complications of diabetes

What are the Complications?
How does diabetes affect the body? If the blood sugar (glucose) is not controlled, it can lead to a number of complications:

• Eye problems
• Heart disease
• Stroke
• Kidney failure
• Nerve damage
• Loss of limbs
• Tooth and gum problems

Diabetes injures the blood vessels that serve a number of key body organs. This can go on to damage your vision, your heart, your kidneys. It can delay or prevent tissues from healing. If wounds do not heal, it can lead to amputation.
Blood vessel injury can lead to:

• Heart attacks and heart failure
• Stroke
• Loss of vision, even blindness
• Poor kidney function, even kidney failure
• Poor wound healing, including minor injuries
• Poor circulation
• Amputation, usually of toes, feet or lower legs, can result from poor circulation and poor wound healing

Poor circulation

• Poor circulation prevents nutrients and oxygen from reaching the cells to help heal wounds and infections.
• Cells without oxygen or nutrients die.
• The affected area becomes numb or tingly or sometimes painful.
• Sometimes the poor, slow circulation causes blockage in a blood vessel. Blood that cannot flow through an artery can become a clot which can cause a heart attack, stroke or other blockage.

Poor circulation and infections

• A cut or wound will not heal well or quickly if there is high blood sugar The germs feed off the sugar and multiply.
• The damaged blood vessels are not able to transport enough infection-fighting cells, natural antibodies, antibiotic medicine or nutrition to the wound to heal well.

Complications: Heart disease
Heart disease is one of the most common complications of diabetes. Diabetes causes increased risk of:

• chest pain (angina)
• coronary artery disease (blockages of arteries in the heart)
• heart attack
• congestive heart failure

Factors which increase the risk of heart disease in diabetics:

• high blood sugar
• igh blood pressure
• high cholesterol

Diabetes and high blood pressure

• One of the common illnesses that develops when you have diabetes is high blood pressure.
• The high pressure with each beat of the heart damages the heart and blood vessels.
• Eventually it can weaken the heart muscle, causing congestive heart failure.
• If the pressure becomes really high, it can also cause a stroke.

Diabetes and cholesterol

Cholesterol damages arteries, too.
• It plugs them up with fatty deposits.
• This narrows the openings and slows down blood flow.
• This increases the likelihood of heart attacks, strokes and poor circulation to the legs.
• Smoking makes all of this worse by further narrowing the arteries.

Complications: Kidney

• The kidney acts as a filter for bloodpassing small waste into the urine and keeping large nutrients (protein and sugar) for bodys use.
• When blood sugar is not controlled, the high sugar in the blood damages the kidneys, leaving holes in the tiny filters that make up the kidney.
• When filters are damaged, it lets protein and sugar cells into the urine.
  • The presence of protein in the urine can mean there is kidney damage.

Kidney failure

• End stage renal disease (ESRD) is the medical term for kidney failure (when the kidneys can no longer function).
• Kidney dialysis is then used to do the work formerly done by the kidneys.
• Many persons with ESRD must use dialysis about three times a week to clean their blood.

Renal (kidney) dialysis

• A special machine is used to remove waste from the bloodlike a kidney does.
• Smaller machines might also be used at home by some patients who are trained and can do their own dialysis.
• A family member might also be trained to do this dialysis at home.

Complications: Vision

• Retinopathy (blurred vision/blindness) occurs when the tiny blood vessels that nourish.
• Weakened blood vessels can break and bleed, causing blindness.
• Laser treatments are often used to repair weakened or broken blood vessels.
• Timely eye exams and laser treatments can prevent blindness.

Complications: Nerve damage

• Neuropathy (damage to the nerves) is a common complication of diabetes, especially when the blood sugar is not controlled.
• Blood vessels that feed the cells are tiny and have very narrow passages.
• When blood vessels become damaged from the high sugar levels, oxygen and nutrients cannot be delivered to the cells, damaging the nerve cells.

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Complications: Dental

• The poor circulation can also affect the blood vessels that supply oxygen and nutrients to the gums and bone which hold the teeth in place.
• Gums and jawbone that are unable to get the nutrients and oxygen are more likely to develop infection or become loose.
• Loose gums can mean lost teeth.
• Gum infections make blood sugar control very difficult.

Complications: Amputation

• Most amputations occur when wounds are not healing and become life threatening.
• It becomes life threatening because the infection can spread and affect the body's total blood stream and important organs like the heart, the brain, etc.
• When the wound becomes serious, tissues become damaged and infection can't be controlled, it becomes necessary to remove the affected part to save the life.

Amputations

• Depending on the size and location of the incurable infection or wound, the surgery may mean removing one toe or up to the ankle, it may mean removing the foot, etc.
• Special shoes or a special prosthesis may be used to help with walking.
• A wheel chair may be used if the amputation removes much of the leg and no artificial limb is possible for medical or personal reasons.

Complications: Sexual dysfunction

• Because nerves and blood vessels are damaged by high blood sugar, diabetes can lessen sexual desire.
• Both men and women can be affected
• Diabetes can also lead to impotence (also called erectile dysfunction or ED). This is when the man is unable to have an erection (the penis can't get hard enough to allow intercourse to occur). Medicine may be helpful for this.
• Many native people do not talk about this, but they should feel okay about talking to their doctors about this concern.

Complications and Smoking

• Smoking is a known cause of heart disease and stroke..
• Smoking (nicotine) causes the small blood vessels everywhere in the body to constrict (get narrow), which decreases oxygen to tissues.
• Smoking also makes the blood sludgy, making it more likely to clot and cause heart attacks and strokes.
• Smoking (even without diabetes) also causes gum disease
• Smoking worsens all the negative effects of diabetes on the body.

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symptoms of diabetes

While talking about symptoms of diabetes, you must keep in mind that there are no clear real symptoms, and not all the individuals present all them.

Diabetes symptoms vary from person to person making observations as difficult as comparing life insurance quotes in a time besot by financial crisis. The best thing you can do is to learn more about these symptoms and weigh how many of them applies to you.


The most common symptoms of diabetes that one can experience are as follow:

• Constant excessive thirst and Unusual increased urination
If you have diabetes,due to high sugar blood level, fluid comes out from cells to blood stream in order to adapt to this new situation. This cause dehydration of body cell, they suffer lack of fluid.
But here interfere your body thirst center which makes you to drink a lot of water or other juices. When you take lots of juices, you may experience frequent urination daily and nights.

• Increase hunger and weight gain as common symptoms of diabetes
When you have diabetes, you lose too much fluid and too much sugar. Your body needs to compensate them by craving sweets or other foods as well.
This experience of increase hunger causes you a fast weight gain. But this is not good for you body, and diabetes and weight gain
is not a 'good-impact' link. It has a negative influence on your diabetes course too.

• Vision changes
If you have diabetes, you may experience sudden vision changes, such as blurred vision. This is caused because, due to diabetes changes in your eye tissues, they tend to pull out from your lenses.
This makes you disable to focus, but if you take appropriate treatment, this can be restored. But, in serious cases of diabetes, these vision disorders can be prolonged, and maybe it leads you to blindness.

• Not healing skin infections
During diabetes, your body process of healing is hindered due to high sugar blood level. Mostly, you can experience recurrent skin infection.
Or, if you are a woman, you may have problems due to no properly recovery from vaginal and bladder yeast infections.
So, you must pay attention to all these kinds of recurrent infections, because they are a signal for you : you might have diabetes.
On the other hand you should know about diabetes skin care
to avoid future severe skin injuries.

• Tingling or Numbness
While you experience diabetes, your high sugar blood level damages your nerves and your nerves blood vessels too. This leads to some specific symptoms such as tingling or numbness in your hands or feet.
Maybe, you can also, experience some burning sensation in hands, arms, legs or feet.

• Gums disorders
Another symptom you can experience during diabetes, are several gums disorders. During diabetes your gums may be tender, swollen or red. Your teeth may be loose due to gums pulling away from your teeth.
There might be present, also, gum infections and several gum diseases. You may try an alternative to protect your gums, and at the same time a no-carbohydrates sweetener at all.

• Some other common symptoms of diabetes
Diabetic people may suffer from feeling very tired, weak, fatigue most of the time. Also, they may experience loss of appetite, dry skin, stomach pains, nausea, vomiting, or even hair loss.
If you want to know more about what can you do for diabetes and hair loss, click here.

These are some common symptoms for diabetes that you may experience. You must keep in mind, that you may not experience all the symptoms. They vary from one individual to another.
Also, you must remember that you may have diabetes symptoms, but you are not aware of them, because they can be unnoticed.
What do you have to do if you notice to have them?
You can make a simple sugar blood test yourself, and immediately consult your doctor for further follow up.

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DIABETES -EXCESSIVE THIRST

Thirst - excessive

Excessive thirst is an abnormal feeling of always needing to drink fluids.

Considerations

Drinking lots of water is usually healthy. However, the urge to drink too much may be the result of a physical or emotional disease. Excessive thirst may be a symptom of high blood sugar (hyperglycemia). It can be an important clue in detecting diabetes.

Excessive thirst is a fairly common symptom. It is often the reaction to fluid loss during exercise, or to eating salty foods.

Causes

• A recent salty or spicy meal
• Bleeding enough to cause a significant decrease in blood volume
• Diabetes
• Diabetes insipidus
• Drugs such as anticholinergics, demeclocycline, diuretics, phenothiazines
• Excessive loss of water and salt (possibly due to not drinking enough water, profuse sweating, diarrhea, or vomiting)
• Loss of body fluids from the bloodstream into the tissues due to:
  • Conditions such as severe infections (sepsis) or burns
  • Heart, liver, or kidney failure
• Psychogenic polydipsia, the result of a mental disorder

Home Care

Because thirst is usually the body's signal to replace water loss, it is usually appropriate to drink plenty of liquids.

A very strong, constant urge to drink may be a sign of a psychological problem, which may mean psychological help is needed.

For thirst caused by diabetes, follow the prescribed treatment to properly control blood sugar levels.

When to Contact a Medical Professional

• Excessive thirst is persistent and unexplained
• Thirst is accompanied by other unexplained symptoms, such as blurry vision and fatigue
• You are passing more than 5 quarts of urine per day

What to Expect at Your Office Visit

The health care provider will get your medical history and perform a physical examination.

Medical history questions may include the following:

• How long have you been aware of having increased thirst?
• Is it consistent during the day?
• Is it worse during the day?
• Did it develop suddenly or slowly?
• Are you eating more salty or spicy foods?
• How much salt do you have each day?
• Did you change your diet?
• Have you noticed an increased appetite?
• Have you noticed an unintentional weight gain?
• Have you noticed an unintentional weight loss?
• Has your activity level recently increased?
• What other symptoms are happening at the same time?
• Have you recently suffered a burn or other injury?
• Are you urinating more or less frequently than usual?
• Are you producing more or less urine than usual?
• Have you noticed any bleeding?
• Are you sweating more than usual?
• Is there any swelling in your body?
• Do you have a fever?

A psychological evaluation may be recommended if the health care provider suspects a psychological compulsive thirst. Your fluid intake and output will be closely watched.

Diagnostic tests that may be performed include the following:

• Blood glucose level
• CBC and blood differential
• Serum calcium
• Serum osmolality
• Serum sodium
• Urinalysis
• Urine osmolality

Alternative Names

Increased thirst; Polydipsia; Excessive thirst

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HUMAN DIGESTIVE SYSTEM

Your Digestive System and How It Works On this page: Why is digestion important? How is food digested? How is the digestive process controlled? For More Information The digestive system. The digestive system is made up of the digestive tract—a series of hollow organs joined in a long, twisting tube from the mouth to the anus—and other organs that help the body break down and absorb food (see figure). Organs that make up the digestive tract are the mouth, esophagus, stomach, small intestine, large intestine—also called the colon—rectum, and anus. Inside these hollow organs is a lining called the mucosa. In the mouth, stomach, and small intestine, the mucosa contains tiny glands that produce juices to help digest food. The digestive tract also contains a layer of smooth muscle that helps break down food and move it along the tract. Two “solid” digestive organs, the liver and the pancreas, produce digestive juices that reach the intestine through small tubes called ducts. The gallbladder stores the liver’s digestive juices until they are needed in the intestine. Parts of the nervous and circulatory systems also play major roles in the digestive system. [Top] Why is digestion important? When you eat foods—such as bread, meat, and vegetables—they are not in a form that the body can use as nourishment. Food and drink must be changed into smaller molecules of nutrients before they can be absorbed into the blood and carried to cells throughout the body. Digestion is the process by which food and drink are broken down into their smallest parts so the body can use them to build and nourish cells and to provide energy. [Top] How is food digested? Digestion involves mixing food with digestive juices, moving it through the digestive tract, and breaking down large molecules of food into smaller molecules. Digestion begins in the mouth, when you chew and swallow, and is completed in the small intestine. Movement of Food Through the System The large, hollow organs of the digestive tract contain a layer of muscle that enables their walls to move. The movement of organ walls can propel food and liquid through the system and also can mix the contents within each organ. Food moves from one organ to the next through muscle action called peristalsis. Peristalsis looks like an ocean wave traveling through the muscle. The muscle of the organ contracts to create a narrowing and then propels the narrowed portion slowly down the length of the organ. These waves of narrowing push the food and fluid in front of them through each hollow organ. The first major muscle movement occurs when food or liquid is swallowed. Although you are able to start swallowing by choice, once the swallow begins, it becomes involuntary and proceeds under the control of the nerves. Swallowed food is pushed into the esophagus, which connects the throat above with the stomach below. At the junction of the esophagus and stomach, there is a ringlike muscle, called the lower esophageal sphincter, closing the passage between the two organs. As food approaches the closed sphincter, the sphincter relaxes and allows the food to pass through to the stomach. The stomach has three mechanical tasks. First, it stores the swallowed food and liquid. To do this, the muscle of the upper part of the stomach relaxes to accept large volumes of swallowed material. The second job is to mix up the food, liquid, and digestive juice produced by the stomach. The lower part of the stomach mixes these materials by its muscle action. The third task of the stomach is to empty its contents slowly into the small intestine. Several factors affect emptying of the stomach, including the kind of food and the degree of muscle action of the emptying stomach and the small intestine. Carbohydrates, for example, spend the least amount of time in the stomach, while protein stays in the stomach longer, and fats the longest. As the food dissolves into the juices from the pancreas, liver, and intestine, the contents of the intestine are mixed and pushed forward to allow further digestion. Finally, the digested nutrients are absorbed through the intestinal walls and transported throughout the body. The waste products of this process include undigested parts of the food, known as fiber, and older cells that have been shed from the mucosa. These materials are pushed into the colon, where they remain until the feces are expelled by a bowel movement. Production of Digestive Juices The digestive glands that act first are in the mouth—the salivary glands. Saliva produced by these glands contains an enzyme that begins to digest the starch from food into smaller molecules. An enzyme is a substance that speeds up chemical reactions in the body. The next set of digestive glands is in the stomach lining. They produce stomach acid and an enzyme that digests protein. A thick mucus layer coats the mucosa and helps keep the acidic digestive juice from dissolving the tissue of the stomach itself. In most people, the stomach mucosa is able to resist the juice, although food and other tissues of the body cannot. After the stomach empties the food and juice mixture into the small intestine, the juices of two other digestive organs mix with the food. One of these organs, the pancreas, produces a juice that contains a wide array of enzymes to break down the carbohydrate, fat, and protein in food. Other enzymes that are active in the process come from glands in the wall of the intestine. The second organ, the liver, produces yet another digestive juice—bile. Bile is stored between meals in the gallbladder. At mealtime, it is squeezed out of the gallbladder, through the bile ducts, and into the intestine to mix with the fat in food. The bile acids dissolve fat into the watery contents of the intestine, much like detergents that dissolve grease from a frying pan. After fat is dissolved, it is digested by enzymes from the pancreas and the lining of the intestine. Absorption and Transport of Nutrients Most digested molecules of food, as well as water and minerals, are absorbed through the small intestine. The mucosa of the small intestine contains many folds that are covered with tiny fingerlike projections called villi. In turn, the villi are covered with microscopic projections called microvilli. These structures create a vast surface area through which nutrients can be absorbed. Specialized cells allow absorbed materials to cross the mucosa into the blood, where they are carried off in the bloodstream to other parts of the body for storage or further chemical change. This part of the process varies with different types of nutrients. Carbohydrates. The Dietary Guidelines for Americans 2005 recommend that 45 to 65 percent of total daily calories be from carbohydrates. Foods rich in carbohydrates include bread, potatoes, dried peas and beans, rice, pasta, fruits, and vegetables. Many of these foods contain both starch and fiber. The digestible carbohydrates—starch and sugar—are broken into simpler molecules by enzymes in the saliva, in juice produced by the pancreas, and in the lining of the small intestine. Starch is digested in two steps. First, an enzyme in the saliva and pancreatic juice breaks the starch into molecules called maltose. Then an enzyme in the lining of the small intestine splits the maltose into glucose molecules that can be absorbed into the blood. Glucose is carried through the bloodstream to the liver, where it is stored or used to provide energy for the work of the body. Sugars are digested in one step. An enzyme in the lining of the small intestine digests sucrose, also known as table sugar, into glucose and fructose, which are absorbed through the intestine into the blood. Milk contains another type of sugar, lactose, which is changed into absorbable molecules by another enzyme in the intestinal lining. Fiber is undigestible and moves through the digestive tract without being broken down by enzymes. Many foods contain both soluble and insoluble fiber. Soluble fiber dissolves easily in water and takes on a soft, gel-like texture in the intestines. Insoluble fiber, on the other hand, passes essentially unchanged through the intestines. Protein. Foods such as meat, eggs, and beans consist of giant molecules of protein that must be digested by enzymes before they can be used to build and repair body tissues. An enzyme in the juice of the stomach starts the digestion of swallowed protein. Then in the small intestine, several enzymes from the pancreatic juice and the lining of the intestine complete the breakdown of huge protein molecules into small molecules called amino acids. These small molecules can be absorbed through the small intestine into the blood and then be carried to all parts of the body to build the walls and other parts of cells. Fats. Fat molecules are a rich source of energy for the body. The first step in digestion of a fat such as butter is to dissolve it into the watery content of the intestine. The bile acids produced by the liver dissolve fat into tiny droplets and allow pancreatic and intestinal enzymes to break the large fat molecules into smaller ones. Some of these small molecules are fatty acids and cholesterol. The bile acids combine with the fatty acids and cholesterol and help these molecules move into the cells of the mucosa. In these cells the small molecules are formed back into large ones, most of which pass into vessels called lymphatics near the intestine. These small vessels carry the reformed fat to the veins of the chest, and the blood carries the fat to storage depots in different parts of the body. Vitamins. Another vital part of food that is absorbed through the small intestine are vitamins. The two types of vitamins are classified by the fluid in which they can be dissolved: water-soluble vitamins (all the B vitamins and vitamin C) and fat-soluble vitamins (vitamins A, D, E, and K). Fat-soluble vitamins are stored in the liver and fatty tissue of the body, whereas water-soluble vitamins are not easily stored and excess amounts are flushed out in the urine. Water and salt. Most of the material absorbed through the small intestine is water in which salt is dissolved. The salt and water come from the food and liquid you swallow and the juices secreted by the many digestive glands. [Top] How is the digestive process controlled? Hormone Regulators The major hormones that control the functions of the digestive system are produced and released by cells in the mucosa of the stomach and small intestine. These hormones are released into the blood of the digestive tract, travel back to the heart and through the arteries, and return to the digestive system where they stimulate digestive juices and cause organ movement. The main hormones that control digestion are gastrin, secretin, and cholecystokinin (CCK): Gastrin causes the stomach to produce an acid for dissolving and digesting some foods. Gastrin is also necessary for normal cell growth in the lining of the stomach, small intestine, and colon. Secretin causes the pancreas to send out a digestive juice that is rich in bicarbonate. The bicarbonate helps neutralize the acidic stomach contents as they enter the small intestine. Secretin also stimulates the stomach to produce pepsin, an enzyme that digests protein, and stimulates the liver to produce bile. CCK causes the pancreas to produce the enzymes of pancreatic juice, and causes the gallbladder to empty. It also promotes normal cell growth of the pancreas. Additional hormones in the digestive system regulate appetite: Ghrelin is produced in the stomach and upper intestine in the absence of food in the digestive system and stimulates appetite. Peptide YY is produced in the digestive tract in response to a meal in the system and inhibits appetite. Both of these hormones work on the brain to help regulate the intake of food for energy. Researchers are studying other hormones that may play a part in inhibiting appetite, including glucagon-like peptide-1 (GPL-1), oxyntomodulin (+ ), and pancreatic polypeptide. Nerve Regulators Two types of nerves help control the action of the digestive system. Extrinsic, or outside, nerves come to the digestive organs from the brain or the spinal cord. They release two chemicals, acetylcholine and adrenaline. Acetylcholine causes the muscle layer of the digestive organs to squeeze with more force and increase the “push” of food and juice through the digestive tract. It also causes the stomach and pancreas to produce more digestive juice. Adrenaline has the opposite effect. It relaxes the muscle of the stomach and intestine and decreases the flow of blood to these organs, slowing or stopping digestion. The intrinsic, or inside, nerves make up a very dense network embedded in the walls of the esophagus, stomach, small intestine, and colon. The intrinsic nerves are triggered to act when the walls of the hollow organs are stretched by food. They release many different substances that speed up or delay the movement of food and the production of juices by the digestive organs. Together, nerves, hormones, the blood, and the organs of the digestive system conduct the complex tasks of digesting and absorbing nutrients from the foods and liquids you consume each day. [Top] For More Information American Dietetic Association 120 South Riverside Plaza, Suite 2000 Chicago, IL 60606–6995 Fax: 312–899–4739 Email: hotline@eatright.org Internet: www.eatright.org You may also find additional information about this topic by visiting MedlinePlus at www.medlineplus.gov. This publication may contain information about medications. When prepared, this publication included the most current information available. For updates or for questions about any medications, contact the U.S. Food and Drug Administration toll-free at 1–888–INFO–FDA (1–888–463–6332) or visit www.fda.gov. Consult your doctor for more information.

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