular Imaging
- Molecular Diagnostics
In addition to lectures, one of the two weekly sessions includes a 2-3 hour laboratory component. Periodically, time will also be devoted to minicases.
Lecturers
Prof. Jon Aster
Prof. Frederick Bieber
Prof. Carlo Brugnara
Prof. Robert B. Colvin
Prof. Christopher Crum
Prof. Douglas Dockery
Prof. Mel Feany
Prof. Michael Feld
Prof. Jonathan Fletcher
Prof. Michael Gimbrone
Prof. Todd Golub
This course is designed to give the student a clear understanding of the pathophysiology of the menstrual cycle, fertilization, implantation, ovum growth development, differentiation and associated abnormalities. Disorders of fetal development including the principles of teratology and the mechanism of normal and abnormal parturition will be covered as well as the pathophysiology of the breast and disorders of lactation. Fetal asphyxia and its consequences will be reviewed with emphasis on the technology currently available for its detection. In addition the conclusion of the reproductive cycle, menopause, and the use of hormonal replacement will be covered.
The most recent knowledge of the anatomy, physiology, biochemistry, biophysics, and bioengineering of the gastrointestinal tract and the associated pancreatic, liver and biliary tract systems is presented and discussed. Gross and microscopic pathology and the clinical aspects of important gastroenterological diseases are then presented, with emphasis on integrating the molecular, cellular and pathophysiological aspects of the disease processes to their related symptoms and signs.
The course will span modern neuroscience from molecular neurobiology to perception and cognition, including the following major topics: anatomy and development of the brain; cell biology of neurons and glia; ion channels and electrical signaling; synaptic transmission, integration, and chemical systems of the brain; sensory systems, from transduction to perception; motor systems; and higher brain functions dealing with memory, language, and affective disorders.
This course provides a foundation for understanding the relationship between molecular biology, developmental biology, genetics, genomics, bioinformatics, and medicine. It develops explicit connections between basic research, medical understanding, and the perspective of patients. Principles of human genetics are reviewed. We translate clinical understanding into analysis at the level of the gene, chromosome and molecule; we cover the concepts and techniques of molecular biology and genomics, and the strategies and methods of genetic analysis, including an introduction to bioinformatics. Material in the course extends beyond basic principles to current research activity in human genetics.
Statistical Physics in Biology is a survey of problems at the interface of statistical physics and modern biology. Topics include: bioinformatic methods for extracting information content of DNA; gene finding, sequence comparison, and phylogenetic trees; physical interactions responsible for structure of biopolymers; DNA double helix, secondary structure of RNA, and elements of protein folding; considerations of force, motion, and packaging; protein motors, membranes. We also look at collective behavior of biological elements, cellular networks, neural networks, and evolution.
The object of the course is to teach students an approach to the study of pharmacologic agents. It is not intended to be a review of the pharmacopoeia. The focus is on the basic principles of biophysics, biochemistry and physiology, as related to the mechanisms of drug action, biodistribution and metabolism. The course consists of lectures and student-led case discussions. Topics covered include: mechanisms of drug action, dose-response relations, pharmacokinetics, drug delivery systems, drug metabolism, toxicity of pharmacological agents, drug interaction and substance abuse. Selected agents and classes of agents are examined in detail.
Lecturers
Prof. Keith Baker
Dr. Mark Dershwitz
Harold Demonaco
Dr. Daniel Kohane
Dr. Donald Kufe
Prof. Robert Langer
Dr. Robert Lees
Dr. Robert Rubin
Dr. Jeremy Ruskin
Prof. Thomas Spitzer
Prof. Carol Walsh
Dr. Michael Weinblatt
Dr. Warren Zapol
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This seminar based course explores techniques for recognizing, analyzing, and resolving ethical dilemmas facing healthcare professionals and biomedical researchers in today's highly regulated environment. Guest lectures by practicing clinicians, technologists, researchers, and regulators will include case studies, interactive small group discussions, and role-playing simulations. Professional conduct topics will include authorship, conflict of interest, data acquisition and management, and the protection of human subjects and animals involved in research programs.
This course covers cells and tissues of the immune system, lymphocyte development, the structure and function of antigen receptors, the cell biology of antigen processing and presentation, including molecular structure and assembly of MHC molecules, the biology of cytokines, leukocyte-endothelial interactions, and the pathogenesis of immunologically mediated diseases. The course is structured as a series of lectures and tutorials in which clinical cases are discussed with faculty tutors.
Lecturers
Frederick W. Alt
Marcus Altfeld
Paul Anderson
Jon C. Aster
Hugh Auchincloss
Steven P. Balk
Samuel M. Behar
Richard S. Blumberg
Francisco Bonilla
Bobby Cherayil
Benjamin Davis
David Hafler
Nir Harcohen
Bruce Horwitz
David M. Lee
Andrew Lichtman
Diane Mathis
Richard Mitchell
Hidde Ploegh
Emmett Schmidt
Arlene Sharpe
Megan Sykes
Shannon Turley
Dale T. Umetsu
Ulrich von Andrian
Bruce Walker
Kai Wucherpfennig
Ramnik Xavier
Sarah Henrickson