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Part
3
DCCT:
Can Diabetic Neuropathy Be Prevented?
A
10-year clinical study that involved 1,441 volunteers with
insulin-dependent diabetes (IDDM) was recently completed by the National
Institute of Diabetes, Digestive, and Kidney Diseases.
The study proved that keeping blood sugar levels as close to the
normal range as possible slows the onset and progression of nerve disease
caused by diabetes. The
Diabetes Control and Complications Trial (DCCT) studied two groups of
volunteers: those who
followed a standard diabetes management routine and those who intensively
managed their diabetes. Persons
in the intensive management group took multiple injections of insulin
daily or used an insulin pump and monitored their blood glucose at least
four times a day to try to lower their blood glucose levels to the normal
range. After 5 years, tests
of neurological function showed that the risk of nerve damage was reduced
by 60 percent in the intensively managed group.
People in the standard treatment group, whose average blood glucose
levels were higher, had higher rates of neuropathy.
Although the DCCT included only patients with IDDM, researchers
believe that people with non insulin-dependent diabetes would also benefit
from maintaining lower levels of blood glucose.
How
Common Is Diabetic Neuropathy?
People
with diabetes can develop nerve problems at any time.
Significant clinical neuropathy can develop within the first 10
years after diagnosis of diabetes and the risk of developing neuropathy
increases the longer a person has diabetes.
Some recent studies have reported that:
·
60 percent of patients with diabetes have some form of neuropathy,
but in most cases (30 to 40 percent), there are no symptoms.
·
30 to 40 percent of patients with diabetes have symptoms suggesting
neuropathy, compared with 10 percent of people without diabetes.
Diabetic
neuropathy appears to be more common in smokers, people over 40 years of
age, and those who have had problems controlling their blood glucose
levels.
What
Causes Diabetic Neuropathy?
Scientists
do not know what causes diabetic neuropathy, but several factors are
likely to contribute to the disorder.
High blood glucose, a condition associated with diabetes, causes
chemical changes in nerves. These
changes impair the nerves' ability to transmit signals.
High blood glucose also damages blood vessels that carry oxygen and
nutrients to the nerves. In
addition, inherited factors probably unrelated to diabetes may make some
people more susceptible to nerve disease than others.
How
high blood glucose leads to nerve damage is a subject of intense research.
The precise mechanism is not known.
Researchers have discovered that high glucose levels affect many
metabolic pathways in the nerves, leading to an accumulation of a sugar
called sorbitol and depletion of a substance called myoinositol.
However, studies in humans have not shown convincingly that these
changes are the mechanism that causes nerve damage.
More
recently, researchers have focused on the effects of excessive glucose
metabolism on the amount of nitrous oxide in nerves.
Nitrous oxide dilates blood vessels.
In a person with diabetes, low levels of nitrous oxide may lead to
constriction of blood vessels supplying the nerve, contributing to nerve
damage. Another promising
area of research centers on the effect of high glucose attaching to
proteins, altering the structure and function of the proteins and
affecting vascular function.
Scientists
are studying how these changes occur, how they are connected, how they
cause nerve damage, and how to prevent and treat damage.
What
Are the Symptoms of Diabetic Neuropathy?
The
symptoms of diabetic neuropathy vary.
Numbness and tingling in feet is often the first sign.
Some people notice no symptoms, while others are severely disabled.
Neuropathy may cause both pain and insensitivity to pain in the
same person. Often, symptoms
are slight at first, and since most nerve damage occurs over a period of
years, mild cases may go unnoticed for a long time.
In some people, mainly those afflicted by focal neuropathy, the
onset of pain may be sudden and severe.
Diabetic
Neuropathy Can Affect Virtually Every Part of the Body
Diffuse
(Peripheral) Neuropathy
·
Legs
·
Feet
·
Arms
·
Hands
Diffuse
(Autonomic) Neuropathy
·
Heart
·
Digestive System
·
Sexual organs
·
Urinary tract
·
Sweat glands
Focal
Neuropathy
·
Eyes
·
Facial muscles
·
Hearing
·
Pelvis and lower back
·
Thigh
·
Abdomen
What
Are the Major Types of Neuropathy?
The
symptoms of neuropathy also depend on which nerves and what part of the
body is affected. Neuropathy
may be diffuse, affecting many parts of the body, or focal, affecting a
single, specific nerve and part of the body.
Diffuse
Neuropathy
The
two categories of diffuse neuropathy are peripheral neuropathy affecting
the feet and hands and autonomic neuropathy affecting the internal organs.
Peripheral
Neuropathy
The most common type of peripheral neuropathy damages the nerves of the
limbs, especially the feet. Nerves
on both sides of the body are affected.
Common symptoms of this kind of neuropathy are:
·
Numbness or insensitivity to pain or temperature
·
Tingling, burning, or prickling
·
Sharp pains or cramps
·
Extreme sensitivity to touch, even light touch
·
Loss of balance and coordination.
These
symptoms are often worse at night.
The
damage to nerves often results in loss of reflexes and muscle weakness.
The foot often becomes wider and shorter, the gait changes, and
foot ulcers appear as pressure is put on parts of the foot that are less
protected. Because of the
loss of sensation, injuries may go unnoticed and often become infected.
If ulcers or foot injuries are not treated in time, the infection
may involve the bone and require amputation.
However, problems caused by minor injuries can usually be
controlled if they are caught in time.
Avoiding foot injury by wearing well-fitted shoes and examining the
feet daily can help prevent amputations.
AutonomicNeuropathy
(Also-called-visceral-neuropathy)
Autonomic neuropathy is another form of diffuse neuropathy.
It affects the nerves that serve the heart and internal organs and
produces changes in many processes and systems.
Urination-and-sexual-aresponse
Autonomic neuropathy most often affects the organs that control urination
and sexual function. Nerve
damage can prevent the bladder from emptying completely, so bacteria grow
more easily in the urinary tract (bladder and kidneys).
When the nerves of the bladder are damaged, a person may have
difficulty knowing when the bladder is full or controlling it, resulting
in urinary incontinence.
The
nerve damage and circulatory problems of diabetes can also lead to a
gradual loss of sexual response in both men and women, although sex drive
is unchanged. A man may be
unable to have erections or may reach sexual climax without ejaculating
normally.
Digestion
Autonomic neuropathy can affect digestion.
Nerve damage can cause the stomach to empty too slowly, a disorder
called gastric stasis. When
the condition is severe (gastroparesis), a person can have persistent
nausea and vomiting, bloating, and loss of appetite.
Blood glucose levels tend to fluctuate greatly with this condition.
If
nerves in the esophagus are involved, swallowing may be difficult.
Nerve damage to the bowels can cause constipation or frequent
diarrhea, especially at night. Problems
with the digestive system often lead to weight loss.
Cardiovascular-system
Autonomic neuropathy can affect the cardiovascular system, which controls
the circulation of blood throughout the body.
Damage to this system interferes with the nerve impulses from
various parts of the body that signal the need for blood and regulate
blood pressure and heart rate. As
a result, blood pressure may drop sharply after sitting or standing,
causing a person to feel dizzy or light-headed, or even to faint (orthostatic
hypotension).
Neuropathy
that affects the cardiovascular system may also affect the perception of
pain from heart disease. People
may not experience angina as a warning sign of heart disease or may suffer
painless heart attacks. It
may also raise the risk of a heart attack during general anesthesia.
Hypoglycemia
Autonomic neuropathy can hinder the body's normal response to low blood
sugar or hypoglycemia, which makes it difficult to recognize and treat an
insulin reaction.
Sweating
Autonomic neuropathy can affect the nerves that control sweating.
Sometimes, nerve damage interferes with the activity of the sweat
glands, making it difficult for the body to regulate its temperature.
Other times, the result can be profuse sweating at night or while
eating (gustatory sweating).
Focal
Neuropathy
(including
multiplex neuropathy)
Occasionally,
diabetic neuropathy appears suddenly and affects specific nerves, most
often in the torso, leg, or head. Focal
neuropathy may cause:
·
Pain in the front of a thigh
·
Severe pain in the lower back
or pelvis
·
Pain in the chest, stomach, or flank
·
Chest or abdominal pain sometimes mistaken for angina, heart
attack, or appendicitis
·
Aching behind an eye
·
Inability to focus the eye
·
Double vision
·
Paralysis on one side of the face (Bell's palsy)
·
Problems with hearing.
This
kind of neuropathy is unpredictable and occurs most often in older people
who have mild diabetes. Although
focal neuropathy can be painful, it tends to improve by itself after a
period of weeks or months without causing long-term damage.
People
with diabetes are also prone to developing compression neuropathies.
The most common form of compression neuropathy is carpal tunnel
syndrome. Asymptomatic carpal
tunnel syndrome occurs in 20 to 30 percent of people with diabetes, and
symptomatic carpal tunnel syndrome occurs in 6 to 11 percent.
Numbness and tingling of the hand are the most common symptoms.
Muscle weakness may also develop.
Next Week Part 4
How
Do Doctors Diagnose Diabetic Neuropathy?
How
Is Diabetic Neuropathy Usually Treated?
Why
Is Good Foot Care Important for People with Diabetic Neuropathy?
Are
There Any Experimental Treatments for Diabetic Neuropathy?
Overview
of a new device to measure sub-clinical neuropathy.
Studies
on new device.
New
study for your participation with new device.
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