Cold Laser
Therapy is:
EFFECTIVE
—
PAINLESS
—
COMPLETELY SAFE
In fact, laser therapy has completely
revolutionized my practice.
The success that my patients are experiencing is
extraordinary.
It has worked for hundreds of others and it can
work for you too!
Some of the specific conditions that Laser
Therapy is effective with include:
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Carpal Tunnel Syndrome
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Arthritis
·
Back Pain
·
Bruising and Contusions
·
Bursitis
·
Acute (Traumatic) Pain
·
Headaches
·
Neck Pain
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·
Painful Trigger points
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Plantar Fascitis
·
Repetitive Stress
Syndromes
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Sports Injuries
·
Tendinitis
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Tennis/Golfer Elbow
·
TMJ Disorders
·
....and Many Others
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We proudly
utilize the Microlight
Laser.
Microlight laser
brochure.pdf
The Light Stuff
- Washington
Post,
February 17, 2004
By Lois
Lindstrom
The New England Patriots won Super Bowl XXXVIII with some help
from a little-known form of laser technology that could change
the way athletic injuries and chronic pain are treated. The
treatment, known as "cold" laser therapy or low-level laser
therapy (LLLT), has been used internationally for 18 years to
treat soft tissue injuries, cervical neck pain, carpal tunnel
syndrome, repetitive stress injuries, tendinitis, hamstring
injuries, arthritis and wound healing, among others.
The lasers -- hand-held, flashlight-like devices that direct a
beam of narrow-spectrum (but not hot) light at injured tissue
beneath the skin -- have been integrated into medical practice
in Japan, Russia and the United Kingdom. In the United Kingdom,
cold laser therapy has become a preferred treatment for
"whiplash" injuries, neuralgia and shingles. In Japan, the
lasers were approved in 1987 and are in widespread use
today.
In the United States, the technology received marketing
clearance from the Food and Drug Administration (FDA) in 2002
for treating carpal tunnel syndrome, a painful inflammation of
the wrists and hands that results from repetitive motion. But
the mainstream medical establishment still considers the cold
laser's benefits unproven. Most U.S. users are athletic
trainers, chiropractors and practitioners of alternative
medicine.
" The medical community needs more scientific studies done in
the United States," said Wayne Good, a general surgeon in
Waterford, Mich., who participated in the clinical trials that
led to FDA clearance of the laser device. Good worked with
General Motors Corp., which hosted the double-blind,
placebo-controlled trials on serious carpal tunnel sufferers as
a way to seek more cost-effective treatment for the condition,
which affects many auto workers.
Good said the treatment proved about 70 percent effective in
getting injured workers, most of whom had failed to respond to
other treatments, back on the job. GM offers the treatment to
injured workers in its in-plant medical clinics. But insurance
payment for the procedure is also an issue holding doctors
back, Good said. Many U.S. insurers will not pay for cold laser
treatment, citing the need for further research proving its
benefits. " If the major insurance companies . . . do not pay
for the technology," Good said, "the doctor cannot be
reimbursed for treating his patients."
Sport and
Health
While mainstream medicine remains on the sidelines,
practitioners of sports medicine, who are highly motivated to
find new ways to heal soft-tissue injuries and bruises, are
getting right into the cold laser game. In the week preceding
the Super Bowl, Boston based registered nurse Ellen Spicuzza
treated more than 10 Patriot players with cold laser therapy
for tendon and muscle injuries.
"A couple of days prior to the Super Bowl weekend, I treated
[Patriot wide receiver] David Givens, who had a locked-up
hamstring," she said. She rotated the $4,000, pen-like laser
over the "belly" of his hamstring muscle for about five
minutes, she said. "The laser released it." Spicuzza, an
independent nurse/physical therapist in Boston, usually treats
Patriot players' injuries with medical massage. For the big
game, she for the first time used low level laser therapy on
the athletes' most troublesome pain spots. Before using the
cold laser, Spicuzza was skeptical.
"I am not into gimmicks," she said. "I didn't think it would
help."
But she changed her mind after seeing how the laser expedited
healing of some players' soreness and pain. "I don't think [the
improved recoveries were] a coincidence," Spicuzza said. "It
did help. I used it on a flared-up sciatic nerve, and the
player had relief soon after treatment."
The Light and the
Tunnel
Spicuzza was trained by Michael Barbour, president of
MicroLight Corp., a Houston-based company that in 2001 acquired
rights to manufacture the ML830 cold laser device. It was his
company's laser that received market clearance from the FDA in
2002 for the non-surgical treatment of carpal tunnel
syndrome.
Carpal tunnel syndrome occurs when tendons or ligaments in the
wrist become enlarged, often from inflammation. Nearly 500,000
Americans have surgical treatment for carpal tunnel syndrome
each year; surgery costs $8,000 to $10,000 per patient,
according to the American College of Orthopedic Surgeons.
Unlike surgery, treatments involving low level laser therapy
are non-invasive and require no healing time. There are no gels
or ointments applied prior to the treatment. The most notable
sensation is the pressure of the head of the laser on the skin,
though some patients report a small tingling.
Cold laser treatments usually cost $25 to $50, with a typical
course of treatment involving 10 to 15 sessions over time.
Barbour said that while the FDA cleared the laser only for
carpal tunnel syndrome treatment, "medical clinicians have the
option of using it for adjunctive use for pain therapy if in
their medical opinion it is indicated." Such off-label uses are
common in the world of drugs.
Proposed by Albert Einstein in 1917, low level light therapy
was not developed until 1960. A Hungarian surgeon, the late
Endre Mester, first reported his experience using laser light
to treat non-healing infections and inflammations in rats.
Mester's reported 70 percent success rate in treating these
infections led to the development of a science he labeled
"laser biostimulation," or the stimulation of the local immune
system.
According to Richard Martin, a Santa Monica, Calif.,
photobiologist specializing in laser therapy, cells and tissues
subjected to inflammation, edema and injury have been shown to
have a significantly higher response to low level laser
irradiation than normal healthy structures. There is no
evidence the light damages the cells.
Since 1967, more than 2,000 clinical studies have been
published worldwide on cold lasers. Supporters of the
technology cite the fact that most are positive, showing the
devices safe and effective in a variety of clinical uses.
Others come to different conclusion, saying most of the studies
are small and poorly controlled and lack a standardized
treatment that could let researchers compare results equally.
The Cochrane Collaboration, an international nonprofit group
that evaluates research about clinical practices, has published
several reports on low level laser therapy; the most recent
were issued this year. The researchers found that data from
several studies showed no benefit in treating osteoarthritis
pain -- but two of the studies in particular showed very
positive results. The group concluded there is an "urgent need"
for large-scale clinical trials for this use.
Another research summary concluded that low level laser therapy
was effective in reducing pain and morning stiffness for those
with rheumatoid arthritis. But there were no differences in the
treated subjects in overall disability, swelling or range of
motion. And no data was available for effects beyond 4-10 weeks
of treatment.
Other Cochrane reports show some benefits from low level laser
therapy for frozen shoulder, but no benefits when used on
rotator cuff tendinitis.
Swedish physicist Lars Hode, president of the Swedish
Laser-Medical Society, says the safety and efficacy of low
level laser therapy is better documented than that for
ultrasound therapy, which is well accepted medically. However,
he says, there were some negative articles about cold lasers 20
years ago.
" In the '80s, the medical industry had inferior lasers," he
said. "With the advent of stronger lasers at reasonable prices,
the situation today has changed considerably."
Olympian
Ambitions
The U.S. Olympic training centers in Colorado Springs and Chula
Vista, Calif., are using cold lasers. The Olympic training
center in Lake Placid, N.Y., plans to offer the therapy within
a few months.
According to Edward Ryan III, director of Sports Medicine for
the U.S. Olympic Training Center, the cold laser has given
athletes significant relief from pain and increased their range
of motion. Because the device is hand-held and portable, he
said, it can even be used in competition venues.
Chadwick Smith, clinical professor of orthopedics and
bioengineering at the University of Southern California Medical
School, has mainstream medical credentials and is enthusiastic
about cold lasers.
" Cold lasers speed the healing process," said Smith, who uses
the device in his clinical practice. "It used to take at least
seven to ten days for a hamstring injury to heal. Cold laser
therapy cuts it down to two to three days."
As for Ellen Spicuzza, she said the Super Bowl experience led
her to use the cold laser on her own neck, which she injured in
a skiing accident 10 years ago.
"I used it in my hotel in Houston during Super Bowl weekend,"
she said happily. "It brought me quick relief of my muscle
spasms."
Lois Lindstrom is author of "Memoirs of a Swedish War Nurse"
(Goose River Press, 2002). She is based in Stockholm and is
co-writing a book about cold laser therapy with a Swedish
clinician.
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