Courses tagged with "Biology & Life Sciences" (33)
Abortion is a common experience for women around the world; yet, abortion is often excluded from the curricula of health professionals. This course, geared toward clinicians, health care workers, and students, aims to address this gap and will contextualize abortion care within a public health framework from both clinical and social perspectives.
This course will discuss HIV/AIDS in the US and around the world including its history, science, and culture as well as developments in behavioral and biomedical prevention, experimental AIDS vaccines, and clinical care issues. The course will also include a discussion of the populations that are particularly vulnerable to HIV/AIDS and a look at future challenges facing people infected and affected by the AIDS pandemic.
This course will survey fundamental principles of cognitive and behavioral neurology. The emphasis of the course will be on the neural mechanisms underlying aspects of cognition and on diseases that affect intellect and behavior. No prior background in neurology, medicine, or neuroscience is required.
Learn how advances in biomedicine hold the potential to revolutionize drug development, drug treatments, and disease prevention: where are we now, and what does the future hold? This course is intended for healthcare providers 5+ years out of training--a lot has changed!! Other providers, medical/health sciences students, and members of the public may also be interested.
This course will review challenges for maternal and newborn health in the developing world, where a great many women and babies are suffering from complications during pregnancy, childbirth, and the days following birth. Themes covered include the epidemiology of maternal and newborn mortality and morbidity, relevant issues for the global health workforce, community-based interventions to improve maternal and newborn health and survival, and sociocultural dynamics surrounding birth.
This course is geared towards starting undergraduate students. A solid background in biology will be helpful but not absolutely essential. The material will be of interest to those who are pursuing a career in any of the life sciences as well as anyone who has run up against their biological clock.
Diabetes is a growing health problem in rich and poor countries alike. With this course you will get updated on cutting-edge diabetes research including biological, genetic and clinical aspects as well as prevention and epidemiology of diabetes. All provided by high-profile scientists from one the world's leading universities in diabetes research.
Students will learn the process of drug discovery and development through specific examples of case studies to better understand the issues facing the challenges of delivering a new drug on the market. At the completion of this course you will be able to have a better understanding of how a small or large molecule becomes a pharmaceutical drug.
Each mammalian cell has the same genes, yet performs distinct functions. This is achieved by epigenetic control of gene expression; the switching on and switching off of genes. This course will cover the principles of epigenetic control of gene expression, how epigenetic control contributes to cellular differentiation and development, and how it goes wrong in disease.
This introductory course provides an overview of the principles of nutritional science. Subject matter includes description and functions of nutrients, digestion and absorption, effects of nutrient deficiencies and toxicities, requirements, food sources, nutrient interactions, dietary guidelines, and the role of nutrition in health and disease.
When you're sick, you may wonder, "Why me?" But the real question should be, "Why am I not sick all the time?" You might even ask, "Why does my body respond with a fever, and is it really a good idea to lower it?" This course explores immunology, how the body defends itself from constant assault by parasites and pathogens. This course will present the fundamentals of both innate and adaptive immunity, emphasizing functional interactions among cells and organs. We will cover signaling, pathogen recognition and the division of labor among myeloid, lymphoid and supporting cells. The subject matter will also supply health professionals and biomedical researchers with the basic vocabulary and concepts necessary to understand both clinical press releases and primary literature. The course materials also provide support to other immunology instructors by presenting difficult concepts in creative ways using analogies and models.
The immune system plays a fascinating and vital role in the human body, recognizing outside threats and protecting our bodies against disease. This introductory immunology courses will help you understand the interactions of the immune system, and the jargon scientists use to describe immune function.
This is the second of a two-part course. In the first part we learned about innate immunity and B cell function. This second part covers T cell function and coordination of the immune response.
This immunology course surveys the cells of the immune system and describes how they talk to each other, receive information from the rest of the body and coordinate your defenses.
By presenting complex concepts in innovative, easy-to-understand ways, this course provides a solid introduction to how our immune system keeps us healthy.
While the advances in genomics promise to usher a new era in medical practice and create a major paradigm shift in patient care, the ethical, legal and social impact of genomic medicine will be equally significant. The information and potential use of genomic discoveries are no longer issues left for scientists and medical professionals to handle, but have become ones for the public at large. Rarely a day passes without a genomics-related story reported in the media. By the end of this course, students will be able to better understand the field of genomics; be familiar with various online databases and resources; and understand and appreciate the medical, social, ethical, and legal issues associated with the availability of personal genomic information.
Given the diversity of the topics and the specific expertise required to cover each, this is a unique cross-disciplinary course where faculty from different disciplines including genetics, computational sciences, bioinformatics, genetic counseling, bioethics, law, and business will participate in lecturing. We have assembled a team of experts from various departments at Georgetown University and other institutions, to teach this comprehensive online genomics course.
For a detailed description of the weekly topics, see the course outline.
This introductory global health course aims to frame global health's collection of problems and actions within a particular biosocial perspective. It develops a toolkit of interdisciplinary analytical approaches and uses them to examine historical and contemporary global health initiatives with careful attention to a critical sociology of knowledge. Four physician-anthropologists - Paul Farmer, Arthur Kleinman, Anne Becker, and Salmaan Keshavjee - draw on experience working in Asia, Africa, Eastern Europe, and the Americas to investigate what the field of global health comprises, how global health problems are defined and constructed, and how global health interventions play out in both expected and unexpected ways.
The course seeks to inspire and teach the following principles:
A global awareness. This course aims to enable learners to recognize the role of distinctive traditions, governments, and histories in shaping health and well being. In addition, rather than framing a faceless mass of poor populations as the subject of global health initiatives, the course uses ethnographies and case studies to situate global health problems in relation to the lives of individuals, families, and communities.
A foundation in social and historical analysis. The course demonstrates the value of social theory and historical analysis in understanding health and illness at individual and societal levels.
An ethical engagement. Throughout the course, learners will be asked to critically evaluate the ethical frameworks that have underpinned historical and contemporary engagement in global health. Learners will be pushed to consider the moral questions of inequality and suffering as well as to critically evaluate various ethical frameworks that motivate and structure attempts to redress these inequities.
A sense of inspiration and possibility. While the overwhelming challenges of global health could all too easily engender cynicism, passivity, and helplessness, learners will observe that no matter how complex the field of global health and no matter how steep the challenges, it is possible to design, implement, and foster programs and policies that make enormous positive change in the lives of the world’s poorest and suffering people.
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