Table of Contents
You're working at your desk,
trying to ignore the tingling or numbness you've
had for months in your hand and wrist. Suddenly,
a sharp, piercing pain shoots through the wrist
and up your arm. Just a passing cramp? More
likely you have carpal tunnel syndrome, a
painful progressive condition caused by
compression of a key nerve in the wrist.
Carpal tunnel syndrome occurs when the median
nerve, which runs from the forearm into the
hand, becomes pressed or squeezed at the wrist.
The median nerve controls sensations to the palm
side of the thumb and fingers (although not the
little finger), as well as impulses to some
small muscles in the hand that allow the fingers
and thumb to move. The carpal tunnel - a narrow,
rigid passageway of ligament and bones at the
base of the hand ¾ houses the median nerve and
tendons. Sometimes, thickening from irritated
tendons or other swelling narrows the tunnel and
causes the median nerve to be compressed. The
result may be pain, weakness, or numbness in the
hand and wrist, radiating up the arm. Although
painful sensations may indicate other
conditions, carpal tunnel syndrome is the most
common and widely known of the entrapment
neuropathies in which the body's peripheral
nerves are compressed or traumatized.
Symptoms usually start gradually, with frequent
burning, tingling, or itching numbness in the
palm of the hand and the fingers, especially the
thumb and the index and middle fingers. Some
carpal tunnel sufferers say their fingers feel
useless and swollen, even though little or no
swelling is apparent. The symptoms often first
appear in one or both hands during the night,
since many people sleep with flexed wrists. A
person with carpal tunnel syndrome may wake up
feeling the need to "shake out" the hand or
wrist. As symptoms worsen, people might feel
tingling during the day. Decreased grip strength
may make it difficult to form a fist, grasp
small objects, or perform other manual tasks. In
chronic and/or untreated cases, the muscles at
the base of the thumb may waste away. Some
people are unable to tell between hot and cold
by touch.
Carpal tunnel syndrome is often the result of a
combination of factors that increase pressure on
the median nerve and tendons in the carpal
tunnel, rather than a problem with the nerve
itself. Most likely the disorder is due to a
congenital predisposition - the carpal tunnel is
simply smaller in some people than in others.
Other contributing factors include trauma or
injury to the wrist that cause swelling, such as
sprain or fracture; overactivity of the
pituitary gland; hypothyroidism; rheumatoid
arthritis; mechanical problems in the wrist
joint; work stress; repeated use of vibrating
hand tools; fluid retention during pregnancy or
menopause; or the development of a cyst or tumor
in the canal. In some cases no cause can be
identified.
There
is little clinical data to prove whether
repetitive and forceful movements of the hand
and wrist during work or leisure activities can
cause carpal tunnel syndrome. Repeated motions
performed in the course of normal work or other
daily activities can result in repetitive motion
disorders such as bursitis and tendonitis.
Writer's cramp - a condition in which a lack of
fine motor skill coordination and ache and
pressure in the fingers, wrist, or forearm is
brought on by repetitive activity - is not a
symptom of carpal tunnel syndrome.
Women
are three times more likely than men to develop
carpal tunnel syndrome, perhaps because the
carpal tunnel itself may be smaller in women
than in men. The dominant hand is usually
affected first and produces the most severe
pain. Persons with diabetes or other metabolic
disorders that directly affect the body's nerves
and make them more susceptible to compression
are also at high risk. Carpal tunnel syndrome
usually occurs only in adults.
The
risk of developing carpal tunnel syndrome is not
confined to people in a single industry or job,
but is especially common in those performing
assembly line work - manufacturing, sewing,
finishing, cleaning, and meat, poultry, or fish
packing. In fact, carpal tunnel syndrome is
three times more common among assemblers than
among data-entry personnel. A 2001 study by the
Mayo Clinic found heavy computer use (up to 7
hours a day) did not increase a person's risk of
developing carpal tunnel syndrome.
During 1998, an estimated three of every 10,000
workers lost time from work because of carpal
tunnel syndrome. Half of these workers missed
more than 10 days of work. The average lifetime
cost of carpal tunnel syndrome, including
medical bills and lost time from work, is
estimated to be about $30,000 for each injured
worker.
Early
diagnosis and treatment are important to avoid
permanent damage to the median nerve. A physical
examination of the hands, arms, shoulders, and
neck can help determine if the patient's
complaints are related to daily activities or to
an underlying disorder, and can rule out other
painful conditions that mimic carpal tunnel
syndrome. The wrist is examined for tenderness,
swelling, warmth, and discoloration. Each finger
should be tested for sensation, and the muscles
at the base of the hand should be examined for
strength and signs of atrophy. Routine
laboratory tests and X-rays can reveal diabetes,
arthritis, and fractures.
Physicians can use specific tests to try to
produce the symptoms of carpal tunnel syndrome.
In the Tinel test, the doctor taps on or presses
on the median nerve in the patient's wrist. The
test is positive when tingling in the fingers or
a resultant shock-like sensation occurs. The
Phalen, or wrist-flexion, test involves having
the patient hold his or her forearms upright by
pointing the fingers down and pressing the backs
of the hands together. The presence of carpal
tunnel syndrome is suggested if one or more
symptoms, such as tingling or increasing
numbness, is felt in the fingers within 1
minute. Doctors may also ask patients to try to
make a movement that brings on symptoms.
Often
it is necessary to confirm the diagnosis by use
of electrodiagnostic tests. In a nerve
conduction study, electrodes are placed on the
hand and wrist. Small electric shocks are
applied and the speed with which nerves transmit
impulses is measured. In electromyography, a
fine needle is inserted into a muscle;
electrical activity viewed on a screen can
determine the severity of damage to the median
nerve. Ultrasound imaging can show impaired
movement of the median nerve. Magnetic resonance
imaging (MRI) can show the anatomy of the wrist
but to date has not been especially useful in
diagnosing carpal tunnel syndrome.
Treatments for carpal tunnel syndrome should
begin as early as possible, under a doctor's
direction. Underlying causes such as diabetes or
arthritis should be treated first. Initial
treatment generally involves resting the
affected hand and wrist for at least 2 weeks,
avoiding activities that may worsen symptoms,
and immobilizing the wrist in a splint to avoid
further damage from twisting or bending. If
there is inflammation, applying cool packs can
help reduce swelling.
Non-surgical treatments
Drugs - In special circumstances, various
drugs can ease the pain and swelling associated
with carpal tunnel syndrome. Nonsteroidal
anti-inflammatory drugs, such as aspirin,
ibuprofen, and other nonprescription pain
relievers, may ease symptoms that have been
present for a short time or have been caused by
strenuous activity. Orally administered
diuretics ("water pills") can decrease swelling.
Corticosteroids such as prednisone or lidocaine,
injected directly into the wrist or taken by
mouth, can relieve pressure on the median nerve
and provide immediate, temporary relief to
persons with mild or intermittent symptoms.
(Caution: persons with diabetes and those who
may be predisposed to diabetes should note that
prolonged use of corticosteroids can make it
difficult to regulate insulin levels.
Corticosterioids should not be taken without a
doctor's prescription.) Additionally, some
studies show that vitamin B6
(pyridoxine) supplements may ease the symptoms
of carpal tunnel syndrome.
Exercise - Stretching and strengthening
exercises can be helpful in people whose
symptoms have abated. These exercises may be
supervised by a physical therapist, who is
trained to use exercises to treat physical
impairments, or an occupational therapist, who
is trained in evaluating people with physical
impairments and helping them build skills to
improve their health and well-being.
Alternative therapies - Acupuncture and
chiropractic care have benefited some patients
but their effectiveness remains unproved. An
exception is yoga, which has been shown to
reduce pain and improve grip strength among
patients with carpal tunnel syndrome.
Surgery
Carpal tunnel release is one of the most common
surgical procedures in the United States.
Generally recommended if symptoms last for 6
months, surgery involves severing the band of
tissue around the wrist to reduce pressure on
the median nerve. Surgery is done under local
anesthesia and does not require an overnight
hospital stay. Many patients require surgery on
both hands. The following are types of carpal
tunnel release surgery:
Open release surgery, the traditional
procedure used to correct carpal tunnel
syndrome, consists of making an incision up to 2
inches in the wrist and then cutting the carpal
ligament to enlarge the carpal tunnel. The
procedure is generally done under local
anesthesia on an outpatient basis, unless there
are unusual medical considerations.
Endoscopic surgery may allow faster
functional recovery and less postoperative
discomfort than traditional open release
surgery. The surgeon makes two incisions (about
½" each) in the wrist and palm, inserts a camera
attached to a tube, observes the tissue on a
screen, and cuts the carpal ligament (the tissue
that holds joints together). This two-portal
endoscopic surgery, generally performed under
local anesthesia, is effective and minimizes
scarring and scar tenderness, if any. One-portal
endoscopic surgery for carpal tunnel syndrome is
also available.
Although symptoms may be relieved immediately
after surgery, full recovery from carpal tunnel
surgery can take months. Some patients may have
infection, nerve damage, stiffness, and pain at
the scar. Occasionally the wrist loses strength
because the carpal ligament is cut. Patients
should undergo physical therapy after surgery to
restore wrist strength. Some patients may need
to adjust job duties or even change jobs after
recovery from surgery.
Recurrence of carpal tunnel syndrome following
treatment is rare. The majority of patients
recover completely.
At
the workplace, workers can do on-the-job
conditioning, perform stretching exercises, take
frequent rest breaks, wear splints to keep
wrists straight, and use correct posture and
wrist position. Wearing fingerless gloves can
help keep hands warm and flexible. Workstations,
tools and tool handles, and tasks can be
redesigned to enable the worker's wrist to
maintain a natural position during work. Jobs
can be rotated among workers. Employers can
develop programs in ergonomics, the process of
adapting workplace conditions and job demands to
the capabilities of workers. However, research
has not conclusively shown that these workplace
changes prevent the occurrence of carpal tunnel
syndrome.
The
National Institute of Neurological Disorders and
Stroke (NINDS), a part of the National
Institutes of Health, is the federal
government's leading supporter of biomedical
research on neuropathy, including carpal tunnel
syndrome. Scientists are studying the chronology
of events that occur with carpal tunnel syndrome
in order to better understand, treat, and
prevent this ailment. By determining distinct
biomechanical factors related to pain, such as
specific joint angles, motions, force, and
progression over time, researchers are finding
new ways to limit or prevent carpal tunnel
syndrome in the workplace and decrease other
costly and disabling occupational illnesses.
Percutaneous balloon carpal tunnel-plasty
is an experimental technique that can ease
carpal tunnel pain without cutting the carpal
ligament. In this procedure, a ¼-inch cut is
made at the base of the palm. The doctor then
inserts a balloon through a catheter under the
carpal ligament and inflates the balloon to
stretch the ligament and free the nerve.
Patients in one small study of pertucaneous
balloon carpal tunnel-plasty reported relief of
symptoms with no postoperative complications;
most of them were back to work within 2 two
weeks. This experimental technique is not yet
widely available.
Randomized clinical trials are being designed to
evaluate the effectiveness of educational
interventions in reducing the incidence of
carpal tunnel syndrome and upper extremity
cumulative trauma disorders. Data to be
collected from an NINDS-sponsored clinical study
of carpal tunnel syndrome among construction
apprentices will provide a better understanding
of the specific work factors associated with the
disorder, furnish pilot data for planning future
projects to study its natural history, and
assist in developing strategies to prevent its
occurrence among construction and other workers.
Other research will discern differences between
the relatively new carpal compression test (in
which the examiner applies moderate pressure
with both thumbs directly on the carpal tunnel
and underlying median nerve, at the transverse
carpal ligament) and the pressure provocative
test (in which a cuff placed at the anterior of
the carpal tunnel is inflated, followed by
direct pressure on the median nerve) in
predicting carpal tunnel syndrome. Scientists
are also investigating the use of alternative
therapies, such as acupuncture, to prevent and
treat this disorder.
For
more information about carpal tunnel syndrome or
other neuropathies of the nervous system, you
may wish to contact:
American Academy of Orthopaedic Surgeons
6300 North River Road
Rosemont, IL 60018-4262
(847) 823-7186
(800) 346-AAOS (2267)
http://www.aaos.org
American Chronic Pain Association (ACPA)
P.O. Box 850
Rocklin, CA 95677-0850
ACPA@pacbell.net
http://www.theacpa.org
Tel: 916-632-0922 800-533-3231
Fax: 916-632-3208
Centers for Disease Control and Prevention
(CDCP)
1600 Clifton Road, N.E.
Atlanta, GA 30333
inquiry@cdc.gov
http://www.cdc.gov
Tel: 800-311-3435
National Chronic Pain Outreach Association
(NCPOA)
P.O. Box 274
Millboro, VA 24460
ncpoa@cfw.com
http://www.chronicpain.org
Tel: 540-862-9437
Fax: 540-862-9485
National Institute of Arthritis and
Musculoskeletal and Skin Diseases (NIAMS)
National Institutes of Health
Bldg. 31, Rm. 4C05
Bethesda, MD 20892-2350
NIAMSInfo@mail.nih.gov
http://www.nih.gov/niams
Tel: 301-496-8188 877-22-NIAMS (226-4267)
Occupational Safety & Health
Administration
US Department of Labor
200 Constitution Avenue, NW
Washington, DC 20210
http://www.osha.gov
Tel: 800-321-OSHA (6742)
