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The effects of sugar on the human body
Type 2 diabetes research paper
The effects of sugar on the human body
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Diabetes Mellitus, Type 2 is a metabolic disorder that is related to increased glucose levels in the blood, which is known as hyperglycemia. Insulin under typical function aids in carrying glucose from the body’s bloodstream into cells. However, in DM II, insulin production is hindered, insulin receptors are more resistant, and/or there is an inappropriate secretion of glucagon. This causes glucose to increase in the blood since there are not enough functioning insulin receptors to help transfer glucose to cells. Chronic elevated glucose levels damage small blood vessel resulting in peripheral neuropathy, retinopathy, and acceleration of atherosclerosis. The elevated levels also impair immune function and wound healing ability (Lippincott Williams & Wilkins, 2011). FA was diagnosed with DM 250.00 in …show more content…
The patient does not report to have any polyuria, polydipsia, or polyphagia, however, was noted to have been eating a bag of candy that was given by the family. No urinalysis was ordered by the provider for he and the RN observed no unusual urination habits. FA’s glucose level presented as 8.6% when the normal level is below 6%, and that could possibly be due to his eating habits for the CNA had stated that FA was a “chocoholic”. Elevated glucose levels may cause the patient to have “changes in consciousness” (Lippincott Williams & Wilkins, 2011). However, upon conversing with FA, he was alert and oriented and even was stating, “I am very strong!” in Spanish, and telling jokes. Tachycardia may also be a symptom of DM II, and on the day of my
A 46-year-old Hispanic man presented to the clinic for a routine physical and a review of his recent laboratory studies. His medical history was significant for high cholesterol. His daily medication regimen included a multivitamin, aspirin 81 mg, and simvastatin (Zocor) 40 mg for high cholesterol. His family history was remarkable for type 2 diabetes, hypertension, and hyperlipidemia in his mother, maternal grandmother, maternal aunt, and maternal uncle. Physical examination revealed a height of 69 inches, weight of 199 pounds, body mass index (BMI) of 29.4 kg/m2, waist circumference of 36 inches and blood pressure of 125/72 mm Hg. Initial laboratory results were: total cholesterol 195 mg/dL; triglycerides 136 mg/dL; low-density lipoprotein cholesterol (LDL), 124 mg/dL; high-density lipoprotein cholesterol (HDL), 44 mg/dL; and fasting plasma glucose (FPG), 119 mg/dL. Complete blood count, renal function and liver function tests were all normal. Additional studies included an oral glucose tolerance test (OGTT) of 157 mg/dL and hemoglobin A1c (HbA1c) of 5.9%. The patient’s physical exam was unremarkable with no abnormalities noted.
She had a two week history of feeling generally unwell, complaining of tiredness and lethargy. She had no other significant symptoms. Her past history includes well controlled asthma and anxiety. She was a smoker of 20 cigarettes per day. She was taking amitriptyline, Symbicort (budesonide and formoterol inhaler). She had no significant family history of medical illness and had no clinical findings on examination. Blood tests showed corrected calcium of 4.22mmol/L (NR 2.20 -2.60) with suppressed paired PTH of 1.45pmol/L (NR1.60- 6.9). Her renal function was initially impaired, but normalized with rehydration. Her liver function tests, full blood count, vitamin D, myeloma screen and serum ACE levels were all within normal limits. Ultra sound scan (USS) of kidneys, USS of parathyroid and computerized tomography (CT) of thorax, abdomen and pelvis were all reported as normal with no cause found for her
Type 1 Diabetes Mellitus is also referred to as insulin-dependent as the secretion of the hormone insulin by the pancreas is reduced to minor levels due to the destruction of the pancreatic beta cells by immune system of the body. Therefore, Type 1 Diabetes is an autoimmune condition due to the fact that the body is harming the pancreas with antibodies so beta cells cannot make any insulin for bloodstream to take in glucose. The fact that the cells in the body cannot take in glucose means that it builds up in the blood and hyperglycaemia occurs. This abnormally high level of blood glucose is able to harm the nervous system, tiny blood vessels in the kidneys, heart and the eyes. Type 1 Diabetes is fatal when left untreated as it then causes heart disease, kidney disease, damage to the nerves, stroke and
According to Lewis and associates, DM is a chronic disease that affects multiple body systems. For the purpose of this paper, only DM type 2 will be discussed based on the assumption that a majority of patients aged 60 years or older have this type. The primary defects of this disease consist of insulin resistance, decreased insulin production, inappropriate glucose production by the liver, and alterations in production of adipokines. Insulin resistance is the result of defects in the body’s insulin receptors. This finding predates all cases of DM type 2 and the development of impaired glucose tolerance. In insulin resistance, beta cells in the pancreas are stimulated to increase insulin production to compensate for the lack of response by the insulin receptors. Gradually, the beta cells begin to fail to secrete enough insulin to meet the body’s demands resulting in hyperglycemia. As a result of increased glucose in the liver, the liver begins to malfunction and release glucose at inappropriate times, thereby worsening hyperglycemia. Adding to the problem, glucose and fat metabolism is altered in adipose tissue, which is generally abundant in those with DM type 2. (Lewis et al., 2011)
Diabetes mellitus also known simply as diabetes refers to a group of metabolic diseases which affect the body’s homeostatic mechanism used for maintaining and regulating the body’s blood sugar levels. Diabetes is a chronic condition which, in 2013 was estimated to be affecting 382 million people worldwide.[1] People suffering from diabetes are required to constantly be vigilant of their blood sugar levels to ensure it does not go below or above optimum levels. Depending on the type of diabetes and glucose level range, they may need to inject themselves with insulin or eat high sugar foods to restabilise their body. Failure to do so can lead to other long term health effects.[2]
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 ...
*A history of frequent, acute, and severe metabolic complications (hypoglycemia, hyperglycemia, ketoacidosis) requiring medical attention
Diabetes mellitus type 2 is an endocrine disorder that causes impaired use of carbohydrates while enhancing the use of proteins and lipids. This is called insulin resistance, in which the pancreas cannot make enough insulin to keep blood glucose levels normal, or the body is unable to use what is produced. The impairment causes blood glucose level to rise higher than normal. There is no cure for type 2 diabetes mellitus and it is life threatening when left untreated. Signs and symptoms of this disorder include vision changes, increased thirst, increased hunger, increased frequency of urination, stomach pain, nausea and vomiting, erectile dysfunction, and absences of mentruation. These can occur abruptly, or over a long period of time. Long-term complications from diabetes include kidney damage, eye damage, and blindness. The risk factors for developing diabetes mellitus include genetics, sedentary lifestyle, high blood pressure, history of diabetes during pregnancy, poor diet, obesity, high cholesterol, and abdominal obesity. Diabetes mellitus can be managed through the use of medication, or by reducing risk factors, such as avoiding obesity, inactivity, and poor nutrition.
The purpose of this study is to research the disease Type 2 Diabetes and to discover whether it is being effectively treated and prevented in Merced County, California. According to the National Institutes of Health, Diabetes Mellitus is “a lifelong (chronic) disease in which there are high levels of sugar (glucose) in the blood. It is also the most common form of Diabetes”.1 Furthermore, there are many risk and lifestyle factors associated with this disease, but the most prevalent are; obesity (#1 risk factor), sedentary lifestyle, unhealthy eating habits, family history and genetics, increased age, high blood pressure and high cholesterol, and a history of gestational diabetes.2 The long term complications of having type 2 diabetes can include but are not limited to; eye problems (cataracts and glaucoma), foot problems (neuropathy/ nerve damage), skin problems (infections), high blood pressure (which raises your risk for heart attack, stroke, eye problems and kidney disease), hearing loss, oral health, mental health and early death.3
Diabetes is a group of metabolic diseases in which the person has very high blood sugar. This is either because the production of insulin is inadequate or because the body cells do not properly respond to insulin. Obesity, on the other hand, is a health condition whereby excess body fat has accumulated to an extent where it has a negative effect on health. This leads to reduced life expectancy and increased health problems. Diabetes and obesity are closely tied as doctors highly link diabetes to people’s weight problem. This study focuses on the relationship between obesity and diabetes and the care for patients suffering from these conditions.
Jane had not slept for 72 hours and had poor diet and was observed not to be drinking fluids. Jane has a diagnosis of Bipolar
Diabetes mellitus is a group of metabolic disorders characterized by inadequate insulin secretion by the pancreas or cellular destruction leading to an insulin deficiency. Depending on the cause of the insulin shortage, diabetes can be subcategorized into type I and type II. Type I diabetes (T1DM) is usually mediated by the destruction of b-cells in the pancreas resulting in decreased insulin production and secretion. Type II diabetes (T2DM) is the failure of these b-cells to secrete adequate amounts of insulin to compensate for insulin resistance and increased gluconeogenesis combined with an overall resistance to the insulin action (8., 1997). T2DM accounts for 90 to 95 percent of all diabetes cases.
Diabetes Mellitus Type 2 Background • Diabetes Mellitus Type 2 is a metabolic disorder characterized by elevated blood glucose values. • Signs and symptoms of the disease include polydipsia and polyuria. • Diabetes can be genetically linked but has other risk factors such as: o Poor diet—western style, sweetened drinks o Lack of physical activity o Higher BMI o Tobacco/Alcohol use o Hispanic or African American o Low socioeconomic status o Chronic Hepatitis C o Hypertension o Agent Orange Exposure • Diagnosing • A1C and possible reasons it is wrong Comparison of ADA and AACE guidelines
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)
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.