Courses tagged with "Nutrition" (139)
This course focuses on conventional technologies for drinking water treatment. Unit processes, involved in the treatment chain, are discussed as well as the physical, chemical and biological processes involved. The emphasis is on the effect of treatment on water quality and the dimensions of the unit processes in the treatment chain. After the course one should be able to recognise the process units, describe their function, and make basic calculations for a preliminary design of a drinking water treatment plant.
The course consists of 4 modules:
- Introduction to drinking water treatment. In this module you learn to describe the important disciplines, schemes and evaluation criteria involved in the design phase.
- Water quality. In this module you learn to identify the drinking water quality parameters to be improved and explain what treatment train or scheme is needed.
- Groundwater treatment. In this module you learn to calculate the dimensions of the groundwater treatment processes and draw groundwater treatment schemes.
- Surface water treatment. In this module you learn to calculate the dimensions of the surface water treatment processes and draw surface water treatment schemes.
This course in combination with the courses "Introduction to Water and Climate" and "Introduction to the Treatment of Urban Sewage" forms the Water XSeries, by DelftX.
LICENSE
The course materials of this course are Copyright Delft University of Technology and are licensed under a Creative Commons Attribution-NonCommercial-ShareAlike (CC-BY-NC-SA) 4.0 International License.
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 course will cover many aspects of equine nutrition ranging from anatomy and physiology of the gastrointestinal tract to dietary management of horses/ponies affected with nutrition-related disorders. This is course is designed for self-directed study with minimal tutor input, and as such emphasis is placed upon peer discussions of the topics presented in each section of the course. This course is not designed to have a large amount of tutor input as this is an open access course that attracts tens of thousands of participants. However, tutors will endeavour to answer the main queries relating to the understanding of the lecture materials and to provide a summary of the key questions raised in each of the weekly topics and clarification of any misunderstandings.
This course will provide an introduction to the scientific, statistical, and ethical aspects of clinical trials research. Topics include the design, implementation, and analysis of trials, including first-in-human studies (dose-finding, safety, proof of concept, and Phase I), Phase II, Phase III, and Phase IV studies. All aspects of the development of a study protocol will be addressed, including criteria for the selection of participants, treatments, and endpoints, randomization procedures, sample size determination, data analysis, and study interpretation. The ethical issues that arise at each phase of therapy development will be explored.
This course contains 12 modules. The modules will be released Monday of each week, with the exception of some holiday weeks. Most students should plan to spend 4 – 6 hours on each module. Students will have until February 14, 2014 to earn a HarvardX certificate.
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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.
In this class you will learn how drugs affect the body, how they alter disease processes and how they might produce toxicity. We will discuss how new drugs are tested and developed prior to them being used for patient care. We will describe how personalization of medicine will become a common day reality in patient care.
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