Always calculate eGFR measuring serum creatinine ,age,sex,race and weight by CKD -EPI equation or MDRD equation. eGFR is a calculation from serum creatinine ,age ,sex and weight and more sensitive indicator of kidney function rather than serum creatinine. eGFR always declines with age. It scores over serum creatinine in assessing severity of Diabetic Nephropathy. Stages of Diabetic Nephropathy are based on eGFR. Stage 1 is normal or high eGFR more than 90 mL/ min/1.73 m2. Stage 2 is Mild DKD, eGFR between 60 to 89 mL/ min/ 1.73 m2. Stage 3 A is Moderate DKD , eGFR is between 45 to 59 mL/ min/1.73 m2. Stage 3 B is Moderate DKD, eGFR is between 30 to 44 mL/min/1.73m2. Stage 4 Severe DKD, eGFR is between 15 to 29 mL/ min/1.73m2. Stage 5 ESRD , eGFR is below 14 mL /min/1.73 m2.
Off cource...eGFR... eGFR - Estimated glomerular filtration rate is the best test to measure the level of kidney function and determine the stage of kidney disease. Creatinine is a waste product formed by the normal breakdown of muscle cells. Healthy kidneys take creatinine out of the blood and put it into the urine to leave the body. When the kidneys are not working well, creatinine builds up in the blood. For DM severity eGFR is better and for Kidney functioning S.Creatine is better.
eGFR is better than sr creatinine as i think better eGFR will keep renal filtration so as sr creatinine not to shoot
eGFR is better than serum creatinine.
Between eGFR and serum creatinine, eGFR is better in assessing severity of Diabetes Mellitus
Agreed with Dr.S Tirumala D Madam.
eGFR 100% better
Fine presentation Dr Tirumala madam. Thank u.
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62 year old female presented with vomiting since 3 days. Lab values given below What is the lab diagnosis? What additional parameters(with relevance) are required to further analyse the lab data?Sharan Mirchandani2 Likes11 Answers
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Friends today I am discussing about a very common disease .Known as Diabetes . Types of Diabetes Mellitus Diabetes mellitus (or diabetes) is a chronic, lifelong condition that affects your body's ability to use the energy found in food. There are three major types of diabetes: type 1 diabetes, type 2 diabetes, and gestational diabetes. All types of diabetes mellitus have something in common. Normally, your body breaks down the sugars and carbohydrates you eat into a special sugar called glucose. Glucose fuels the cells in your body. But the cells need insulin, a hormone, in bloodstream in order to take in the glucose and use it for energy. With diabetes mellitus, either your body doesn't make enough insulin, it can't use the insulin it does produce, or a combination of both. Since the cells can't take in the glucose, it builds up in your blood. High levels of blood glucose can damage the tiny bloodvessels in your kidneys, heart, eyes, or nervous system. That's why diabetes -- especially if left untreated -- can eventually cause heart disease, stroke, kidney disease, blindness, and nerve damage to nerves in the feet. Type 1 Diabetes Type 1 diabetes is also called insulin-dependent diabetes. It used to be called juvenile-onset diabetes, because it often begins in childhood. Type 1 diabetes is an autoimmune condition. It's caused by the body attacking its own pancreas with antibodies. In people with type 1 diabetes, the damaged pancreas doesn't make insulin. This type of diabetes may be caused by a genetic predisposition. It could also be the result of faulty beta cells in the pancreas that normally produce insulin. A number of medical risks are associated with type 1 diabetes. Many of them stem from damage to the tiny blood vessels in your eyes (called diabetic retinopathy), nerves (diabetic neuropathy), and kidneys(diabetic nephropathy). Even more serious is the increased risk of heart disease and stroke. Treatment for type 1 diabetes involves taking insulin, which needs to be injected through the skin into the fatty tissue below. The methods of injecting insulin include: Syringes Insulin pens that use pre-filled cartridges and a fine needle Jet injectors that use high pressure air to send a spray of insulin through the skin Insulin pumps that dispense insulin through flexible tubing to a catheter under the skin of the abdomen A periodic test called the A1C blood test estimates glucose levels in your blood over the previous three months. It's used to help identify overall glucose level control and the risk of complications from diabetes, including organ damage. Having type 1 diabetes does require significant lifestyle changes that include: Frequent testing of your blood sugar levels Careful meal planning Daily exercise Taking insulin and other medicationsas needed People with type 1 diabetes can lead long, active lives if they carefully monitor their glucose, make the needed lifestyle changes, and adhere to the treatment plan. Type 2 Diabetes By far, the most common form of diabetes is type 2 diabetes, accounting for 95% of diabetes cases in adults. Some 26 million American adults have been diagnosed with the disease. Type 2 diabetes used to be called adult-onset diabetes, but with the epidemic of obese and overweight kids, more teenagers are now developing type 2 diabetes. Type 2 diabetes was also called non-insulin-dependent diabetes Type 2 diabetes is often a milder form of diabetes than type 1. Nevertheless, type 2 diabetes can still cause major health complications, particularly in the smallest blood vessels in the body that nourish the kidneys, nerves, and eyes. Type 2 diabetes also increases your risk of heart diseaseand stroke. With Type 2 diabetes, the pancreas usually produces some insulin. But either the amount produced is not enough for the body's needs, or the body's cells are resistant to it. Insulin resistance, or lack of sensitivity to insulin, happens primarily in fat, liver, and muscle cells. People who are obese -- more than 20% over their ideal body weight for their height -- are at particularly high risk of developing type 2 diabetes and its related medical problems. Obese people have insulin resistance. With insulin resistance, the pancreas has to work overly hard to produce more insulin. But even then, there is not enough insulin to keep sugars normal. There is no cure for diabetes. Type 2 diabetes can, however, be controlled with weight management, nutrition, and exercise. Unfortunately, type 2 diabetes tends to progress, and diabetes medications are often needed. An A1C test is a blood test that estimates average glucose levels in your blood over the previous three months. Periodic A1C testing may be advised to see how well diet, exercise, and medications are working to control blood sugar and prevent organ damage. The A1C test is typically done a few times a year. Gestational Diabetes Diabetes that's triggered by pregnancy is called gestational diabetes (pregnancy, to some degree, leads to insulin resistance). It is often diagnosed in middle or late pregnancy. Because high blood sugar levels in a mother are circulated through the placenta to the baby, gestational diabetes must be controlled to protect the baby's growth and development. According to the National Institutes of Health, the reported rate of gestational diabetes is between 2% to 10% of pregnancies. Gestational diabetes usually resolves itself after pregnancy. Having gestational diabetes does, however, put mothers at risk for developing type 2 diabetes later in life. Up to 10% of women with gestational diabetes develop type 2 diabetes. It can occur anywhere from a few weeks after delivery to months or years later. With gestational diabetes, risks to the unborn baby are even greater than risks to the mother. Risks to the baby include abnormal weight gain before birth, breathing problems at birth, and higher obesity and diabetes risk later in life. Risks to the mother include needing a cesarean section due to an overly large baby, as well as damage to heart, kidney, nerves, and eye. Treatment during pregnancy includes working closely with your health care team and: Careful meal planning to ensure adequate pregnancy nutrients without excess fat and calories Daily exercise Controlling pregnancy weight gain Taking diabetes insulin to control blood sugar Otabetes A few rare kinds of diabetes can result from specific conditions. For example, diseases of the pancreas, certain surgeries and medications, or infections can cause diabetes. These types of diabetes account for only 1% to 5% of all cases of diabetes. Homoeopathy can be used effectively in the treatment of diabetes. Here we mainly concentrate on functioning of the pancreas in efficient insulin production. Medicines such as Helonias 200, Iodum 200, Syzygium Jambolanum θ (Mother Tincture) are used by us effectively in the treatmentof all the stages of the diseases.Dr. Rajesh Gupta6 Likes8 Answers
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This is a path case. 55yo male, known chronic kidney disease (stage 2) due to “moderately controlled” diabetes mellitus type 2 (diagnosed 7 years ago), presents with a jump in Kreatinine and proteinuria over few months. HbA1C around 7%, Krea = 1.7, Proteinuria = 1.9 g/24h. Nephrology decided to biopsy because of this atypical course. These pictures show the light microscopy of his renal core biopsies. What do you think may the IF look like? Is there evidence of acute disease or is it all chronic? Please feel free to share your thoughts !Dr. Tanish Wadhwa1 Like5 Answers
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Friends today I am discussing about a very common disease now a days that is Diabetes mellitus. Diabetes mellitus, disorder of carbohydrate metabolism characterized by impaired ability of the body to produce or respond to insulin and thereby maintain proper levels of sugar (glucose) in the blood. diabetes mellitus diabetes mellitus An overview of diabetes mellitus and advances in treatment. HudsonAlpha Institute for Biotechnology Diabetes is a major cause of morbidity and mortality, though these outcomes are not due to the immediate effects of the disorder. They are instead related to the diseases that develop as a result of chronic diabetes mellitus. These include diseases of large blood vessels (macrovascular disease, including coronary heart disease and peripheral arterial disease) and small blood vessels (microvascular disease, including retinal and renal vascular disease), as well as diseases of the nerves. READ MORE ON THIS TOPIC Prozac therapeutics: Diabetes mellitus Diet is the cornerstone of diabetic treatment whether or not insulin is prescribed. The goal is to regulate… Causes And Types Insulin is a hormone secreted by beta cells, which are located within clusters of cells in the pancreas called the islets of Langerhans. Insulin’s role in the body is to trigger cells to take up glucose so that the cells can use this energy-yielding sugar. Patients with diabetes may have dysfunctional beta cells, resulting in decreased insulin secretion, or their muscle and adipose cells may be resistant to the effects of insulin, resulting in a decreased ability of these cells to take up and metabolize glucose. In both cases, the levels of glucose in the blood increase, causing hyperglycemia (high blood sugar). As glucose accumulates in the blood, excess levels of this sugar are excreted in the urine. Because of greater amounts of glucose in the urine, more water is excreted with it, causing an increase in urinary volume and frequency of urination as well as thirst. (The name diabetes mellitus refers to these symptoms: diabetes, from the Greek diabainein, meaning “to pass through,” describes the copious urination, and mellitus, from the Latin meaning “sweetened with honey,” refers to sugar in the urine.) Other symptoms of diabetes include itching, hunger, weight loss, and weakness. The islets of Langerhans are responsible for the endocrine function of the pancreas. Each islet contains beta, alpha, and delta cells that are responsible for the secretion of pancreatic hormones. Beta cells secrete insulin, a well-characterized hormone that plays an important role in regulating glucose metabolism. The islets of Langerhans are responsible for the endocrine function of the pancreas. Each islet contains beta, alpha, and delta cells that are responsible for the secretion of pancreatic hormones. Beta cells secrete insulin, a well-characterized hormone that plays an important role in regulating glucose metabolism. Encyclopædia Britannica, Inc. There are two major forms of the disease. Type 1 diabetes, formerly referred to as insulin-dependent diabetes mellitus (IDDM) or juvenile-onset diabetes, usually arises in childhood. Type 2 diabetes, formerly called non-insulin-dependent diabetes mellitus (NIDDM) or adult-onset diabetes, usually occurs after age 40 and becomes more common with increasing age. Type 1 diabetes mellitus Type 1 diabetes accounts for about 5 to 10 percent of cases of diabetes. Most cases of type 1 diabetes develop in children or adolescents, but about 20 percent of new patients are adults. The frequency of type 1 diabetes varies widely in different countries, from less than 1 case per 100,000 people per year in China and parts of South America to more than 20 cases per 100,000 people per year in places such as Canada, Finland, Norway, Sweden, and the United Kingdom. Most patients present with symptoms of hyperglycemia, but some patients present with diabetic ketoacidosis, a clear indication that insulin secretion has significantly deteriorated. diabetes mellitus diabetes mellitus A discussion of type I and type II diabetes mellitus. HudsonAlpha Institute for Biotechnology Type 1 diabetes is usually caused by autoimmune destruction of the islets of Langerhans of the pancreas. Patients with type 1 diabetes have serum antibodies to several components of the islets of Langerhans, including antibodies to insulin itself. The antibodies are often present for several years before the onset of diabetes, and their presence may be associated with a decrease in insulin secretion. Some patients with type 1 diabetes have genetic variations associated with the human leukocyte antigen (HLA) complex, which is involved in presenting antigens to immune cells and initiating the production of antibodies that attack the body’s own cells (autoantibodies). However, the actual destruction of the islets of Langerhans is thought to be caused by immune cells sensitized in some way to components of islet tissue rather than to the production of autoantibodies. In general, 2 to 5 percent of children whose mother or father has type 1 diabetes will also develop type 1 diabetes. Type 2 diabetes mellitus Type 2 diabetes is far more common than type 1 diabetes, accounting for about 90 percent of all cases. The frequency of type 2 diabetes varies greatly within and between countries and is increasing throughout the world. Most patients with type 2 diabetes are adults, often older adults, but it can also occur in children and adolescents. There is a stronger genetic component to type 2 diabetes than to type 1 diabetes. For example, identical twins are much more likely to both develop type 2 diabetes than to both develop type 1 diabetes, and 7 to 14 percent of people whose mother or father has type 2 diabetes will also develop type 2 diabetes; this estimate increases to 45 percent if both parents are affected. In addition, it is estimated that about half of the adult Pima Indian population in Arizona has type 2 diabetes, whereas in the entire United States it is estimated that about 10 percent of the population has type 2 diabetes Many patients with type 2 diabetes are asymptomatic, and they are often diagnosed with type 2 diabetes when routine measurements reveal high blood glucose concentrations. In some patients the presence of one or more symptoms associated with the long-term complications of diabetes leads to a diagnosis of type 2 diabetes. Other patients present with symptoms of hyperglycemia that have been present for months or with the sudden onset of symptoms of very severe hyperglycemia and vascular collapse. Type 2 diabetes is strongly associated with obesity and is a result of insulin resistance and insulin deficiency. Insulin resistance is a very common characteristic of type 2 diabetes in patients who are obese, and thus patients often have serum insulin concentrations that are higher than normal. However, some obese persons are unable to produce sufficient amounts of insulin, and thus the compensatory increase in response to increased blood glucose concentrations is inadequate, resulting in hyperglycemia. If blood glucose concentration is increased to a similar level in a healthy person and in an obese person, the healthy person will secrete more insulin than the obese person. leptin leptin The discovery of the leptin protein in mice and its connection to diabetes and obesity. HudsonAlpha Institute for Biotechnology People with type 2 diabetes can control blood glucose levels through diet and exercise and, if necessary, by taking insulin injections or oral medications. Despite their former classifications as juvenile or adult, either type of diabetes can occur at any age. Gestational diabetes Diabetes mellitus also may develop as a secondary condition linked to another disease, such as pancreatic disease; a genetic syndrome, such as myotonic dystrophy; or drugs, such as glucocorticoids. Gestational diabetes is a temporary condition associated with pregnancy. In this situation, blood glucose levels increase during pregnancy but usually return to normal after delivery. However, gestational diabetes is recognized as a risk for type 2 diabetes later in life. Gestational diabetes is diagnosed when blood glucose concentrations measure between 92 and 125 mg per 100 ml (5.1 and 6.9 millimoles [mmol] per litre) after fasting or when blood glucose concentrations equal or exceed 180 mg per 100 ml (10 mmol per litre) one hour after ingesting a glucose-rich solution. Acute Clinical Manifestation Hyperglycemia itself can cause symptoms but usually only when blood glucose concentrations are approximately 180 mg per 100 ml (10 mmol per litre) or higher. When blood glucose concentrations increase, more glucose is filtered by the glomeruli of the kidneys than can be reabsorbed by the kidney tubules, resulting in glucose excretion in the urine. High glucose concentrations in the urine create an osmotic effect that reduces the reabsorption of water by the kidneys, causing polyuria (excretion of large volumes of urine). The loss of water from the circulation stimulates thirst. Therefore, patients with moderate or severe hyperglycemia typically have polyuria and polydipsia (excessive thirst). The loss of glucose in the urine results in weakness, fatigue, weight loss, and increased appetite (polyphagia). Patients with hyperglycemia are prone to infections, particularly vaginal and urinary tract infections, and an infection may be the presenting manifestation of diabetes. There are two acute life-threatening complications of diabetes: hyperglycemia and acidosis (increased acidity of the blood), either of which may be the presenting manifestation of diabetes. In patients with type 1 diabetes, insulin deficiency, if not recognized and treated properly, leads to severe hyperglycemia and to a marked increase in lipolysis (the breakdown of lipids), with a greatly increased rate of release of fatty acids from adipose tissue. In the liver, much of the excess fatty acid is converted to the keto acids beta-hydroxybutyric acid and acetoacetic acid. The increased release of fatty acids and keto acids from adipose, liver, and muscle tissues raises the acid content of the blood, thereby lowering the pH of the blood. The combination of hyperglycemia and acidosis is called diabetic ketoacidosis and leads to hyperventilation and to impaired central nervous system function, culminating in coma and death. Patients with diabetic ketoacidosis must be treated immediately with insulin and intravenous fluids. In patients with type 2 diabetes, high blood glucose concentrations can lead to very severe and prolonged hyperglycemia and to marked polyuria, with the loss of a large volume of fluid and a very high serum osmolality. These factors place patients with type 2 diabetes at a high risk of developing central nervous system dysfunction and vascular collapse (hyperglycemia coma). Ketoacidosis is usually not a problem in patients with type 2 diabetes because they secrete enough insulin to restrain lipolysis. Patients with hyperglycemic coma should be treated aggressively with intravenous fluids and insulin. Diagnosis And Treatment Many people are unaware that they have diabetes. In 2012, for example, it was estimated that 8.1 million of 29.1 million American cases were undiagnosed. The disease is usually discovered when there are typical symptoms of increased thirst and urination and a clearly elevated blood sugar level. The diagnosis of diabetes is based on the presence of blood glucose concentrations equal to or greater than 126 mg per 100 ml (7.0 mmol per litre) after an overnight fast or on the presence of blood glucose concentrations greater than 200 mg per 100 ml (11.1 mmol per litre) in general. People with fasting blood glucose values between 100 and 125 mg per 100 ml (6.1 to 6.9 mmol per litre) are diagnosed with a condition called impaired fasting glucose (prediabetes). Normal fasting blood glucose concentrations are less than 100 mg per 100 ml (6.1 mmol per litre). While the blood glucose concentrations used to define diabetes and impaired fasting glucose are somewhat arbitrary, they do correlate with the risk of macrovascular and microvascular disease. Patients with impaired fasting glucose are likely to have diabetes later in life. Oral glucose tolerance tests, in which blood glucose is measured hourly for several hours after ingestion of a large quantity of glucose (usually 75 or 100 grams), are used in pregnant women to test for gestational diabetes. The criteria for diagnosing gestational diabetes are more stringent than the criteria for diagnosing other types of diabetes, which is a reflection of the presence of decreased blood glucose concentrations in healthy pregnant women as compared with nonpregnant women and with men. The duration and severity of hyperglycemia can be assessed by measuring levels of advanced glycosylation end products (AGEs). AGEs are formed when hemoglobin molecules in red blood cells undergo glycosylation (binding to glucose), and the bound substances remain together until the red blood cell dies (red blood cells live approximately 120 days). AGEs are believed to inflict the majority of vascular damage that occurs in people with diabetes. A glycosylated hemoglobin called hemoglobin subtype A1c (HbA1c) is particularly useful in monitoring hyperglycemia and the efficacy of diabetes treatments. Treatment Before the isolation of insulin in the 1920s, most patients died within a short time after onset. Untreated diabetes leads to ketoacidosis, the accumulation of ketones (products of fat breakdown) and acid in the blood. Continued buildup of these products of disordered carbohydrate and fat metabolism result in nausea and vomiting, and eventually the patient goes into a diabetic coma. Treatment for diabetes mellitus is aimed at reducing blood glucose concentrations to normal levels. Achieving this is important in promoting well-being and in minimizing the development and progression of the long-term complications of diabetes. Measurements of HbA1c can be used to assess whether an individual’s treatment for diabetes is effective. Target values of HbA1c levels should be close to normal. Diet and exercise All diabetes patients are put on diets designed to help them reach and maintain normal body weight, and they often are encouraged to exercise regularly, which enhances the movement of glucose into muscle cells and blunts the rise in blood glucose that follows carbohydrate ingestion. Patients are encouraged to follow a diet that is relatively low in fat and contains adequate amounts of protein. In practice about 30 percent of calories should come from fat, 20 percent from protein, and the remainder from carbohydrates, preferably from complex carbohydrates rather than simple sugars. The total caloric content should be based on the patient’s nutritional requirements for growth or for weight loss if the patient is obese. In overweight or obese patients with type 2 diabetes, caloric restriction for even just a few days may result in considerable improvement in hyperglycemia. In addition, weight loss, preferably combined with exercise, can lead to improved insulin sensitivity and even restoration of normal glucose metabolism. Insulin therapies Diabetics who are unable to produce insulin in their bodies require insulin therapy. Traditional insulin therapy entails regular injections of the hormone, which are often customized according to individual and variable requirements. Beef or pork insulin, made from the pancreatic extracts of cattle or pigs, can be used to treat humans with diabetes. However, in the United States, beef and pork forms of insulin are no longer manufactured, having been discontinued in favour of human insulin production. Modern human insulin treatments are based on recombinant DNA technology. Human insulin may be given as a form that is identical to the natural form found in the body, which acts quickly but transiently (short-acting insulin), or as a form that has been biochemically modified so as to prolong its action for up to 24 hours (long-acting insulin). Another type of insulin acts rapidly, with the hormone beginning to lower blood glucose within 10 to 30 minutes of administration; such rapid-acting insulin was made available in an inhalable form in 2014. The optimal regimen is one that most closely mimics the normal pattern of insulin secretion, which is a constant low level of insulin secretion plus a pulse of secretion after each meal. This can be achieved by administration of a long-acting insulin preparation once daily plus administration of a rapid-acting insulin preparation with or just before each meal. Patients also have the option of using an insulin pump, which allows them to control variations in the rate of insulin administration. A satisfactory compromise for some patients is twice-daily administration of mixtures of intermediate-acting and short-acting insulin. Patients taking insulin also may need to vary food intake from meal to meal, according to their level of activity; as exercise frequency and intensity increase, less insulin and more food intake may be necessary. Research into other areas of insulin therapy include pancreas transplantation, beta cell transplantation, implantable mechanical insulin infusion systems, and the generation of beta cells from existing exocrine cells in the pancreas. Patients with type 1 diabetes have been treated by transplantation of the pancreas or of the islets of Langerhans. However, limited quantities of pancreatic tissue are available for transplantation, prolonged immunosuppressive therapy is needed, and there is a high likelihood that the transplanted tissue will be rejected even when the patient is receiving immunosuppressive therapy. Attempts to improve the outcome of transplantation and to develop mechanical islets are ongoing. Drugs used to control blood glucose levels There are several classes of oral drugs used to control blood glucose levels, including sulfonylureas, biguanides, and thiazolidinediones. Sulfonylureas, such as glipizide and glimepiride, are considered hypoglycemic agents because they stimulate the release of insulin from beta cells in the pancreas, thus reducing blood glucose levels. The most common side effect associated with sulfonylureas is hypoglycemia (abnormally low blood glucose levels), which occurs most often in elderly patients who have impaired liver or kidney function. Biguanides, of which metformin is the primary member, are considered antihyperglycemic agents because they work by decreasing the production of glucose in the liver and by increasing the action of insulin on muscle and adipose tissues. A potentially fatal side effect of metformin is the accumulation of lactic acid in blood and tissues, often causing vague symptoms such as nausea and weakness. Thiazolidinediones, such as rosiglitazone and pioglitazone, act by reducing insulin resistance of muscle and adipose cells and by increasing glucose transport into these tissues. These agents can cause edema (fluid accumulation in tissues), liver toxicity, and adverse cardiovascular events in certain patients. Furthermore, oral hypoglycemic agents lower mean blood glucose concentrations by only about 50–80 mg per 100 ml (2.8–4.4 mmol per litre), and sensitivity to these drugs tends to decrease with time. There are several other agents that can be highly effective in the treatment of diabetes. Pramlintide is an injectable synthetic hormone (based on the human hormone amylin) that regulates blood glucose levels by slowing the absorption of food in the stomach and by inhibiting glucagon, which normally stimulates liver glucose production. Exenatide is an injectable antihyperglycemic drug that works similarly to incretins, or gastrointestinal hormones, such as gastric inhibitory polypeptide, that stimulate insulin release from the pancreas. Exenatide has a longer duration of action than incretins produced by the body because it is less susceptible to degradation by an enzyme called dipeptidyl peptidase-4 (DPP-4). A drug called sitagliptin specifically inhibits DPP-4, thereby increasing levels of naturally produced incretins. Side effects associated with these drugs are often mild, although pramlintide can cause profound hypoglycemia in patients with type 1 diabetes. Glucometer monitoring All patients with diabetes mellitus, particularly those taking insulin, should measure blood glucose concentrations periodically at home, especially when they have symptoms of hypoglycemia. This is done by pricking a finger, obtaining a drop of blood, and using an instrument called a glucometer to measure the blood glucose concentration. Using this technology, many patients become skilled at evaluating their diabetes and making appropriate adjustments in therapy on their own initiative. Long-Term Complications Of Diabetes Mellitus The prolonged survival of patients with diabetes mellitus has led to an increasing incidence of long-term complications. The most common complications are vascular complications, which may involve large arteries, small arteries, or capillaries. Large-vessel disease generally presents as atherosclerotic vascular disease (atherosclerosis). Atherosclerosis in diabetic patients does not differ from that which occurs in nondiabetic patients, although it may occur sooner and progress more rapidly in diabetic than nondiabetic patients. It involves the coronary arteries, the cerebral arteries, and the large arteries (iliac and femoral arteries) that supply blood to the legs. Thus, nonfatal and fatal myocardial infarction (heart attack), stroke, and ulceration and gangrene of the feet, often necessitating amputation, are common in patients with diabetes. Small-artery disease (microangiopathy) consists of thickening of the walls of small arteries and capillaries, which initially renders them permeable (leaky) to fluids and subsequently renders them prone to obstruction (thrombosis or embolism). These changes occur primarily in the retina (diabetic retinopathy) and kidneys (diabetic nephropathy), and as a result diabetes is the most common cause of blindness and end-stage kidney disease. Vascular complications are aggravated by hypertension and hyperlipidemia (high serum levels of lipids), both of which are common in patients with diabetes. Cataract formation can occur as a complication of diabetes (shown here in a person affected by type I diabetes). Cataract formation can occur as a complication of diabetes (shown here in a person affected by type I diabetes). There are other, nonvascular complications of diabetes, including cataract formation and neuropathy (diabetic neuropathy). The most common type of neuropathy is symmetric polyneuropathy. This causes abnormal sensation (numbness or tingling) or loss of sensation, loss of position sense and vibratory sense, and weakness of the muscles of the feet, lower legs, and hands. Other patients have single-nerve neuropathy, such as loss of function of a nerve to the muscles of one eye, causing visual disturbances, or of a nerve to the muscles of the forearm, causing wrist drop. They may also have autonomic neuropathy, which may result in postural hypotension (fainting upon sitting up or standing), gastric retention, erectile dysfunction, or urinary bladder dysfunction. These complications may be caused by glycosylation of ocular tissue or nervous tissue, accumulation of osmotically active glucose metabolites in these tissues, or disease of the small vessels in these tissues. The development or progression of the small-vessel complications of diabetes, such as diabetic retinopathy, diabetic nephropathy, and diabetic neuropathy, can be slowed or prevented by control of hyperglycemia. It is less clear whether the control of hyperglycemia has a similar effect in controlling large-vessel complications. The onset and progression of the vascular complications of diabetes can be delayed by controlling high blood pressure (hypertension). Many antihypertensive treatments are aimed specifically at preventing the actions of angiotensin II, a peptide that stimulates blood vessel constriction to increase blood pressure. The increase in blood pressure can be prevented by drugs that inhibit angiotensin-converting enzyme (drugs known as ACE inhibitors), which converts inactive angiotensin I to active angiotensin II, or by drugs that block the angiotensin receptor, which prevents angiotensin II from stimulating blood vessels to constrict. Cessation of smoking and lowering serum lipid concentrations are also helpful in slowing progression of vascular disease in patients with diabetes. Prevention Attempts to prevent type 1 diabetes have been unsuccessful. On the other hand, in people with impaired fasting glucose, progression to type 2 diabetes can be prevented by weight loss and exercise and by treatment with metformin, an ACE inhibitor, or a statin (a type of cholesterol-lowering drug). Homeopathic remedies marketed to treat the symptoms of diabetes or prevent complications include: Syzygium jambolanum or S. cumini (black plum) is said to help treat thirst, weakness, skin ulcers, and excessive urination. Uranium nitricum is marketed to treat excessive urination, nausea, swelling, and burning with urination. Conium (hemlock) is purported to treat numbness in the feet and hands as well as diabetic neuropathy (nerve damage). Plumbum (lead) is said to help with numbness in the hands and feet, nerve pain, and tinnitus. Calendula (marigold) is said to treat infected ulcers. Phosphoric acid is promoted to treat impaired memory, confusion or heavy head, frequent urination at night, hair loss, and difficulty maintaining an erection.Dr. Rajesh Gupta5 Likes3 Answers
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60 year old female patient, blood sugar fasting 155 mg/dl pp 186 mg/dl HbA1c is 6.8...what does this report of microalbumin creatinine ratio denotes please give your valuable openionSutanu Ghoshal M.P.T (Orthopedics)4 Likes18 Answers