The term diabetes mellitus includes several different metabolic disorders that all, if left untreated, result in abnormally high concentration of a sugar called glucose in the blood. Diabetes mellitus type 1 results when the pancreas no longer produces significant amounts of the hormone insulin, usually owing to the autoimmune destruction of the insulin-producing beta cells of the pancreas. Diabetes mellitus type 2, in contrast, is now thought to result from autoimmune attacks on the pancreas and/or insulin resistance. The pancreas of a person with type 2 diabetes may be producing normal or even abnormally large amounts of insulin. Other forms of diabetes mellitus, such as the various forms of maturity onset diabetes of the young, may represent some combination of insufficient insulin production and insulin resistance. Some degree of insulin resistance may also be present in a person with type 1 diabetes.
The main goal of diabetes management is, as far as possible, to restore carbohydrate metabolism to a normal state. To achieve this goal, individuals with an absolute deficiency of insulin require insulin replacement therapy, which is given through injections or an insulin pump. Insulin resistance, in contrast, can be corrected by dietary modifications and exercise. Other goals of diabetes management are to prevent or treat the many complications that can result from the disease itself and from its treatment.
The treatment goals are related to effective control of blood glucose, blood pressure and lipids, to minimize the risk of long-term consequences associated with diabetes. They are suggested in clinical practice guidelines released by various national and international diabetes agencies.
The targets are:
Goals should be individualized based on:[3]
In older patients, clinical practice guidelines by the American Geriatrics Society states "for frail older adults, persons with life expectancy of less than 5 years, and others in whom the risks of intensive glycemic control appear to outweigh the benefits, a less stringent target such as HbA1c of 8% is appropriate".[4]
The primary issue requiring management is that of the glucose cycle. In this, glucose in the bloodstream is made available to cells in the body; a process dependent upon the twin cycles of glucose entering the bloodstream, and insulin allowing appropriate uptake into the body cells. Both aspects can require management.
The main complexities stem from the nature of the feedback loop of the glucose cycle, which is sought to be regulated:
As diabetes is a prime risk factor for cardiovascular disease, controlling other risk factors which may give rise to secondary conditions, as well as the diabetes itself, is one of the facets of diabetes management. Checking cholesterol, LDL, HDL and triglyceride levels may indicate hyperlipoproteinemia, which may warrant treatment with hypolipidemic drugs. Checking the blood pressure and keeping it within strict limits (using diet and antihypertensive treatment) protects against the retinal, renal and cardiovascular complications of diabetes. Regular follow-up by a podiatrist or other foot health specialists is encouraged to prevent the development of diabetic foot. Annual eye exams are suggested to monitor for progression of diabetic retinopathy.
Late in the 19th century, sugar in the urine (glycosuria) was associated with diabetes. Various doctors studied the connection. Frederick Madison Allen studied diabetes in 1909-12, then published a large volume, Studies Concerning Glycosuria and Diabetes, (Boston, 1913). He invented a fasting treatment for diabetes called the Allen treatment for diabetes. His diet was an early attempt at managing diabetes.
Modern approaches to diabetes primarily rely upon dietary and lifestyle management, often combined with regular ongoing blood glucose level monitoring.
Diet management allows control and awareness of the types of nutrients entering the digestive system, and hence allows indirectly, significant control over changes in blood glucose levels. Blood glucose monitoring allows verification of these, and closer control, especially important since some symptoms of diabetes are not easy for the patient to notice without actual measurement.
Other approaches include exercise and other lifestyle changes which impact the glucose cycle.
In addition, a strong partnership between the patient and the primary healthcare provider general practitioner or internist is an essential tool in the successful management of diabetes. Often the primary care doctor makes the initial diagnosis of diabetes and provides the basic tools to get the patient started on a management program. Regular appointments with the primary care physician and a certified diabetes educator are some of the best things a patient can do in the early weeks after a diagnosis of diabetes. Upon the diagnosis of diabetes, the primary care physician, specialist, or endocrinologist will conduct a full physical and medical examination. A thorough assessment covers topics such as:
Diabetes can be very complicated, and the physician needs to have as much information as possible to help the patient establish an effective management plan. Physicians may often experience data overload resulting from hundreds of blood-glucose readings, insulin dosages and other health factors occurring between regular office visits which must be deciphered during a relatively brief visit with the patient to determine patterns and establish or modify a treatment plan.[5]
The physician can also make referrals to a wide variety of professionals for additional health care support. In the UK a patient training course is available for newly diagnosed diabetics (see DESMOND). In big cities, there may be diabetes centers where several specialists, such as diabetes educators and dietitians, work together as a team. In smaller towns, the health care team may come together a little differently depending on the types of practitioners in the area. By working together, doctors and patients can optimize the healthcare team to successfully manage diabetes over the long term.
The 10 countries with the largest populations of diabetic patients are China, India, the U.S., Brazil, Russia, Mexico, Indonesia, Germany, Egypt and Japan.[6]
Blood sugar level is measured by means of a glucose meter, with the result either in mg/dL (milligrams per deciliter in the USA) or mmol/L (millimoles per litre in Canada and Europe) of blood. The average normal person should have a glucose level of around 4.5 to 7.0mmol/L (80 to 125mg/dL).
Optimal management of diabetes involves patients measuring and recording their own blood glucose levels. By keeping a diary of their own blood glucose measurements and noting the effect of food and exercise, patients can modify their lifestyle to better control their diabetes. For patients on insulin, patient involvement is important in achieving effective dosing and timing.
Some edible mushrooms are noted for the ability to lower blood sugar levels including Reishi,[7][8]Maitake[9][10][11][12][13][14]Agaricus blazei[15][16][17][18] as well as some others.
Levels which are significantly above or below this range are problematic and can in some cases be dangerous. A level of <3.8mmol/L (<70mg/dL) is usually described as a hypoglycemic attack (low blood sugar). Most diabetics know when they are going to "go hypo" and usually are able to eat some food or drink something sweet to raise levels. A patient who is hyperglycemic (high glucose) can also become temporarily hypoglycemic, under certain conditions (e.g. not eating regularly, or after strenuous exercise, followed by fatigue). Intensive efforts to achieve blood sugar levels close to normal have been shown to triple the risk of the most severe form of hypoglycemia, in which the patient requires assistance from by-standers in order to treat the episode.[19] In the United States, there were annually 48,500 hospitalizations for diabetic hypoglycemia and 13,100 for diabetic hypoglycemia resulting in coma in the period 1989 to 1991, before intensive blood sugar control was as widely recommended as today.[20] One study found that hospital admissions for diabetic hypoglycemia increased by 50% from 1990-1993 to 1997-2000, as strict blood sugar control efforts became more common.[21] Among intensively controlled type 1 diabetics, 55% of episodes of severe hypoglycemia occur during sleep, and 6% of all deaths in diabetics under the age of 40 are from nocturnal hypoglycemia in the so-called 'dead-in-bed syndrome,' while National Institute of Health statistics show that 2% to 4% of all deaths in diabetics are from hypoglycemia.[22] In children and adolescents following intensive blood sugar control, 21% of hypoglycemic episodes occurred without explanation.[23] In addition to the deaths caused by diabetic hypoglycemia, periods of severe low blood sugar can also cause permanent brain damage.[24] Interestingly, although diabetic nerve disease is usually associated with hyperglycemia, hypoglycemia as well can initiate or worsen neuropathy in diabetics intensively struggling to reduce their hyperglycemia.[25]
Levels greater than 13-15mmol/L (230270mg/dL) are considered high, and should be monitored closely to ensure that they reduce rather than continue to remain high. The patient is advised to seek urgent medical attention as soon as possible if blood sugar levels continue to rise after 2-3 tests. High blood sugar levels are known as hyperglycemia, which is not as easy to detect as hypoglycemia and usually happens over a period of days rather than hours or minutes. If left untreated, this can result in diabetic coma and death.
Prolonged and elevated levels of glucose in the blood, which is left unchecked and untreated, will, over time, result in serious diabetic complications in those susceptible and sometimes even death. There is currently no way of testing for susceptibility to complications. Diabetics are therefore recommended to check their blood sugar levels either daily or every few days. There is also diabetes management software available from blood testing manufacturers which can display results and trends over time. Type 1 diabetics normally check more often, due to insulin therapy.
A history of blood sugar level results is especially useful for the diabetic to present to their doctor or physician in the monitoring and control of the disease. Failure to maintain a strict regimen of testing can accelerate symptoms of the condition, and it is therefore imperative that any diabetic patient strictly monitor their glucose levels regularly.
Glycemic control is a medical term referring to the typical levels of blood sugar (glucose) in a person with diabetes mellitus. Much evidence suggests that many of the long-term complications of diabetes, especially the microvascular complications, result from many years of hyperglycemia (elevated levels of glucose in the blood). Good glycemic control, in the sense of a "target" for treatment, has become an important goal of diabetes care, although recent research suggests that the complications of diabetes may be caused by genetic factors[26] or, in type 1 diabetics, by the continuing effects of the autoimmune disease which first caused the pancreas to lose its insulin-producing ability.[27]
Because blood sugar levels fluctuate throughout the day and glucose records are imperfect indicators of these changes, the percentage of hemoglobin which is glycosylated is used as a proxy measure of long-term glycemic control in research trials and clinical care of people with diabetes. This test, the hemoglobin A1c or glycosylated hemoglobin reflects average glucoses over the preceding 23 months. In nondiabetic persons with normal glucose metabolism the glycosylated hemoglobin is usually 4-6% by the most common methods (normal ranges may vary by method).
"Perfect glycemic control" would mean that glucose levels were always normal (70130mg/dl, or 3.9-7.2mmol/L) and indistinguishable from a person without diabetes. In reality, because of the imperfections of treatment measures, even "good glycemic control" describes blood glucose levels that average somewhat higher than normal much of the time. In addition, one survey of type 2 diabetics found that they rated the harm to their quality of life from intensive interventions to control their blood sugar to be just as severe as the harm resulting from intermediate levels of diabetic complications.[28]
Accepted "target levels" of glucose and glycosylated hemoglobin that are considered good control have been lowered over the last 25 years, because of improvements in the tools of diabetes care, because of increasing evidence of the value of glycemic control in avoiding complications, and by the expectations of both patients and physicians. What is considered "good control" also varies by age and susceptibility of the patient to hypoglycemia.
In the 1990s the American Diabetes Association conducted a publicity campaign to persuade patients and physicians to strive for average glucose and hemoglobin A1c values below 200mg/dl (11mmol/l) and 8%. Currently many patients and physicians attempt to do better than that.
Poor glycemic control refers to persistently elevated blood glucose and glycosylated hemoglobin levels, which may range from 200500mg/dl (11-28mmol/L) and 9-15% or higher over months and years before severe complications occur. Meta-analysis of large studies done on the effects of tight vs. conventional, or more relaxed, glycemic control in type 2 diabetics have failed to demonstrate a difference in all-cause cardiovascular death, non-fatal stroke, or limb amputation, but decreased the risk of nonfatal heart attack by 15%. Additionally, tight glucose control decreased the risk of progression of retinopathy and nephropathy, and decreased the incidence peripheral neuropathy, but increased the risk of hypoglycemia 2.4 times.[29]
Relying on their own perceptions of symptoms of hyperglycemia or hypoglycemia is usually unsatisfactory as mild to moderate hyperglycemia causes no obvious symptoms in nearly all patients. Other considerations include the fact that, while food takes several hours to be digested and absorbed, insulin administration can have glucose lowering effects for as little as 2 hours or 24 hours or more (depending on the nature of the insulin preparation used and individual patient reaction). In addition, the onset and duration of the effects of oral hypoglycemic agents vary from type to type and from patient to patient.
Control and outcomes of both types 1 and 2 diabetes may be improved by patients using home glucose meters to regularly measure their glucose levels.[citation needed] Glucose monitoring is both expensive (largely due to the cost of the consumable test strips) and requires significant commitment on the part of the patient. The effort and expense may be worthwhile for patients when they use the values to sensibly adjust food, exercise, and oral medications or insulin. These adjustments are generally made by the patients themselves following training by a clinician.
Regular blood testing, especially in type 1 diabetics, is helpful to keep adequate control of glucose levels and to reduce the chance of long term side effects of the disease. There are many (at least 20+) different types of blood monitoring devices available on the market today; not every meter suits all patients and it is a specific matter of choice for the patient, in consultation with a physician or other experienced professional, to find a meter that they personally find comfortable to use. The principle of the devices is virtually the same: a small blood sample is collected and measured. In one type of meter, the electrochemical, a small blood sample is produced by the patient using a lancet (a sterile pointed needle). The blood droplet is usually collected at the bottom of a test strip, while the other end is inserted in the glucose meter. This test strip contains various chemicals so that when the blood is applied, a small electrical charge is created between two contacts. This charge will vary depending on the glucose levels within the blood. In older glucose meters, the drop of blood is placed on top of a strip. A chemical reaction occurs and the strip changes color. The meter then measures the color of the strip optically.
Self-testing is clearly important in type I diabetes where the use of insulin therapy risks episodes of hypoglycaemia and home-testing allows for adjustment of dosage on each administration.[30] However its benefit in type 2 diabetes is more controversial as there is much more variation in severity of type 2 cases.[31] It has been suggested that some type 2 patients might do as well with home urine-testing alone.[32] The best use of home blood-sugar monitoring is being researched.[33]
Benefits of control and reduced hospital admission have been reported.[34] However, patients on oral medication who do not self-adjust their drug dosage will miss many of the benefits of self-testing, and so it is questionable in this group. This is particularly so for patients taking monotherapy with metformin who are not at risk of hypoglycaemia. Regular 6 monthly laboratory testing of HbA1c (glycated haemoglobin) provides some assurance of long-term effective control and allows the adjustment of the patient's routine medication dosages in such cases. High frequency of self-testing in type 2 diabetes has not been shown to be associated with improved control.[35] The argument is made, though, that type 2 patients with poor long term control despite home blood glucose monitoring, either have not had this integrated into their overall management, or are long overdue for tighter control by a switch from oral medication to injected insulin.[36]
Continuous Glucose Monitoring (CGM) CGM technology has been rapidly developing to give people living with diabetes an idea about the speed and direction of their glucose changes. While it still requires calibration from SMBG and is not indicated for use in correction boluses, the accuracy of these monitors are increasing with every innovation.
A useful test that has usually been done in a laboratory is the measurement of blood HbA1c levels. This is the ratio of glycated hemoglobin in relation to the total hemoglobin. Persistent raised plasma glucose levels cause the proportion of these molecules to go up. This is a test that measures the average amount of diabetic control over a period originally thought to be about 3 months (the average red blood cell lifetime), but more recently[when?] thought to be more strongly weighted to the most recent 2 to 4 weeks. In the non-diabetic, the HbA1c level ranges from 4.0-6.0%; patients with diabetes mellitus who manage to keep their HbA1c level below 6.5% are considered to have good glycemic control. The HbA1c test is not appropriate if there has been changes to diet or treatment within shorter time periods than 6 weeks or there is disturbance of red cell aging (e.g. recent bleeding or hemolytic anemia) or a hemoglobinopathy (e.g. sickle cell disease). In such cases the alternative Fructosamine test is used to indicate average control in the preceding 2 to 3 weeks.
The first CGM device made available to consumers was the GlucoWatch biographer in 1999. This product is no longer sold. It was a retrospective device rather than live. Several live monitoring devices have subsequently been manufactured which provide ongoing monitoring of glucose levels on an automated basis during the day, for example:
For Type 1 diabetics there will always be a need for insulin injections throughout their life. However, both Type 1 and Type 2 diabetics can see dramatic effects on their blood sugars through controlling their diet, and some Type 2 diabetics can fully control the disease by dietary modification. As diabetes can lead to many other complications it is critical to maintain blood sugars as close to normal as possible and diet is the leading factor in this level of control.
The American Diabetes Association in 1994 recommended that 60-70% of caloric intake should be in the form of carbohydrates. This is somewhat controversial, with some researchers claiming that 40% is better,[37] while others claim benefits for a high-fiber, 75% carbohydrate diet.[38]
An article summarizing the view of the American Diabetes Association[39] gives many recommendations and references to the research. One of the conclusions is that caloric intake must be limited to that which is necessary for maintaining a healthy weight. The methodology of the dietary therapy has attracted lots of attentions from many scientific researchers and the protocols are ranging from nutritional balancing to ambulatory diet-care.[40][41][42]
Currently, one goal for diabetics is to avoid or minimize chronic diabetic complications, as well as to avoid acute problems of hyperglycemia or hypoglycemia. Adequate control of diabetes leads to lower risk of complications associated with unmonitored diabetes including kidney failure (requiring dialysis or transplant), blindness, heart disease and limb amputation. The most prevalent form of medication is hypoglycemic treatment through either oral hypoglycemics and/or insulin therapy. There is emerging evidence that full-blown diabetes mellitus type 2 can be evaded in those with only mildly impaired glucose tolerance.[43]
Patients with type 1 diabetes mellitus require direct injection of insulin as their bodies cannot produce enough (or even any) insulin. As of 2010, there is no other clinically available form of insulin administration other than injection for patients with type 1: injection can be done by insulin pump, by jet injector, or any of several forms of hypodermic needle. Non-injective methods of insulin administration have been unattainable as the insulin protein breaks down in the digestive tract. There are several insulin application mechanisms under experimental development as of 2004, including a capsule that passes to the liver and delivers insulin into the bloodstream.[44] There have also been proposed vaccines for type I using glutamic acid decarboxylase (GAD), but these are currently not being tested by the pharmaceutical companies that have sublicensed the patents to them.
For type 2 diabetics, diabetic management consists of a combination of diet, exercise, and weight loss, in any achievable combination depending on the patient. Obesity is very common in type 2 diabetes and contributes greatly to insulin resistance. Weight reduction and exercise improve tissue sensitivity to insulin and allow its proper use by target tissues.[45] Patients who have poor diabetic control after lifestyle modifications are typically placed on oral hypoglycemics. Some Type 2 diabetics eventually fail to respond to these and must proceed to insulin therapy. A study conducted in 2008 found that increasingly complex and costly diabetes treatments are being applied to an increasing population with type 2 diabetes. Data from 1994 to 2007 was analyzed and it was found that the mean number of diabetes medications per treated patient increased from 1.14 in 1994 to 1.63 in 2007.[46]
Patient education and compliance with treatment is very important in managing the disease. Improper use of medications and insulin can be very dangerous causing hypo- or hyper-glycemic episodes.
Insulin therapy requires close monitoring and a great deal of patient education, as improper administration is quite dangerous. For example, when food intake is reduced, less insulin is required. A previously satisfactory dosing may be too much if less food is consumed causing a hypoglycemic reaction if not intelligently adjusted. Exercise decreases insulin requirements as exercise increases glucose uptake by body cells whose glucose uptake is controlled by insulin, and vice versa. In addition, there are several types of insulin with varying times of onset and duration of action.
Insulin therapy creates risk because of the inability to continuously know a person's blood glucose level and adjust insulin infusion appropriately. New advances in technology have overcome much of this problem. Small, portable insulin infusion pumps are available from several manufacturers. They allow a continuous infusion of small amounts of insulin to be delivered through the skin around the clock, plus the ability to give bolus doses when a person eats or has elevated blood glucose levels. This is very similar to how the pancreas works, but these pumps lack a continuous "feed-back" mechanism. Thus, the user is still at risk of giving too much or too little insulin unless blood glucose measurements are made.
A further danger of insulin treatment is that while diabetic microangiopathy is usually explained as the result of hyperglycemia, studies in rats indicate that the higher than normal level of insulin diabetics inject to control their hyperglycemia may itself promote small blood vessel disease.[25] While there is no clear evidence that controlling hyperglycemia reduces diabetic macrovascular and cardiovascular disease, there are indications that intensive efforts to normalize blood glucose levels may worsen cardiovascular and cause diabetic mortality.[47]
Studies conducted in the United States[48] and Europe[49] showed that drivers with type 1 diabetes had twice as many collisions as their non-diabetic spouses, demonstrating the increased risk of driving collisions in the type 1 diabetes population. Diabetes can compromise driving safety in several ways. First, long-term complications of diabetes can interfere with the safe operation of a vehicle. For example, diabetic retinopathy (loss of peripheral vision or visual acuity), or peripheral neuropathy (loss of feeling in the feet) can impair a drivers ability to read street signs, control the speed of the vehicle, apply appropriate pressure to the brakes, etc.
Second, hypoglycemia can affect a persons thinking process, coordination, and state of consciousness.[50][51] This disruption in brain functioning is called neuroglycopenia. Studies have demonstrated that the effects of neuroglycopenia impair driving ability.[50][52] A study involving people with type 1 diabetes found that individuals reporting two or more hypoglycemia-related driving mishaps differ physiologically and behaviorally from their counterparts who report no such mishaps.[53] For example, during hypoglycemia, drivers who had two or more mishaps reported fewer warning symptoms, their driving was more impaired, and their body released less epinephrine (a hormone that helps raise BG). Additionally, individuals with a history of hypoglycemia-related driving mishaps appear to use sugar at a faster rate[54] and are relatively slower at processing information.[55] These findings indicate that although anyone with type 1 diabetes may be at some risk of experiencing disruptive hypoglycemia while driving, there is a subgroup of type 1 drivers who are more vulnerable to such events.
Given the above research findings, it is recommended that drivers with type 1 diabetes with a history of driving mishaps should never drive when their BG is less than 70mg/dl (3.9mmol/l). Instead, these drivers are advised to treat hypoglycemia and delay driving until their BG is above 90mg/dl (5mmol/l).[53] Such drivers should also learn as much as possible about what causes their hypoglycemia, and use this information to avoid future hypoglycemia while driving.
Studies funded by the National Institutes of Health (NIH) have demonstrated that face-to-face training programs designed to help individuals with type 1 diabetes better anticipate, detect, and prevent extreme BG can reduce the occurrence of future hypoglycemia-related driving mishaps.[56][57][58] An internet-version of this training has also been shown to have significant beneficial results.[59] Additional NIH funded research to develop internet interventions specifically to help improve driving safety in drivers with type 1 diabetes is currently underway.[60]
The U.S. Food and Drug Administration (FDA) has approved a treatment called Exenatide, based on the saliva of a Gila monster, to control blood sugar in patients with type 2 diabetes.
Artificial Intelligence researcher Dr. Cynthia Marling, of the Ohio University Russ College of Engineering and Technology, in collaboration with the Appalachian Rural Health Institute Diabetes Center, is developing a case based reasoning system to aid in diabetes management. The goal of the project is to provide automated intelligent decision support to diabetes patients and their professional care providers by interpreting the ever increasing quantities of data provided by current diabetes management technology and translating it into better care without time consuming manual effort on the part of an endocrinologist or diabetologist.[61] This type of Artificial Intelligence-based treatment shows some promise with initial testing of a prototype system producing best practice treatment advice which anaylizing physicians deemed to have some degree of benefit over 70% of the time and advice of neutral benefit another nearly 25% of the time.[5]
Use of a "Diabetes Coach" is becoming an increasingly popular way to manage diabetes. A Diabetes Coach is usually a Certified diabetes educator (CDE) who is trained to help people in all aspects of caring for their diabetes. The CDE can advise the patient on diet, medications, proper use of insulin injections and pumps, exercise, and other ways to manage diabetes while living a healthy and active lifestyle. CDEs can be found locally or by contacting a company which provides personalized diabetes care using CDEs. Diabetes Coaches can speak to a patient on a pay-per-call basis or via a monthly plan.
High blood glucose in diabetic people is a risk factor for developing gum and teeth problems, especially in post puberty and aging individuals. Diabetic patients have greater chances of developing oral health problems such as tooth decay, salivary gland dysfunction, fungal infections, inflammatory skin disease, periodontal disease or taste impairment and thrush of the mouth.[62] The oral problems in persons suffering from diabetes can be prevented with a good control of the blood sugar levels, regular check-ups and a very good oral hygiene. By maintaining a good oral status, diabetic persons prevent losing their teeth as a result of various periodontal conditions.
Diabetic persons must increase their awareness towards the oral infections as they have a double impact on one's health. Firstly, people with diabetes are more likely to develop periodontal disease which causes increased blood sugar levels, often leading to diabetes complications. Severe periodontal disease can increase blood sugar, contributing to increased periods of time when the body functions with a high blood sugar. This puts diabetics at increased risk for diabetic complications.[63]
The first symptoms of gum and teeth infections in diabetic persons are decreased salivary flow, burning mouth or tongue. Also, patients may experience signs as dry mouth which increases the incidence of decay. Poorly controlled diabetes usually leads to gum problems recession as plaque creates more harmful proteins in the gums.
Tooth decay and cavities are some of the first oral problems that individuals with diabetes are at risk for. Increased blood sugar levels translate into greater sugars and acids that attack the teeth and lead to gum diseases. Gingivitis can also occur as a result of increased blood sugar levels along with an inappropriate oral hygiene. Periodontitis is an oral disease caused by untreated gingivitis and which destroys the soft tissue and bone that support the teeth. This disease may cause the gums to pull away from the teeth which may eventually loosen and fall out. Diabetic people tend to experience more severe periodontitis because diabetes lowers the ability to resist infection[64] and also slows healing. At the same time, an oral infection such as periodontitis can make diabetes more difficult to control because it causes the blood sugar levels to rise.[65]
To prevent further diabetic complications as well as serious oral problems, diabetic persons must keep their blood sugar levels under control and have a proper oral hygiene. A study in the Journal of Periodontology found that poorly controlled type 2 diabetic patients are more likely to develop periodontal disease than well-controlled diabetics are.[63] At the same time, diabetic patients are recommended to have regular checkups with a dental care provider at least once in three to four months. Diabetics who receive good dental care and have good insulin control typically have a better chance at avoiding gum disease to help prevent tooth loss.[66]
Dental care is therefore even more important for diabetic patients than for healthy individuals. Maintaining the teeth and gum healthy is done by taking some preventing measures such as regular appointments at a dentist and a very good oral hygiene. Also, oral health problems can be avoided by closely monitoring the blood sugar levels. Patients who keep better under control their blood sugar levels and diabetes are less likely to develop oral health problems when compared to diabetic patients who control their disease moderately or poorly.
Poor oral hygiene is a great factor to take under consideration when it comes to oral problems and even more in people with diabetes. Diabetic people are advised to brush their teeth at least twice a day, and if possible, after all meals and snacks. However, brushing in the morning and at night is mandatory as well as flossing and using an anti-bacterial mouthwash. Individuals who suffer from diabetes are recommended to use toothpaste that contains fluoride as this has proved to be the most efficient in fighting oral infections and tooth decay. Flossing must be done at least once a day, as well because it is helpful in preventing oral problems by removing the plaque between the teeth, which is not removed when brushing.
Diabetic patients must get professional dental cleanings every six months. In cases when dental surgery is needed, it is necessary to take some special precautions such as adjusting diabetes medication or taking antibiotics to prevent infection. Looking for early signs of gum disease (redness, swelling, bleeding gums) and informing the dentist about them is also helpful in preventing further complications. Quitting smoking is recommended to avoid serious diabetes complications and oral diseases.
Diabetic persons are advised to make morning appointments to the dental care provider as during this time of the day the blood sugar levels tend to be better kept under control. Not least, individuals who suffer from diabetes must make sure both their physician and dental care provider are informed and aware of their condition, medical history and periodontal status.
Because many patients with diabetes have two or more comorbidities, they often require multiple medications. The prevalence of medication nonadherence is high among patients with chronic conditions, such as diabetes, and nonadherence is associated with public health issues and higher health care costs. One reason for nonadherence is the cost of medications. Being able to detect cost-related nonadherence is important for health care professionals, because this can lead to strategies to assist patients with problems paying for their medications. Some of these strategies are use of generic drugs or therapeutic alternatives, substituting a prescription drug with an over-the-counter medication, and pill-splitting. Interventions to improve adherence can achieve reductions in diabetes morbidity and mortality, as well as significant cost savings to the health care system.[67]
Diabetes type1 is caused by the destruction of enough beta cells to produce symptoms; these cells, which are found in the Islets of Langerhans in the pancreas, produce and secrete insulin, the single hormone responsible for allowing glucose to enter from the blood into cells (in addition to the hormone amylin, another hormone required for glucose homeostasis). Hence, the phrase "curing diabetes type1" means "causing a maintenance or restoration of the endogenous ability of the body to produce insulin in response to the level of blood glucose" and cooperative operation with counterregulatory hormones.
This section deals only with approaches for curing the underlying condition of diabetes type1, by enabling the body to endogenously, in vivo, produce insulin in response to the level of blood glucose. It does not cover other approaches, such as, for instance, closed-loop integrated glucometer/insulin pump products, which could potentially increase the quality-of-life for some who have diabetes type1, and may by some be termed "artificial pancreas".
A biological approach to the artificial pancreas is to implant bioengineered tissue containing islet cells, which would secrete the amounts of insulin, amylin and glucagon needed in response to sensed glucose.
When islet cells have been transplanted via the Edmonton protocol, insulin production (and glycemic control) was restored, but at the expense of continued immunosuppression drugs. Encapsulation of the islet cells in a protective coating has been developed to block the immune response to transplanted cells, which relieves the burden of immunosuppression and benefits the longevity of the transplant.[68]
Research is being done at several locations in which islet cells are developed from stem cells.
Stem cell research has also been suggested as a potential avenue for a cure since it may permit regrowth of Islet cells which are genetically part of the treated individual, thus perhaps eliminating the need for immuno-suppressants.[48] This new method autologous nonmyeloablative hematopoietic stem cell transplantation was developed by a research team composed by Brazilian and American scientists (Dr. Julio Voltarelli, Dr. Carlos Eduardo Couri, Dr Richard Burt, and colleagues) and it was the first study to use stem cell therapy in human diabetes mellitus This was initially tested in mice and in 2007 there was the first publication of stem cell therapy to treat this form of diabetes.[69] Until 2009, there was 23 patients included and followed for a mean period of 29.8 months (ranging from 7 to 58 months). In the trial, severe immunosuppression with high doses of cyclophosphamide and anti-thymocyte globulin is used with the aim of "turning off" the immunologic system", and then autologous hematopoietic stem cells are reinfused to regenerate a new one. In summary it is a kind of "immunologic reset" that blocks the autoimmune attack against residual pancreatic insulin-producing cells. Until December 2009, 12 patients remained continuously insulin-free for periods ranging from 14 to 52 months and 8 patients became transiently insulin-free for periods ranging from 6 to 47 months. Of these last 8 patients, 2 became insulin-free again after the use of sitagliptin, a DPP-4 inhibitor approved only to treat type 2 diabetic patients and this is also the first study to document the use and complete insulin-independendce in humans with type 1 diabetes with this medication. In parallel with insulin suspension, indirect measures of endogenous insulin secretion revealed that it significantly increased in the whole group of patients, regardless the need of daily exogenous insulin use.[70]
Technology for gene therapy is advancing rapidly such that there are multiple pathways possible to support endocrine function, with potential to practically cure diabetes.[71]
Type2 diabetes is usually first treated by increasing physical activity, and eliminating saturated fat and reducing sugar and carbohydrate intake with a goal of losing weight. These can restore insulin sensitivity even when the weight loss is modest, for example around 5kg (10 to 15lb), most especially when it is in abdominal fat deposits. Diets that are very low in saturated fats have been claimed to reverse insulin resistance.[75][76]
Testosterone replacement therapy may improve glucose tolerance and insulin sensitivity in diabetic hypogonadal men. The mechanisms by which testosterone decreases insulin resistance is under study.[77] Moreover, testosterone may have a protective effect on pancreatic beta cells, which is possibly exerted by androgen-receptor-mediated mechanisms and influence of inflammatory cytokines.[78]
Recently[when?] it has been suggested that a type of gastric bypass surgery may normalize blood glucose levels in 80-100% of severely obese patients with diabetes. The precise causal mechanisms are being intensively researched; its results may not simply be attributable to weight loss, as the improvement in blood sugars seems to precede any change in body mass. This approach may become a treatment for some people with type2 diabetes, but has not yet been studied in prospective clinical trials.[79] This surgery may have the additional benefit of reducing the death rate from all causes by up to 40% in severely obese people.[80] A small number of normal to moderately obese patients with type2 diabetes have successfully undergone similar operations.[81][82]
MODY is another classification of diabetes and it can be treated by early lifesyle management and medical management. it has to be treated in the early stage, so as to provide a good health.
Excerpt from:
Diabetes management - Wikipedia, the free encyclopedia
- Global report on diabetes - World Health Organization (WHO) - October 22nd, 2024
- Ultra-processed food may be particularly harmful for people with diabetes, scientists warn - The Independent - October 22nd, 2024
- New drugs may be able to treat multiple problems beyond diabetes - The Straits Times - October 22nd, 2024
- Best Fruits for Diabetes (and What To Avoid) - Health Essentials - October 22nd, 2024
- Cutting Sugar May Reduce Your Diabetes, Stroke, and Depression Risk - Healthline - October 22nd, 2024
- Can Diabetes Care Teams Improve Patient Outcomes and Value? - Medscape - October 22nd, 2024
- Oral Semaglutide Reduces MACE Risk in People With Type 2 Diabetes and CVD - MD Magazine - October 22nd, 2024
- High expression of CNOT6L contributes to the negative development of type 2 diabetes - Nature.com - October 22nd, 2024
- Recent Advances and Therapeutic Benefits of Glucagon-Like Peptide-1 (GLP-1) Agonists in the Management of Type 2 Diabetes and Associated Metabolic... - October 22nd, 2024
- Dental teams could detect undiagnosed diabetes in more than one million people with new care pathway - Nature.com - October 22nd, 2024
- Groundbreaking Innovations in Diabetes Care: Highlights from the 2024 Diabetes Technology Meeting - Beyond Type 1 - October 22nd, 2024
- COVID-19 linked to type 2 diabetes onset in children - Medical Xpress - October 22nd, 2024
- The effect of adding pancreatin to standard otilinium bromide and simethicone treatment in type 2 diabetes mellitus patients with irritable bowel... - October 22nd, 2024
- Does microdosing Ozempic work? What experts are saying about the diabetes drug also used for weight loss - Medical Xpress - October 22nd, 2024
- The Link between GLP-1 Drugs and Diabetic Retinopathy Is Not So Clear | AAO 2024 - Managed Healthcare Executive - October 22nd, 2024
- The overexpression of human amylin in pancreatic cells facilitate the appearance of amylin aggregates in the kidney contributing to diabetic... - October 22nd, 2024
- RNAO releases updated guidelines for diabetic foot ulcer care - Benefits and Pensions Monitor - October 22nd, 2024
- COVID-19 raises the risk of type 2 diabetes in children, study reveals - News-Medical.Net - October 22nd, 2024
- Semaglutide: What impact does it really have on heart health? - Medical News Today - October 22nd, 2024
- Glucose monitors for diabetes have finally been funded but a chronic workforce shortage will limit the benefits - The Conversation - October 22nd, 2024
- Early vs Late Fast Window: Is One More Effective? - Medscape - September 13th, 2024
- Breakthrough T1D Walk to Cure Type 1 Diabetes - KATU - September 13th, 2024
- Foods That May Increase Kids' Risk of Type 1 Diabetes Revealed - Newsweek - September 13th, 2024
- Beds and Herts patients to be re-tested in diabetes results error - BBC.com - September 13th, 2024
- This common habit increases your diabetes risk by 50%; Heres how to fix it - The Economic Times - September 13th, 2024
- Elevated risk of pre-diabetes and diabetes in people with past history of COVID-19 in northeastern Nigeria - BMC Public Health - September 13th, 2024
- Study links bananas, oats and yoghurt to greater diabetes risk in susceptible children - The Guardian - September 13th, 2024
- Could the Norton research teams studying diabetes and Alzheimer's come up with a cure? - Courier Journal - September 13th, 2024
- Weight loss, better beta-cell function tied to long-term glycemic control with tirzepatide - Healio - September 13th, 2024
- Study finds weekly insulin injections as effective for diabetes as daily shots - UPI News - September 13th, 2024
- Ozempic, Wegovy, Rybelsus: Are we losing sight of overall health? Heres what the science says - The Conversation - September 13th, 2024
- With once-a-week dosing, insulin efsitora alfa delivers similar A1C reduction compared to daily insulin in adults with type 1 diabetes - PR Newswire - September 13th, 2024
- Dining with Diabetes workshops offered - The Courier-Express - September 13th, 2024
- Researchers uncover connection between two common diabetes drugs with implications for foot ulcer healing - News-Medical.Net - September 13th, 2024
- The menopause can increase your likelihood of developing heart disease, type 2 diabetes and hypertension but exercise can help lower risk - The... - September 13th, 2024
- Artificial pancreas shows promise in people with type 1 diabetes on kidney dialysis - MSN - September 13th, 2024
- How an Indian executive battled flesh-eating disease and diabetes, and won - South China Morning Post - September 13th, 2024
- India brings early Diabetic Retinopathy detection to the last mile with Artificial Intelligence - PR Newswire - September 13th, 2024
- Why this diabetes drug may be the answer to NASA search for radiation protection - Texas Public Radio - September 13th, 2024
- The National Association of Chain Drug Stores and the American Diabetes Association Promote Nutrition Security and its Role in Preventing and Managing... - September 13th, 2024
- He took up running rather than take diabetes medication. It worked - South China Morning Post - March 18th, 2024
- Eli Lilly cracks down on the use of weight loss drugs Mounjaro and Zepbound for cosmetic reasons instead of for diabetes and obesity - Fortune - January 9th, 2024
- Transforming Corporate Health: Fitterfly's Success in Tackling Diabetes and Weight Issues - Business Standard - January 9th, 2024
- For Those With Diabetes On Medicare Part D, Insulin Is $35...If Its Covered - Forbes - October 27th, 2023
- Biologist Douglas Melton: I was studying frogs until my son was diagnosed with diabetes then I started looking for a cure - EL PAS USA - October 27th, 2023
- Diabetes and Hearing Loss with Concept by Iowa Hearing | Paid Content - Local 5 - weareiowa.com - May 9th, 2023
- COUNTY COLUMN: Learn to Live well with diabetes at The Well - Norman Transcript - May 1st, 2023
- Want to Cut Type 2 Diabetes Risk? This High-fat Food Can Be the Answer, According to New Study - Revyuh - May 1st, 2023
- Diabetes: What It Is, Causes, Symptoms, Treatment & Types - March 13th, 2023
- A number of healthtech startups claim they can reverse Type 2 diabetes. But caveats apply, caution doctors - Economic Times - March 13th, 2023
- Tampa doctor who lost brother to diabetes calls insulin price cut a 'game changer' - ABC Action News Tampa Bay - March 5th, 2023
- New study suggest people previously infected with COVID-19 could have increased risk for diabetes - CBS Los Angeles - February 16th, 2023
- Diabetes Symptoms, Causes, & Treatment | ADA - October 15th, 2022
- A nutritionist with type 1 diabetes shares the top 5 'food swaps' she eats to manage her blood sugar - CNBC - October 15th, 2022
- Diabetes and the gut: How a bacterial protein may impact insulin - Medical News Today - October 15th, 2022
- Milton teen involved in launch of diabetes support program - Milton Daily Standard - October 15th, 2022
- Providers Now Have Free Access to Latest Diabetes Technology in One Place - PR Newswire - October 15th, 2022
- 5 Modifiable Factors in Women with History of Gestational Diabetes Mellitus That Can Reduce the Risk of T2D - Pharmacy Times - October 15th, 2022
- BCMH the stoy of Diabetes and Determination - 921News - October 15th, 2022
- Can skipping a meal lead to diabetes and fat around abdomen? - The Indian Express - October 15th, 2022
- Type 2 Diabetes Drugs Market Research Report by Drug, Application, Distribution, Region - Global Forecast to 2027 - Cumulative Impact of COVID-19 -... - October 15th, 2022
- Diabetes: Symptoms, risks, and prevention - Wilmington News Journal, OH - July 17th, 2022
- Diabetes symptoms: The sign of nerve damage that often strikes at night - severe - Express - July 17th, 2022
- Local Teen Brings Smiles and Health Kits to Kids with Diabetes - River Journal Staff - July 17th, 2022
- Type 3 diabetes: symptoms, causes and treatments - Livescience.com - July 17th, 2022
- Diabetes Travel Essentials and Tips for the Approximately 21 Million Americans that Must Manage Their Diabetes While on Vacation - PR Newswire - July 17th, 2022
- A type of 'step therapy' is an effective strategy for diabetic eye disease - National Institutes of Health (.gov) - July 17th, 2022
- Diabetes education: one in five search results for diabetes lack reliable information - Open Access Government - July 17th, 2022
- Arch City Kids Theater Troupe Fights Type 1 Diabetes With Its Annual Revue - Broadway World - July 17th, 2022
- Nutrigenomics Testing Industry Forecast to 2027 - Insights Into Obesity, Diabetes, Cancer, and Cardiovascular Disease Applications -... - July 17th, 2022
- Harvard Scientists Have Developed a Revolutionary New Treatment for Diabetes - SciTechDaily - June 16th, 2022
- Do Viruses and Coxsackievirus Cause Type 1 Diabetes? - Healthline - June 16th, 2022
- Diabetes Week: Types 1 and 2 symptoms, causes and prevention - Yahoo Entertainment - June 16th, 2022
- Diabetes And Sex: Have Safe Sex While Managing Diabetes - MadameNoire - June 16th, 2022
- Diabetes Devices Market to Expand at the CAGR of 6.4% from 2019 to 2027, Increase in Prevalence of Diabetes Expected to Drive Global Market - BioSpace - June 16th, 2022
- Anemia and Diabetes: What You Should Know - Healthline - June 16th, 2022
- Patient Knowledge of Diabetes and CKD in an Inner-City Population - DocWire News - June 16th, 2022
- ASCENSIA DIABETES CARE ANNOUNCES EUROPEAN APPROVAL OF THE NEXT-GENERATION EVERSENSE E3 CONTINUOUS GLUCOSE MONITORING SYSTEM - PR Newswire - June 16th, 2022
- Understanding the Link between Diabetes Care and Sickle Cell Disease | NIDDK - National Institute of Diabetes and Digestive and Kidney Diseases... - June 16th, 2022
- Child type 2 diabetes referrals in England and Wales jump 50% amid obesity crisis - The Guardian - June 16th, 2022