Diabetes mellitus: Clinical practice
Medicine and surgery
AssessmentsDiabetes mellitus: Clinical practice
USMLE® Step 2 style questions USMLE
A 55-year-old man comes to the emergency department with fevers and a cough for the past week. The fever is intermittent and associated with a dull headache. The cough is non-productive, and the patient denies sore throat, nasal congestion, shortness of breath, or chest pain. He has a history of type 2 diabetes mellitus diagnosed 5 years ago. Initially, the patient was prescribed oral antihyperglycemics, but he switched to herbal remedies after one month because of side effects. The patient has never smoked cigarettes. He is employed as a groundskeeper at a local country club. The patient’s temperature is 36.4°C (97.5°F), pulse is 100/min, respirations are 20/min, and blood pressure is 120/70 mmHg. Physical examination shows occasional coarse left-sided crackles on lung auscultation. Neurologic and skin examinations are normal. Serum laboratory studies show the following:
|White blood cells||28,000 /mm3|
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Which of the following antimicrobial agents is most appropriate to administer to this patient?
Content Reviewers:Rishi Desai, MD, MPH
Contributors:Evan Debevec-McKenney, Marisa Pedron
In diabetes mellitus, the body has trouble moving glucose from your blood into the cells – so blood sugar levels are constantly high. Insulin stimulates the movement of glucose into the cells, and glucagon stimulates the movement of glucose into the blood. In type I diabetes the blood glucose stays high because of an autoimmune destruction of the pancreas, which leads to low insulin levels. In type II diabetes, the body makes insulin, but the cells are insulin resistant - meaning they don’t “respond” to insulin by taking glucose in.
Cells’ inability to use insulin translates in classical symptoms of diabetes like polyuria – individuals pee a lot -, polydipsia – they drink a lot of water -, sometimes polyphagia – they eat a lot – and unexplained weight loss. Both type I and type II diabetes get these symptoms – however, with type I, the onset is usually abrupt and usually affects people under 30. With type II, the symptoms gradually worsen over a few months, and individuals usually have risk factors like being over 45 years old, having a first degree relative with type II diabetes mellitus, a body mass index (BMI) over 25, a sedentary lifestyle, or cardiovascular disease, like hypertension.
Now, type II diabetes accounts for about 90% of the diabetes cases, so let’s start there. Diagnosing type II diabetes relies on determining blood sugar levels using one of four tests. The first, and most common test, is a fasting glucose test and it’s where the person doesn’t eat or drink anything except water for 8 hours. Levels of 100 milligrams per deciliter to 125 milligrams per deciliter indicates prediabetes and a level of 126 milligrams per deciliter or higher indicates diabetes. Usually this test is done twice, and two results over 126 milligrams per deciliter are sufficient to diagnose a person with diabetes. Second, we have the oral glucose tolerance test, and it’s where a person is given 75 grams of glucose, and then blood samples are taken at time intervals to figure out how well it’s being cleared from the blood. At the time interval of 2 hours later, a level of 140 milligrams per deciliter to 199 milligrams per deciliter indicates prediabetes, and a level of 200 or above indicates diabetes. However, these two tests have one shortcoming - they only show what’s happening to blood glucose levels in that particular moment in time, so we have no idea how long blood sugar levels have been high. This is where our third test comes in - the HbA1c, which is the proportion of glycated hemoglobin in the blood. When blood glucose levels stay high for too long, glucose begins to stick to proteins that are floating around in the blood or in cells - like hemoglobin. HbA1c levels of 5.7% to 6.4% indicate prediabetes, and 6.5% or higher indicates diabetes. Since red blood cells - and hemoglobin - typically hang around in the blood for up to 4 months, this test reflects blood glucose levels over the past few months. Finally, there’s our fourth test, called a non-fasting or random glucose test, which can be done at any time. A red flag for diabetes is when this test shows a blood glucose level of 200 milligrams per deciliter or higher in an individual that has classic symptoms, like polyuria or polydipsia; or a hyperglycemic crisis.
Of these, fasting blood sugar and HbA1c levels can also be used to screen people for diabetes. Guidelines recommend that screening begins at 45 in asymptomatic adults with no risk factors, using either the fasting blood sugar or a HbA1c test; but screening can begin earlier if risk factors are present. Specifically, individuals who are overweight or obese or have a family history of diabetes mellitus can be screened starting at any age; as well as overweight or obese individuals assigned female at birth who are planning a pregnancy. Additionally, individuals with a personal history of gestational diabetes mellitus should have lifelong screening once every three years. If screening is negative for both diabetes and prediabetes, one of those tests should be repeated every 3 years. Alternatively, if prediabetes is detected, screening should be repeated yearly.
Now, with type I diabetes, individuals typically present with sudden onset of polyuria, polydipsia, polyphagia and unexplained weight loss, as well as high blood sugar. In order to differentiate type I from type II diabetes, we need to look for autoantibodies directed at glutamic acid decarboxylase - or GAD antibodies and islet cells - or ICA2 antibodies Finally, insulin deficiency can be checked using C-peptide levels. C peptide is a molecule that’s cleaved off from proinsulin when it’s converted to insulin, so low C-peptide levels reflect an insulin deficiency.
In both type I or type II diabetes it’s important to think about chronic diabetic complications. Persistently high blood glucose levels can damage arterioles, primarily affecting the eyes, the kidneys, and the nerves. In the eyes, diabetes can lead to retinopathy and evidence of that can be seen on a fundoscopic exam that shows cotton wool spots or flame hemorrhages - and can eventually cause diabetic retinopathy and blindness. In the kidneys, the afferent and efferent arterioles, as well as the glomerulus itself can get damaged which can lead to diabetic nephropathy. For this, a urine sample is used to screen for proteinuria, the presence of which reflects small vessel damage. Finally, nerve damage causes a decrease in sensation in the toes and fingers, sometimes called a stocking-glove distribution, as well as causing autonomic nervous system dysfunction, affecting everything from sweating to passing gas. Finally, both the poor blood supply and nerve damage, can lead to foot ulcers that don’t heal quickly and can get pretty severe, even requiring amputation.
Now, in terms of treatment, there are three clinical scenarios - prediabetes, type II diabetes and type I diabetes. For prediabetic individuals, the goal is to bring the HbA1c levels below 5.7% - and to do this, recommendations are mainly lifestyle changes over a 16 week trial period - like losing weight, sticking to a healthy diet, exercising and quitting smoking. Specifically, we’re talking about losing 7% of total body weight over 16 weeks - which can be done by decreasing caloric input by 500-1000 kilocalories per day, depending on starting weight, and sticking to a diet rich in fruits and vegetables, and low in sugar-sweetened beverages and processed sweets, and also low in saturated fats, like those found in meat and dairy products. So less of the fast-food style soda, hamburgers, and fries, and more home cooked meals like roasted vegetables over lentils and rice - which is also cheaper as well! Finally, exercising means gradually increasing physical activity up to at least 30 minutes a day, at least 5 days a week - brisk walking, jogging, swimming, going to the gym, you name it - it gets the blood flowing, it’s good. In addition, sometimes Metformin, a biguanide, is started in these individuals. Metformin works by making cells respond better to insulin - therefore decreasing insulin resistance. Unfortunately, metformin can cause nausea and diarrhea, and can rarely cause lactic acidosis, particularly in individuals with chronic kidney disease and severe heart failure - so metformin is contraindicated in those settings. Metformin can also deplete vitamin B12 levels, which can lead to anemia. So individuals on Metformin need to get B12 levels checked and need supplementation if they’re low. They also need a complete blood count - or CBC - with each evaluation, to track changes in hemoglobin and hematocrit.
For type II diabetes - the approach depends on HbA1c level. For HbA1c levels between 6.5%, and 10% - the initial approach is the same as prediabetes - lifestyle changes and Metformin. Metformin is available in 500, 850 and 1000 milligram tablets, and therapy usually starts with a 500 mg tablet once daily with the evening meal. If well tolerated, a second 500 mg tablet can be added with breakfast. Doses can be increased by one tablet once every one to two weeks, up to the usual effective dose of 1500-2000 milligrams per day. However, follow-up is a bit more intensive here - so HbA1c levels are checked again every 3 months, and generally speaking the goal is to keep the HbA1c below 7%.
If the HbA1c is still higher than 7% after 3 months of Metformin, a second antidiabetic medication is usually used, and there are several options to choose from. Which one is best depends on several individual factors - like whether or not the person is overweight, has chronic kidney disease or severe heart failure, or atherosclerotic cardiovascular disease - defined as coronary heart disease, cerebrovascular disease, or peripheral arterial disease presumed to be of atherosclerotic origin. It’s also important to factor in the risk for hypoglycemia that some of these medications pose.
Ok, so first, there are the sulfonylureas, like Glimepiride and Glipizide. These medications increase the amount of insulin that the pancreas naturally releases, but they can cause hypoglycemia as well as weight gain. As a result, individuals should take these medications 30 minutes before a meal. Like metformin, sulfonylureas are also contraindicated in individuals with chronic kidney disease. They may, however, be given to individuals with heart failure.
Next up, are the thiazolidinediones, like pioglitazone, and they help reduce insulin resistance, like Metformin, as well as hepatic gluconeogenesis - meaning they make the liver make less glucose while fasting, overall lowering blood sugar. However, these medications can also cause weight gain and are contraindicated in individuals with heart failure. On the flip side, studies have shown that they could improve cardiovascular health in people with atherosclerotic cardiovascular disease.
Next are the SGLT-2 inhibitors, like dapagliflozin, which inhibit a sodium-glucose cotransporter in the kidneys, leading to increased urinary excretion of glucose, and lower blood glucose levels. These drugs can help with weight loss, and they have also demonstrated beneficial effects on cardiovascular health in people with atherosclerosis. However, they are contraindicated in people with severe chronic kidney disease. Also, there is a minor risk for hypoglycemia, in case too much glucose is lost in the urine.
Finally, there are two other classes of antidiabetic medication. These are glucagon-like peptide-1 or GLP-1 analogues, which are injected subcutaneously, and dipeptidil peptidase 4 or DPP-4 inhibitors, which are taken orally. GLP-1 is a hormone secreted by the gastrointestinal tract after a meal, that decreases glucagon levels, and increases insulin production - causing blood sugar levels to fall. DPP-4 is the enzyme that degrades GLP-1 in between meals. So GLP-1 analogues, also called incretins, act like GLP-1 and lower blood sugar and cause weight loss - however, they are contraindicated in severe chronic kidney disease. Examples of incretins are Exenatide and Liraglutide. Liraglutide is specifically useful in people with atherosclerotic cardiovascular disease and also for diabetic nephropathy, because it slows progression of that disease. DPP-4 inhibitors, also called the gliptins, stop the degradation of endogenous GLP-1 to keep blood sugar low, but they do come with a small risk of hypoglycemia. They can’t be given in heart failure, but the good news is that they can be used for individuals with severe chronic kidney disease.
So to wrap up quickly on these medications. The risk for hypoglycemia is high for sulfonylureas, low for SGLT-2 inhibitors and DPP-4 inhibitors, and next to zero for the other medications. As for the effect on weight, sulfonylureas and thiazolidinediones cause weight gain, GLP-1 analogues cause weight loss, and the rest have a neutral effect. People with severe chronic kidney disease can be given thiazolidinediones, or DPP-4 inhibitors. For those with heart failure, sulfonylureas, SGLT-2 inhibitors, and GLP-1 analogues are good options. Finally, individuals with atherosclerotic cardiovascular disease might benefit from thiazolidinediones, SGLT-2 inhibitors, and one particular GLP-1 analogue - Liraglutide.
Diabetes mellitus is a metabolic condition characterized by high blood sugar levels (glycemia). The two types of diabetes mellitus are type 1 and type 2. Type 1 Diabetes Mellitus, also called insulin-dependent diabetes, usually begins in childhood or adolescence. In this form of the disease, an autoimmune process triggers the destruction of pancreatic beta cells responsible for producing insulin, and thus the body produces little or no insulin. Insulin is a hormone that helps the body to use sugar for energy.
Type 2 diabetes mellitus, also called non-insulin-dependent diabetes, usually begins in adulthood. In this type, the body produces insulin but becomes resistant to it, meaning it cannot use it effectively. Type 2 diabetes mellitus has a genetic component, and a sedentary lifestyle and obesity significantly elevate its risk.