Toxicity Clinical Trial
Official title:
Transdermal Absorption of DMPS and Its Effect on Urinary Mercury Excretion
DMPS is a metal chelator which is approved for use in Europe. While not an FDA-approved drug in the US, it is easily obtained and administered by alternative health practitioners to their patients. A formulation called 'TD DMPS' (transdermal DMPS) is in use, despite the fact there is no published literature to support that the agent is absorbed transdermally. The investigators hypothesis is that DMPS is not absorbed through the skin. The investigators plan to apply TD DMPS to healthy volunteers and then test serum for presence of DMPS. In addition the investigators will measure urinary mercury concentrations pre and post DMPS application.
I. Background Information and Literature:
2,3-dimercaptopropane-1-sulfonate (DMPS) is a chelating agent that has been used for years
in Europe for treatment of poisoning by metals such as mercury, arsenic, and lead. It is a
water soluble analog of dimercaptopropanol (British anti-Lewisite, or BAL), which is an FDA
approved chelating agent administered via deep intramuscular injection. DMPS is not FDA
approved, but is approved in Europe and is available in Germany without a prescription, as
Dimaval. It is felt to have less toxicity than BAL, and unlike BAL, is effective when
administered orally(1).
A comprehensive review by Aposhian, et al (1) notes that DMPS has been studied since the
late 1950's in the Soviet Union and China and appears innocuous. This review mentions a 1979
study which followed 168 scleroderma patients receiving DMPS for 10 years. Some patients
experienced mild side effects such as minor allergic reaction (26 patients, none with
anaphylaxis), nausea (11 patients), vertigo (7 patients), weakness (4 patients), or itching
(3 patients). No renal toxicity was noted. Additionally, chelation therapy with oral DMPS
was found to be safe when used in a series of patients with methylmercury toxicity from
contaminated grain in Iraq in 1972 (2). It was also not associated with any adverse effects
when used to orally chelate lead poisoned children in Baltimore, Maryland in 1985 (3). This
1985 study cites case series of DMPS being safely and effectively used for treatment of lead
poisoning and inorganic mercury poisoning as well.
DMPS showed no mutagenicity in the Ames salmonella microsome plate test.
Soviet studies showed that when their usual human dose of 5mg/kg IV was increased to
100mg/kg IV, ulceration or necrosis at the injection site was noted. Animal studies with
very large (50mg/kg) IV doses showed tremors, tachycardia, dyspnea, vomiting, and
defecation. Other animal studies, however, noted no behavioral, weight, or blood composition
changes in animals given 15 or 80mg/kg IV DMPS.
Animal and human data demonstrated DMPS to be less toxic than the currently FDA approved
chelating agent, BAL (1).
Our study proposes to apply a single dose of a liquid formulation of DMPS to the skin.
Though there is no available animal or human data on this form of application, it is being
used throughout the U.S. by many naturopaths and physicians as a chelating agent for
children with autism. In the pamphlets and protocols of these physicians, the only side
effects they mention seeing are mild skin rash and, with chronic therapy, possible depletion
of other necessary metals (such as zinc and magnesium), for which they provide a mineral
supplement.
Since we will be using a small, one-time only dose, there is no risk of significant metal or
mineral depletion. The main risk to subjects will be mild skin rash, which can easily be
monitored.
II. Manufacturing information:
The transdermal DMPS to be used in the study will be obtained from Bellevue Pharmacy, a
compounding pharmacy (1034 S. Brentwood Blvd. Suite 102 St. Louis, MO 63117), which supplies
this product to doctors all over the U.S. According to the literature they provide, the
product is an anhydrous gel dispensed in 30 ml bottles. Each drop reportedly contains 1mg of
DMPS and 4mg of glutathione. We will buy the product we need for the study in one bulk batch
since each subject will only be getting one dose.
Prior to conducting the study, a bottle will be sent to the FDA lab to be analyzed for
confirmation of the presence of DMPS in the gel.
III. Investigator Qualifications:
Principal Investigator:
Anne-Michelle Ruha, MD, FACMT
Assistant Investigator:
Jennifer Smith, MD
Both investigators are board certified emergency physicians, Dr. Ruha is a board certified
medical toxicologist, and Dr. Smith is near completion of her fellowship in medical
toxicology (see attached curriculum vitae). At least one investigator will be present at all
times during the application of the product and the follow-up blood draws. We will be
prepared to deal with any acute reactions which occur, allergic or otherwise. After this
time period we will be available by phone via the poison center 24 hours a day, 7 days a
week for any concerns or complications experienced by study subjects.
IV. Study Protocol:
Since transdermal DMPS delivery is widely used but has not been studied, the clinical
question we wish to answer is whether DMPS is absorbed through the skin after transdermal
application and if so, whether it increases urinary mercury excretion.
We will recruit 10 healthy adult volunteers, over 18 years of age, who eat at least three
servings of fish per week (since this diet is associated with detectable levels of mercury
in the urine which may rise following chelation). Patients with known allergies to DMPS or
sulfa drugs or history of neurologic or renal disease will be excluded. We will also control
for number of mercury containing dental amalgams. History will be obtained regarding any
potential mercury exposures or recent vaccinations.
12 hr urine mercury and creatinine levels will be measured on all volunteers prior to any
treatment. The urine will be collected in acid-washed or heavy-metal-free specialty
containers. It will be refrigerated during and after the collection period and shipped to
NMS labs (with cooling pack) for measurement of mercury levels and mercury:creatinine
ratios. Each volunteer will then receive 120 mg of transdermal DMPS, applied to the bicep
area of one arm. The area of application will not exceed 2% body surface area. The dose of
DMPS was determined based on the "challenge dose" from the "Buttar Autism treatment
Protocol", used by Dr. Rashid Buttar in his clinic for the treatment of autistic children.
This protocol advises use of 3 mg/kg, with a max dose of 120 mg. After dosing, urine will be
collected for the next 12 hours (using the same protocol and send-out procedure) and assayed
for mercury and creatinine levels.
Additionally, after dosing, an intravenous catheter will be placed in the arm of each
subject for blood draws. Blood samples will be obtained at 30 minutes, 60 minutes, 90
minutes, 2 hours, 4 hours and 6 hours after application of the DMPS. These samples will be
sent to the FDA for DMPS analysis.
Subjects will be monitored during application and for the subsequent 6 hours for the
development of skin rash or any other symptoms related to the DMPS, though this is unlikely.
If rash develops the skin will be washed and the reaction can be treated as necessary. At
the end of the 6 hours, the skin will be cleansed with soap and water and the treatment
period ends.
When analyzing the data after collection, we will first look at whether any DMPS was
detectable in the blood after application. If so, we will examine the 12 hour urine mercury
levels from before and after application to determine whether this increased. We will
control for number of dental amalgams, which can affect baseline urinary Hg levels. If an
increase is detected, we will compare the magnitude of this increase to available data on
urinary Hg excretion increase after oral DMPS administration.
;
Allocation: Non-Randomized, Endpoint Classification: Bio-availability Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Basic Science
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