Courses tagged with "Multiplying+and+factoring+expressions" (81)
This course explores why primary health care is central for achieving Health for All. It provides examples of how primary health care has been instrumental in approaching this goal in selected populations and how the principles of primary health care can guide future policies and actions.
Quantitative Methods in Clinical and Public Health Research is the online adaptation of material from the Harvard T.H. Chan School of Public Health's classes in epidemiology and biostatistics. Principled investigations to monitor and thus improve the health of individuals are firmly based on a sound understanding of modern quantitative methods. This involves the ability to discover patterns and extract knowledge from health data on a sample of individuals and then to infer, with measured uncertainty, the unobserved population characteristics. This course will address this need by covering the principles of biostatistics and epidemiology used for public health and clinical research. These include outcomes measurement, measures of associations between outcomes and their determinants, study design options, bias and confounding, probability and diagnostic tests, confidence intervals and hypothesis testing, power and sample size determinations, life tables and survival methods, regression methods (both, linear and logistic), and sample survey techniques. Students will analyze sample data sets to acquire knowledge of appropriate computer software. By the end of the course the successful student should have attained a sound understanding of these methods and a solid foundation for further study.
FAQ
How much does it cost to take the course?
Nothing! The course is free.
When will assignments be due?
The course is organized into weeks, and each week will have its own set of assignments. Students will be expected to complete their homework each week.
Do I need any other materials to take the course?
Nope, as long as you’ve got a Mac or PC, you’ll be ready to take the course.
Will the course use any textbooks or software?
Yes! We'll have free access to the book "Principles of Biostatistics" written by Marcello Pagano (one of the Professors) and Kimberlee Gauvreau.
In addition to the textbook, we'll use Stata (a piece of software for doing statistical analysis).
Thanks to our friends at Statacorp, we'll have free copies of Stata available for all students to use for the duration of the course (Mac and PC only).
Do I need to watch the lectures live?
No. You can watch the lectures at your leisure.
Will certificates be awarded?
Yes. Online learners who achieve a passing grade in a course can earn a certificate of achievement. These certificates will indicate you have successfully completed the course, but will not include a specific grade. Certificates will be issued by edX under the name of either HarvardX, MITx or BerkeleyX, designating the institution from which the course originated. For the courses in Fall 2012, honor code certificates will be free.
HarvardX requires individuals who enroll in its courses on edX to abide by the terms of the edX honor code : https://www.edx.org/edx-terms-service. HarvardX will take appropriate corrective action in response to violations of the edX honor code, which may include dismissal from the HarvardX course; revocation of any certificates received for the HarvardX course; or other remedies as circumstances warrant. No refunds will be issued in the case of corrective action for such violations. Enrollees who are taking HarvardX courses as part of another program will also be governed by the academic policies of those programs.
HarvardX pursues the science of learning. By registering as an online learner in an HX course, you will also participate in research about learning. Read our research statement : http://harvardx.harvard.edu/research-statement to learn more.
Harvard University and HarvardX are committed to maintaining a safe and healthy educational and work environment in which no member of the community is excluded from participation in, denied the benefits of, or subjected to discrimination or harassment in our program. All members of the HarvardX community are expected to abide by Harvard policies on nondiscrimination, including sexual harassment, and the edX Terms of Service. If you have any questions or concerns, please contact harvardx@harvard.edu and/or report your experience through the edX contact form : https://www.edx.org/contact-us.
This course provides those involved in educating members of the health professions an asynchronous, interdisciplinary, and interactive way to obtain, expand, and improve their teaching skills. These skills can then be applied within their own professional context, with a variety of learners, extending across many stages.
Imaging technologies form a significant component of the health budgets of all developed economies, and most people need advanced imaging such as MRIs, X-Rays and CT Scans (or CAT Scans) during their life. Many of us are aware of the misinformation sometimes offered in TV dramas, which either exaggerates the benefits or overemphasizes the risks.
This medical imaging course provides an introduction to biomedical imaging and modern imaging modalities. The course also covers the basic scientific principals behind each modality, and introduces some of the key applications, from neurological diseases to cancers. This course includes modules specially designed for the general public, whilst also providing some advanced modules which could contribute to professional development in health, engineering and IT industries.
Health professionals and students, family caregivers, friends of and affected individuals, and others interested in learning about dementia and quality care will benefit from completing the course. Led by Drs. Nancy Hodgson and Laura Gitlin, participants will acquire foundational knowledge in the care of persons with Alzheimer’s Disease and other neurocognitive disorders in this 5-week course.
The major objective of this sequence is for the students to gain an understanding of the structure and function of the cardiovascular and respiratory systems through lectures, laboratory exercises, patient presentation and small group conferences. Level: First Year Medical Students Unless otherwise noted, this Work, Cardiovascular / Respiratory, by Louis D'Alecy is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike license.
This sequence provides an overview of the biochemical basis of cellular structure and function; the anabolic and catabolic processes involved in energy utilization; and cellular communication. The hierarchical organization of cellular components are discussed in terms of the structure and function of the four macromolecules: protein, lipid, carbohydrate, and nucleic acids. Level: First Year Medical Students Unless otherwise noted, this Work, Cells and Tissues, by Audrey Seasholtz, Ph.D. is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike license.
The neuroscience sequence is foundational in nature and stresses the organizational principles and structure/function relationships in the central nervous system. The course emphasizes the relationship between the gross organization of the Central Nervous System (CNS), its subdivision into specialized regions and the corresponding perceptions of sensory information and the nervous system control of behavior. The cell biology of the neuron, neurotransmitter systems and neuronal injury and repair are also emphasized. Level: First Year Medical Students Unless otherwise noted this Work, Central Nervous System / Head & Neck, by Peter Hitchcock is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike license.
The major objective of this sequence is to present the structure and function of the digestive system. The sequence will cover three topic areas related to digestion: 1) the actual process of digestive function and its regulations, 2) metabolic interactions, and 3) pharmacology and pharmacokinetics of drug absorption and metabolism. Level: First Year Medical Students Unless otherwise noted this Work, Gastrointestinal & Liver, by Matthew Velkey is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike license.
This course addresses essential learning outcomes in normal growth, development and nutrition across the lifespan, inclusive of aging. Its focus is on normal function rather than disease. Level: First Year Medical Students Unless otherwise noted this Work, Human Growth and Development, by Brent Williams is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike license.
The Patients and Populations sequence focuses on genetics, principles of disease, epidemiology, information gathering and assessment. The sequence features two modules: Medical Genetics and Medical Decision-Making. In this module, students will: Construct well-defined clinical questions from case scenarios, designed to improve general knowledge about a topic, and to help make decisions regarding the use of diagnostic tests. Understand the differences between foreground and background questions and the implications for the types of information resources best suited to answer these questions. Become familiar with the U-M information environment, and learn to effectively search several core biomedical resources to answer specific clinical questions. Develop an understanding of the basic foundations of biostatistics, research design and epidemiology to begin to apply scientific data to the understanding of clinical conditions. Effectively and logically apply probabilistic reasoning to diagnostic questions that arise in patient case scenarios. Level: First Year Medical Students Unless otherwise noted, this Work, Patients and Populations: Medical Decision-Making, by Rajesh Mangrulkar, Stephen Gruber is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike license.
The Patients and Populations sequence focuses on genetics, principles of disease, epidemiology, information gathering and assessment. The sequence features two modules: Medical Genetics and Medical Decision-Making. The growing awareness of the central role of genetic factors in the causation of human disease has made genetics one of the most rapidly developing fields in medicine. Much of this progress has been propelled by advances in the area of molecular genetics and genomics, advances that, in turn, have been applied directly to the diagnosis and management of disease. The objective of this course is to present the basic principles of medical genetics and their application to clinical medicine, with the intent of providing students the necessary background to understand ongoing developments in genetics and their application to clinical problems. The elucidation of the human genome, and the genomes of multiple other organisms, will change the way medicine is practiced. In order for physicians to understand these developments and utilize them for the benefits of their patients, they will have to be conversant with molecular genetic technologies and the technologies for acquiring, organizing, and interpreting new information. Level: First Year Medical Students Unless otherwise noted, this Work, Patients and Populations: Medical Genetics, by Thomas D. Gelehrter is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike license.
This sequence addresses the various structural components in the kidney are specialized for processing of the filtrate and production of urine. It also covers homeostatic mechanisms involved in the control and regulation of fluid, electrolyte and acid-base balance, as well as metabolic processes in eliminating nitrogenous waste such as urea and uric acid. Level: First Year Medical Students Unless otherwise noted this Work, Renal, by Tamara Stein is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike license.
This sequence provides a comprehensive introduction to diseases of the cardiovascular system, how they present, how they are diagnosed, how they are prevented, and how they are treated. Students learn to identify the integral links between anatomy, physiology, pathology, and basic sciences with clinical medicine and other essential aspects of patient care for ambulatory and hospitalized patients who have cardiovascular disorders. Level: Second Year Medical Students Unless otherwise noted this Work, Cardiovascular, by Kim A. Eagle, Ph.D. is licensed under a Creative Commons Attribution-ShareAlike license.
This sequence's activities have been designed to correlate basic science with clinical dermatologic phenomena. Dermatology as a clinical specialty is very visual, and accordingly, students will be exposed to images of real skin diseases and findings. Level: Second Year Medical Students Unless otherwise noted this Work, Dermatology, by Regents of the University of Michigan is licensed under a Creative Commons Attribution license.
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