Persons with diabetes who take insulin must be careful about indulging in unplanned exercise. Strenuous physical activity can rapidly lower their blood sugar and precipitate a hypoglycemic reaction. For a person whose blood glucose level is over 250 mg/dl, the advice would be not to exercise at all. At this range, the levels of insulin are too low and the body would have difficulty transporting glucose into exercising muscles. The result of exercise would be a rise in blood glucose levels.
Another diabetes-related sexual dysfunction symptom in men is reduced amounts of ejaculation, or retrograde ejaculation. Retrograde ejaculation is a condition in which the semen goes into the bladder, rather than out of the body through the urethra. Diabetes and damage to the blood vessels causes nerve damage to the muscles that control the bladder and urethra, which results in this problem.
The prognosis of diabetes is related to the extent to which the condition is kept under control to prevent the development of the complications described in the preceding sections. Some of the more serious complications of diabetes such as kidney failure and cardiovascular disease, can be life-threatening. Acute complications such as diabetic ketoacidosis can also be life-threatening. As mentioned above, aggressive control of blood sugar levels can prevent or delay the onset of complications, and many people with diabetes lead long and full lives.
Type 1 diabetes in pediatric patients has been linked to changes in cognition and brain structure, with a study by Siller et al finding lower volume in the left temporal-parietal-occipital cortex in young patients with type 1 diabetes than in controls. The study also indicated that in pediatric patients, higher severity of type 1 diabetes presentation correlates with greater structural differences in the brain at about 3 months following diagnosis. The investigators found that among study patients with type 1 diabetes, an association existed between the presence of diabetic ketoacidosis at presentation and reduced radial, axial, and mean diffusivity in the major white matter tracts on magnetic resonance imaging (MRI). In those with higher glycated hemoglobin (HbA1c) levels, hippocampal, thalamic, and cerebellar white matter volumes were lower, as was right posterior parietal cortical thickness, while right occipital cortical thickness was greater. Patients in the study were aged 7-17 years. [43]

Persons with diabetes are prone to infection, delayed healing, and vascular disease. The ease with which poorly controlled diabetic persons develop an infection is thought to be due in part to decreased chemotaxis of leukocytes, abnormal phagocyte function, and diminished blood supply because of atherosclerotic changes in the blood vessels. An impaired blood supply means a deficit in the protective defensive cells transported in the blood. Excessive glucose allows organisms to grow out of control.
To diagnose diabetes, doctors will  take a medical history (ask you about symptoms) and ask for blood and urine samples. Finding protein and sugar in the urine are signs of type 2 diabetes. Increased glucose and triglyceride (a type of lipid or fat) levels in the blood are also common findings. In most cases, blood glucose levels are checked after a person has been fasting for 8 hours.
Insulin inhibits glucogenesis and glycogenolysis, while stimulating glucose uptake. In nondiabetic individuals, insulin production by the pancreatic islet cells is suppressed when blood glucose levels fall below 83 mg/dL (4.6 mmol/L). If insulin is injected into a treated child with diabetes who has not eaten adequate amounts of carbohydrates, blood glucose levels progressively fall.
Dietary factors also influence the risk of developing type 2 diabetes. Consumption of sugar-sweetened drinks in excess is associated with an increased risk.[32][33] The type of fats in the diet are important, with saturated fats and trans fatty acids increasing the risk, and polyunsaturated and monounsaturated fat decreasing the risk.[26] Eating a lot of white rice appears to play a role in increasing risk.[34] A lack of exercise is believed to cause 7% of cases.[35] Persistent organic pollutants may play a role.[36]

Those dark patches on your skin could be more serious than a blotchy tan. In fact, they might be the first sign of diabetes. This darkening of the skin, which usually occurs on the hands and feet, in folds of skin, along the neck, and in a person’s groin and armpits, called acanthosis nigricans, often occurs when insulin levels are high. The high insulin levels in your blood can increase your body’s production of skin cells, many of which have increased pigmentation, giving skin a darkened appearance.
Another form of diabetes called gestational diabetes can develop during pregnancy and generally resolves after the baby is delivered. This diabetic condition develops during the second or third trimester of pregnancy in about 2% of pregnancies. In 2004, incidence of gestational diabetes were reported to have increased 35% in 10 years. Children of women with gestational diabetes are more likely to be born prematurely, have hypoglycemia, or have severe jaundice at birth. The condition usually is treated by diet, however, insulin injections may be required. These women who have diabetes during pregnancy are at higher risk for developing Type II diabetes within 5-10 years.

Glucose is a simple sugar found in food. Glucose is an essential nutrient that provides energy for the proper functioning of the body cells. Carbohydrates are broken down in the small intestine and the glucose in digested food is then absorbed by the intestinal cells into the bloodstream, and is carried by the bloodstream to all the cells in the body where it is utilized. However, glucose cannot enter the cells alone and needs insulin to aid in its transport into the cells. Without insulin, the cells become starved of glucose energy despite the presence of abundant glucose in the bloodstream. In certain types of diabetes, the cells' inability to utilize glucose gives rise to the ironic situation of "starvation in the midst of plenty". The abundant, unutilized glucose is wastefully excreted in the urine.
No major organization recommends universal screening for diabetes as there is no evidence that such a program improve outcomes.[54][55] Screening is recommended by the United States Preventive Services Task Force (USPSTF) in adults without symptoms whose blood pressure is greater than 135/80 mmHg.[56] For those whose blood pressure is less, the evidence is insufficient to recommend for or against screening.[56] There is no evidence that it changes the risk of death in this group of people.[55] They also recommend screening among those who are overweight and between the ages of 40 and 70.[57]
Rates of diabetes in 1985 were estimated at 30 million, increasing to 135 million in 1995 and 217 million in 2005.[18] This increase is believed to be primarily due to the global population aging, a decrease in exercise, and increasing rates of obesity.[18] The five countries with the greatest number of people with diabetes as of 2000 are India having 31.7 million, China 20.8 million, the United States 17.7 million, Indonesia 8.4 million, and Japan 6.8 million.[109] It is recognized as a global epidemic by the World Health Organization.[1]
Intensive blood sugar lowering (HbA1c<6%) as opposed to standard blood sugar lowering (HbA1c of 7–7.9%) does not appear to change mortality.[74][75] The goal of treatment is typically an HbA1c of 7 to 8% or a fasting glucose of less than 7.2 mmol/L (130 mg/dl); however these goals may be changed after professional clinical consultation, taking into account particular risks of hypoglycemia and life expectancy.[59][76][77] Despite guidelines recommending that intensive blood sugar control be based on balancing immediate harms with long-term benefits, many people – for example people with a life expectancy of less than nine years who will not benefit, are over-treated.[78]
Poor vision, limited manual dexterity due to arthritis, tremor, or stroke, or other physical limitations may make monitoring blood glucose levels more difficult for older people. However, special monitors are available. Some have large numerical displays that are easier to read. Some provide audible instructions and results. Some monitors read blood glucose levels through the skin and do not require a blood sample. People can consult a diabetes educator to determine which meter is most appropriate.

Assemble a Medical Team: Whether you've had diabetes for a long time or you've just been diagnosed, there are certain doctors that are important to see. It is extremely important to have a good primary care physician. This type of doctor will help coordinate appointments for other physicians if they think that you need it. Some primary physicians treat diabetes themselves, whereas others will recommend that you visit an endocrinologist for diabetes treatment. An endocrinologist is a person who specializes in diseases of the endocrine system, diabetes being one of them.
It is recommended that all people with type 2 diabetes get regular eye examination.[13] There is weak evidence suggesting that treating gum disease by scaling and root planing may result in a small short-term improvement in blood sugar levels for people with diabetes.[79] There is no evidence to suggest that this improvement in blood sugar levels is maintained longer than 4 months.[79] There is also not enough evidence to determine if medications to treat gum disease are effective at lowering blood sugar levels.[79]

There are other factors that also fall into the category of environmental (as opposed to genetic) causes of diabetes. Certain injuries to the pancreas, from physical trauma or from drugs, can harm beta cells, leading to diabetes. Studies have also found that people who live in polluted areas are prone to type 2, perhaps because of inflammation. And an alternate theory of insulin resistance places the blame on damage caused by inflammation. Age also factors into type 2; beta cells can wear out over time and become less capable of producing enough insulin to overcome insulin resistance, which is why older people are at greater risk of type 2.
A population-based, nationwide cohort study in Finland examined the short -and long-term time trends in mortality among patients with early-onset and late-onset type 1 diabetes. The results suggest that in those with early-onset type 1 diabetes (age 0-14 y), survival has improved over time. Survival of those with late-onset type 1 diabetes (15-29 y) has deteriorated since the 1980s, and the ratio of deaths caused by acute complications has increased in this group. Overall, alcohol was noted as an important cause of death in patients with type 1 diabetes; women had higher standardized mortality ratios than did men in both groups. [38]
Low glycemic index foods also may be helpful. The glycemic index is a measure of how quickly a food causes a rise in your blood sugar. Foods with a high glycemic index raise your blood sugar quickly. Low glycemic index foods may help you achieve a more stable blood sugar. Foods with a low glycemic index typically are foods that are higher in fiber.

Melissa Conrad Stöppler, MD, is a U.S. board-certified Anatomic Pathologist with subspecialty training in the fields of Experimental and Molecular Pathology. Dr. Stöppler's educational background includes a BA with Highest Distinction from the University of Virginia and an MD from the University of North Carolina. She completed residency training in Anatomic Pathology at Georgetown University followed by subspecialty fellowship training in molecular diagnostics and experimental pathology.
This depends on the type of diabetes. Type 2 diabetes, and to a lesser extent type 1 diabetes, may run in families. If a parent has diabetes, their children will not necessarily get it but they are at an increased risk. In type 2 diabetes, lifestyle factors such as being overweight (obesity) and lack of exercise can significantly increase your risk of developing diabetes. Some rarer types of diabetes mellitus may be inherited.

One particular type of sugar that has attracted a lot of negative attention is high-fructose corn syrup (HFCS) — and for good reason, as multiple studies suggest HFCS can influence diabetes risk. Some research in people who are overweight and obese, for example, suggests regularly consuming drinks sweetened with either fructose, a byproduct of HFCS, or glucose can lead to weight gain, and drinks with fructose in particular may reduce insulin sensitivity and spike blood sugar levels.


Diabetes is a disease in which your blood glucose, or blood sugar, levels are too high. Glucose comes from the foods you eat. Insulin is a hormone that helps the glucose get into your cells to give them energy. With type 1 diabetes, your body does not make insulin. With type 2 diabetes, the more common type, your body does not make or use insulin well. Without enough insulin, the glucose stays in your blood.


Persons with diabetes who take insulin must be careful about indulging in unplanned exercise. Strenuous physical activity can rapidly lower their blood sugar and precipitate a hypoglycemic reaction. For a person whose blood glucose level is over 250 mg/dl, the advice would be not to exercise at all. At this range, the levels of insulin are too low and the body would have difficulty transporting glucose into exercising muscles. The result of exercise would be a rise in blood glucose levels.
Can type 2 diabetes be prevented? It is possible to reduce the risk of developing type 2 diabetes, although the underlying risk of type 2 diabetes depends strongly on genetic factors. But there was less type 2 diabetes around some years ago when people had a more active life and didn’t eat a modern Western diet. So it is fair to say that risk of getting type 2 diabetes is based on a genetic predisposition that is aggravated by lifestyle. Type 2 diabetes is associated with obesity, as well as a variety of environmental factors. To lower the risk of developing type 2 diabetes (as well as other diseases), it is highly recommended to exercise often, eat healthily, and maintain a healthy weight. 
Considering that being overweight is a risk factor for diabetes, it sounds counterintuitive that shedding pounds could be one of the silent symptoms of diabetes. “Weight loss comes from two things,” says Dr. Cypess. “One, from the water that you lose [from urinating]. Two, you lose some calories in the urine and you don’t absorb all the calories from the sugar in your blood.” Once people learn they have diabetes and start controlling their blood sugar, they may even experience some weight gain—but “that’s a good thing,” says Dr. Cypess, because it means your blood sugar levels are more balanced.

^ Jump up to: a b c d Inzucchi, SE; Bergenstal, RM; Buse, JB; Diamant, M; Ferrannini, E; Nauck, M; Peters, AL; Tsapas, A; Wender, R; Matthews, DR (March 2015). "Management of hyperglycaemia in type 2 diabetes, 2015: a patient-centred approach. Update to a Position Statement of the American Diabetes Association and the European Association for the Study of Diabetes". Diabetologia. 58 (3): 429–42. doi:10.1007/s00125-014-3460-0. PMID 25583541.

Gestational diabetes mellitus (GDM) resembles type 2 DM in several respects, involving a combination of relatively inadequate insulin secretion and responsiveness. It occurs in about 2–10% of all pregnancies and may improve or disappear after delivery.[50] However, after pregnancy approximately 5–10% of women with GDM are found to have DM, most commonly type 2.[50] GDM is fully treatable, but requires careful medical supervision throughout the pregnancy. Management may include dietary changes, blood glucose monitoring, and in some cases, insulin may be required.
One of the most common ways people with type 2 diabetes attempt to lower their blood sugar is by drastically reducing their intake of carbs. The ADA agrees that carbohydrate counting is essential if you have diabetes, but extreme diets like the ketogenic diet, which reduces carb intake to as little as 5 percent of your daily calories, can be risky for some people with diabetes. (36)
A healthy lifestyle can prevent almost all cases of type 2 diabetes. A large research study called the Diabetes Prevention Program, found that patients who made intensive changes including diet and exercise, reduced their risk of developing diabetes by 58%. Patients who were over 60 years old seemed to experience extra benefit; they reduced their risk by 71%. In comparison, patients who were given the drug metformin for prevention only reduced their risk by 31%.
Other potentially important mechanisms associated with type 2 diabetes and insulin resistance include: increased breakdown of lipids within fat cells, resistance to and lack of incretin, high glucagon levels in the blood, increased retention of salt and water by the kidneys, and inappropriate regulation of metabolism by the central nervous system.[10] However, not all people with insulin resistance develop diabetes, since an impairment of insulin secretion by pancreatic beta cells is also required.[13]

History of diabetes: Past treatments and new discoveries Diabetes has been known for at least 2,000 years. Over the years, treatments have included exercise, riding on horseback, drinking wine, consuming milk or rice, opium, and overfeeding. It was not until 1921 that insulin was introduced as a treatment. Science has progressed, but diabetes remains a major health problem. Read now
Sources of complex carbohydrates include whole-wheat bread and brown rice, legumes like black beans, and quinoa. These foods contain fiber, vitamins, and minerals that are appropriate for any eating plan, regardless of whether you have prediabetes, have diabetes, or are perfectly healthy. In fact, experts know including complex carbs in your daily diet can help you maintain a healthy weight, among other health benefits.
What his theory boils down to is that type 2 diabetes is caused not by extra fat alone, but by fat stored in the wrong places. "Virtually all the individuals [with insulin resistance] have fat accumulation in liver and muscle," Shulman says, where it may disrupt normal biological processes, leading to insulin resistance. "If you can understand this, you can ideally come up with new ways to prevent insulin resistance and type 2 diabetes."
It is important to record blood glucose readings taken at different times of the day – after fasting (before breakfast) as well as 2 hours after a meal. This allows your doctor to see a snapshot of how your blood glucose levels vary during the day and to recommend treatments accordingly. Most blood glucose meters now have "memory" that stores a number of blood glucose tests along with the time and date they were taken. Some even allow for graphs and charts of the results to be created and sent to your phone.
It’s not uncommon for patients to suddenly feel unsteady and immediately need to reach for carbs, says Marjorie Cypress, a nurse practitioner at an endocrinology clinic in Albuquerque, New Mexico, and 2014 president of health care and education for the American Diabetes Association. “When you have high blood sugar, your body has a problem regulating its glucose,” she explains. “If you’ve eaten something high in carbohydrates, your body shoots out a little too much insulin, and your glucose drops quickly. This makes you feel shaky, and you tend to crave carbs or sugar. This can lead to a vicious cycle.” These are the best foods for someone on a diabetic diet.
Long-term complications arise from the damaging effects of prolonged hyperglycemia and other metabolic consequences of insulin deficiency on various tissues. Although long-term complications are rare in childhood, maintaining good control of diabetes is important to prevent complications from developing in later life. [39] The likelihood of developing complications appears to depend on the interaction of factors such as metabolic control, genetic susceptibility, lifestyle (eg, smoking, diet, exercise), pubertal status, and gender. [40, 41] Long-term complications include the following:
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Type 2 diabetes typically starts with insulin resistance. That is, the cells of the body resist insulin’s efforts to escort glucose into the cells. What causes insulin resistance? It appears to be caused by an accumulation of microscopic fat particles within muscle and liver cells.4 This fat comes mainly from the diet—chicken fat, beef fat, cheese fat, fish fat, and even vegetable fat. To try to overcome insulin resistance, the pancreas produces extra insulin. When the pancreas can no longer keep up, blood sugar rises. The combination of insulin resistance and pancreatic cell failure leads to type 2 diabetes.
Type 1 diabetes mellitus has wide geographic variation in incidence and prevalence. [30] Annual incidence varies from 0.61 cases per 100,000 population in China to 41.4 cases per 100,000 population in Finland. Substantial variations are observed between nearby countries with differing lifestyles, such as Estonia and Finland, and between genetically similar populations, such as those in Iceland and Norway.

Recognizing the symptoms of Type 1 diabetes is critical. Although Type 1 develops gradually, as the body’s insulin production decreases, blood glucose levels can become dangerously high once insulin production is outpaced. Symptoms may develop rapidly and can be mistaken for other illnesses such as the flu and a delayed diagnosis can have serious consequences.
Being overweight is a risk factor for developing diabetes, but other risk factors such as how much physical activity you get, family history, ethnicity, and age also play a role. Unfortunately, many people think that weight is the only risk factor for type 2 diabetes, but many people with type 2 diabetes are at a normal weight or only moderately overweight.

Some older people cannot control what they eat because someone else is cooking for them—at home or in a nursing home or other institution. When people with diabetes do not do their own cooking, the people who shop and prepare meals for them must also understand the diet that is needed. Older people and their caregivers usually benefit from meeting with a dietitian to develop a healthy, feasible eating plan.

Type 1 and type 2 diabetes were identified as separate conditions for the first time by the Indian physicians Sushruta and Charaka in 400–500 CE with type 1 associated with youth and type 2 with being overweight.[108] The term "mellitus" or "from honey" was added by the Briton John Rolle in the late 1700s to separate the condition from diabetes insipidus, which is also associated with frequent urination.[108] Effective treatment was not developed until the early part of the 20th century, when Canadians Frederick Banting and Charles Herbert Best isolated and purified insulin in 1921 and 1922.[108] This was followed by the development of the long-acting insulin NPH in the 1940s.[108]
Type 2 diabetes is a progressive, chronic disease related to your body's challenges with regulating blood sugar. It is often associated with generalized inflammation. Your pancreas produces the hormone insulin to convert sugar (glucose) to energy that you either use immediately or store. With type 2 diabetes, you are unable to use that insulin efficiently. Although your body produces the hormone, either there isn't enough of it to keep up with the amount of glucose in your system, or the insulin being produced isn't being used as well as it should be, both of which result in high blood sugar levels.
The amount of glucose in the bloodstream is tightly regulated by insulin and other hormones. Insulin is always being released in small amounts by the pancreas. When the amount of glucose in the blood rises to a certain level, the pancreas will release more insulin to push more glucose into the cells. This causes the glucose levels in the blood (blood glucose levels) to drop.
Insulin is released into the blood by beta cells (β-cells), found in the islets of Langerhans in the pancreas, in response to rising levels of blood glucose, typically after eating. Insulin is used by about two-thirds of the body's cells to absorb glucose from the blood for use as fuel, for conversion to other needed molecules, or for storage. Lower glucose levels result in decreased insulin release from the beta cells and in the breakdown of glycogen to glucose. This process is mainly controlled by the hormone glucagon, which acts in the opposite manner to insulin.[61]

When you have Type 2 diabetes, you may start out with something called insulin resistance. This means your cells do not respond well to the insulin you are making. "Insulin levels may be quite high, especially in the early stages of the disease. Eventually, your pancreas may not be able to keep up, and insulin secretion goes down," Rettinger explains. Insulin resistance becomes more common as you put on more weight, especially weight around your belly.
Jump up ^ Picot, J; Jones, J; Colquitt, JL; Gospodarevskaya, E; Loveman, E; Baxter, L; Clegg, AJ (September 2009). "The clinical effectiveness and cost-effectiveness of bariatric (weight loss) surgery for obesity: a systematic review and economic evaluation". Health Technology Assessment. Winchester, England. 13 (41): iii–iv, 1–190, 215–357. doi:10.3310/hta13410. PMID 19726018.
Type 2 diabetes usually begins with insulin resistance, a condition in which muscle, liver, and fat cells do not use insulin well. As a result, your body needs more insulin to help glucose enter cells. At first, the pancreas makes more insulin to keep up with the added demand. Over time, the pancreas can’t make enough insulin, and blood glucose levels rise.

After eating carbohydrates, the carbs break down into sugar, trigger the pancreas to produce insulin and are then stored in liver and muscles. However, there is a limit to the amount of sugar the liver and muscles can store. The easiest way to understand this is to think of your liver and muscles as small closets without much storage space. If sugar keeps coming in, the closet will quickly fill up.
Oral glucose tolerance test (OGTT): With this test you will be required to fast for at least 8 hours and then are given a drink with 75 g of carbohydrate. Your blood glucose is checked at fasting and then 2 hours after drinking the solution. If your blood glucose is 11.1 mmol/L or higher, your doctor may diagnose diabetes. If your blood glucose 2 hours after drinking the solution is between 7.8 to 11.1 mmol/L, your doctor may diagnose prediabetes. This is the preferred method to test for gestational diabetes.
The treatment of low blood sugar consists of administering a quickly absorbed glucose source. These include glucose containing drinks, such as orange juice, soft drinks (not sugar-free), or glucose tablets in doses of 15-20 grams at a time (for example, the equivalent of half a glass of juice). Even cake frosting applied inside the cheeks can work in a pinch if patient cooperation is difficult. If the individual becomes unconscious, glucagon can be given by intramuscular injection.

In addition to the problems with an increase in insulin resistance, the release of insulin by the pancreas may also be defective and suboptimal. In fact, there is a known steady decline in beta cell production of insulin in type 2 diabetes that contributes to worsening glucose control. (This is a major factor for many patients with type 2 diabetes who ultimately require insulin therapy.) Finally, the liver in these patients continues to produce glucose through a process called gluconeogenesis despite elevated glucose levels. The control of gluconeogenesis becomes compromised.
It's not as clear what the rest of the type 1 genes are up to, but researchers are eager to find out. "Even though something accounts for a small part [of the genetic risk], it could have a significant impact," says Stephen Rich, PhD, director of the Center for Public Health Genomics at the University of Virginia School of Medicine. Understanding these genes' role may clue researchers in to less obvious biological pathways involved in type 1 diabetes, and to possible prevention strategies.

The typical symptoms of diabetes mellitus are the three “polys:” polyuria, polydipsia, and polyphagia. Because of insulin deficiency, the assimilation and storage of glucose in muscle adipose tissues, and the liver is greatly diminished. This produces an accumulation of glucose in the blood and creates an increase in its osmolarity. In response to this increased osmotic pressure there is depletion of intracellular water and osmotic diuresis. The water loss creates intense thirst and increased urination. The increased appetite (polyphagia) is not as clearly understood. It may be the result of the body's effort to increase its supply of energy foods even though eating more carbohydrates in the absence of sufficient insulin does not meet the energy needs of the cells.


Healthy lifestyle choices can help you prevent type 2 diabetes. Even if you have diabetes in your family, diet and exercise can help you prevent the disease. If you've already received a diagnosis of diabetes, you can use healthy lifestyle choices to help prevent complications. And if you have prediabetes, lifestyle changes can slow or halt the progression from prediabetes to diabetes.
In type 2 diabetes, there also is a steady decline of beta cells that adds to the process of elevated blood sugars. Essentially, if someone is resistant to insulin, the body can, to some degree, increase production of insulin and overcome the level of resistance. After time, if production decreases and insulin cannot be released as vigorously, hyperglycemia develops.
Exercise is very important if you have this health condition. Exercise makes cells more insulin sensitive, pulling glucose out of the blood. This brings down blood sugar, and more importantly, gives you better energy because the glucose is being transferred to the cells. Any type of exercise will do this, but extra benefit is gained when the activity helps build muscle, such as weight training or using resistance bands. The benefits of exercise on blood sugar last about 48-72 hours, so it is important for you to be physically active almost every day.

Patients with Type I diabetes need daily injections of insulin to help their bodies use glucose. The amount and type of insulin required depends on the height, weight, age, food intake, and activity level of the individual diabetic patient. Some patients with Type II diabetes may need to use insulin injections if their diabetes cannot be controlled with diet, exercise, and oral medication. Injections are given subcutaneously, that is, just under the skin, using a small needle and syringe. Injection sites can be anywhere on the body where there is looser skin, including the upper arm, abdomen, or upper thigh.
"We know that there is a very large genetic component," Rettinger says. "A person with a first-degree relative with Type 2 diabetes has a five to 10 time higher risk of developing diabetes than a person the same age and weight without a family history of Type 2 diabetes." Heredity actually plays a larger role in Type 2 diabetes than Type 1, Rettinger says.
The typical symptoms of diabetes mellitus are the three “polys:” polyuria, polydipsia, and polyphagia. Because of insulin deficiency, the assimilation and storage of glucose in muscle adipose tissues, and the liver is greatly diminished. This produces an accumulation of glucose in the blood and creates an increase in its osmolarity. In response to this increased osmotic pressure there is depletion of intracellular water and osmotic diuresis. The water loss creates intense thirst and increased urination. The increased appetite (polyphagia) is not as clearly understood. It may be the result of the body's effort to increase its supply of energy foods even though eating more carbohydrates in the absence of sufficient insulin does not meet the energy needs of the cells.
Supporting evidence for Shulman's theory comes from observations about a rare genetic illness called lipodystrophy. People with lipodystrophy can't make fat tissue, which is where fat should properly be stored. These thin people also develop severe insulin resistance and type 2 diabetes. "They have fat stored in places it doesn't belong," like the liver and muscles, says Shulman. "When we treat them . . . we melt the fat away, reversing insulin resistance and type 2 diabetes." Shulman's theory also suggests why some people who carry extra fat don't get type 2. "There are some individuals who store fat [under the skin] who have relatively normal insulin sensitivity, a so-called fit fat individual," he says. Because of the way their bodies store fat, he believes, they don't get diabetes.
Jump up ^ Santaguida PL, Balion C, Hunt D, Morrison K, Gerstein H, Raina P, Booker L, Yazdi H. "Diagnosis, Prognosis, and Treatment of Impaired Glucose Tolerance and Impaired Fasting Glucose". Summary of Evidence Report/Technology Assessment, No. 128. Agency for Healthcare Research and Quality. Archived from the original on 16 September 2008. Retrieved 20 July 2008.

Diabetes may have symptoms in some people, and no symptoms in others. Generally, people with Type 1 diabetes have increased thirst (polydipsia), frequent urination (polyuria), and increased hunger (polyphagia). Symptoms may develop over weeks to months.  Untreated, this condition may cause a person to lose consciousness and become very ill (diabetic ketoacidosis).


Patients with type 2 diabetes can still make insulin, but not enough to control their glucose levels. Type 2 diabetes is therefore initially treated with a combination of lifestyle changes (diet and exercise) which reduce the need for insulin and therefore lower glucose levels. If this is insufficient to achieve good glucose control, a range of tablets are available. These include metformin and pioglitazone, which, like diet and exercise, reduce insulin requirements; sulphonylureas (e.g. gliclazide), which stimulate insulin secretion; DPP4 inhibitors (e.g sitagliptin) and GLP-1 agonists (e.g. liraglutide), which stimulate insulin production and reduce appetite; and SGLT2 inhibitors (e.g. dapagliflozin), which lower blood sugar levels by causing sugar to pass out of the body in the urine. In many patients, particularly after several years of treatment, insulin production is so low or so insufficient compared with the patient's needs that patients with type 2 diabetes have to be treated with insulin injections, either alone or in combination with tablets.
It is important to record blood glucose readings taken at different times of the day – after fasting (before breakfast) as well as 2 hours after a meal. This allows your doctor to see a snapshot of how your blood glucose levels vary during the day and to recommend treatments accordingly. Most blood glucose meters now have "memory" that stores a number of blood glucose tests along with the time and date they were taken. Some even allow for graphs and charts of the results to be created and sent to your phone.
Insulin-dependent diabetes mellitus is believed to result from autoimmune, environmental, and/or genetic factors. Whatever the cause, the end result is destruction of insulin-producing pancreatic beta cells, a dramatic decrease in the secretion of insulin, and hyperglycemia. Non-insulin-dependent diabetes mellitus is presumably heterogeneous in origin. It is associated with older age, obesity, a family history of diabetes, and ethnicity (genetic components). The vast majority of those with non-insulin-dependent diabetes are overweight Kahn (2003). This form of the disorder has a much slower rate of progression than insulin-dependent diabetes. Over time the ability to respond to insulin decreases, resulting in increased levels of blood glucose. The pancreatic secretion of insulin increases in an attempt to compensate for the elevated levels of glucose. If the condition is untreated, the pancreatic production of insulin decreases and may even cease.
The causes of diabetes mellitus are unclear, however, there seem to be both hereditary (genetic factors passed on in families) and environmental factors involved. Research has shown that some people who develop diabetes have common genetic markers. In Type I diabetes, the immune system, the body's defense system against infection, is believed to be triggered by a virus or another microorganism that destroys cells in the pancreas that produce insulin. In Type II diabetes, age, obesity, and family history of diabetes play a role.

While this can produce different types of complications, good blood sugar control efforts can help to prevent them. This relies heavily on lifestyle modifications such as weight loss, dietary changes, exercise and, in some cases, medication. But, depending on your age, weight, blood sugar level, and how long you've had diabetes, you may not need a prescription right away. Treatment must be tailored to you and, though finding the perfect combination may take a little time, it can help you live a healthy, normal life with diabetes.

Type 1 diabetes mellitus has wide geographic variation in incidence and prevalence. [30] Annual incidence varies from 0.61 cases per 100,000 population in China to 41.4 cases per 100,000 population in Finland. Substantial variations are observed between nearby countries with differing lifestyles, such as Estonia and Finland, and between genetically similar populations, such as those in Iceland and Norway.


 Type 1 diabetes mellitus is a chronic metabolic syndrome defined by an inability to produce insulin, a hormone which lowers blood sugar. This leads to inappropriate hyperglycaemia (increased blood sugar levels) and deranged metabolism of carbohydrates, fats and proteins. Insulin is normally produced in the pancreas, a glandular organ involved in the production of digestive enzymes and hormones such as insulin and glucagon. These functions are carried out in the exocrine and endocrine (Islets of Langerhans) pancreas respectively.
Exercise. A program of regular exercise gives anyone a sense of good health and well-being; for persons with diabetes it gives added benefits by helping to control blood glucose levels, promoting circulation to peripheral tissues, and strengthening the heart beat. In addition, there is evidence that exercise increases the number of insulin receptor sites on the surface of cells and thus facilitates the metabolism of glucose. Many specialists in diabetes consider exercise so important in the management of diabetes that they prescribe rather than suggest exercise.
Although many of the symptoms of type 1 and type 2 diabetes are similar, they present in very different ways. Many people with type 2 diabetes won’t have symptoms for many years. Then often the symptoms of type 2 diabetes develop slowly over the course of time. Some people with type 2 diabetes have no symptoms at all and don’t discover their condition until complications develop.

In animals, diabetes is most commonly encountered in dogs and cats. Middle-aged animals are most commonly affected. Female dogs are twice as likely to be affected as males, while according to some sources, male cats are also more prone than females. In both species, all breeds may be affected, but some small dog breeds are particularly likely to develop diabetes, such as Miniature Poodles.[123]


Originally described in approximately 30% of patients with type 1 diabetes mellitus, limited joint mobility occurs in 50% of patients older than age 10 years who have had diabetes for longer than 5 years. The condition restricts joint extension, making it difficult to press the hands flat against each other. The skin of patients with severe joint involvement has a thickened and waxy appearance.

A population-based, nationwide cohort study in Finland examined the short -and long-term time trends in mortality among patients with early-onset and late-onset type 1 diabetes. The results suggest that in those with early-onset type 1 diabetes (age 0-14 y), survival has improved over time. Survival of those with late-onset type 1 diabetes (15-29 y) has deteriorated since the 1980s, and the ratio of deaths caused by acute complications has increased in this group. Overall, alcohol was noted as an important cause of death in patients with type 1 diabetes; women had higher standardized mortality ratios than did men in both groups. [38]
A study by Chan et al indicated that in pediatric patients with type 1 diabetes, the presence of hypoglycemia is a sign of decreased insulin sensitivity, while hyperglycemia in these patients, especially overnight, signals improved sensitivity to insulin. In contrast, the investigators found evidence that in pediatric patients with type 2 diabetes, markers of metabolic syndrome and hyperglycemia are associated with reduced insulin sensitivity. Patients in the study were between ages 12 and 19 years. [23]
A fingerstick glucose test is most often used to monitor blood glucose. Most blood glucose monitoring devices (glucose meters) use a drop of blood obtained by pricking the tip of the finger with a small lancet. The lancet holds a tiny needle that can be jabbed into the finger or placed in a spring-loaded device that easily and quickly pierces the skin. Most people find that the pricking causes only minimal discomfort. Then, a drop of blood is placed on a reagent strip. The strip contains chemicals that undergo changes depending on the glucose level. The glucose meter reads the changes in the test strip and reports the result on a digital display. Some devices allow the blood sample to be obtained from other sites, such as the palm, forearm, upper arm, thigh, or calf. Home glucose meters are smaller than a deck of cards.
A number of studies have looked for relationships between sugar and diabetes risk. A 2017 meta-analysis, based on nine reports of 15 cohort studies including 251,261 participants, found no significant effect of total sugars on the risk of developing type 2 diabetes.7 Those consuming the most sugar actually had a 9 percent lower risk of developing diabetes, compared with those consuming the least sugar, although the difference was not statistically significant (meaning that it could have been a chance result). Similarly, fructose was not significantly associated with diabetes risk. Sucrose appeared to have a significant protective association. Those consuming the most sucrose had 11 percent less risk of developing type 2 diabetes, compared with those consuming the least.
Type 2 diabetes is a condition of blood sugar dysregulation. In general blood sugar is too high, but it also can be too low. This can happen if you take medications then skip a meal. Blood sugar also can rise very quickly after a high glycemic index meal, and then fall a few hours later, plummeting into hypoglycemia (low blood sugar). The signs and symptoms of hypoglycemia can include
Knowledge is power. A certified diabetes educator can provide you with diabetes self-management education. They specialize in diabetes and can help you learn about complicated or easier things. For example, they can help you set up your glucose meter, teach you about how your medicines work, or help you put together a meal plan. You can meet with them one on one or in group setting.
The above tips are important for you. But it's also crucial to allow yourself time to cope with the diagnosis and commit to making lifestyle changes that will benefit you forever. The good news is the diabetes is a manageable disease; the tough part is that you must think about it daily. Consider finding support—someone that you can talk to about your struggles—be that a friend, another person with diabetes, or a loved one. This may seem trivial, but it truly can help you take control of diabetes so that it doesn't control you. Some next steps that may help you to get on the right track at this early stage in your journey:

Jump up ^ Haw JS, Galaviz KI, Straus AN, Kowalski AJ, Magee MJ, Weber MB, Wei J, Narayan KM, Ali MK (December 2017). "Long-term Sustainability of Diabetes Prevention Approaches: A Systematic Review and Meta-analysis of Randomized Clinical Trials". JAMA Internal Medicine. 177 (12): 1808–1817. doi:10.1001/jamainternmed.2017.6040. PMC 5820728. PMID 29114778.


Large, population-based studies in China, Finland and USA have recently demonstrated the feasibility of preventing, or delaying, the onset of diabetes in overweight subjects with mild glucose intolerance (IGT). The studies suggest that even moderate reduction in weight and only half an hour of walking each day reduced the incidence of diabetes by more than one half.
After a diagnosis of diabetes mellitus has been made, and treatment with insulin therapy has begun, a so-called ‘honeymoon stage’ may develop. This stage is characterised by a reduction in insulin requirements which may last from weeks to months. Some patients may require no insulin at all. This stage is always transient (short-lasting) and is due to production of insulin by the remaining surviving pancreatic beta cells. Eventually, these cells will be destroyed by the on-going auto-immune process, and the patient will be dependent on exogenous (artificial) insulin.
Alternatively, if you hit it really hard for 20 minutes or so, you may never enter the fat burning phase of exercise. Consequently, your body becomes more efficient at storing sugar (in the form of glycogen) in your liver and muscles, where it is needed, as glycogen is the muscles’ primary fuel source. If your body is efficient at storing and using of glycogen, it means that it is not storing fat.
Most cases (95%) of type 1 diabetes mellitus are the result of environmental factors interacting with a genetically susceptible person. This interaction leads to the development of autoimmune disease directed at the insulin-producing cells of the pancreatic islets of Langerhans. These cells are progressively destroyed, with insulin deficiency usually developing after the destruction of 90% of islet cells.
On behalf of the millions of Americans who live with or are at risk for diabetes, we are committed to helping you understand this chronic disease. Help us set the record straight and educate the world about diabetes and its risk factors by sharing the common questions and answers below. If you're new to type 2 diabetes, join our Living With Type 2 Diabetes program to get more facts.
Visual impairment and blindness are common sequelae of uncontrolled diabetes. The three most frequently occurring problems involving the eye are diabetic retinopathy, cataracts, and glaucoma. photocoagulation of destructive lesions of the retina with laser beams can be used to delay further progress of pathologic changes and thereby preserve sight in the affected eye.
As with many conditions, treatment of type 2 diabetes begins with lifestyle changes, particularly in your diet and exercise. If you have type 2 diabetes, speak to your doctor and diabetes educator about an appropriate diet. You may be referred to a dietitian. It is also a good idea to speak with your doctor before beginning an exercise program that is more vigourous than walking to determine how much and what kind of exercise is appropriate.
Patients who suffer from diabetes have a lifelong struggle to attain and maintain blood glucose levels as close to the normal range as possible. With appropriate blood sugar control, the risk of both microvascular (small blood vessel) and neuropathic (nerve) complications is decreased markedly. Additionally, if hypertension (high blood pressure) and hyperlipidemia (high cholesterol) are treated promptly and aggressively, the risk of cardiovascular complications should decrease as well.
Apart from these medications, treating diabetes effectively means taking a well-rounded approach: You’ll need to eat well, exercise, and manage stress, because all these factors can affect your blood sugar levels. Staying healthy with diabetes also requires caring for yourself — like protecting your feet, practicing oral hygiene, and tending to your mental health.
; DM multiaetiology metabolic disease due to reduced/absent production of pancreatic insulin, and/or insulin resistance by peripheral tissue insulin receptors; characterized by reduced carbohydrate metabolism and increased fat and protein metabolism, leading to hyperglycaemia, increasing glycosuria, water and electrolyte imbalance, ketoacidosis, coma and death if left untreated; chronic long-term complications of DM include nephropathy, retinopathy, neuropathy and generalized degenerative changes in large and small arteries; treatment (with insulin/oral hypoglycaemic agents/diet) aims to stabilize blood glucose levels to the normal range (difficult to achieve fully; patients may tend to hyperglycaemia or hypoglycaemia due to mismanagement of glycaemic control); Tables D4-D7
Acute Coronary Syndrome Moderate Risk Acute Coronary Syndrome Management Low Risk Acute Coronary Syndrome Management Myocardial Infarction Stabilization Post Myocardial Infarction Medications Cardiac Rehabilitation Angina Pectoris Heart Failure Causes NYHA Heart Failure Classification Diastolic Heart Failure Systolic Dysfunction Atrial Fibrillation Acute Management Atrial Fibrillation Anticoagulation Coronary Artery Disease Prevention in Diabetes Hypertension in Diabetes Mellitus CHAD Score Hypertension in the Elderly Isolated Systolic Hypertension Hypertension Criteria Hypertension Evaluation History Hypertension Management Hypertension Risk Stratification Resistant Hypertension Hypertension Management for Specific Comorbid Diseases Hypertension Management for Specific Emergencies Bacterial Endocarditis HDL Cholesterol LDL Cholesterol Triglyceride VLDL Cholesterol Hypercholesterolemia Hypertriglyceridemia AntiHyperlipidemic Hypertensive Disorders of Pregnancy Preeclampsia Prevention Congenital Heart Disease Hypertension in Children Medication Causes of Hypertension ACE Inhibitor Angiotensin 2 Receptor Blocking Agent Dihydropyridine Calcium Channel Blocker Nifedipine Selective Aldosterone Receptor Antagonist Niacin HMG-CoA Reductase Inhibitor Cardiac Risk Cardiac Risk Management Exercise Stress Test Stress Myocardial Perfusion Imaging Preoperative Cardiovascular Evaluation Eagle's Cardiac Risk Assessment Revised Cardiac Risk Index ACC-AHA Preoperative Cardiac Risk Assessment ACP Preoperative Cardiac Risk Assessment Syncope Subclavian Steal Syndrome Periodontitis Oral Health Cellulitis Necrotizing Soft Tissue Infection Group A Streptococcal Cellulitis Vibrio Cellulitis Gram-Negative Toe Web Infection Impetigo Skin Infections in Diabetes Mellitus Erythralgia Blister Skin Ulcer Cutaneous Candidiasis Onychomycosis Alopecia Areata Skin Abscess Skin Infection Intertrigo Nail Discoloration Terry's Nail Ingrown Toenail Hyperpigmentation Carotenemia Incision and Drainage Cryotherapy Skin Conditions in Diabetes Mellitus Acanthosis Nigricans Diabetic Dermopathy Granuloma Annulare Necrobiosis Lipoidica Type 1 Diabetes Mellitus Type 2 Diabetes Mellitus Metabolic Syndrome Diabetes Mellitus Complications Diabetic Ketoacidosis Diabetic Ketoacidosis Management in Adults Diabetic Ketoacidosis Management in Children Hyperosmolar Hyperglycemic State Diabetic Education Diabetes Mellitus Glucose Management Diabetes Mellitus Control in Hospital Diabetes Resources Diabetic Retinopathy Unintentional Weight Loss Unintentional Weight Loss Causes Hypoglycemia Serum Glucose Glucose Challenge Test Glucose Tolerance Test 2 hour Hemoglobin A1C Sex Hormone Binding Globulin Endocrinology Links Diabetic Neuropathy Neonatal Hypoglycemia Obesity Risk Gestational Diabetes Gestational Diabetes Management Gestational Diabetes Perinatal Mortality Diabetes Mellitus Preconception Counseling Obesity in Children Systemic Corticosteroid Medication Causes of Hyperglycemia GlucoWatch Biographer Symlin Inhaled Insulin Somogyi Phenomena Glucophage Human Growth Hormone Orlistat Diabetic Foot Care Nutrition in Diabetes Mellitus Type 2 Diabetic Nephropathy Klinefelter Syndrome Hypogonadotropic Hypogonadism Pubertal Delay Exercise in Diabetes Mellitus Perioperative Diabetes Management Obesity Surgery Night Sweats Acute Otitis Externa Bacterial Otitis Externa Necrotizing Otitis Externa Hearing Loss Sensorineural Hearing Loss Vocal Cord Paralysis Thrush Manual Cerumen Removal Sinus XRay Acute Suppurative Sialoadenitis Rhinosinusitis Tinnitus Burning Mouth Syndrome Taste Dysfunction Loss of Smell Dry Mouth Salivary Gland Enlargement Tongue Pain Dysequilibrium Atrophic Glossitis Animal Bite Infected Animal Bite Human Bite Heat Illness Risk Factors Burn Management Trauma in Pregnancy Bacterial Conjunctivitis Central Retinal Artery Occlusion Open Angle Glaucoma Cataract Ischemic Optic Neuritis Vitreous Hemorrhage Laser In-Situ Keratomileusis Floaters Light Flashes Acute Vision Loss Health Concerns in the Elderly Infections in Older Adults Medication Use in the Elderly Failure to Thrive in the Elderly Fall Prevention in the Elderly Irritable Bowel Syndrome Constipation Causes Chronic Diarrhea Traveler's Diarrhea Esophageal Dysmotility Gastroesophageal Reflux Hemochromatosis Pancreatic Cancer Hepatitis C Nonalcoholic Fatty Liver Serum Angiotensin Converting Enzyme Liver Function Test Abnormality Lactase Deficiency Acute Pancreatitis Chronic Pancreatitis Osmotic Laxative Hepatotoxic Medication Traveler's Diarrhea Prophylaxis Pruritus Ani Perirectal Abscess Gastroparesis Whipple Procedure Upper Gastrointestinal Bleeding Dyspepsia Causes Nausea Causes Contraception HAIR-AN Syndrome Polycystic Ovary Disease Menopause Endometrial Cancer Risk Factor Candida Vulvovaginitis Anovulatory Bleeding Oral Contraceptive Female Sexual Dysfunction Cancer Survivor Care Serum Protein Electrophoresis Perioperative Anticoagulation Cardiovascular Manifestations of HIV HIV Presentation Hepatitis in HIV HIV Related Neuropathy Stavudine Emerging Infection Methicillin Resistant Staphylococcus Aureus Fever of Unknown Origin Candidiasis Neutropenic Fever Hepatitis B Vaccine Influenza Vaccine Postherpetic Neuralgia Fluoroquinolone Third Generation Fluoroquinolone Sulfonamide Travel Preparation Travel Immunization Influenza Dengue Legionella Acute Exacerbation of Chronic Bronchitis Pneumonia in the Elderly Pneumonia Churg-Strauss Syndrome Tuberculin Skin Test Cystic Fibrosis Isoniazid Lung Transplantation in Cystic Fibrosis Active Tuberculosis Treatment Medical Literature Autonomic Dysfunction Bell's Palsy Facial Nerve Paralysis Causes Dementia Agitation in Dementia Ischemic Stroke Stroke Pathophysiology CVA Management Multiple Sclerosis Down Syndrome Cranial Nerve 3 Coma Exam Hemiplegia Giant Cell Arteritis Spinal Headache CSF Protein Altered Level of Consciousness Causes Guillain Barre Syndrome Restless Leg Syndrome Triptan Prevention of Ischemic Stroke Nerve Conduction Velocity Paresthesia Causes Peripheral Neuropathy Asymmetric Peripheral Neuropathy Peripheral Neuropathy Tremor Neonatal Distress Causes Newborn History Newborn Exam Neonatal Jaundice Causes Respiratory Distress Syndrome in the Newborn Late Pregnancy Loss Preterm Labor First Trimester Bleeding Fetal Macrosomia Hyperemesis Gravidarum Medications in Pregnancy Ritodrine Terbutaline Pregnancy Risk Assessment Probe-to-Bone Test Shoulder History Dupuytren's Disease Septic Bursitis Spinal Infection Osteomyelitis Causes Vertebral Osteomyelitis Patellar Tendinopathy Meralgia Paresthetica Frozen Shoulder Exertional Compartment Syndrome Hip Pain Low Back Pain Red Flag Carpal Tunnel Syndrome Adolescent Health Bullying Ephedrine Ginseng Myoinositol Nonsteroidal Anti-inflammatory Lab Markers of Malnutrition Nutrition Guidelines Glycemic Index Non-nutritive Sweetener Conenzyme Q10 Mortality Statistics Adult Health Maintenance Screening DOT Examination Family History Refugee Health Exam Automobile Safety Substance Abuse Evaluation Alcohol Detoxification in Ambulatory Setting Major Depression Major Depression Differential Diagnosis Anorexia Nervosa Antabuse Selective Serotonin Reuptake Inhibitor Antipsychotic Medication Clozapine Olanzapine Psychosis Insomnia Causes Renal Artery Stenosis Idiopathic Cyclic Edema Acute Kidney Injury Risk Chronic Renal Failure Acute Glomerulonephritis Nephrotic Syndrome Serum Osmolality Hypomagnesemia Drug Dosing in Chronic Kidney Disease Hyperkalemia due to Medications Hyperkalemia Causes Prevention of Kidney Disease Progression Intravenous Contrast Related Acute Renal Failure Osteoporosis Evaluation Antiphospholipid Antibody Syndrome Systemic Lupus Erythematosus Polymyositis Differential Diagnosis Septic Joint Gouty Arthritis Fibromyalgia Charcot's Joint Charcot Foot Complex Regional Pain Syndrome Osteoarthritis Methotrexate Joint Injection Rheumatoid Arthritis Fatigue Causes Impairment Evaluation Pre-participation History Exercise Exercise in the Elderly Walking Program Scuba Diving Procedural Sedation and Analgesia Peripheral Arterial Occlusive Disease Peripheral Vascular Disease Management Venous Insufficiency Wound Decubitus Ulcer Foot Wound Leg Ulcer Causes Wound Repair Fishhook Removal Ankle-Brachial Index Preoperative Examination Gallstone Acalculous Cholecystitis Cholecystectomy Small Bowel Obstruction Bowel Pseudoobstruction Abdominal Muscle Wall Pain Abdominal Wall Pain Causes Hydrocolloid Dressing Suture Material Surgical Antibiotic Prophylaxis Male Infertility Testicular Failure Bladder Cancer Urinary Tract Infection Recurrent Cystitis Acute Bacterial Prostatitis Acute Pyelonephritis Erectile Dysfunction Erectile Dysfunction Causes Erectile Dysfunction Management Urinary Incontinence Overflow Incontinence Urine pH Urine Specific Gravity Enuresis Proteinuria in Children Balanitis Peyronie's Disease Benign Prostatic Hyperplasia Vasectomy Counseling Proteinuria Causes Targeted Cancer Therapy Acute Paronychia Chronic Paronychia Urinary Retention Decreased Visual Acuity Gastrointestinal Manifestations of Diabetes Mellitus Shoulder Osteoarthritis Vitiligo Cardiomyopathy Heart Transplant Contraceptive Selection in Diabetes Mellitus Periodontal Bleeding Perioperative Antiplatelet Therapy Charlson Comorbidity Index Constipation Causes in the Elderly Chronic Osteomyelitis Abnormal Gait and Balance Causes in the Elderly Calcium Channel Blocker Overdose Diverticular Bleeding Framingham Cardiac Risk Scale Cardiac Risk in Diabetes Score Outpatient Bleeding Risk Index Four Year Prognostic Index Diabetes Screening ABCD2 Score Urine Microalbumin Hearing Loss in Older Adults Preoperative Guidelines for Medications Prior to Surgery Contrast-Induced Nephropathy Risk Score Hyperlipidemia in Diabetes Mellitus Diamond and Forrester Chest Pain Prediction Rule Coronary Risk Stratification of Chest Pain Diabetes Sick Day Management Urinary Tract Infection in Geriatric Patients Insulinlike Growth Factor 1 Avascular Necrosis of the Femoral Head Family Practice Notebook Updates 2014 Emergency Care in ESRD Medication Compliance Slit Lamp Sulfonamide Allergy Health Care of the Homeless CHADS2-VASc Score Tuberculosis Risk Factors for progression from Latent to Active Disease Family Practice Notebook Updates 2015 Wound Infection Asymptomatic Bacteriuria Toxic Shock Syndrome Tetanus ASA Physical Status Classification System Family Practice Notebook Updates 2016 Solid Organ Transplant Calcineurin Inhibitor Cardiac Pacemaker Infection DAPT Score Acute Maculopathy Medication Causes of Delirium in the Elderly Family Practice Notebook Updates 2017 Major Bleeding Risk With Anticoagulants Severe Asymptomatic Hypertension Chronic Wound Family Practice Notebook Updates Stable Coronary Artery Disease Nocturia Polyuria Hyperhidrosis Causes Pneumaturia Anemia in Older Adults Type 2 Diabetes Mellitus in Children
Treatment of high blood pressure and high cholesterol levels, which can contribute to circulation problems, can help prevent some of the complications of diabetes as well. A low dose of aspirin taken daily is recommended in people with risk factors for heart disease. All people with diabetes who are between 40 and 75 years are given a statin (a drug to decrease cholesterol levels) regardless of cholesterol levels. Younger people with an elevated risk of heart disease should also take a statin .
Doctors, pharmacists, and other health-care professionals use abbreviations, acronyms, and other terminology for instructions and information in regard to a patient's health condition, prescription drugs they are to take, or medical procedures that have been ordered. There is no approved this list of common medical abbreviations, acronyms, and terminology used by doctors and other health- care professionals. You can use this list of medical abbreviations and acronyms written by our doctors the next time you can't understand what is on your prescription package, blood test results, or medical procedure orders. Examples include:
FASTING GLUCOSE TEST. Blood is drawn from a vein in the patient's arm after a period at least eight hours when the patient has not eaten, usually in the morning before breakfast. The red blood cells are separated from the sample and the amount of glucose is measured in the remaining plasma. A plasma level of 7.8 mmol/L (200 mg/L) or greater can indicate diabetes. The fasting glucose test is usually repeated on another day to confirm the results.
Injections of insulin may either be added to oral medication or used alone.[24] Most people do not initially need insulin.[13] When it is used, a long-acting formulation is typically added at night, with oral medications being continued.[23][24] Doses are then increased to effect (blood sugar levels being well controlled).[24] When nightly insulin is insufficient, twice daily insulin may achieve better control.[23] The long acting insulins glargine and detemir are equally safe and effective,[98] and do not appear much better than neutral protamine Hagedorn (NPH) insulin, but as they are significantly more expensive, they are not cost effective as of 2010.[99] In those who are pregnant insulin is generally the treatment of choice.[23]
The patient, physician, nurse, and dietician must carefully evaluate the patient's life style, nutritional needs, and ability to comply with the proposed dietary prescription. There are a variety of meal planning systems that can be used by the patient with diabetes; each has benefits and drawbacks that need to be evaluated in order to maximize compliance. Two of the most frequently used ones are the exchange system (see accompanying table) and the carbohydrate counting system.
You can develop type 2 diabetes at any age, even during childhood. However, type 2 diabetes occurs most often in middle-aged and older people. You are more likely to develop type 2 diabetes if you are age 45 or older, have a family history of diabetes, or are overweight or obese. Diabetes is more common in people who are African American, Hispanic/Latino, American Indian, Asian American, or Pacific Islander.
The brain depends on glucose as a fuel. As glucose levels drop below 65 mg/dL (3.2 mmol/L) counterregulatory hormones (eg, glucagon, cortisol, epinephrine) are released, and symptoms of hypoglycemia develop. These symptoms include sweatiness, shaking, confusion, behavioral changes, and, eventually, coma when blood glucose levels fall below 30-40 mg/dL.
Does having type 2 diabetes affect life expectancy? While continued improvements in therapies and care for type 2 diabetes may be helping patients live longer, the unfortunate reality is that type 2 diabetes has been shown to decrease life expectancy by up to ten years, according to Diabetes UK. There is still much to be done to ensure that all patients have access to appropriate healthcare and treatments to live a happier and healthier life with type 2 diabetes.
Symptoms of type 1 diabetes can start quickly, in a matter of weeks. Symptoms of type 2 diabetes often develop slowly—over the course of several years—and can be so mild that you might not even notice them. Many people with type 2 diabetes have no symptoms. Some people do not find out they have the disease until they have diabetes-related health problems, such as blurred vision or heart trouble.
Some patients with type 2 DM can control their disease with a calorically restricted diet (for instance 1600 to 1800 cal/day), regular aerobic exercise, and weight loss. Most patients, however, require the addition of some form of oral hypoglycemic drug or insulin. Oral agents to control DM include sulfonylurea drugs (such as glipizide), which increase pancreatic secretion of insulin; biguanides or thiazolidinediones (such as metformin or pioglitazone), which increase cellular sensitivity to insulin; or a-glucosidase inhibitors (such as acarbose), which decrease the absorption of carbohydrates from the gastrointestinal tract. Both types of diabetics also may be prescribed pramlintide (Symlin), a synthetic analog of human amylin, a hormone manufactured in the pancreatic beta cells. It enhances postprandial glucose control by slowing gastric emptying, decreasing postprandial glucagon concentrations, and regulating appetite and food intake; thus pramlintide is helpful for patients who do not achieve optimal glucose control with insulin and/or oral antidiabetic agents. When combinations of these agents fail to normalize blood glucose levels, insulin injections are added. Tight glucose control can reduce the patient’s risk of many of the complications of the disease. See: illustration
Kidney damage from diabetes is called diabetic nephropathy. The onset of kidney disease and its progression is extremely variable. Initially, diseased small blood vessels in the kidneys cause the leakage of protein in the urine. Later on, the kidneys lose their ability to cleanse and filter blood. The accumulation of toxic waste products in the blood leads to the need for dialysis. Dialysis involves using a machine that serves the function of the kidney by filtering and cleaning the blood. In patients who do not want to undergo chronic dialysis, kidney transplantation can be considered.
Unexplained weight loss can happen for lots of reasons, and diabetes is one of them. Goundan explains that insulin helps your body move sugar from your blood to your cells, so when you have an insulin resistance, you don’t get enough energy into your cells despite all that sugar flowing through your body. “Because you’re unable to get enough energy from sugar, your body burns your own fat and muscle for energy," Kellis says. "Weight loss can be pretty significant, sometimes 10 to 20 pounds."
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