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Range of high blood sugar. Understanding Hyperglycemia in Diabetes: Symptoms, Causes, and Management

What are the symptoms of high blood sugar in diabetes. How is hyperglycemia diagnosed and treated. What factors contribute to elevated blood glucose levels in diabetics. How can hyperglycemia be prevented and managed effectively.

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What is Hyperglycemia and How Does it Affect Diabetics?

Hyperglycemia, or high blood sugar, is a common concern for people with diabetes. It occurs when the body has too much glucose (sugar) in the bloodstream. For diabetics, maintaining proper blood glucose levels is crucial for overall health and preventing complications.

Hyperglycemia can happen for several reasons in diabetics:

  • Not taking enough insulin or diabetes medication
  • Eating more carbohydrates than usual
  • Being less physically active than normal
  • Experiencing stress or illness
  • Taking certain medications that raise blood sugar

When blood glucose levels remain high over time, it can lead to serious health issues like kidney damage, vision problems, and cardiovascular disease. That’s why recognizing and addressing hyperglycemia promptly is essential for diabetes management.

Recognizing the Symptoms of High Blood Sugar

Identifying the signs of hyperglycemia early can help prevent complications. Common symptoms include:

  • Increased thirst and frequent urination
  • Fatigue and weakness
  • Blurred vision
  • Headaches
  • Difficulty concentrating
  • Unexplained weight loss
  • Slow-healing cuts or sores

In severe cases, hyperglycemia can lead to diabetic ketoacidosis (DKA), a life-threatening condition. Symptoms of DKA include:

  • Nausea and vomiting
  • Abdominal pain
  • Fruity-smelling breath
  • Rapid breathing
  • Confusion or loss of consciousness

If you experience these symptoms, seek medical attention immediately.

Diagnosing Hyperglycemia: Blood Sugar Tests and Their Significance

Diagnosing hyperglycemia involves measuring blood glucose levels through various tests. The most common tests include:

A1C Test

The A1C test measures average blood sugar levels over the past 2-3 months. Results are interpreted as follows:

  • Below 5.7%: Normal
  • 5.7% to 6.4%: Prediabetes
  • 6.5% or higher: Diabetes

Fasting Blood Sugar Test

This test measures blood sugar after an overnight fast. Results are categorized as:

  • Below 100 mg/dL: Normal
  • 100 to 125 mg/dL: Prediabetes
  • 126 mg/dL or higher: Diabetes

Random Blood Sugar Test

A random blood sugar test can be done at any time, regardless of when you last ate. A result of 200 mg/dL or higher suggests diabetes.

Glucose Tolerance Test

This test measures blood sugar before and after drinking a glucose-containing liquid. At the 2-hour mark:

  • Below 140 mg/dL: Normal
  • 140 to 199 mg/dL: Prediabetes
  • 200 mg/dL or higher: Diabetes

Regular monitoring of blood glucose levels is crucial for managing diabetes and preventing hyperglycemia.

Factors Contributing to High Blood Sugar in Diabetics

Understanding the factors that can lead to hyperglycemia helps in better diabetes management. Some key contributors include:

Diet and Nutrition

Consuming more carbohydrates than your body can process can cause blood sugar spikes. It’s important to balance carbohydrate intake with insulin or medication doses.

Physical Activity

Regular exercise helps improve insulin sensitivity and lower blood sugar. Lack of physical activity can contribute to hyperglycemia.

Medications

Some medications, such as steroids, can raise blood sugar levels. Always consult your healthcare provider about potential side effects of new medications.

Stress and Illness

Physical and emotional stress can trigger the release of hormones that raise blood sugar. Illnesses, especially infections, can also lead to hyperglycemia.

Insulin Resistance

In type 2 diabetes, cells become less responsive to insulin, leading to higher blood sugar levels.

By addressing these factors, individuals with diabetes can better manage their blood sugar levels and reduce the risk of hyperglycemia.

Treatment Approaches for Hyperglycemia in Diabetes

Managing hyperglycemia involves a multifaceted approach tailored to each individual’s needs. Treatment strategies may include:

Medication Adjustments

Your healthcare provider may adjust your insulin or diabetes medication dosage to better control blood sugar levels. This might involve changing the type of insulin, the timing of doses, or adding new medications.

Lifestyle Modifications

Implementing lifestyle changes can significantly impact blood sugar control:

  • Following a balanced, diabetes-friendly diet
  • Engaging in regular physical activity
  • Managing stress through relaxation techniques or counseling
  • Maintaining a healthy weight

Blood Sugar Monitoring

Frequent blood glucose checks help you understand how your body responds to food, activity, and medications. This information guides treatment decisions and helps prevent hyperglycemia.

Diabetes Education

Participating in diabetes self-management education programs can provide valuable skills and knowledge for better blood sugar control.

Emergency Treatment

In cases of severe hyperglycemia or diabetic ketoacidosis, immediate medical intervention may be necessary. This could involve intravenous fluids, electrolyte replacement, and insulin therapy.

The goal of treatment is to bring blood sugar levels back to the target range and prevent complications associated with chronic hyperglycemia.

Preventing Hyperglycemia: Strategies for Effective Diabetes Management

Preventing hyperglycemia is a key aspect of diabetes care. Here are some strategies to help maintain stable blood sugar levels:

Consistent Medication Adherence

Taking insulin or diabetes medications as prescribed is crucial. Use reminders or apps to help you stay on schedule.

Regular Blood Sugar Monitoring

Check your blood glucose levels frequently, especially when introducing changes to your routine or during times of stress or illness.

Balanced Diet

Work with a registered dietitian to create a meal plan that balances carbohydrates, proteins, and fats. Learn to count carbs and adjust insulin doses accordingly.

Exercise Routine

Incorporate regular physical activity into your daily routine. Aim for at least 150 minutes of moderate-intensity exercise per week.

Stress Management

Practice stress-reduction techniques such as meditation, deep breathing, or yoga to help keep stress hormones in check.

Sick Day Management

Develop a sick day plan with your healthcare provider to manage blood sugar levels during illnesses.

Regular Check-ups

Attend scheduled appointments with your diabetes care team to review your management plan and make necessary adjustments.

By implementing these strategies, individuals with diabetes can significantly reduce their risk of experiencing hyperglycemia and its associated complications.

Long-term Complications of Uncontrolled Hyperglycemia

Chronic hyperglycemia can lead to serious health complications over time. Understanding these risks emphasizes the importance of proper blood sugar management:

Cardiovascular Disease

High blood sugar can damage blood vessels and increase the risk of heart disease, stroke, and peripheral artery disease.

Diabetic Nephropathy

Prolonged hyperglycemia can damage the kidneys, potentially leading to kidney failure and the need for dialysis or transplantation.

Diabetic Retinopathy

High blood sugar levels can damage the blood vessels in the retina, causing vision problems and potentially blindness.

Diabetic Neuropathy

Nerve damage due to high blood sugar can cause numbness, tingling, and pain, particularly in the extremities.

Foot Problems

A combination of poor circulation and nerve damage can lead to serious foot issues, including ulcers and infections.

Cognitive Decline

Some studies suggest that chronic hyperglycemia may increase the risk of cognitive impairment and dementia.

By maintaining good blood sugar control, individuals with diabetes can significantly reduce their risk of developing these serious complications.

Innovations in Hyperglycemia Management: Technology and Research

Advancements in technology and ongoing research are improving the management of hyperglycemia in diabetes:

Continuous Glucose Monitoring (CGM)

CGM devices provide real-time blood sugar readings, allowing for more precise management and early detection of hyperglycemia.

Insulin Pumps

Modern insulin pumps can automatically adjust insulin delivery based on CGM data, helping to prevent hyperglycemia and hypoglycemia.

Artificial Pancreas Systems

These closed-loop systems combine CGM and insulin pump technology to automatically manage blood sugar levels.

Smart Insulin

Researchers are developing glucose-responsive insulin that would activate only when blood sugar levels are high, reducing the risk of hypoglycemia.

Gene Therapy

Ongoing studies are exploring the potential of gene therapy to restore insulin production in type 1 diabetes.

Gut Microbiome Research

Emerging evidence suggests that the gut microbiome may play a role in glucose metabolism, opening new avenues for diabetes treatment.

These innovations offer hope for more effective and less burdensome hyperglycemia management in the future.

Understanding hyperglycemia, its causes, symptoms, and management strategies is crucial for individuals living with diabetes. By working closely with healthcare providers, adhering to treatment plans, and staying informed about the latest developments in diabetes care, people with diabetes can effectively manage their blood sugar levels and reduce the risk of complications. Regular monitoring, lifestyle adjustments, and proper medication use are key components of successful hyperglycemia prevention and management. As research continues to advance, new technologies and treatments promise to further improve the lives of those affected by diabetes and hyperglycemia.

Diabetes Tests | CDC

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You’ll need to get your blood sugar tested to find out for sure if you have prediabetes or type 1, type 2, or gestational diabetes. Testing is simple, and results are usually available quickly.

Tests for Type 1 Diabetes, Type 2 Diabetes, and Prediabetes

Your doctor will have you take one or more of the following blood tests to confirm the diagnosis:

A1C Test

The A1C test measures your average blood sugar level over the past 2 or 3 months. An A1C below 5.7% is normal, between 5.7 and 6.4% indicates you have prediabetes, and 6.5% or higher indicates you have diabetes.

Fasting Blood Sugar Test

This measures your blood sugar after an overnight fast (not eating). A fasting blood sugar level of 99 mg/dL or lower is normal, 100 to 125 mg/dL indicates you have prediabetes, and 126 mg/dL or higher indicates you have diabetes.

Glucose Tolerance Test

This measures your blood sugar before and after you drink a liquid that contains glucose. You’ll fast (not eat) overnight before the test and have your blood drawn to determine your fasting blood sugar level. Then you’ll drink the liquid and have your blood sugar level checked 1 hour, 2 hours, and possibly 3 hours afterward. At 2 hours, a blood sugar level of 140 mg/dL or lower is considered normal, 140 to 199 mg/dL indicates you have prediabetes, and 200 mg/dL or higher indicates you have diabetes.

Random Blood Sugar Test

This measures your blood sugar at the time you’re tested. You can take this test at any time and don’t need to fast (not eat) first. A blood sugar level of 200 mg/dL or higher indicates you have diabetes.

Random Blood Sugar Test
Result*A1C TestFasting Blood Sugar TestGlucose Tolerance TestRandom Blood Sugar Test
Diabetes6.5% or above126 mg/dL or above200 mg/dL or above200 mg/dL or above
Prediabetes5. 7 – 6.4%100 – 125 mg/dL140 – 199 mg/dL N/A
NormalBelow 5.7%99 mg/dL or below140 mg/dL or below N/A

*Results for gestational diabetes can differ. Ask your health care provider what your results mean if you’re being tested for gestational diabetes.
Source: American Diabetes Association

If your doctor thinks you have type 1 diabetes, your blood may also tested for autoantibodies (substances that indicate your body is attacking itself) that are often present in type 1 diabetes but not in type 2 diabetes. You may have your urine tested for ketones (produced when your body burns fat for energy), which also indicate type 1 diabetes instead of type 2 diabetes.

Tests for Gestational Diabetes

Gestational diabetes is diagnosed using blood tests. You’ll probably be tested between 24 and 28 weeks of pregnancy. If your risk is higher for getting gestational diabetes (due to having more risk factors), your doctor may test you earlier. Blood sugar that’s higher than normal early in your pregnancy may indicate you have type 1 or type 2 diabetes rather than gestational diabetes.

Glucose Screening Test

This measures your blood sugar at the time you’re tested. You’ll drink a liquid that contains glucose, and then 1 hour later your blood will be drawn to check your blood sugar level. A normal result is 140 mg/dL or lower. If your level is higher than 140 mg/dL, you’ll need to take a glucose tolerance test.

Glucose Tolerance Test

This measures your blood sugar before and after you drink a liquid that contains glucose. You’ll fast (not eat) overnight before the test and have your blood drawn to determine your fasting blood sugar level. Then you’ll drink the liquid and have your blood sugar level checked 1 hour, 2 hours, and possibly 3 hours afterward. Results can differ depending on the size of the glucose drink and how often your blood sugar is tested. Ask your doctor what your test results mean.

Prevent Type 2 Diabetes

If your test results show you have prediabetes, ask your doctor or nurse if the lifestyle change program offered through the CDC-led National Diabetes Prevention Program is available in your community. You can also search for an online or in-person program. Having prediabetes puts you at greater risk for developing type 2 diabetes, but participating in the program can lower your risk by as much as 58% (71% if you’re over age 60).

Diabetes Treatment Plan

If your test results show you have type 1, type 2, or gestational diabetes, talk with your doctor or nurse about a detailed treatment plan—including diabetes self-management education and support services—and specific steps you can take to be your healthiest.

Hyperglycemia in diabetes – Symptoms & causes

Overview

High blood sugar, also called hyperglycemia, affects people who have diabetes. Several factors can play a role in hyperglycemia in people with diabetes. They include food and physical activity, illness, and medications not related to diabetes. Skipping doses or not taking enough insulin or other medication to lower blood sugar also can lead to hyperglycemia.

It’s important to treat hyperglycemia. If it’s not treated, hyperglycemia can become severe and cause serious health problems that require emergency care, including a diabetic coma. Hyperglycemia that lasts, even if it’s not severe, can lead to health problems that affect the eyes, kidneys, nerves and heart.

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Symptoms

Hyperglycemia usually doesn’t cause symptoms until blood sugar (glucose) levels are high — above 180 to 200 milligrams per deciliter (mg/dL), or 10 to 11.1 millimoles per liter (mmol/L).

Symptoms of hyperglycemia develop slowly over several days or weeks. The longer blood sugar levels stay high, the more serious symptoms may become. But some people who’ve had type 2 diabetes for a long time may not show any symptoms despite high blood sugar levels.

Early signs and symptoms

Recognizing early symptoms of hyperglycemia can help identify and treat it right away. Watch for:

  • Frequent urination
  • Increased thirst
  • Blurred vision
  • Feeling weak or unusually tired

Later signs and symptoms

If hyperglycemia isn’t treated, it can cause toxic acids, called ketones, to build up in the blood and urine. This condition is called ketoacidosis. Symptoms include:

  • Fruity-smelling breath
  • Dry mouth
  • Abdominal pain
  • Nausea and vomiting
  • Shortness of breath
  • Confusion
  • Loss of consciousness

When to see a doctor

Seek immediate help from your care provider or call 911 if:

  • You have ongoing diarrhea or vomiting, and you can’t keep any food or fluids down
  • Your blood glucose levels stay above 240 milligrams per deciliter (mg/dL) (13.3 millimoles per liter (mmol/L)) and you have symptoms of ketones in your urine

Causes

During digestion, the body breaks down carbohydrates from foods — such as bread, rice and pasta — into sugar molecules. One of the sugar molecules is called glucose. It’s one of the body’s main energy sources. Glucose is absorbed and goes directly into your bloodstream after you eat, but it can’t enter the cells of most of the body’s tissues without the help of insulin. Insulin is a hormone made by the pancreas.

When the glucose level in the blood rises, the pancreas releases insulin. The insulin unlocks the cells so that glucose can enter. This provides the fuel the cells need to work properly. Extra glucose is stored in the liver and muscles.

This process lowers the amount of glucose in the bloodstream and prevents it from reaching dangerously high levels. As the blood sugar level returns to normal, so does the amount of insulin the pancreas makes.

Diabetes drastically reduces insulin’s effects on the body. This may be because your pancreas is unable to produce insulin, as in type 1 diabetes. Or it may be because your body is resistant to the effects of insulin, or it doesn’t make enough insulin to keep a normal glucose level, as in type 2 diabetes.

In people who have diabetes, glucose tends to build up in the bloodstream. This condition is called hyperglycemia. It may reach dangerously high levels if it is not treated properly. Insulin and other drugs are used to lower blood sugar levels.

Risk factors

Many factors can contribute to hyperglycemia, including:

  • Not using enough insulin or other diabetes medication
  • Not injecting insulin properly or using expired insulin
  • Not following your diabetes eating plan
  • Being inactive
  • Having an illness or infection
  • Using certain medications, such as steroids or immunosuppressants
  • Being injured or having surgery
  • Experiencing emotional stress, such as family problems or workplace issues

Illness or stress can trigger hyperglycemia. That’s because hormones your body makes to fight illness or stress can also cause blood sugar to rise. You may need to take extra diabetes medication to keep blood glucose in your target range during illness or stress.

Complications

Long-term complications

Keeping blood sugar in a healthy range can help prevent many diabetes-related complications. Long-term complications of hyperglycemia that isn’t treated include:

  • Cardiovascular disease
  • Nerve damage (neuropathy)
  • Kidney damage (diabetic nephropathy) or kidney failure
  • Damage to the blood vessels of the retina (diabetic retinopathy) that could lead to blindness
  • Feet problems caused by damaged nerves or poor blood flow that can lead to serious skin infections, ulcerations and, in some severe cases, amputation
  • Bone and joint problems
  • Teeth and gum infections

Emergency complications

If blood sugar rises very high or if high blood sugar levels are not treated, it can lead to two serious conditions.

  • Diabetic ketoacidosis. This condition develops when you don’t have enough insulin in your body. When this happens, glucose can’t enter your cells for energy. Your blood sugar level rises, and your body begins to break down fat for energy.

    When fat is broken down for energy in the body, it produces toxic acids called ketones. Ketones accumulate in the blood and eventually spill into the urine. If it isn’t treated, diabetic ketoacidosis can lead to a diabetic coma that can be life-threatening.

  • Hyperosmolar hyperglycemic state. This condition occurs when the body makes insulin, but the insulin doesn’t work properly. Blood glucose levels may become very high — greater than 600 mg/dL (33.3 mmol/L) without ketoacidosis. If you develop this condition, your body can’t use either glucose or fat for energy.

    Glucose then goes into the urine, causing increased urination. If it isn’t treated, diabetic hyperosmolar hyperglycemic state can lead to life-threatening dehydration and coma. It’s very important to get medical care for it right away.

Prevention

To help keep your blood sugar within a healthy range:

  • Follow your diabetes meal plan. If you take insulin or oral diabetes medication, be consistent about the amount and timing of your meals and snacks. The food you eat must be in balance with the insulin working in your body.
  • Monitor your blood sugar. Depending on your treatment plan, you may check and record your blood sugar level several times a week or several times a day. Careful monitoring is the only way to make sure that your blood sugar level stays within your target range. Note when your glucose readings are above or below your target range.
  • Carefully follow your health care provider’s directions for how to take your medication.
  • Adjust your medication if you change your physical activity. The adjustment depends on blood sugar test results and on the type and length of the activity. If you have questions about this, talk to your health care provider.

Topic 8. Compensation criteria for diabetes

In a person without diabetes, the fasting blood glucose level does not exceed 5.5 mmol / l in capillary blood, after eating – 7.8 mmol / l.

Ideally, a diabetic patient should aim for the same level of glycemia, allowing rises to 10 mmol/l at the peak of a meal. However, this is not always possible or necessary. Maintaining glucose levels close to normal is often associated with the risk of hypoglycemia. A diabetic patient receiving insulin therapy constantly balances the risk of complications due to high glycemia and the risk of hypoglycemia. And in some cases, this balance is shifted towards a higher level of glycemia. This is especially common in the elderly, for whom hypoglycemia is extremely dangerous.

Target glycemic levels are therefore individual!

The younger the patient, the less comorbidities he has, the closer to normal his glycemic control should be. But what is given to the young can be harmful to the elderly.

glycated hemoglobin ( HbA1c) is currently used as a criterion for diabetic compensation.

Glycated hemoglobin shows what was the compensation for the last 2-3 months. It must be determined at least 2 times a year.

Approximate targets for glycemic control by age and disease are shown in the table. Under certain conditions, treatment goals may be less stringent

Severe macrovascular complications and/or risk of severe hypoglycemia

18-44

45-64

Over 65

Hb A1c

Glucose

Hb A1c

Glucose

Hb A1c

Glucose

on an empty stomach

2 hours after eating

on an empty stomach

2 hours later
after eating

nato-schak

2 hours later
after eating

No

< 6. 5

< 6.5

< 8.0

< 7.0

< 7.0

< 9.0

< 7.5

< 7.5

< 10.0

There are heavy

< 7.0

< 7.0

< 9.0

< 7.5

< 7.5

< 10.0

< 8.0

< 8.0

< 11.0

If glycemic hemoglobin was initially high at diagnosis of diabetes (this is especially common in type 2 diabetes), glycemic control should not be quickly brought to the target level, especially in older people, as well as in people with changes in the eye day. Insulin-independent organs (brain, blood vessels, retina) are accustomed to a high level of glycemia, and if they suddenly “cut their rations”, they may not endure this without damage. Glycated hemoglobin in this case should decrease gradually, by about 0.5% in 3 months.

To assess compensation for the last 2-3 weeks, an analysis for fructosamines is prescribed. The normal level of fructosamines is up to 280 µmol/L. At a level of up to 320 µmol / l, diabetes is considered compensated in the last 2-3 weeks, 320-370 – subcompensated, more than 370 – decompensated.

However, even if you have ideal HbA1c, but there are daily fluctuations in blood sugar of more than 5 mmol/l, this cannot in any way protect you from the development of complications.

Glycated hemoglobin is like the average temperature in a hospital. And if the target value of glycated hemoglobin is achieved due to frequent hypoglycemia, then this has a very bad effect on target organs.

Recently, TIR (time in range) has been used as the main indicator of diabetes compensation. TIR shows how many percent of the time a person had a blood glucose level within acceptable limits. There are also other indicators that reflect daily fluctuations in blood glucose levels. But all these indicators can only be determined by continuous monitoring of blood glucose.

no. p.p.

Index

Definition

Regulation

1

TIR (time in range)

Time within targets

More than 50% (within 3.8-10.0)
up to 5% – 3.8 and below

2

GV (Glucose Variability): SD, CV

How much the glucose data differs from the median (mean glucose)

3

SD

Characterization of the dispersion of glucose values ​​from the mean value within 24 hours

Less than 1/3 of mean glucose

4

CV

Deviation factor SD*mean glucose/100
Or SD*3/mean glucose

Less than 36%

Less than 33%

5

GVI (Glycemic Variability index)

Ratio of the length of a sugar curve over a given period of time to the length of an ideal sugar curve over the same period of time

GVI 1. 0 to 1.2 -means low variability (non-diabenic)
GVI 1.2 to 1.5 -means modest variability
GVI >1.5 means high variability

6

PGS (Patient Glycemic Status)

GVI* mean glucose*(1-% TIR)

PGS to 35 – excellent glycemic status (non-diabenic)
PGS 35-100 – good glycemic status (diabenic)
PGS 100-15 0 – poor glycemic status (diabenic)
PGS > 150 very poor glycemic status (diabenic)

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What is the best blood sugar range to guide the management of women with gestational diabetes mellitus (GDM) during pregnancy?

What is the problem (question)?

Almost a quarter of pregnant women develop gestational diabetes mellitus (GDM), depending on their ethnicity and the diagnostic criteria used. GDM is characterized by high blood sugar (hyperglycemia) during pregnancy and is associated with an increased risk of high blood pressure (hypertension) and protein in the urine during pregnancy (preeclampsia). These women are more likely to have a C-section delivery, develop type 2 diabetes, postpartum depression, and later cardiovascular disease. High blood sugar, which is associated with GDM, then often returns to normal after childbirth, but women with GDM are at risk of developing GDM again in subsequent pregnancies. Children of mothers diagnosed with GDM have an increased risk of high birth weight (greater than 4000 g), an increased risk of birth trauma due to their size, and the development of breathing difficulties after birth. These infants are also at risk of developing obesity and type 2 diabetes in the future.

Why is this important?

Women with GDM are monitored to control high blood sugar and reduce the risk of GDM to mother and child. The blood sugar level is monitored by measuring its concentration in the blood to ensure that it is maintained within a predetermined level or range. To test blood sugar levels in mothers, blood is usually taken from a finger, a drop of blood is placed on a test strip, which is then inserted into a small machine (glucometer) that reads blood sugar levels from the test strip. Glucose meter readings alert a pregnant woman to her current blood sugar levels and are used as a guide for her monitoring and treatment. For example, how many units of insulin a woman needs before meals. However, it is not clear at this time what to recommend to pregnant women with newly diagnosed GDM in terms of what blood sugar range to target and what levels require treatment.

What evidence did we find?

We searched for evidence up to 31 January 2016 and found one small randomized controlled trial (abstract only), of poor quality, in 180 women from Canada. This trial compared two blood sugar ranges, one more restrictive and one more relaxed, and reported very few health outcomes for pregnant women and their babies.

This trial did not provide any data for the main outcomes of this review. For women, these outcomes were related to the occurrence of high blood pressure and the appearance of protein in the urine during pregnancy, the development of type 2 diabetes. For children, these outcomes were mortality, increased birth weight, increased risk of birth injury due to the large size of the child, and disability.

In the tightly controlled group, more women were on insulin (but this result is based on very low quality evidence). There were no clear differences in the rate of delivery by caesarean section. Other secondary outcomes in women with GDM relevant to this review were not reported. Differences in the number of children born weighing over 4000g or small for gestational age were not reported. No other secondary outcomes in children relevant to this review were reported. No adverse events were reported in this study either.

What does this mean?

This review found that there is not yet sufficient evidence from randomized controlled trials to determine the best blood sugar range to improve the health of pregnant women with GDM and their children.