Abstract
Dimethyl
sulfoxide (DMSO), a by-product of the wood industry, has been in use
as a commercial solvent since 1953. It is also one of the most
studied but least understood pharmaceutical agents of our time--at
least in the United States. According to Stanley Jacob, MD, a former
head of the organ transplant program at Oregon Health Sciences
University in Portland, more than 40,000 articles on its chemistry
have appeared in scientific journals, which, in conjunction with
thousands of laboratory studies, provide strong evidence of a wide
variety of properties. (See Major Properties Attributed to DMSO)
Worldwide, some 11,000 articles have been written on its medical and
clinical implications, and in 125 countries throughout the world,
including Canada, Great Britain, Germany, and Japan, doctors
prescribe it for a variety of ailments, including pain, inflammation,
scleroderma, interstitial cystitis, and arthritis elevated
intercranial pressure.
Yet
in the United States, DMSO has Food and Drug Administration (FDA)
approval only for use as a preservative of organs for transplant and
for interstitial cystitis, a bladder disease. It has fallen out of
the limelight and out of the mainstream of medical discourse, leading
some to believe that it was discredited. The truth is more
complicated.
DMSO: A History of Controversy
The
history of DMSO as a pharmaceutical began in 1961, when Dr. Jacob was
head of the organ transplant program at Oregon Health Sciences
University. It all started when he first picked up a bottle of the
colorless liquid. While investigating its potential as a preservative
for organs, he quickly discovered that it penetrated the skin quickly
and deeply without damaging it. He was intrigued. Thus began his
lifelong investigation of the drug.
The
news media soon got word of his discovery, and it was not long before
reporters, the pharmaceutical industry, and patients with a variety
of medical complaints jumped on the news. Because it was available
for industrial uses, patients could dose themselves. This early
public interest interfered with the ability of Dr. Jacob--or, later,
the FDA--to see that experimentation and use were safe and controlled
and may have contributed to the souring of the mainstream medical
community on it.
Why,
if DMSO possesses half the capabilities claimed by Dr. Jacob and
others, is it still on the sidelines of medicine in the United States
today?
"It's
a square peg being pushed into a round hole," says Dr. Jacob.
"It doesn't follow the rifle approach of one agent against one
disease entity. It's the aspirin of our era. If aspirin were to come
along today, it would have the same problem. If someone gave you a
little white pill and said take this and your headache will go away,
your body temperature will go down, it will help prevent strokes and
major heart problems--what would you think?"
Others
cite DMSO's principal side effect: an odd odor, akin to that of
garlic, that emanates from the mouth shortly after use, even if use
is through the skin. Certainly, this odor has made double-blinded
studies difficult. Such studies are based on the premise that no one,
neither doctor nor patient, knows which patient receives the drug and
which the placebo, but this drug announces its presence within
minutes.
Others,
such as Terry Bristol, a Ph.D. candidate from the University of
London and president of the Institute for Science, Engineering and
Public Policy in Portland, Oregon, who assisted Dr. Jacob with his
research in the 1960s and 1970s, believe that the smell of DMSO may
also have put off the drug companies, that feared it would be hard to
market. Worse, however, for the pharmaceutical companies was the fact
that no company could acquire an exclusive patent for DMSO, a major
consideration when the clinical testing required to win FDA approval
for a drug routinely runs into millions of dollars. In addition, says
Mr. Bristol, DMSO, with its wide range of attributes, would compete
with many drugs these companies already have on the market or in
development.
The FDA and DMSO
In
the first flush of enthusiasm over the drug, six pharmaceutical
companies embarked on clinical studies. Then, in November 1965, a
woman in Ireland died of an allergic reaction after taking DMSO and
several other drugs. Although the precise cause of the woman's death
was never determined, the press reported it to be DMSO. Two months
later, the FDA closed down clinical trials in the United States,
citing the woman's death and changes in the lenses of certain
laboratory animals that had been given doses of the drug many times
higher than would be given humans.
Some
20 years and hundreds of laboratory and human studies later, no other
deaths have been reported, nor have changes in the eyes of humans
been documented or claimed. Since then, however, the FDA has refused
seven applications to conduct clinical studies, and approved only 1,
for intersititial cystitis, which subsequently was approved for
prescriptive use in 1978.
Dr.
Jacob believes the FDA "blackballed" DMSO, actively trying
to kill interest in a drug that could end much suffering. Jack de la
Torre, MD, Ph.D., professor of neurosurgery and physiology at the
University of New Mexico Medical School in Albuquerque, a pioneer in
the use of DMSO and closed head injury, says, "Years ago the FDA
had a sort of chip on its shoulder because it thought DMSO was some
kind of snake oil medicine. There were people there who were openly
biased against the compound even though they knew very little about
it. With the new administration at that agency, it has changed a
bit." The FDA recently granted permission to conduct clinical
trials in Dr. de la Torre's field of closed head injury.
DMSO Penetrates Membranes and
Eases Pain
The
first quality that struck Dr. Jacob about the drug was its ability to
pass through membranes, an ability that has been verified by numerous
subsequent researchers.1 DMSO's ability to do this varies
proportionally with its strength--up to a 90 percent solution. From
70 percent to 90 percent has been found to be the most effective
strength across the skin, and, oddly, performance drops with
concentrations higher than 90 percent. Lower concentrations are
sufficient to cross other membranes. Thus, 15 percent DMSO will
easily penetrate the bladder.2
In
addition, DMSO can carry other drugs with it across membranes. It is
more successful ferrying some drugs, such as morphine sulfate,
penicillin, steroids, and cortisone, than others, such as insulin.
What it will carry depends on the molecular weight, shape, and
electrochemistry of the molecules. This property would enable DMSO to
act as a new drug delivery system that would lower the risk of
infection occurring whenever skin is penetrated.
DMSO
perhaps has been used most widely as a topical analgesic, in a 70
percent DMSO, 30 percent water solution. Laboratory studies suggest
that DMSO cuts pain by blocking peripheral nerve C fibers.3 Several
clinical trials have demonstrated its effectiveness,4,5 although in
one trial, no benefit was found.6 Burns, cuts, and sprains have been
treated with DMSO. Relief is reported to be almost immediate, lasting
up to 6 hours. A number of sports teams and Olympic athletes have
used DMSO, although some have since moved on to other treatment
modalities. When administration ceases, so do the effects of the
drug.
Dr.
Jacob said at a hearing of the U.S. Senate Subcommittee on Health in
1980, "DMSO is one of the few agents in which effectiveness can
be demonstrated before the eyes of the observers....If we have
patients appear before the Committee with edematous sprained ankles,
the application of DMSO would be followed by objective diminution of
swelling within an hour. No other therapeutic modality will do this."
Chronic
pain patients often have to apply the substance for 6 weeks before a
change occurs, but many report relief to a degree they had not been
able to obtain from any other source.
DMSO and Inflammation
DMSO
reduces inflammation by several mechanisms. It is an antioxidant, a
scavenger of the free radicals that gather at the site of injury.
This capability has been observed in experiments with laboratory
animals7 and in 150 ulcerative colitis patients in a double-blinded
randomized study in Baghdad, Iraq.8 DMSO also stabilizes membranes
and slows or stops leakage from injured cells.
At
the Cleveland Clinic Foundation in Cleveland, Ohio, in 1978, 213
patients with inflammatory genitourinary disorders were studied.
Researchers concluded that DMSO brought significant relief to the
majority of patients. They recommended the drug for all inflammatory
conditions not caused by infection or tumor in which symptoms were
severe or patients failed to respond to conventional therapy.9
Stephen
Edelson, MD, F.A.A.F.P., F.A.A.E.M., who practices medicine at the
Environmental and Preventive Health Center of Atlanta, has used DMSO
extensively for 4 years. "We use it intravenously as well as
locally," he says. "We use it for all sorts of inflammatory
conditions, from people with rheumatoid arthritis to people with
chronic low back inflammatory-type symptoms, silicon immune toxicity
syndromes, any kind of autoimmune process.
"DMSO
is not a cure," he continues. "It is a symptomatic approach
used while you try to figure out why the individual has the process
going on. When patients come in with rheumatoid arthritis, we put
them on IV DMSO, maybe three times a week, while we are evaluating
the causes of the disease, and it is amazing how free they get. It
really is a dramatic treatment."
As
for side effects, Dr. Edelson says: "Occasionally, a patient
will develop a headache from it, when used intravenously--and it is
dose related." He continues: "If you give a large dose,
[the patient] will get a headache. And we use large doses. I have
used as much as 30ÝmlÝIV over a couple of hours. The odor is a
problem. Some men have to move out of the room [shared] with their
wives and into separate bedrooms. That is basically the only
problem."
DMSO
was the first nonsteroidal anti-inflammatory discovered since
aspirin. Mr. Bristol believes that it was that discovery that spurred
pharmaceutical companies on to the development on other varieties of
nonsteroidal anti-inflammatories. "Pharmaceutical companies were
saying that if DMSO can do this, so can other compounds," says
Mr. Bristol. "The shame is that DMSO is less toxic and has less
int he way of side effects than any of them."
Collagen and Scleroderma
Scleroderma
is a rare, disabling, and sometimes fatal disease, resulting form an
abnormal buildup of collagen in the body. The body swells, the
skin--particularly on hands and face--becomes dense and leathery, and
calcium deposits in joints cause difficulty of movement. Fatigue and
difficulty in breathing may ensue. Amputation of affected digits may
be necessary. The cause of scleroderma is unknown, and, until DMSO
arrived, there was no known effective treatment.
Arthur
Scherbel, MD, of the department of rheumatic diseases and pathology
at the Cleveland Clinic Foundation, conducted a study using DMSO with
42 scleroderma patients who had already exhausted all other possible
therapies without relief. Dr. Scherbel and his coworkers concluded 26
of the 42 showed good or excellent improvement. Histotoxic changes
were observed together with healing of ischemic ulcers on fingertips,
relief from pain and stiffness, and an increase in strength. The
investigators noted, "It should be emphasized that these have
never been observed with any other mode of therapy."10
Researchers in other studies have since come to similar
conclusions.11
Does DMSO Help Arthritis?
It
was inevitable that DMSO, with its pain-relieving,
collagen-softening, and anti-inflammatory characteristics, would be
employed against arthritis, and its use has been linked to arthritis
as much as to any condition. Yet the FDA has never given approval for
this indication and has, in fact, turned down three Investigational
New Drug (IND) applications to conduct extensive clinical trials.
Moreover,
its use for arthritis remains controversial. Robert Bennett, MD,
F.R.C.P., F.A.C.R., F.A.C.P., professor of medicine and chief,
division of arthritis and rheumatic disease at Oregon Health Sciences
University (Dr. Jacob's university), says other drugs work better.
Dava Sobel and Arthur Klein conducted their own informal study of 47
arthritis patients using DMSO in preparation for writing their book,
Arthritis: What Works, and came to the same conclusion.12
Yet
laboratory studies have indicated that DMSO's capacity as a
free-radical scavenger suggests an important role for it in
arthritis.13 The Committee of Clinical Drug Trials of the Japanese
Rheumatism Association conducted a trial with 318 patients at several
clinics using 90 percent DMSO and concluded that DMSO relieved joint
pain and increased range of joint motion and grip strength, although
performing better in more recent cases of the disease.14 It is
employed widely in the former Soviet Union for all the different
types of arthritis, as it is in other countries around the world.
Dr.
Jacob remains convinced that it can play a significant role in the
treatment of arthritis. "You talk to veterinarians associated
with any race track, and you'll find there's hardly an animal there
that hasn't been treated with DMSO. No veterinarian is going to give
his patient something that does not work. There's no placebo effect
on a horse."
DMSO and Central Nervous System
Trauma
Since
1971, Dr. de la Torre, then at the University of Chicago, has
experimented using DMSO with injury to the central nervous system.
Working with laboratory animals, he discovered that DMSO lowered
intracranial pressure faster and more effectively than any other
drug. DMSO also stabilized blood pressure, improved respiration, and
increased urine output by five times and increased blood flow through
the spinal cord to areas of injury.15-17 Since then, DMSO has been
employed with human patients suffering severe head trauma, initially
those whose intracranial pressure remained high despite the
administration of mannitol, steroids, and barbiturates. In humans, as
well as animals, it has proven the first drug to significantly lower
intracranial pressure, the number one problem with severe head
trauma.
"We
believe that DMSO may be a very good product for stroke," says
Dr. de la Torre, "and that is a devastating illness which
affects many more people than head injury. We have done some
preliminary clinical trials, and there's a lot of animal data showing
that it is a very good agent in dissolving clots."
Other Possible Applications for
DMSO
Many
other uses for DMSO have been hypothesized from its known qualities
hand have been tested in the laboratory or in small clinical trials.
Mr. Bristol speaks with frustration about important findings that
have never been followed up on because of the difficulty in finding
funding and because "to have on your resume these days that
you've worked on DMSO is the kiss of death." It is simply too
controversial. A sampling of some other possible applications for
this drug follows.
DMSO
as long been used to promote healing. People who have it on hand
often use it for minor cuts and burns and report that recovery is
speedy. Several studies have documented DMSO use with soft tissue
damage, local tissue death, skin ulcers, and burns.18-21
In
relation to cancer, several properties of DMSO have gained attention.
In one study with rats, DMSO was found to delay the spread of one
cancer and prolong survival rates with another.22 In other studies,
it has been found to protect noncancer cells while potentiating the
chemotherapeutic agent.
Much
has been written recently about the worldwide crisis in antibiotic
resistance among bacteria (see Alternative & Complementary
Therapies, Volume 2, Number 3, 1996, pages 140-144) Here, too, DMSO
may be able to play a role. Researcher as early as 1975 discovered
that it could break down the resistance certain bacteria have
developed.23
In
addition to its ability to lower intracranial pressure following
closed head injury, Dr. de la Torre's work suggests that the drug may
actually have the ability to prevent paralysis, given its ability to
speedily clean out cellular debris and stop the inflammation that
prevents blood from reaching muscle, leading to the death of muscle
tissue.
With
its great antioxidant powers, DMSO could be used to mitigate some of
the effects of aging, but little work has been done to investigate
this possibility. Toxic shock, radiation sickness, and septicemia
have all been postulated as responsive to DMSO, as have other
conditions too numerous to mention here.
DMSO in the Future
Will
DMSO ever sit on the shelves of pharmacies in this country as a legal
prescriptive for many of the conditions it may be able to address?
Will the studies we need to discover when this drug is most
appropriate ever be done? Given the difficulties the drug has run
into so far and the recent development of new drugs that perform some
of the same functions, Mr. Bristol is doubtful. Others, however, such
as Dr. Jacob and Dr. de la Torre, see the FDA approval of DMSO for
interstitial cystitis and the more recent FDA go-ahead for DMSO
trials with closed head injury as new indications of hope. The
cystitis approval means that physicians may use it at their
discretion for other uses, giving DMSO a new legitimacy.
Dr.
Jacob continues to believe that DMSO should not even be called a drug
but is more correctly a new therapeutic principle, with an effect on
medicine that will be profound in many areas. Whether that is true
cannot be known without extensive a publicly reported trials, which
are dependent on the willingness of researchers to undertake rigorous
studies in this still-unfashionable tack and of pharmaceutical
companies and other investors to back them up. That this is a live
issue is proved by the difficulty the investigators with approval to
test DMSO for closed head injury clinically are having finding funds
to conduct the trials.
In
1980, testifying before the Select Committee on Agin of the U.S.
House of Representatives, Dr. Scherbel said, "The controversy
that exists over the clinical effectiveness of DMSO is not
well-founded--clinical effectiveness may be variable in different
patients. If toxicity is consistently minimal, the drug should not be
restricted from practice. The clinical effectiveness of DMSO can be
decided with complete satisfaction if the drug is made available to
the practicing physician. The number of patient complaints about pain
and the number of phone calls to the doctor's office will decide
quickly whether or not the drug is effective."
It
may be premature to call for the full rehabilitation of DMSO, but it
is time to call for a full investigation of its true range of
capabilities.
Source: www.dmso.org/
Source: www.dmso.org/
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