TheraLife�
Wrist
Carpal Tunnel Syndrome
Vincent R. Hentz, M.D. Professor of
Functional Restoration- Hand Surgery
Stanford University, School of Medicine.
Carpal tunnel syndrome is the name given to signs and symptoms
that are a consequence of above normal pressure on a particular
nerve that lies just under the skin on the palmar side of
the wrist. This nerve, called the median nerve passes beneath
a tight ligament at the wrist, together with the tendons
that move the fingers. It is the most superficial structure
passing through the unyielding carpal tunnel. This tunnel
is formed by a ring of wrist bones that comprise the sides
and roof of the tunnel and the transverse carpal ligament
that forms the floor of the tunnel.
Figure 1
The nerve is subject to compression when the tunnel is
constricted or, more frequently, when swelling of soft tissues
within the tunnel occurs. There is abundant tissue called
"synovium" around the flexor tendons as they pass through
the carpal tunnel. This tissue serves to lubricate the tendons
so that they glide easily back and forth as our fingers
move.
Carpal tunnel syndrome is most frequently the result of
synovial edema or thickening from a variety of causes. Any
condition that crowds the carpal tunnel may result in the
syndrome. For example, displaced bone after wrist fracture,
ganglion, tumor, anomalous muscles, and fluid retention
syndromes may be primary causes of median nerve compression
at this site. The symptom complex and physical signs of
median nerve compression within the carpal tunnel are predictable.
Various levels of tingling, numbness, and even absence of
feeling over the median nerve sensory distribution in the
hand are classic. Generally, the region of median nerve
sensibility consists of the palmar aspect of the thumb,
index, long, and radial one half of the ring finger, but
there may be some variation of this pattern in individual
patients. Atrophy of the muscles about the thumb is the
classic finding when the median nerve is sufficiently compressed
for a long period of time.
Frequently, the patient is awakened at night by uncomfortable
tingling and numbness in the hand. The wrist may drop into
flexion during sleep and increase compression on the median
nerve. The symptoms generally abate if the patient shakes
the hand and moves the wrist about. Forcibly holding the
wrist in flexion may create a tingling sensation in the
thumb, index and middle fingers, the fingers supplied sensation
by the median nerve. When the wrist is held in the flexed
position and the fingers begins to tingle within one minute,
this is referred to as a "positive Phelan's test." Tapping
on the palmar surface of the wrist may result in a shock-like
sensations in the median-innervated digits.
When the findings are classic for carpal tunnel syndrome
in the absence of a history of wrist trauma, pregnancy,
amyloidosis, or other systemic disorders, non-specific swelling
of the synovial tissues of the flexor tendons within the
carpal tunnel is probably the basis of the compression.
Sometimes night splinting and anti-inflammatory drugs relieve
the symptoms. If not, the physician may choose to inject
a steroid medication such as cortisone into the carpal tunnel
area for its anti-inflammatory effect. Relief of carpal
tunnel symptoms after such injection tends to confirm the
diagnosis. Persistent symptomatic carpal tunnel syndrome
is best treated by a surgical procedure whose goal is complete
division of the ligamentous floor of the carpal tunnel to
release the compression. Two principle types of surgical
procedures are performed today. An older method utilizes
an incision made in the tissues of the palm of the hand.
The transverse ligament is viewed (this is termed "dissection")
directly and then it is divided under direct vision. This
method and its several variations are loosely termed "open"
technique. A more recent surgical procedure employs a specially
constructed telescopic lens that permits indirect visualization
of the transverse carpal ligament through a tiny incision.
These techniques are referred to as "endoscopic" techniques.
Each will be described.
Open Technique
Most surgical procedures to treat carpal tunnel syndrome
can be performed today as outpatient procedures under either
local (novocaine) or general anesthesia (fully asleep.)
There has long been interest in utilizing an incision that
provides both adequate exposure to permit safe and complete
sectioning of the transverse carpal ligament and a cosmetically
acceptable and symptom free scar. A variety of incisions
varying primarily in the length and placement of the incision
have been recommended. Most avoid incisions that cross proximal
to the wrist crease as we have come to appreciate that scar
hypertrophy could be minimized if the incision did not cross
proximal to the wrist flexor crease. Several variations
are discussed and illustrated.
Release of carpal tunnel compression by section of the
transverse carpal ligament is best performed with the patient
under local or regional anesthesia. The incision is important,
since straight, longitudinal incisions crossing the wrist
creases lead often to hypertrophic scarring.
Surgery must be undertaken only by skilled surgeons because
there are several troublesome complications that may occur
unless proper care is taken. These complications include
injury to the branches of the median nerve .
The axis of the incision is along a line drawn from the
center of the wrist at the distal wrist flexor crease to
the radial border of the ring finger.
Figure 2
This line corresponds to the proximal extent of the natural
crease between thenar and hypothenar prominences. , The
incision begins proximally at the distal flexor crease of
the wrist and follows the thenar crease for about 1.5 cms.
The skin is incised and the subcutaneous fat is bluntly
spread from side to side as the surgeon searches for crossing
branches of the palmar cutaneous nerve from the median nerve.
Figure 3
A less consistently present ulnar corollary of this nerve
may be present and branches originating from this cutaneous
nerve should be sought and left uninjured. This is the most
important step in reducing the incidence of painful incisional
neuromas. Once the fatty tissues have been swept aside,
the longitudinally oriented fibers of the palmar fascia
are exposed. These fibers are sharply incised over the extent
of the incision.
A small curved scissor is placed with plane of blade opening
held parallel to the transversely oriented fibers of the
transverse carpal ligament. The tips of the scissors are
gently pushed between these fibers until an opening is created.
Figure 4
The opening is extended distally by small increments and
along the axis established at the beginning of the procedure
(centrum of wrist toward radial border of the ring finger.)
The scissors are used to dissect any tissue attachments
existing between flexor tendons and underside of ligament.
The median nerve is well radial to the line of incision
of the transverse carpal ligament. After about 5-7 mm of
the proximal ligament is divided, there is sufficient exposure
to divide by small increments, the remainder of the ligament
under direct vision.
 
Figures 5 & 6
After assuring that the nerve has been completely released
in the palm, attention is directed to releasing the the
antebrachial fascia just proximal to the wrist crease. This
fascia is divided for a distance of 2 to 21/2 cm proximal
to the wrist crease on the little finger side of the palmaris
longus tendon if this is present.
Figure 7
The nerve is examined for irregularities and the canal
is examined for the presence of tumors, aberrant muscles
or exuberantly hypertrophic synovium.
If there is a great deal of boggy, hypertrophic synovium,
a limited synovectomy may be indicated. If the nerve has
sustained additional injury or, by virtue of long-term compression,
appears to be collared by unyielding scar, a scar release
is in order. The admonition today seems to be to handle
or otherwise disturb the nerve as little as possible.
After completeness of release has been firmly established,
the wound is closed by reapproximating the palmar fascia
in the proximal palm, and then suturing the skin.
Figure 8
Figure 9
A light volar plaster splint or short gauntlet type cast
is fitted by the surgeon to immobilize the wrist in some
degree of wrist extension. The splint may be removed safely
within five to seven days. Some surgeons will not recommend
postoperative splinting.
Other incisions described for effecting release of median
nerve compression include a somewhat shorter longitudinally
located palmar incision. Such an incision coupled with a
second incision made transversely, proximal to the wrist,
allows exposure of the nerve first proximally and then distally
as the ligament is released. If a full, direct exposure
above and below the extremes of the transverse carpal ligament
is desired, the incisions above may be joined in such a
way to avoid a longitudinal incision across the palmar wrist
crease.
Postoperative Period
The dressings and the sutures are removed within several
days of surgery. A small removable brace may be advised
for night time use and some type of exercise for the operated
hand is usually prescribed. This are typically very simple
exercises performed at home.
Initially following surgery, the hand may feel somewhat
weakened. With user and exercise, strength is usually regained
by the 6th to 8th week.
Many people who undergo carpal tunnel release are able
to resume their work within one or two days. Individuals
who perform heavy labor or who must perform extensive keyboard
activities may not be able to resume work so quickly. Several
weeks of exercise and recovery are required to allow these
individuals to return to full work activity.
Many of the most troublesome symptoms may be immediately
relieved following surgery. If night awakening with numb
and tingling fingers has been a prominent preoperative symptom,
following surgery this may be relieved rapidly. Other symptoms
may persist for much longer or even indefinitely. If the
muscles around the thumb have become atrophied as a consequence
of prolonged nerve compression, after release of compression,
these muscle may never regain their normal strength and
appearance. If sensation is severly altered by nerve compression,
its recovery after nerve decompression may take many months
or even years. Occasionally, absent sensation persists indefinitely.
Endoscopic Carpal Tunnel Release
Indications and Contraindications
Since an endoscopic approach provides limited visibility
of the contents of the carpal canal, the technique is indicated
only when there is no particular need to examine the carpal
canal or manipulate the contents. There are several contraindications.
These are discussed in terms of the advantages and disadvantages
of the technique.
The advantages of the endoscopic technique are said to
include the following:
- Skin incisions are kept off the prime contact surface
of the proximal palm (the so-called "heel" of the hand)
This lessens the possibility of injury to small sensory
branches of the palmar cutaneous nerves from either the
median nerve or ulnar nerve. Injuries to these branches
may result in neuroma hypersensitivity in the critical
area.
- Patients regain grip and pinch strength more rapidly.
With the endoscopic technique, the palmar fascia is left
relatively undisturbed. Leaving these supporting structures
unaltered may result in fewer changes to the origins of
the thenar muscles. Maintaining this layer intact may
reduce the extent of the changes in the moment arms of
the tunnel's flexor tendons that occur as a consequence
of release of the transverse carpal ligament. Some authors
believe that these factors are important in the postoperative
recovery of grip and pinch strength.
- There is less postoperative discomfort.
The disadvantages of the endoscopic technique to release
the transverse carpal ligament include the following:
- There are many contraindications to the use of the procedure.
The procedure is contraindicated for patients whose nerve
compression symptoms are a consequence of an inflammatory
condition such as rheumatoid arthritis, amyloidosis or
gout. The inflammed tissues or deposits obscure the surgeons
view. Previous surgery or injury to the carpal canal will
restrict exposure
- The surgeon has a very limited view. There is no option
of examining the contents of the carpal canal in a search
for unusual etiologies of median nerve compression such
as intra-tunnel ganglions or aberrant muscles. The nerve
itself cannot be visualized to determine whether some
adjunctive procedure such as neurolysis might be indicated
- There is controversy regarding whether the technique
is inherently more risky than other techniques performed
through more extensive exposures. Cited risks include
bruising of the median nerve by the dissecting instruments
or the endoscopic device as these are passed into the
carpal canal, inadvertant injury to adjacent flexor tendons,
laceration of the superficial arterial palmar arch, laceration
of the common digital nerve to the third web space, laceration
of a sensory nerve branch crossing from the ulnar sensory
nerve to the common digital nerve to the third web space
and even laceration of the median nerve itself. Advocates
of the technique point out that all of these complications
have also been reported in association with the more traditional
open surgical techniques.
- There is concern over whether this technique results
in "complete" release of all compressive structures. Various
cadaver studies involving post endoscopic release dissections
have demonstrated suspicious areas of palmar fascia at
the distal margin of the transverse carpal ligament that
represent sites of potential residual constriction.
- The procedure may add an unnecessary expense.
Great experience has been gained with the single portal
technique using the Agee endoscopic device (3M) and this
technique will be illustrated
Preparation
The procedure may be performed under local, regional or
general anesthesia. Advocates of local anesthesia feel that
this adds a safety factor in that the patient will complain
if the surgeon applies too much pressure on the median nerve
during instrumentation. We prefer either local skin infiltration
anesthesia with some sedation, or low dose intravenous regional
anesthesia under a forearm tourniquet control.
Assembling the Device
Prior to the incision, the instrument is assembled and
tested for picture clarity and color, light source brightness
level, and proper location of the fiber optic and camera
cables. The blade trigger is tested to be sure it raises
and releases properly.
Procedure
The skin surface landmarks are identified. These include
the pisiform and hook of hamate, the palmaris longus, flexor
carpi ulnaris and flexor carpi radialis tendons at the wrist,
and the various transverse skin creases at the wrist.
Figure 10
It is ideal if the small transverse incision at the wrist
falls into a pre-existent skin crease. Usually the most
distal crease is too distal because an incision here exposes
the fat of then hypothenar eminence which may boil into
the wound obscuring view. The most proximal crease is typically
too far proximal to be ideal since the antebrachial fascia
in this area, especially in women, may be very thin and
not easily identified as a surgical plane of dissection.
The ideal incision is a line between these two creases and
if a natural crease does not exist, the incision may be
placed as indicated in the illustration. A reference line
is drawn from the center of the wrist to the center of the
ring finger.
The area of the skin incision is infiltrated with local
anesthesia, avoiding leakage into the carpal canal. The
skin is incised and longitudinal blunt dissection exposes
longitudinally directed structures such as small nerve branches
or venules. These are retracted laterally and the antebrachial
fascia is identified. Since its fibers are transversely
oriented, it is relatively easy to distinguish from other
fascial layers. A one square centimeter area is cleaned
of attachments to surrounding structures.
Two longitudinally directed parallel incisions are made
with the incisions about one cm apart. Their proximal ends
are connected creating a distally based flap of fascia.
Figure 11
A two-pronged hook retracts this flap distally and any
synovial attachments from the contents of the canal are
dissected off the underside of this flap. The initial synovial
clearing dissection can be continued with the scissors under
direct vision.
The surgeon then cradles the patients hand in his or her
non-dominant hand with the surgeons thumb placed as illustrated.
The patient's wrist is maintained in a neutral position
while the various instruments are used, first to dissect
any synovial attachments to the transverse carpal ligament,
thus clearing a path for visualization of the underside
of the transverse carpal ligament. The dilators are used
to further create a safe passage for the endoscope. The
technique is a bimanual one with the surgeon's nondominant
thumb assessing what the dominant hand and its instrument
are doing and confirming proper location. The dilator also
serves as a device to determine that the pathway is being
created within the carpal canal and not within Guyon's canal.
The dilator is described as a hamate finder, since it can
tell the surgeon the location of the hook of the hamate
and confirm that the dilator is within the proper canal.
The endoscope is inserted with gentle distal pressure.
Insertion is made easier by moistening the plastic of the
protective sleeve and the skin just proximal to the incision
Figure 12
How much pressure is tolerable is a matter of experience.
If the patient is awake and the median nerve unanesthetized,
the patients response to this maneuver is helpful. If the
surgeon is concerned about the pressure required to pass
the sleeve into the canal, either the procedure should be
abandoned in favor of an open technique or the procedure
modified by withdrawing the endoscope and dividing the most
proximal margin of the transverse carpal ligament under
direct vision and then reintroducing the endoscope.
The sleeve is advanced under direct vision via the monitor
maintaining some upward pressure so that the flat edges
of the sleeve hug the underside of the ligament. The ligament
is readily identifiable by virtue of its transversely oriented
collagen bundles. The sleeve is carefully passed until the
distal margin of the ligament is visualized. Pressure over
this point by the nondominant thumb helps in identifying
a frequently present fat pad located just distal to the
distal edge of the ligament.
The tip of the sleeve is positioned at the distal edge
of the ligament. The blade is slightly raised to determine
its point of contact and any adjustments to position made.
Then the trigger is depressed completely raising the blade
to its full height and the point of penetration is determined.
The assembly with blade fully elevated is then carefully
withdrawn about 7 - 10 mm and the shape of the resultant
incision analyzed.
Figure 13
If the "V" apex of the incision is directed proximally,
this indicates complete release of the distal part of the
ligament. If the "V" is pointing distally, this indicates
that some part of the distal ligament must be revisualized
and divided with a second short pass of the blade.
Once the distal ligament has been completely released,
the elevated blade is positioned at the apex of the incision
in the ligament and again fully elevated and slowly withdrawn
under direct vision across the full extent of the ligament.
The blade is lowered, the sleeve is reinserted and the completeness
of the proximal release is determined. Frequently another
short pass or two of the blade, usually only partly raised,
will be necessary. The dissector can be passed into the
canal and the extent of the release can be confirmed.
To complete the procedure, the skin and subcutaneous tissues
over the antebrachial fascia proximal to the wrist crease
are dissected as was described for the open technique.
Some surgeons prefer to reinsert the endoscope into the
now capacious carpal canal and, then deflate the tourniquet.
The canal is observed with the endoscope for evidence of
brisk arterial bleeding that might indicate that the superficial
transverse arterial arch has been injured.
The skin incision is closed with a subcuticular pull-out
suture and a standard hand dressing and palmar splint are
applied to maintain the wrist is slight extension. The splint
and suture are removed one week later and therapy is begun.
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