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Process of blood glucose regulation
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Diabetes is a metabolic disease that affects around 29 million Americans currently. It affects the process of managing blood glucose levels and despite the many different ways to manage diabetes, there is no known cure. However, diabetes doesn’t only affect one's metabolism, but their eating habits and sexual health as well.
The metabolic process to manage blood glucose levels starts with the consumption of food and the glucose entering the bloodstream. Once the level of glucose in the bloodstream is detected, the pancreas responds by releasing insulin into the bloodstream which allows the glucose to be accepted into the body cells. Insulin also allows excess glucose to be stored in the liver where it is turned into glycogen. If the blood
According WebMD 2014. Diabetes mellitus (or diabetes) is a chronic, lifelong condition that affects your body's ability to use the energy found in food. There are three major types of diabetes. Type 1 diabetes mellitus, type 2 diabetes mellitus and gestational diabetes. It is a hormonal disorder of the pancreas either decrease in insulin level also known as hypoinsulinism or increase in insulin level also known as hyperinsulinism. Lowered amounts, insufficient of, or ineffective use of insulin leads to the disorder of diabetes mellitus. It is common chronic disease requiring lifelong behavioral and lifestyle changes. According to Peakman (2012). The development of type 1 diabetes mellitus is a genetic and an autoimmune process that results in destruction of the beta cells of the pancreas, leading to absolute insulin deficiency. There is usually a pre-diabetic phase where autoimmunity has already developed but with no clinically apparent insulin dependency. Insulin autoantibodies can be detected in genetically predisposed individuals as early as 6-12 months of age. In persons genetically susceptible to type 1 diabetes, a triggering event, possibly a viral infection the leads to production of autoantibodies that kill the beta cells and results in decline and a lack of insulin secretion. According to Wherrett. It is caused by impaired insulin secretion and insulin resistance and has a gradual onset. Those with type 2 diabetes may eventually need insulin treatment. Gestational diabetes mellitus is glucose intolerance during pregnancy in a woman not previously diagnosed with diabetes, this may occur if placental hormones counteract insulin, causing insulin intolerance. Complications in diabetes mellitus includes: Hypoglycemia it is ca...
The purpose of a homeostatic system is to maintain steady/stable internal environment at a set point. Glucose is used as a major energy source by most cells in the human body. Cells break down glucose in order to produce ATP (energy), to carry out their cellular processes. Blood glucose concentration is maintained between 3.9-5.6 mmol/L-1. The reason behind this range is due to the fact that people of different ages and genders require different amounts of glucose in their blood to carry out different metabolic processes. For example, a growing teenage boy would require a higher blood glucose concentration in comparison to a middle aged women. Blood glucose concentration must be maintained between this set point range because anything above or below this can cause severe problems. If blood glucose concentration becomes too low the tissues in the body that solely rely on glucose as an energy source are greatly affected, as they need a constant supply of glucose in order to function adequately. These
Our body obtains the energy by digesting the carbohydrates into glucose. Volumes of glucose are required by the body to create ATP. ATP is short for 'Adenosine Triphosphate ' and is an energy carrier. When we consume too many carbohydrates our body produces a lot of glucose and as a result blood glucose levels rise and sometimes they may rise over the normal range of blood glucose concentration. To bring it back within the healthy range, the homeostatic system of blood glucose regulation is used. The blood flows through the pancreas where the beta cells, receptors, detect the high blood glucose level. To counteract this stimuli beta cells alert the control centre, which are also the beta cells located in the islets of Langerhans in the pancreas. The secretion of insulin has to be done quickly but can only be carried out when insulin gene is switched on. Turning on the insulin gene switch can take 30 minutes to an hour therefore, the production of insulin by beta cells are done in advance and are packaged in vesicles right until blood glucose rises. Glucose comes into the beta cell to trigger the vesicle that contains the insulin to move towards the plasma membrane and fuse. This releases the insulin into the bloodstream where they are distributed throughout the body and only affect specific target cells. The receptor, a protein, on the target cell’s plasma membrane recognises and connects
The pathophysiology of diabetes mellitus in is related to the insulin hormone. Insulin is secreted by cells in the pancreas and is responsible for regulating the level of glucose in the bloodstream. It also aids the body in breaking down the glucose to be used as energy. When someone suffers from diabetes, however, the body does not break down the glucose in the blood as a result of abnormal insulin metabolism. When there are elevated levels of glucose in the blood, it is known as hyperglycemia. If the levels continue to remain high over an extended period of time, damage can be done to the kidneys, cardiovascular systems; you can get eye disorders, or even cause nerve damage. When the glucose levels are low in one’s body, it is called hypoglycemia. A person begins to feel very jittery, and possibly dizzy. If that occurs over a period of time, the person can possibly faint. Diabetes mellitus occurs in three different forms - type 1, type 2, and gestational.
An estimate of 171 million people have diabetes and that number is expected to double by 2030. Diabetes affects how your body uses glucose. Unmanaged, this can lead to rapid dehydration, coma, and death. However today one can manage diabetes by controlling one’s diet and if necessary taking injections of insulin.
Throughout the whole of the United Kingdom, between 2 and 3 of every 100 people have a known form of diabetes (DTC, 2004). What is diabetes? Explained simply, it is a disease in which the body does not produce or properly use insulin. In the normal state of glucose function, there is a stable release and uptake of glucose, regulated by two hormones produced in the pancreas, glucagon and insulin. There are two distinct mechanisms which give rise to the abnormal blood glucose levels seen in patients with type I and type II diabetes. In type I diabetes, a deficiency in insulin production at the pancreas results in elevated blood glucose levels due to the lack of hormonal regulation. In type II diabetes, although the pancreas produces regular levels of insulin, the body resists the effect of insulin, inhibiting the ability of insulin to break down glucose in the blood. Because of the inherent differences in the biochemical mechanisms of these two diseases, the characteristics associated with type I and type II diabetes are very different. The typical onset of type I diabetes is usually ...
Diabetes is a disease in which a person’s body in unable to make or utilize insulin properly which affects blood sugar levels. Insulin is a hormone that is produced in the pancreas, which helps to regulate glucose (sugar) levels, break down carbohydrates and fats, and is essential to produce the body’s energy. The CDC (2013) offers reliable insight, summarized here, into the different types of diabetes, some causes, and health complications that may arise from the disease.
When the blood glucose is higher than the normal levels, this is known as diabetes disease. The body turns the food we eat into glucose or sugar and use it for energy. The insulin is a hormone created by the pancreas to help the glucose get into the cells. The sugar builds up in the blood because either the body doesn’t make enough insulin or can’t well use its own insulin (CDC, 2015). In the United States diabetes is known as the seventh leading cause of death. There are different types of diabetes. However, there are two main types of diabetes and these are; Diabetes type 1 and Diabetes type 2 (CDC, 2015).
In order for the body to maintain homeostatic levels of energy, blood glucose regulation is essential. Glucose is one of the body’s principal fuels. It is an energy-rich monosaccharide sugar that is broken down in our cells to produce adenosine triphosphate. In the small intestine, glucose is absorbed into the blood and travels to the liver via the hepatic portal vein. The hepatocytes absorb much of the glucose and convert it into glycogen, an insoluble polymer of glucose. Glycogen, which is stored in the liver and skeletal muscles, can easily be reconverted into glucose when blood-glucose levels fall. All of the body’s cells need to make energy but most can use other fuels such as lipids. Neurons; however, rely almost exclusively on glucose for their energy. This is why the maintenance of blood-glucose levels is essential for the proper functioning of the nervous system.
Blood glucose levels are the measurement of glucose in an individual’s blood. This is important because glucose is the body’s main source of fuel and the brains only source of fuel. Without energy from glucose the cells would die. Glucose homeostasis is primarily controlled in the liver, muscle, and fat where it stored as glycogen. The pancreas is also a significant organ that deals with glucose. The pancreas helps regulate blood glucose levels. Alpha-islet and beta-islet pancreatic cells measure blood glucose levels and they also regulate hormone release. Alpha cells produce glucagon and beta cells produce insulin. The body releases insulin in response to elevated blood glucose levels to allow the glucose inside of cells and
Diabetes Mellitus is a chronic health condition in which the level of glucose in the blood is higher than usual. Type 1 diabetes occurs when the pancreas does not create enough insulin and type 2 diabetes occurs when insulin is produced, but is not adequate in lowering blood glucose levels or there is resistance to the insulin (Edwards, 2007, p. 9). Diabetes mellitus is the leading cause of end-stage kidney disease, foot and leg amputations, and new cases of blindness in the United States (Ignatavicius & Workman, 2010, p. 1465-66). People with type 1 diabetes are required to take insulin to manage their glucose levels. People with type 2 diabetes are usually prescribed oral medications such as sulfonylurea agents, meglitinide analogues, or biguanides to help control their glucose levels. Twenty to 30% of people with type 2 diabetes require insulin therapy as well (Ignatavicius & Workman, 2010, p. 1471). In addition to medication therapy, diet and weight control can help manage both type 1 and type 2 diabetes. Because diabetes mellitus can cause such severe complications, it is important that people with diabetes understand the importance of certain health and lifestyle choices, such as their diet and weight to manage their disease. Patients with diabetes mellitus should pay special attention to the amount of carbohydrates, protein, fat, and minerals that are included in their diet. Monitoring these components of their diet, along with weight management, can help control their diabetes mellitus.
Diabetes mellitus is a group of metabolic disorders which is characterized by hyperglycemia due to insulin deficiency or resistance or both reasons. (1) According to that diabetes mellitus can be divided as type I and type II. This is common and its incidence is rising, 171 million people had diabetes in 2000 it is expected this condition to be doubled in 2030. It is spread in all the countries and therefore has become a major burden upon healthcare facilities. (2)
highest an hour or two after you eat, and then it starts to fall. What
Diabetes Mellitus is a disease in which the pancreas produces little or no insulin. Insulin is a hormone that helps the body’s tissues absorb glucose which is sugar, so it can be used as a source of energy. Glucose levels build up in the blood and urine which causes excessive urination, thirst, hunger, and problems with fat and protein metabolism in a diabetic person. Diabetes is very common in the United States; it is the seventh leading cause of all deaths. Women have been diagnosed with diabetes more than men. There are two forms of diabetes, Type one and Type two diabetes. Type one diabetes is when the body does not produce insulin or produces it in very small quantities. This usually occurs in younger people under twenty years of age, mostly around puberty. Type two diabetes is when the body’s balance between insulin production and the ability of cells to use insulin doesn’t work properly. This is more common than type one; about 90-95% people in the United States have it. There are no cures for diabetes now but there are many researchers investigating factors through new technologies to cure them. Meanwhile, technological advancements are being made to keep glucose at a good level for diabetes.
In conclusion, diabetes is a serious disease and can be life threatening. With the right research and implementation of new studies diabetes can be reduced among the populations. We as a people need to realize this epidemic and all get together and beat it. Restaurants need to stop putting chemicals and unnecessary fats in their food. Not only diabetics but everyone should educate themselves on what is going in your body when you eat. Also, exercising and getting off the couch, in children, needs to be addressed and that alone would help reduce diabetes in the younger population. I can’t stress enough on education. If you know what you are eating or how you are exercising you protect yourself from poor health and live a great life. Type 2 diabetes can be dwindled down with a conscious individual and group effort.