Answer:
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Answer:
They provide minimal friction
A nurse is engaged in primary prevention activities as part of an education plan about heart disease for a client. Explaining the need for regular exercise and stress management activity would be most approximate.
Smoking, high blood pressure, high cholesterol, an unbalanced diet, lack of exercise, and obesity increase the chances of developing various heart problems.
Diabetes and other medical disorders and lifestyle choices can also increase your risk of heart disease. Condition that has an impact on the heart or blood vessels. The arteries that supply blood to the heart contract or stiffen as a result of plaque buildup. This buildup of plaque is referred to as "atherosclerosis. "Blood clots, structural problems, and damaged arteries are all heart diseases. Obesity and overweight. Coronary artery disease is the most prevalent kind of heart disease (CHD).
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Answer:
In an individual with type I diabetes, blood glucose levels are higher than normal after carbohydrate consumption because carbohydrates are broken down directly in to glucose.
Explanation:
This is a problem because individual's with Type I diabetes do not produce insulin. You can think of insulin as the 'key' that opens the 'door' to the cell, so that glucose can enter. If an individual is without proper insulin dosage, then there will be an abundance of unsed glucose. This is because glucose cannot enter the cells.
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Vaccines are the most efficacious means of minimizing the impact of infectious diseases on the human population. The challenges and importance of making vaccines that will meet FDA approval have never been greater. Genomics has the potential to improve the process of vaccine development substantially. Genome sequencing can help to identify genetic patterns related to the virulence of a disease, as well as genetic factors that contribute to immunity or successful vaccine response. All this information could lead to vaccines with better and more specific targets that elicit more successful protective immune responses. Comparing the genome sequences of viruses that cause infection with those that do not may provide additional insights. In turn, genome manipulation can facilitate derivation of attenuated strains or other vehicles for delivery of the desired antigens to stimulate immune response. On the other end of the spectrum, analysis of host diversity can reveal effective immune responses and possibly the genetic basis for inappropriate response. The recent progress in definition of the innate immune system, necessary for acquired response, should facilitate the definition of this host diversity.