• Highlights
• Introduction
• Causes
• Risk Factors
• Symptoms
• Life-Threatening Complications
• Diagnosis
• Dietary Goals and Exercise
• Treatment
• Monitoring Tests
• Long-Term Complications
• Transplantation Procedures
• Prevention
• Resources
• References

Diabetes - type 1

Description

An in-depth report on the causes, diagnosis, and treatment of type 1 diabetes.

Alternative Names

Type 1 diabetes; Insulin-dependent diabetes; Juvenile diabetes

Long-Term Complications

Type 1 diabetes reduces the normal life span by an average of 5 to 8 years. However, survival rates are improving in all ethnic groups and both genders. Longer survival rates are probably due to improvements in monitoring and tighter control of blood glucose. There are two important approaches to preventing complications from type 1 diabetes:

• Intensive control of blood glucose and keeping glycosylated hemoglobin (HbA1c) levels below 7.0. This approach is proving to prevent complications due to vascular (blood vessel) abnormalities and nerve damage (neuropathy) that can cause major damage to organs, including the eyes, kidneys, and heart.
• Managing risk factors for heart disease. Blood glucose control helps the heart, but it is also very important that people with diabetes control blood pressure, cholesterol levels, and other factors associated with heart disease.

Heart Disease

Patients with type 1 diabetes have a 10 times greater risk of heart disease than healthy patients. Heart attacks account for 60% and strokes for 25% of deaths in patients with diabetes. Diabetes affects the heart in many ways:

• Both type 1 and 2 diabetes accelerate the progression of atherosclerosis (hardening of the arteries). Diabetes can adversely affect blood lipid levels by lowering HDL ("good cholesterol") and increasing triglycerides. This can lead to coronary artery disease, heart attack, or stroke.
• In type 1 diabetes, high blood pressure (hypertension) usually develops if the kidneys become damaged. High blood pressure is another major cause of heart attack, stroke, and heart failure. Children with diabetes are also at risk for hypertension.
• Impaired nerve function (neuropathy) associated with diabetes also causes heart abnormalities. Some experts estimate that the mortality rates from neuropathy-related heart conditions ranges from 15 - 53%.

Results from the Diabetes Control and Complications Trial (DCCT) prove that intensive blood sugar control reduces the long-term risk of heart disease complications by 50%. The results indicate that intensive blood sugar control is even more important in reducing these risks than blood pressure- and cholesterol-lowering drugs. Original participants in the trial received intensive blood glucose control for 6 years during the 1980s. Researchers continued to follow these patients’ progress during the next 17 years. A follow-up study, published in 2005 in the New England Journal of Medicine , found that the benefits of tight blood glucose control persisted over time and halved the risk of heart attack, stroke, angina, or coronary artery disease.

Aspirin for Reducing the Risk for Blood Clots. Taking a daily aspirin reduces the risk for blood clotting and may help protect against heart attacks. In a 2000 study, low-dose aspirin was associated with a 30% lower risk for death from heart disease in adults with type 2 diabetes.

Reducing Blood Pressure. Strict control of blood pressure is critical for preventing complications of diabetes and has proven to improve survival rates. Patients should strive for blood pressure levels of less than 130/80 mm Hg (systolic/diastolic). (Controlling systolic pressure may be especially important for reducing the risk for kidney complications.)

Dozens of anti-hypertensive drugs are available. Most fall into the following categories:

• Diuretics rid the body of extra sodium (salt) and water. There are three main types of diuretics: Potassium-sparing, thiazide, and loop.
• Angiotensin-converting enzyme (ACE) inhibitors reduce the production of angiotensin, a chemical that causes arteries to narrow.
• Angiotensin-receptor blockers (ARBs) block angiotensin.
• Beta-blockers block the effects of adrenaline and ease the heart’s pumping action.
• Calcium-channel blockers (CCBs) decrease the contractions of the heart and widen blood vessels.

The American Diabetes Association (ADA) recommends any of these classes of drugs as first-line treatment for hypertension. New research suggests, however, that beta-blockers are less effective at preventing strokes and heart attacks than other types of blood pressure medications. ACE inhibitors are especially helpful for patients with type 1 diabetes as they may help prevent kidney disease (nephropathy).

Many patients require more than one type of drug to control blood pressure. For patients with diabetes who have microalbuminuria, the ADA strongly recommends ACE inhibitors or ARBs. Microalbuminuria is an accumulation of protein in the blood, which can signal the onset of kidney disease (nephropathy).

Anti-hypertensive drugs that block or reduce angiotensin are the first option for many people with diabetes. Angiotensin is a natural chemical that influences all aspects of blood pressure control and also interferes with insulin's normal metabolic signaling. In fact, angiotensin may be the common factor linking diabetes and high blood pressure.

The 2005 landmark Antihypertensive and Lipid Lowering Treatment to Prevent Heart Attack Trial (ALLHAT) indicated that a thiazide-type diuretic works as well as an ACE inhibitor or CCB for patients with type 2 diabetes and high blood pressure. Compared with ACE inhibitors or CCBs, diuretics appeared to be better at lowering systolic blood pressure and preventing heart failure. In addition, the trial suggested that diuretics are especially helpful for African Americans, by offering greater protection than ACE inhibitors or CCBS in preventing strokes.

[For more information, see In-Depth Report #14: High blood pressure . ]

Improving Cholesterol and Lipid Levels. Abnormal cholesterol and lipid levels are common in diabetes. High LDL (“bad”) cholesterol should always be lowered, but people with diabetes also often have additional harmful imbalances including low HDL (“good”) cholesterol and high triglycerides. Patients should aim for LDL levels below 100 mg/dL, HDL levels over 50 mg/dL, and triglyceride levels below 150 mg/dL. Patients with diabetes and existing heart disease should strive for even lower LDL levels; the American Diabetes Association recommends LDL levels below 70 mg/dL for these patients.

Statins are the best cholesterol-lowering drugs. They include atorvastatin (Lipitor), lovastatin (Mevacor and generics), pravastatin (Pravachol), simvastatin (Zocor and generics), fluvastatin (Lescol), and rosuvastatin (Crestor). These drugs are very effective for lowering LDL cholesterol levels. Recent studies indicate that aggressive high-dose statin therapy may be an important treatment approach for high-risk patients who need to substantially lower their LDL levels. A 2006 study found that patients with diabetes and heart disease who were treated with 80 mg daily of atorvastatin had a 25% lower risk of heart attack and stroke than patients who received a 10 mg daily dose.

The primary safety concern with statins has involved myopathy, an uncommon condition that can cause muscle damage and, in some cases, muscle and joint pain. A specific myopathy called rhabdomyolysis can lead to kidney failure. People with diabetes and risk factors for myopathy should be monitored for muscle symptoms.

Although lowering LDL is beneficial, statins are not as effective as other medications -- such as fibrates, niacin, ezetimbe, or bile acid sequesters -- in addressing HDL and triglyceride imbalances. This is a common problem in type 2 diabetes. Combining a statin with one these drugs may be helpful for people with diabetes who have heart disease, low HDL, and near-normal LDL levels. Although combinations of statins and fibrates or niacin increase the risk of myopathy, both combinations are considered safe if used with extra care.

Fibrates, such as gemfibrozil (Lopid) and fenofibrate (Tricor), are usually the first choice. Niacin has the most favorable effect on raising HDL and lowering triglycerides of all the cholesterol drugs. However, about 30% of patients who take high-dose niacin experience increased blood glucose levels. Moderate doses of niacin can achieve lipid control without causing serious blood glucose problems.

[For more information, see In-Depth Report #23: Cholesterol . ]

Kidney Damage (Nephropathy)

Kidney disease (nephropathy) is a very serious complication of diabetes. With this condition, the tiny filters in the kidney (called glomeruli) become damaged and leak protein into the urine. Over time this can lead to kidney failure. Urine tests showing microalbuminuria (small amounts of protein in the urine) are important markers for kidney damage.

Treatment and Prevention of Nephropathy. Tight control of blood sugar and blood pressure is essential for preventing the onset of kidney disease. Long-term studies report that strict control of these two conditions produces a 60% reduction in new cases of nephropathy and a delay in progression of the disease. Research indicates that ACE inhibitors are the best class of blood pressure medications for delaying kidney disease and slowing disease progression in patients with type 1 diabetes. Angiotensin-receptor blockers (ARBs) are also very helpful.

A doctor may recommend a low-protein diet for patients whose kidney disease is progressing despite tight blood sugar and blood pressure control. Protein-restricted diets can help slow disease progression and delay the onset of end-stage renal disease (kidney failure). [For more information, see In-Depth Report #42: Diabetes diet.]

Diabetic nephropathy occurs in about 20 – 40% of patients with diabetes and is the leading cause of end-stage renal disease (ESRD). Patients with ESRD have 13 times the risk of death compared to other patients with type 1 diabetes. If the kidneys fail, dialysis is required. Symptoms of kidney failure may include swelling in the feet and ankles, itching, fatigue, and pale skin color. On an encouraging note, a 2005 study in the Journal of the American Medical Association reported that the prognosis of end-stage renal disease has greatly improved during the last 4 decades for patients with type 1 diabetes. The outlook was best for patients who were diagnosed with diabetes at a young age (under 5 years old). In addition, the study found that fewer people with type 1 diabetes are developing ESRD.

Neuropathy

Diabetes reduces or distorts nerve function causing a condition called neuropathy. Neuropathy refers to a group of disorders that affect nerves. The two main types of neuropathy are:

• Peripheral (affects nerves in the toes, feet, legs, hand, and arms)
• Autonomic (affects nerves that help regulate digestive, bowel, bladder, heart, and sexual function)

Peripheral neuropathy particularly affects sensation. It is a common complication that affects nearly half of people with type 1 or type 2 diabetes after 25 years. The most serious consequences of neuropathy occur in the legs and feet and pose a risk for ulcers and, in very severe cases, amputation. Peripheral neuropathy usually starts in the fingers and toes and moves up to the arms and legs (called a stocking-glove distribution). Symptoms include

• Tingling
• Weakness
• Burning sensations
• Loss of the sense of warm or cold
• Numbness (if the nerves are severely damaged, the patient may be unaware that a blister or minor wound has become infected)
• Deep pain

Autonomic neuropathy can cause digestive problems (constipation, diarrhea, nausea, vomiting), bladder infections, and erectile dysfunction. In some cases, neuropathy may mask angina, the warning chest pain for heart disease and heart attack. Patients with diabetes should be aware of other warning signs of a heart attack including sudden fatigue, sweating, shortness of breath, nausea, and vomiting.

Blood sugar control is the only treatment for neuropathy. Studies show that tight control of blood glucose levels delays the onset and slows progression of neuropathy. A 2005 study also suggested that heart disease risk factors can increase the likelihood of developing neuropathy. Lowering triglycerides, losing weight, reducing blood pressure, and quitting smoking may help prevent the onset of neuropathy.

Pain-Relief Treatment for Peripheral Neuropathy. A number of different drugs are used for peripheral neuropathy pain relief: They include:

• Nonprescription analgesics such as aspirin, acetaminophen, and non-steroidal anti-inflammatory drugs (NSAIDs). (Patients with stomach or kidney problems should check with their doctors before using these drugs.)
• Prescription painkillers such as tramadol (Ultram). Tramadol is a drug that is similar to opioids. It can help relieve pain but has significant side effects, including nausea, constipation, and headache.
• Topical medications, particularly capsaicin (the active ingredient in hot peppers), are applied to the skin to relieve minor local pain. A 5% lidocaine patch has also shown good results in clinical trials.
• Tricyclic antidepressants, such as amitriptyline (Elavil) or doxepin (Sinequan), are effective in reducing pain from neuropathy in up to 75% of patients. A combination of doxepin and capsaicin (applied to the skin) may be particularly beneficial. Unfortunately, tricyclics may cause heart rhythm problems.
• Duloxetine (Cymbalta) is a serotonin and norepinephrine reuptake inhibitor, a newer type of antidepressant, which was approved in 2004 for treatment of pain associated with diabetic peripheral neuropathy.
• The anti-convulsant drug pregabalin (Lyrica) was approved in 2004 for neuropathic pain management. It is classified as a controlled substance (like narcotics), which indicates a potential risk for abuse. Other anti-seizure drugs used for peripheral neuropathy pain relief include gabapentin (Neurontin) and valproate (Depakote).

Treatments under investigation include acetyl-l-carnitine and intravenous alpha-lipoic acid. Patients may also benefit from transcutaneous electrostimulation (TENS), a treatment that involves administering mild electrical pulses to painful areas. Alternative treatments such as hypnosis, biofeedback, relaxation techniques, and acupuncture have helped some patients manage pain. Doctors also recommend lifestyle measures such as walking and wearing elastic stockings.

Treatments for Other Complications of Neuropathy. Neuropathy also impacts other functions, and treatments are needed to reduce their effects. If diabetes affects the nerves in the autonomic nervous system, then abnormalities of blood pressure control and bowel and bladder function may occur. Erythromycin, domperidone (Motilium), or metoclopramide (Reglan) may be used to relieve delayed stomach emptying caused by neuropathy.

Erectile dysfunction is also associated with neuropathy. Sildenafil (Viagra), vardenafil (Levitra, Nuviva, and tadalafil (Cialis) are proving to be effective treatments for impotence in about half of the men with either type 1 or type 2 diabetes. Side effects and usually minimal.

Foot Ulcers and Amputations

Perhaps the most serious consequences of diabetic neuropathy occur in the lower limbs. An estimated 15% of patients with diabetes experience serious foot problems. They are the leading cause of hospitalizations for these patients.

Diabetes is responsible for more than half of all lower limb amputations performed in the U.S. Each year there are about 88,000 non-injury amputations, 50 - 75% of them due to diabetes. The number is increasing as the prevalence in diabetes type 2 rises. According to a 2005 study in the Lancet, every 30 seconds someone in the world receives a lower limb amputation due to diabetes. About 85% of amputations start with foot ulcers, which develop in about 12% of people with diabetes.

In general, foot ulcers develop from infections, such as those resulting from blood vessel injury. A 2006 study reported that people with diabetes who develop foot infections are 155 times more likely to have an amputation than people who did not develop infections. Foot infections often develop from injuries. Even minor infections can develop into severe complications. Numbness from nerve damage, which is common in diabetes, compounds the danger since the patient may not be aware of injuries. About one-third of foot ulcers occur on the big toe.

A 2003 government survey found that those at higher risk for foot ulcers tend to be people with diabetes who are overweight, smokers, and those with a long history of diabetes. People who have the disease for more than 20 years and are insulin-dependent are at the highest risk. Related conditions that put people at risk include peripheral neuropathy, peripheral artery disease, foot deformities, and a history of ulcers. [For more information, see In-Depth Report #102: Peripheral artery disease and intermittent claudication.]

Charcot Foot. Charcot foot or Charcot joint (medically referred to as neuropathic arthropathy) occurs in up to 2.5% of people with diabetes. Early changes appear like an infection, with the foot becoming swollen, red, and warm. A seriously affected foot can become deformed. The bones may crack, splinter, and erode, and the joints may shift, change shape, and become unstable. It typically develops in people who have neuropathy to the extent that they cannot feel sensation in the foot and are not aware of an existing injury. Instead of resting an injured foot or seeking medical help, the patient often continues to normal activity, causing further damage.

Charcot foot is initially treated with strict immobilization of the foot and ankle; some centers use a cast that allows the patient to move and still protects the foot. A 2001 study in the U.K. concluded that a single dose of pamidronate, a bisphosphonate, reduces bone turnover, symptoms, and disease activity. When the acute phase has passed, patients usually need lifelong protection of the foot using a brace initially and custom footwear.

Measures to Prevent Foot Ulcers. Preventive foot care can significantly reduce the risk of ulcers and amputation. Some tips for preventing problems include:

• Patients should inspect their feet daily and watch for changes in color or texture, odor, and firm or hardened areas, which may indicate infection and potential ulcers.
• When washing the feet, the water should be warm (not hot) and the feet and areas between the toes should be thoroughly dried afterward. Check water temperature with the hand or a thermometer before stepping in.
• Moisturizers should be applied, but not between the toes.
• Corns and calluses should be gently pumiced and toenails trimmed short and the edges filed to avoid cutting adjacent toes.
• Patients should not use medicated pads or try to shave the corns or calluses themselves.
• · Well-fitting footwear is very important. People should be sure the shoe is wide enough; according to a 2001 study, 30% of patients with diabetes wear shoes that are too narrow. Patients should also avoid high heels, sandals, thongs, and going barefoot. Shoes with a rocker sole (LucRo) reduce pressure under the heel and front of the foot by 35 - 65% and may be particularly helpful. Custom-molded boots increase the surface area over which foot pressure is distributed. This reduces stress on the ulcers and allows them to heal.
• Shoes should be changed often during the day.
• Wear socks, particularly with extra padding (which can be specially purchased).
• Patients should avoid tight stockings or any clothing that constricts the legs and feet.
• Foot pain, numbness, or tingling is worse at night; diphenhydramine (Benadryl) may help.
• A specialist in foot care should be consulted for any problems.

Treating Foot Ulcers in Diabetes. About one-third of foot ulcers will heal within 20 weeks with good wound care treatments. Some treatments are as follows:

• Antibiotics are generally given. In some cases, hospitalization and intravenous antibiotics for up to 28 days may be needed for severe foot ulcers.
• In virtually all cases, wound care requires debridement, which is the removal of injured tissue until only healthy tissue remains. Debridement may be accomplished using chemical (enzymes), surgical, or mechanical (e.g. irrigation) means.
• Hydrogels (Nu-Gel, Intrasite Gel, Scherisorb, Clearsite, Duoderm, Geliperm) are helpful in healing ulcers and are noninvasive and soothing.
• Felted foam may be helpful in healing ulcers on the sole of the foot. Felted foam uses a multi-layered foam pad over the bottom of the foot with an opening over the ulcer.

Other Treatments for Foot Ulcers . Doctors are also using or investigating other treatments to heal ulcers. These include:

• Administering hyperbaric oxygen (oxygen given at high pressure) is showing promise in promoting healing. In one study, patients who had had ulcers that had not responded to treatment for over 3 months received daily treatments that lasted 90 minutes for 2 weeks. About 15 days after completion, patients who received oxygen had significant reduction in ulcers, sometimes with complete healing. Other studies are also demonstrating good results.
• Monochromatic near-infrared photo energy (MIRE) uses light therapy to improve sensation in the feet of patients with peripheral neuropathy.
• Total-contact casting (TCC) uses a cast that is designed to match the exact contour of the foot and to distribute weight along the entire length of the foot. It is usually changed weekly. It may be helpful for ulcer healing and for Charcot foot. Although it is very effective in healing ulcers, recurrence is common.

Retinopathy and Eye Complications

Diabetes accounts for 12,000 - 24,000 of new cases of blindness annually and is the leading cause of new cases of blindness in adults ages 20 to 74. The most common eye disorder in diabetes is retinopathy. People with diabetes are also at higher risk for developing cataracts and certain types of glaucoma. [For more information, see In-Depth Report #26: Cataracts and Report #25: Glaucoma.]

Description of Retinopathy. Retinopathy is a condition in which the retina becomes damaged. The two primary abnormalities that occur are a weakening of the blood vessels in the retina and the obstruction in the capillaries--probably from very tiny blood clots. Retinopathy generally occurs in one or two phases:

• The early and more common type of this disorder is called nonproliferative or background retinopathy . The blood vessels in the retina are abnormally weakened. They rupture and leak, and waxy areas may form. If these processes affect the central portion of the retina, swelling may occur, causing reduced or blurred vision.
• If the capillaries become blocked and blood flow is cut off, soft, "woolly" areas may develop in the retina's nerve layer. These woolly areas may signal the development of proliferative retinopathy . Often there are no symptoms of progressing retinopathy. In this more severe condition, new abnormal blood vessels form and grow on the surface of the retina. They may spread into the cavity of the eye or bleed into the back of the eye. Major hemorrhage or retinal detachment can result, causing severe visual loss or blindness. The sensation of seeing flashing lights may indicate retinal detachment.

According to a 2003 study, about 40% of young adults with type 1 diabetes had developed retinopathy within 10 years of diagnosis. (Although this rate is high, it is significantly lower than in previous years when blood glucose control was not as strict.) The risk is lower in patients with type 2, although in one study over 20% had signs of retinopathy 6 years after diagnosis. In general, all patients with diabetes should have a yearly eye examination. Patients with no signs of retinal damage or low risk factors for retinopathy may only require screening every 3 years.

Prevention of Retinopathy. Fortunately, severe and even moderate vision loss is largely preventable with tight control of blood glucose levels. (Intense glucose control can cause early worsening of retinopathy, although this is nearly always counterbalanced by long-term benefits.) Drugs and other measures that help lower blood pressure, improve cholesterol, and protect the heart may also have preventive benefits for the eyes. Whereas low-dose aspirin is used to prevent heart disease, high doses may prevent retinopathy. Patients at risk for retinopathy should discuss this therapy with their doctors.

Treatment of Retinopathy. Once damage to the eye develops, eye surgery may be needed. Argon or diode laser photocoagulation is proving to be particularly effective in reducing severe visual loss from retinopathy, and is useful for patients with macular edema when fluid build-up threatens the retina. The FDA is currently reviewing a new drug, ruboxistaurin (Arxxant), to treat diabetic retinopathy. Studies presented at the 2006 American Diabetes Association meeting indicated that the drug reduced vision loss by 41% in patients with moderate-to-severe diabetic retinopathy.

Mental Function and Dementia

Studies indicate that patients with type 2 diabetes face a higher than average risk of developing dementia caused either by Alzheimer's disease or problems in blood vessels in the brain. Problems in attention and memory can occur even in people under age 55 who have had diabetes for a number of years. In one study of people with type 1 diabetes, high glucose levels (hyperglycemia) were associated with slower brain function, including less verbal fluency and slow ability to do mental arithmetic.

Infections

Respiratory Infections. People with diabetes face a higher risk for influenza and its complications, including pneumonia, possibly because the disorder neutralizes the effects of protective proteins on the surface of the lungs. In fact, deaths among people with diabetes increase by 5 - 15% during flu epidemics and they are six times more likely to be hospitalized with complications from flu than nondiabetic patients who have flu. Everyone with diabetes should have annual influenza vaccinations and a vaccination against pneumococcal pneumonia.

Urinary Tract Infections. Women with diabetes face a significantly higher risk for urinary tract infections, which are likely to be more complicated and difficult to treat than in the general population.

Depression

Diabetes doubles the risk for depression. Furthermore, according one study, depression, in turn, increases the risk for hyperglycemia and complications of diabetes. Restoring mental health, both through medication and psychotherapy, not only improves quality of life but may help patients control their blood sugar levels.

Changes in Bone Quality

Diabetes changes bone quality and density, but the effects differ depending on type:

• Type 1 diabetes is associated with a slightly reduced bone density, putting patients at risk for osteoporosis and possibly fractures. The best medications for bone loss in patients with diabetes are the bisphosphonates, such as alendronate (Fosamax) and risedronate (Actonel). They not only help prevent bone loss but may even reduce daily insulin requirements in patients taking insulin. [See In-Depth Report #18: Osteoporosis.]
• Type 2 diabetes, on the other hand, is associated with an increased bone density but is also associated with fractures. In such cases, the bone quality itself may be impaired.

Older patients with either type are at risk for falling, which compounds the risk for fracture.

Other Complications

Diabetes increases the risk for other conditions, including:

• Hearing loss
• Periodontal disease
• Carpal tunnel syndrome
• Nonalcoholic fatty liver disease, also called nonalcoholic steatohepatitis (NASH); a particular danger for people who are obese
• Colorectal cancer
• Uterine cancer

Specific Complications in Women

Diabetes and Pregnancy. Both temporary diabetes that occurs during pregnancy (gestational diabetes) and pregnancy in a patient with existing diabetes can increase the risk for birth defects. Studies indicate that high blood sugar levels (hyperglycemia) may affect the developing fetus as soon as it is conceived.

Because glucose crosses the placenta, a woman with diabetes can pass high levels of blood glucose to the fetus. In response, the fetus secretes large amounts of insulin. This combination of high fetal blood levels of insulin and glucose can have significant effects:

• Excessive fetal weight gain, which can lead to complications during delivery
• Birth defects
• Breathing problems and delayed lung development
• Low blood sugar
• Higher future risk for obesity and diabetes

In addition to endangering the fetus, diabetes also presents risks to the pregnant woman, particularly preeclampsia, which is a potentially dangerous condition involving very high blood pressure during pregnancy. Pregnant women with diabetes are also at greater risk for retinopathy.

Some recommendations for preventing complications include:

• Intensive blood sugar control during pregnancy may reduce the risk for problems in the infant.
• Monitoring blood glucose after meals may protect against preeclampsia more effectively than monitoring before meals.
• Aerobic exercise before and during pregnancy can lower glucose levels. (All pregnant women, particularly those with diabetes, should check with their doctors before embarking on a rigorous exercise regimen.)
• To prevent birth defects that affect the heart and nervous system, women with diabetes should take a higher dose of folic acid from the time of conception up to week 12 of pregnancy. They should also be checked for any heart problems.
• Women with diabetes should have an eye examination during pregnancy and up to a year afterward.

Although there was some concern that short-acting insulin lispro might increase the risk for birth defects, the most recent evidence suggests that it does not. In fact, some experts believe it achieves a better outcome and should be preferred to regular insulin in pregnant women. More research is needed.

Effect on Estrogen. Diabetes appears to blunt some of the effects of estrogen, which may increase the risk for heart disease. Women with diabetes have a higher risk for early menopause, which, in one study, occurred at an average age of about 41 years.

Reproductive Cancers. Women with type 1 diabetes often have lumps in the breast that are benign but which make mammograms difficult to interpret. It is not clear whether these lumps are risk factors for breast cancer. One study indicated that women with diabetes have a higher risk for endometrial cancer and possibly for breast cancer.

Specific Problems for Adolescents with Type 1 Diabetes

Lack of Blood Glucose Control. Control of blood glucose levels is generally very poor in adolescents and young adults. Adolescents with diabetes are at higher risk than adults for ketoacidosis resulting from noncompliance. In a British study of young adults with type 1 diabetes, 15% were already hypertensive and about half of these young people had signs of kidney damage. Young people who do not control glucose are also at high risk for permanent damage in small vessels, such as those in the eyes.

Self-Destructive Behaviors. One study found that young people with diabetes have a higher than average rate of suicidal fantasies. Although the actual rate of suicide was no higher than that of their nondiabetic peers, such thoughts are strongly associated with self-destructive behavior.

Of particular note, up to one-third of young women with type 1 diabetes have eating disorders and underuse insulin to lose weight. Anorexia and bulimia pose significant health dangers in any young person--but they can be especially severe in people with diabetes.

• Review Date: 7/18/2006
• Reviewed By: Harvey Simon, M.D., Editor-in-Chief, Associate Professor of Medicine, Harvard Medical School; Physician, Massachusetts General Hospital

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