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Percutaneous Endoscopic Cervical Discectomy(PECD):
Percutaneous Cervical Microdecompression Endoscopic Cervical/Lumbar
Discectomy with Laser Thermodiscoplasty, is a new procedure
to shrink and remove a herniated disc. Using brief general
(cervical) or local (lumbar) anesthesia and the help of
x-rays for guidance, specially designed micro-instruments,
the discectome and a laser probe are inserted into the
herniated disk space, and a portion of the offending disk
is removed with suction and then vaporization with a laser
to shrink the disc further, instead of open surgery.
Percutaneous cervical/lumbar discectomy is different from
standard disk surgery because there is no muscle dissection,
bone removal, bone fusion, or incision, except for a puncture
wound to accommodate the micro-instruments that are inserted
into the herniated disk. Most complications that occur
with conventional surgery, therefore, are eliminated with
this procedure.
The procedure is performed under brief general (cervical)
or local (lumbar) anesthesia with the patient awake and
in a supine (cervical) or lateral (lumbar) position. A
small needle is inserted into the disc.
Over this probe, a slightly larger sleeve is inserted
to permit a 2mm incision to be made in the disk itself.
Using x-ray fluoroscopy control, the micro-instruments
(forceps, currets, cutters), the discectome (which is
a hollow probe with a cutting knife inside), and the laser
probe are inserted into the disk space through a sleeve.
Very small pieces of the disk material are removed and
suctioned. The laser shrinks the disk bulge further. The
procedure takes about 20 minutes, on average. X-ray exposure
is minimal.
The amount of disk removed varies. The supporting structure
of the disk is not affected. Upon completion, the needle
is removed and a small Band-Aid is applied over the probe
incision.
The primary advantage of this procedure is that there
is no interference with the muscles, bones, joints or
manipulation of the nerves in the neck or back areas.
Since insertion of the probe through the muscle is the
only wound, there is no scarring in or around the nerves
postoperatively. Additionally, it is an outpatient procedure.
Unfortunately, patients who have large free fragments
of disk in the spinal canal, as determined by the x-ray,
cannot benefit from this procedure. However, the laser
can shrink the bulging disc further for disc decompression.
It is essential to understand that all patients are not
relieved of their pain with this procedure. Approximately
90 percent of patients will experience pain relief. Patients
who do not obtain relief within three to six weeks may
be considered for micro-cervical disc removal and fusion,
depending on the circumstances. There does not appear
to be any detrimental effect from performing percutaneous
cervical discectomy before micro-cervical procedure to
remove bony discs and bony fusion.
Under local or general
anesthesia, the patient was placed in a supine position
with the neck extended by placing a rolled towel under
the shoulders. A soft strap was placed over the forehead
for stabilization. The shoulders were gently distracted
downward with tape. C-arm fluoroscopy was used in anteroposterior
and lateral planes to direct the placement of a spinal
needle onto the disc surface. Initially, at the point
of entry adjacent to the medial border of the right
sternocleidomastoid muscle, firm pressure was applied
digitally in the space between the muscle and the trachea
and pointed toward the vertebral surface. The larynx
and trachea were displaced medially and the carotid
artery laterally. The esophagus was made more prominent
with the insertion of an endotracheal tube. The pulse
of the carotid artery was augmented with sympathomimetics.
The anterior cervical spine was palpated with the fingertips,
and a #18-gauge spinal needle was passed into the disc
space. The position was confirmed fluoroscopically.
A 2 ? 3 mm skin incision was made, and a narrow guide
wire was passed through the needle. The needle was then
removed. A blunt trocar was introduced over the guide
wire down to the interspace, followed by a cannula.
A trephine inserted through the cannula cut the annulus
in a circular fashion. Minicurettes loosened and removed
disc material prior to introduction of a suction-irrigation
system and the discetome with a guillotinecutting blade
(Fig. 1). The instruments included a probe, grasper
forceps, and laser fiber (Fig. 2). Movement in a critical
fan sweep maneuver, a 25° rocking excursion of the cannula
hub from side to side, increased the removal up to a
50° coneshaped area within the disc space (Fig. 3).
The procedure was closely monitored with the fluoroscope
(Fig. 4) and an endoscope (Figs. 5A, B). The holmium:
yttrium-aluminum-garnet laser with right angle or side-fire
probe facilitated the discectomy. In addition, nonablative
levels of holmium laser energy (500 joules) or thermodiskoplasty
added shrinking of collagen and fibrocartilage; the
tightening effect further decompressed and hardened
the herniated cervical disc.
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