This Science NetLinks lesson is intended for a high-school, introductory chemistry class or health class. The lesson begins with an article on the history of the development of aspirin. Students will then complete a lab that compares the reaction of regular aspirin, buffered aspirin, and enteric aspirin in neutral, acidic, and basic solutions. They will then analyze the results of the experiment to gain insight into how this information was used by researchers to solve some of the problems associated with aspirin. To complete the lesson, students must understand acids and bases.
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The course consists of lectures, readings, discussions, panels of guest speakers, group and individual projects. The purpose of the lectures, readings, discussion and panels of guest speakers is to explore a variety of aspects of adolescence and adolescent health. The group and individual projects are meant to help students develop skills to work in multi-disciplinary teams and analyze adolescent health concerns through conceptual frameworks and recommend effective solutions through interventions.
This short commentary about the African Health OER Network was published by the African Journal of Health Professions Education, December 2010, Vol. 2, No. 2.
In this unit, students learn about the form and function of the human heart through lecture, research and dissection. Following the steps of the Legacy Cycle, students brainstorm, research, design and present viable solutions to various heart conditions as presented through a unit challenge. Additionally, students study how heart valves work and investigate how faulty valves can be replaced with new ones through advancements in engineering and technology. This unit demonstrates to students how and why the heart is such a powerful organ in our bodies
This presentation aims to increase the students’ knowledge about environmental epidemiology, by introducing different study designs used to study health effects of exposure to outdoor air pollution. All study designs are illustrated by examples, starting with the Great Smog (Killer Fog) of London in 1952, one of the landmarks in environmental epidemiology.
Nearly one third of the world’s population are exposed to high levels of indoor air pollution from the household’s use of solid fuel. The fuel is mainly biomass burning under poor combustion conditions
in open fires or primitive stoves and with low ventilation. This costs more than 4 million lives every year and enormous suffering in particular among women and children.
What is air pollution? What is it in the air that is harmful? This lecture focuses on air pollution, where it occur, and how it spread.
In this presentation, we will describe the global levels and trends in major air pollutants and related health burden. Air pollution is an important global risk factor for disease. People who live in more polluted areas develop more often chronic and infectious disease and die prematurely as compared to people living in areas with low air pollution.
In large part of the World, people spend more than 90 percent of the time in indoor environments, where air quality is important for health. The environment outside the building, what goes on inside the building and the exchange of air pollutants affects the indoor air. Tight buildings can reduce energy consumption and entry of outdoor air pollutants, but unless ventilation is right indoor air pollutants from combustion processes, dampness, microbes, the dwellers bio effluents,
appliances, care and cleaning products, clothing, furniture, building materials, the underground and many other sources will build up indoors causing important health effects.
In this presentation, we will discuss how we can know whether one individual is more susceptible to harmful effect of air pollution than others are. Everyone is exposed, but some groups may be more susceptible to the harmful effect of air pollution than others may.
In this lecture, we will describe the mechanisms by which air pollution causes pulmonary health effects in the human population. The pulmonary health effects include exacerbation of asthma and chronic obstructive pulmonary diseases (COPD), increased risk of lower
respiratory tracts infections and lung cancer.
In this presentation, we will describe the mechanisms by which air pollution causes health effects in other parts of the body than the lungs. In continuation of this, we will discuss the important mechanisms of extra pulmonary health effect.
There is a long way before the whole world complies with the WHO guidelines for air quality, but the enormous burden of disease from outdoor air pollution forces us to increase action to come as far as possible. In continuation of this, we will discuss what we can do about air pollution at global, international, national, city and individual levels. Most of the actions to reduce air pollution also mitigates climate change and/or promote health in other ways – so there are many win-win and
What impact does alcohol have on the body? From a"hangover' to cirrhosis this unit looks at the harmful effects of alcohol both in the short and long term.
Students will be able to recount events that have happened to them using vocabulary about health and body parts. Students will learn to discuss injuries, illness, and medical related events. Students will also learn more about insurance and medical costs.
This module discusses global climate change that is occurring largely because of greenhouse gases emitted by human activities, and in particular the impact that tropical deforestation plays in the climate system. It also covers signs of climate change, the current thinking on future changes, and international agreements that are attempting to minimize the effects of climate change. The United Nations Collaborative Programme on Reducing Emissions from Deforestation and Forest Degradation in Developing Countries (UN-REDD Programme) is also discussed.
The Maryland State Department of Education is working to prevent the misuse and abuse of opioids. This is a student-centered lesson for the 9-12 grade band. This lesson can be modified or remixed to meet the needs of the students you teach. The content of this lesson includes students identifying and analyzing influences that could lead to drug use. Students are then tasked with forming strategies to overcome factors and influences that could lead to drug use.
You probably have a general understanding of how your body works. But do you fully comprehend how all of the intricate functions and systems of the human body work together to keep you healthy? This course will provide that insight. By approaching the study of the body in an organized way, you will be able to connect what you learn about anatomy and physiology to what you already know about your own body.
By taking this course, you will begin to think and speak in the language of the domain while integrating the knowledge you gain about anatomy to support explanations of physiological phenomenon. The course focuses on a few themes that, when taken together, provide a full view of what the human body is capable of and of the exciting processes going on inside of it.
Topics covered include: Structure and Function, Homeostasis, Levels of Organization, and Integration of Systems.
Note: This free course requires registration
This lab activity will not only draw on students' real life experiences but will also draw on student's previous lab experiences in proper laboratory techniques and data analysis performed in previous activities. The lab will incorporate the use of scientific inquiry methods and strategies while students develop reasonable answers to the questions asked.
The Maryland State Department of Education is working to prevent the misuse and abuse of opioids. This is a student-centered lesson for the K-2 grade band. This lesson can be modified or remixed to meet the needs of the students you teach. The content of this lesson includes teaching students the ground rules for taking medicine as well as having student identify under what circumstances they should be taking medicine.
In this simulation of a doctor's office, students play the roles of physician, nurse, patients, and time-keeper, with the objective to improve the patient waiting time. They collect and graph data as part of their analysis. This serves as a hands-on example of using engineering principles and engineering design approaches (such as models and simulations) to research, analyze, test and improve processes.
In this inquiry activity, students generate investigable questions to explore the link between hygiene/cleanliness and bacteria growth/population. The students will present their conclusions, and video clips containing additional information will be discussed.
- Material Type:
- Science Education Resource Center (SERC) at Carleton College
- Provider Set:
- Pedagogy in Action
- Krista Keller
- Date Added:
The PLOS Medicine series on Big Food aims to examine and stimulate debate about the activities and influence of the food industry in global health. We define Big Food as the multinational food and beverage industry with huge and concentrated market power. The series adopts a multi-disciplinary approach and includes critical perspectives from around the world. It represents one of first times such issues have been examined in the general medical literature.
Human beings are fascinating and complex living organisms a symphony of different functional systems working in concert. Through a 10-lesson series with hands-on activities students are introduced to seven systems of the human body skeletal, muscular, circulatory, respiratory, digestive, sensory, and reproductive as well as genetics. At every stage, they are also introduced to engineers' creative, real-world involvement in caring for the human body.
How can you tell if harmful bacteria are in your food or water that might make you sick? What you eat or drink can be contaminated with bacteria, viruses, parasites and toxins—pathogens that can be harmful or even fatal. Students learn which contaminants have the greatest health risks and how they enter the food supply. While food supply contaminants can be identified from cultures grown in labs, bioengineers are creating technologies to make the detection of contaminated food quicker, easier and more effective.
Students are introduced to the circulatory system with an emphasis on the blood clotting process, including coagulation and the formation and degradation of polymers through their underlying atomic properties. They learn about the medical emergency of strokes the loss of brain function commonly due to blood clots including various causes and the different effects depending on the brain location, as well as blood clot removal devices designed by biomedical engineers.
Students study how heart valves work and investigate how valves that become faulty over time can be replaced with advancements in engineering and technology. Learning about the flow of blood through the heart, students are able to fully understand how and why the heart is such a powerful organ in our bodies.
'Blue marble health' is a recent concept that recognizes a paradoxical disease burden among poor people living in G20 and other wealthier countries. Socioeconomic disparities caused by income, ethnicity and relative poverty constitute a major and growing determinant of health to at-risk populations regardless of the average income of their country of residence. Neglected Tropical Diseases found among poor people in wealthy countries contribute substantially to health disparities, whilst non-communicable diseases, such as diabetes and coronary artery disease, urgently require action as increasingly prevalent causes of illness and death in lower-and middle-income countries.
Students examine an image produced by a cabinet x-ray system to determine if it is a quality bone mineral density image. They write in their journals about what they need to know to be able to make this judgment. Students learn about what bone mineral density is, how a BMD image can be obtained, and how it is related to the x-ray field. Students examine the process used to obtain a BMD image and how this process is related to mathematics, primarily through logarithmic functions. They study the relationship between logarithms and exponents, the properties of logarithms, common and natural logarithms, solving exponential equations and Beer's law.
Africa is a vast continent and neurological disorders are a common cause of disability and death. This practical neurology textbook is specifically written for Sub-Saharan Africa by Dr. William Howlett.
In this listening comprehension exercise, students of intermediate level French language listen to a podcast interview and complete a questionnaire to check their listening comprehension and enlarge their vocabulary on health topics.
In this lesson, the students look at the components of cells and their functions. The lesson focuses on the difference between prokaryotic and eukaryotic cells. Each part of the cell performs a specific function that is vital for the cell's survival. Bacteria are single-celled organisms that are very important to engineers. Engineers can use bacteria to break down toxic materials in a process called bioremediation, and they can also kill or disable harmful bacteria through disinfection.
This is a course for those who are interested in the challenge posed by massive and persistent world poverty, and are hopeful that economists might have something useful to say about this challenge. The questions we will take up include: Is extreme poverty a thing of the past? What is economic life like when living under a dollar per day? Why do some countries grow fast and others fall further behind? Does growth help the poor? Are famines unavoidable? How can we end child labor - or should we? How do we make schools work for poor citizens? How do we deal with the disease burden? Is micro finance invaluable or overrated? Without property rights, is life destined to be "nasty, brutish and short"? Has globalization been good to the poor? Should we leave economic development to the market? Should we leave economic development to non-governmental organizations (NGOs)? Does foreign aid help or hinder? Where is the best place to intervene?
This course addresses the challenges of defining a relationship between exposure to environmental chemicals and human disease. Course topics include epidemiological approaches to understanding disease causation; biostatistical methods; evaluation of human exposure to chemicals, and their internal distribution, metabolism, reactions with cellular components, and biological effects; and qualitative and quantitative health risk assessment methods used in the U.S. as bases for regulatory decision-making. Throughout the term, students consider case studies of local and national interest.
In this course we will explore the new emerging field of pathogen-induced chronic diseases. Work in this field has redefined the causes of some major disorders, such as ulcers. By reading the primary research literature we will learn about the molecular mechanisms through which pathogens cause disease. The diseases that we cover will be introduced with a short patient case study. We will discuss the bacterium Helicobacter pylori and gastric disease, HPV and cervical cancer, hepatitis C virus and liver disease, Epstein-Barr virus and lymphoma, Cytomegalovirus and atherosclerosis, as well as diabetes and multiple sclerosis. We will study technical advances in the fight against microbes and explore future directions for new treatment strategies of chronic infections and inflammation. This course is one of many Advanced Undergraduate Seminars offered by the Biology Department at MIT. These seminars are tailored for students with an interest in using primary research literature to discuss and learn about current biological research in a highly interactive setting. Many instructors of the Advanced Undergraduate Seminars are postdoctoral scientists with a strong interest in teaching.
Following the steps of the engineering design process and acting as biomedical engineers, student teams use everyday materials to design and develop devices and approaches to unclog blood vessels. Through this open-ended design project, they learn about the circulatory system, biomedical engineering, and conditions that lead to heart attacks and strokes.
The draft review examines the link between climate change and health with special reference to the Southern African region SADC countries It attempts to set the scene for determining pertinent research priorities in the region to contribute to knowledge on the one hand and for identification implementation and evaluation of adaptation interventions that are likely to be appropriate and effective in the region This review has been conducted by Strategic Evaluation Advisory and Development Consulting SEAD a health consultancy together with the COEHR and is part of the Regional Climate Change Programme RCPP led by One World Sustainable Investments
Incredible phenomena are happening in your body all the time. But have you ever stopped to think about what keeps you breathing, how information travels from your senses to your brain instantly, or any of the other amazing things that constantly happen to keep you alive? Now you can jump inside the human body and participate in these physiological processes to help Fred outrun danger in the woods.
In Code Fred: Survival Mode, you'll play mini-games to send adrenaline to help Fred run faster, build a blood clot to help heal a wolf bite, prioritize energy intake to the most critical organs, and even fight bacteria invaders after Fred gets sneezed on in the woods. Each mini-game helps Fred run a little farther toward safety. Lose one of these challenges, and Fred's body won't be leaving the woods.
The content presented here provides module information, teaching materials and assessment details for module B74GA5 ‘Complex Health Needs 2: Adult’. This module is offered as part of the Post Graduate Diploma in Nursing Studies, Division of Nursing, University of Nottingham.
The content presented throughout includes module descriptions, lecture notes, workshop notes, case studies, clinical skills and reading lists provided to postgraduate students at the University of Nottingham.