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Antidote Universal untuk
gigitan ular: eksperimental
Universal antidote for snakebite: Experimental trial represents promising
step toward
Date:
May 28, 2014
Source:
California Academy of Sciences
Summary:
Another promising step has been made toward developing
a universal antidote for snakebite. The results of this pilot study revealed
findings that support the team's idea that providing fast, accessible, and
easy-to-administer treatment can increase survival rates in victims of venomous
snakebite.
....................
A team of researchers, led by Dr. Matthew Lewin of the
California Academy of Sciences and Dr. Stephen P. Samuel of Trinity College
Dublin, Ireland has taken another promising step toward developing a universal
antidote for snakebite. Last summer, the team tested the effectiveness of a nasally
administered antiparalytic drug on mice injected with high doses of Indian
cobra (Naja naja) venom. Mice injected
with otherwise fatal doses of venom outlived and in many cases survived after
being treated with the antiparalytic agent, neostigmine. These findings support
the team's idea that providing fast, accessible, and easy-to-administer
treatment can increase survival rates in victims of venomous snakebite.
The results
of this pilot study were recently published in the Journal of Tropical
Medicine.
During the
course of the experiment, separate groups of mice were given varying doses of
venom (all above lethal limits) and then treated with the antiparalytic
treatment at two different time intervals: within 1-2 minutes after
envenomation and 10 minutes after envenomation. 10 of 15 mice given the lowest
dose of venom, followed by the treatment within 10 minutes, survived and later
exhibited completely normal behavior, while 100 percent of control mice died.
In groups given higher doses of cobra venom (2 to 5 times the lethal dose) all
mice succumbed, but those treated with a single dose of neostigmine survived
significantly longer than the controls. Although the mice in this experiment
were each treated only once to maintain a consistent protocol, a nasally
administered antidote could, in practice, be administered multiple times
without needles. Inhibitors of other types of venom could be combined with
those working against paralysis to form a complete antidote. With many
combinations for potential testing, the team is now working intensively with
chemist and snake venom expert, Dr. Sakthivel Vaiyapuri of Reading University
in the United Kingdom, a co-author on the report.
"Antivenom
is necessary, but not sufficient to manage this problem. Its limitations are
fairly well known at this point and we need a better bridge to survival. It's
ironic that virtually every medical organization and practitioner wears the
snake symbol, yet we have no real effective treatments for the people getting
bitten," says Dr. Lewin, Director of the Center for Exploration and Travel
Health at the Academy. "Ninety-eight percent of snakebite victims live in
poverty, which is perhaps why funding and innovation are lacking. The bottom
line is that no one should die from a snake bite in the twenty-first century,
and we're optimistic about this promising step."
The team
initially demonstrated the potential of this novel snakebite treatment during
an experiment conducted in April of 2013 at the University of California, San
Francisco. In that experiment, a healthy human volunteer was paralyzed, while
awake, using a toxin that mimics the effects of the venom of cobras and other
snakes that disable their victims by paralysis. The experimental paralysis
progressed from eye muscle weakness to respiratory distress in the same order
typically seen in snakebite victims. The team then administered the nasal spray
and within 20 minutes the patient had recovered. The results of this experiment
were published in the medical journal Clinical Case Reports.
In late June
of 2013, Samuel, Dr. C. Soundara Raj, and colleagues at TCR Multispeciality
Hospital in Krishnagiri, Tamil Nadu, India accelerated the recovery of a
snakebite victim on life support using this method. After receiving 30 vials of
antivenom, the standard treatment for venomous snakebites, the female patient
remained weak and suffered from facial paralysis. Within 30 minutes of
treatment with the antiparalytic nasal spray, the patient's facial paralysis
was reversed. Two weeks after being treated, the patient reported having
returned to her daily activities.
As the head
of the Academy's Center for Exploration and Travel Health, Lewin prepares field
medicine kits for the museum's scientific expeditions around the world and
often accompanies scientists as the expedition doctor. In 2011, Lewin assembled
snakebite treatment kits for the Academy's Hearst Philippine Biodiversity
Expedition, which would have required scientists to inject themselves if they
were bitten. Lewin began to wonder if there might be an easier way to treat
snakebite in the field and began to explore the idea of a quick and
easy-to-administer nasal spray.
Snakebite is
one of the most neglected of all tropical diseases, with nearly 5 million
people bitten by snakes each year. The number of fatalities globally is up to
30 times that of land mines and comparable to AIDS in some developing
countries. In India alone, snakes kill approximately a third as many people as
AIDS and severely injure many more. It has been estimated that more than 75
percent of snakebite victims who die do so before they ever reach the hospital,
predominantly because there is no easy way to treat them in the field. Lewin's
new approach may dramatically reduce the number of global snakebite fatalities,
currently estimated to be as high as 94,000 per year.
Story
Source:
The above
story is based on materials provided by California Academy of Sciences. Note: Materials may be edited
for content and length.
Journal
References:
- Matthew R. Lewin, Philip Bickler, Tom Heier, John Feiner, Lance Montauk, Brett Mensh. Reversal of experimental paralysis in a human by intranasal neostigmine aerosol suggests a novel approach to the early treatment of neurotoxic envenomation. Clinical Case Reports, 2013; 1 (1): 7 DOI: 10.1002/ccr3.3
- Matthew R. Lewin, Stephen P. Samuel, David S. Wexler, Philip Bickler, Sakthivel Vaiyapuri, Brett D. Mensh. Early Treatment with Intranasal Neostigmine Reduces Mortality in a Mouse Model of Naja naja (Indian Cobra) Envenomation. Journal of Tropical Medicine, 2014; 2014: 1 DOI: 10.1155/2014/131835
