Medical Management Guidelines for Blister Agents:
Lewisite (L)(C2H2AsCl3)
Mustard-Lewisite Mixture (HL)
CAS# Lewisite (L) 541-25-3, Mustard-Lewisite Mixture (HL) CAS Number not available
UN# Lewisite (L) 1556, Mustard-Lewisite Mixture (HL) 2810
PDF Versionpdf icon[97 KB]
Synonyms for Lewisite include L, arsine
(2-chlorovinyl) dichloro-, arsenous dichloride (2-chloroethenyl)-,
chlorovinylarsine dichloride, 2-chlorovinyldichloroarsine,
beta-chlorovinyldichloroarsine, dichloro-(2-chlorovinyl)arsine,
EA1034.
Synonyms for Mustard-Lewisite include
HL and Sulfur Mustard/Lewisite.
- Persons whose skin or clothing is contaminated with liquid
Lewisite or Mustard-Lewisite Mixture can contaminate rescuers
by direct contact or through off-gassing vapor.
- Lewisite is an oily, colorless liquid with an odor like
geraniums. Mustard-Lewisite Mixture is a liquid with a garlic-like
odor. Volatility of both agents is significant at high ambient
temperatures.
- Lewisite and Mustard-Lewisite Mixture are rapidly absorbed
by the skin causing immediate pain and burning followed
by erythema and blistering. Ocular exposure to Lewisite
or the mixture may cause immediate incapacitating burning
and inflammation of the cornea and conjunctiva. Inhalation
damages the respiratory tract epithelium and may cause death.
General Information
Description
Lewisite is an organic arsenical known
for its vesicant properties. Pure Lewisite is an oily, colorless
liquid, while impure Lewisite is amber to black. It remains
a liquid at low temperatures and is persistent in colder climates.
It has the odor of geraniums.
Mustard-Lewisite Mixture is a liquid
mixture of distilled Mustard (HD) and Lewisite. Due to its
low freezing point, the mixture remains a liquid in cold weather
and at high altitudes. The mixture with the lowest freezing
point consists of 63% Lewisite and 37% Mustard. It has a garlic-like
odor.
Routes of Exposure
Inhalation
Exposure to Lewisite vapor at a concentration
of 8 mg-min/m3 causes immediate burning pain of the respiratory
tract. Its odor is noted at about 20 mg-min/m3. The LCt50
(the product of concentration times time that is lethal to
50% of the exposed population by inhalation) is approximately
1,500 mg-min/m3. Exposure to Mustard-Lewisite Mixture
vapor induces immediate respiratory tract irritation and severe
inflammation after a few hours latency period. Both agents
are readily absorbed from the lungs.
Skin/Eye Contact
Absorption may occur after skin or eye
contact with liquid or vapor Lewisite. Absorption across the
skin begins within minutes. Vesication is caused by about
14 µg of liquid, and the LD50 of liquid on
the skin is about 30-50 mg/kg. Liquid Lewisite causes severe
eye damage within minutes of contact. The vapor also acts
quickly, with pain on contact, followed by edema of the conjunctiva
and eyelids, and iritis and corneal damage with high doses.
Systemic absorption may occur following skin or eye exposure
to liquid or vapor Mustard-Lewisite Mixture. The mixture causes
immediate stinging pain of the skin, with blistering delayed
for hours. Graying of the skin will follow within a very short
time if exposure is from liquid (because of Lewisite). Erythema
and blisters will appear earlier than from mustard alone.
Exposure of the eyes to Mustard-Lewisite Mixture produces
lacrimation and inflammation of the conjunctiva and cornea.
After exposure to low amounts of Lewisite or to the mixture,
temporary loss of eyesight may occur because of blepharospasm
or eyelid edema. After exposure to high amounts, permanent
loss of sight may occur because of corneal damage; however,
this is unusual.
Ingestion
Ingestion of either Lewisite or Mustard-Lewisite
Mixture is an uncommon route for exposure but can lead to
local effects and systemic absorption.
Sources/Uses
Lewisite is an arsenical vesicant that
was first synthesized in 1918. Large amounts were produced
by the United States to be used in Europe; however, World
War I ended while the shipment was at sea and the vessel was
sunk. There have been allegations that it was used by Japan
against Chinese forces in the late 1930s; however, there are
no confirmed reports that it has been used in warfare, although
it may be stockpiled by some countries. Destruction of U.S.
stockpiles of chemical agents, including Lewisite, was mandated
by the Chemical Weapons Convention to take place before April
2007.
Mustard-Lewisite Mixture is a mixture
of distilled Mustard and Lewisite developed to achieve a lower
freezing point for ground dispersal and aerial spraying.
Standards and Guidelines
Lewisite and Mustard-Lewisite Mixture:
Airborne Exposure Limit (as recommended by the Surgeon General's
Working Group, U.S. Department of Health and Human Services)
= 0.003 mg/m3 as a time-weighted average (TWA) for the
workplace and a 72-hour TWA for the general population.
Physical Properties
Table 1. Physical Properties of Lewisite and Mustard-Lewisite Mixture
| Property |
Lewisite |
Mustard-Lewisite Mixture |
| Description |
Oily, colorless liquid |
Dark, oily liquid |
| Warning properties |
Odor like geraniums |
Garlic-like odor |
| Molecular weight |
207.32 |
|
| Boiling point |
(760 mm Hg) = 374 °F (190 °C) |
(760 mm Hg) = Indefinite, but below 374 °F (190 °C) |
| Freezing point |
0.4 °F (-18 °C) |
13 °F (-25.4 °C) (purified mix), -43.6 °F (-42 °C) (typical production batch) |
| Specific gravity |
1.888 at 68 °F (20 °C) (water = 1.0) |
1.60 at 68 °F (20 °C) (water = 1.0) |
| Vapor pressure |
0.394 mm Hg at 68 °F (20 °C) |
0.248 at 68 °F (20 °C) |
| Vapor density |
7.1 (air = 1.0) |
6.5 (air = 1.0) |
| Liquid density |
1.89 g/cm at 77 °F (25 °C) |
1.66 g/cm at 68 °F (20 °C) |
| Flash point |
Does not burn easily. When heated, emits toxic fumes of hydrogen chloride and arsenic. |
Data not available on flammability. Toxic fumes of hydrogen chloride, sulfur oxides, and arsenic may be produced in a fire. |
| Solubility in water |
Neglible |
Practically insoluble |
| Volatility |
4,480 mg/m3 (20 °C) |
No data |
| NAERG# |
153 |
153 |
Incompatibilities
Heating causes Lewisite to yield arsenic
trichloride, tris-(2-chlorovinyl)arsine, and bis-(2-chlorovinyl)chloroarsine.
Mustard-Lewisite Mixture is rapidly corrosive
to brass at 65 °C and will corrode steel at a rate of
0.0001 inches of steel per month at 65 °C. It will hydrolyze
into hydrochloric acid, thiodiglycol, and non-vesicant arsenic
compounds.
Health Effects
- Lewisite and Mustard-Lewisite Mixture are blister agents
that are highly and immediately irritating to the skin,
eyes, and airways. Contact with liquid or vapor forms may
result in skin erythema and blistering, corneal damage and
iritis, damage to the airway mucosa, and pulmonary edema.
- Lewisite is a systemic poison binding with thiol groups
in many enzymes and may cause pulmonary edema, diarrhea,
capillary leakage, and subsequent hypotension.
- Systemic absorption of Mustard-Lewisite Mixture may cause
bone marrow suppression due to the alkylating properties
of the Mustard component.
Acute Exposure
Lewisite damages skin, eyes, and airways
by direct contact. It inhibits many enzymes, in particular
those with thiol groups, such as pyruvic oxidase, alcohol
dehydrogenase, succinic oxidase, hexokinase, and succinic
dehydrogenase. The exact mechanism by which Lewisite damages
cells is not known. Mustard-Lewisite Mixture shares the vesicant
properties of Lewisite and the DNA alkylation and cross-linking
properties of mustard.
Dermal
Lewisite liquid or vapor produces pain
and skin irritation within seconds to minutes after contact.
For liquid Lewisite, erythema occurs within 15 to 30 minutes
after exposure and blisters start within several hours, developing
fully by 12-18 hours. For the vapor, response times are a
little longer. The Lewisite blister starts as a small blister
in the center of the erythematous area and expands to include
the entire inflamed area. Mustard-Lewisite Mixture also produces
pain and irritation immediately, and erythema within 30 minutes.
Blistering is delayed for hours and tends to cover the entire
area of reddened skin.
Ocular
Lewisite vapor causes pain and blepharospasm
on contact. Edema of the conjunctiva and eyelids follows,
and the eyes may be swollen shut within an hour. With high
doses, corneal damage and iritis may follow. Liquid Lewisite
causes severe eye damage on contact. Mustard-Lewisite Mixture
also causes ocular effects extremely rapidly. Lacrimation,
photophobia, and inflammation of the conjunctiva and cornea
may occur.
Respiratory
Lewisite and Mustard-Lewisite Mixture
are extremely irritating to the respiratory tract mucosa.
Burning nasal pain, epistaxis, sinus pain, laryngitis, cough
and dyspnea may occur. Necrosis can cause pseudomembrane formation
and local airway obstruction. Pulmonary edema may occur following
exposure to high concentrations.
Gastrointestinal
Ingestion or inhalation of Lewisite may
cause nausea and vomiting. Ingestion of Mustard-Lewisite Mixture
produces severe stomach pains, vomiting, and bloody stools
after a 15-20 minute latency period.
Cardiovascular
High-dose exposure to Lewisite may cause
"Lewisite shock," a condition resulting from increased capillary
permeability and subsequent intravascular fluid loss, hypovolemia,
and organ congestion.
Hepatic
Hepatic necrosis may occur due to shock
and hypoperfusion following exposure to high levels of Lewisite.
Renal
Exposure to high levels of Lewisite may
cause decreased renal function secondary to hypotension.
Hematopoietic
Systemic absorption of Mustard-Lewisite
Mixture may induce bone marrow suppression and an increased
risk for fatal complicating infections.
Potential Sequelae
Chronic respiratory and eye conditions
may persist following exposure to large amounts of Lewisite
or Mustard-Lewisite Mixture
Chronic Exposure
Chronic exposure to Lewisite may lead
to arsenical poisoning (see Arsenic MMG). Chronic exposure
to Mustard-Lewisite Mixture can cause immune sensitization
and chronic lung impairment consisting of cough, shortness
of breath, and chest pain.
Carcinogenicity
There is only anecdotal evidence for
the potential carcinogenicity of Lewisite. However, the data
are not definitive and do not support classifying Lewisite
as a suspected carcinogen. Repeated exposures to Mustard-Lewisite
Mixture over a long period of time may produce respiratory
and skin cancer due to the mustard content. There are no specific
data regarding the carcinogenicity of Mustard-Lewisite Mixture.
Reproductive and Developmental Effects
Human data regarding reproductive/developmental
effects of Lewisite are inconclusive because of limited human
exposures. Animal studies show no clear evidence of developmental
effects.
Prehospital Management
- Victims whose skin or clothing is contaminated with liquid
Lewisite or Mustard-Lewisite Mixture can contaminate rescuers
by direct contact or through off-gassing vapor.
- Lewisite and Mustard-Lewisite Mixture cause immediate
pain and irritation to the eyes, skin, and respiratory tract.
Systemic effects include capillary leakage and subsequent
shock.
- Decontamination immediately after exposure decreases tissue
damage.
Hot Zone
Responders should be trained and appropriately
attired before entering the Hot Zone. If the proper personal
protective equipment (PPE) is not available, or if the rescuers
have not been trained in its use, call for assistance in accordance
with local Emergency Operational Guides (EOG). Sources of
such assistance include local HAZMAT teams, mutual aid partners,
the closest metropolitan strike system (MMRS) and the U.S.
Soldier and Biological Chemical Command (SBCCOM)-Edgewood
Research Development and Engineering Center SBCCOM may be
contacted (from 0700-1630 EST call 410-671-4411 and from 1630-0700
EST call 410-278-5201 ), ask for the Staff Duty Officer.
Rescuer Protection
Lewisite and Mustard-Lewisite Mixture
are readily absorbed by inhalation and by ocular and dermal
contact. Both Lewisite and Mustard-Lewisite Mixture are extremely
irritating to the respiratory tract, skin, and eyes.
Respiratory Protection: Pressure-demand,
self-contained breathing apparatus (SCBA) is recommended in
response situations that involve exposure to any level of
Lewisite and Mustard-Lewisite Mixture vapor.
Skin/ocular Protection: Personal
protective equipment (PPE) and butyl rubber chemical protective
gloves are recommended at all times when these chemicals are
suspected to be involved.
Multi-Casualty Triage
Chemical casualty triage is based on
walking feasibility, respiratory status, age, and additional
conventional injuries. The triage officer must know the natural
course of a given injury, the medical resources immediately
available, the current and likely casualty flow, and the medical
evacuation capabilities. General principles of triage for
chemical exposures are presented in the box on the following
page. There are four triage categories: immediate (priority
1), delayed (priority 2), minimal (priority 3), and expectant
(priority 4). Clinical signs and effects of lewisite agents
associated with each of these categories are presented in
Table 2 (below).
Before transport, all casualties must
be decontaminated. If needed, consult with the base station
physician or the regional poison control center for advise
concerning management of multiple casualties.
Patients who have sustained injury to
the skin, eyes, or airways and patients who have ingested
Lewisite or Mustard-Lewisite Mixture should be transported
to a medical facility for evaluation and treatment.
Consult with the base station physician,
closest Metropolitan Medical Response System, or the regional
poison control center for advice regarding triage of multiple
victims.
General principles of triage for chemical
exposures are as follows:
- Check triage tag/card for any previous treatment or triage.
- Survey for evidence of associated traumatic/blast injuries.
- Observe for sweating, labored breathing, coughing/vomiting,
secretions.
- Severe casualty triaged as immediate if assisted breathing
is required.
- Blast injuries or other trauma, where there is question
whether there is chemical exposure, victims must be tagged
as immediate in most cases. Blast victims evidence delayed
effects such as ARDS, etc.
- Mild/moderate casualty: self/buddy aid, triaged as delayed
or minimal and release is based on strict follow up and
instructions.
- If there are chemical exposure situations which may cause
delayed but serious signs and symptoms, then overtriage
is considered appropriate to the proper facilities that
can observe and manage any delayed onset symptoms. For
Lewisite and Mustard-Lewisite mixture which do not have
delayed effects overtriage would not be approprite.
- Expectant categories in multi-casualty events are those
victims who have experienced a cardiac arrest, respiratory
arrest, or continued seizures immediately. Resources should
not be expended on these casualties if there are large numbers
of casualties requiring care and transport with minimal
or scant resources available.
- Immediate: casualties who require lifesaving care
within a short time, when that care is available and of
short duration. This care may be a procedure that can be
done within minutes at an emergency treatment station (e.g.,
relief of an airway obstruction, administering antidotes)
or may be acute lifesaving surgery.
- Delayed: casualties with severe injuries who are
in need of major or prolonged surgery or other care and
who will require hospitalization, but delay of this care
will not adversely affect the outcome of the injury (e.g.,
fixation of a stable fracture).
- Minimal: casualties who have minor injuries, can
be helped by nonphysician medical personnel, and will not
require hospitalization.
- Expectant: casualties with severe life-threatening
injuries who would not survive with optimal medical care,
or casualties whose injuries are so severe that their chance
of survival does not justify expenditure of limited resources.
As circumstances permit, casualties in this category may
be reexamined and possibly be retriaged to a higher category.
Table 2. Triage for Lewisite Casualties
| Category (Priority) |
Clinical Signs and Symptoms |
| Immediate (1) |
Lower respiratory signs (dyspnea, productive cough) |
| Delayed (2) |
Eye lesions with impaired vision; moderate sized skin lesions for liquid exposure or any body surface burn for vapor exposure; lower respiratory symptoms (cough with sputum production) |
| Minimal (3) |
Minor eye lesion with no vision impairment; small skin lesions in noncritical areas; minor upper respiratory symptoms (cough, sore throat). |
| Expectant (4) |
Lower respiratory signs (dyspnea, necrosis); skin lesion covering more than half of body surface area from liquid exposure |
ABC Reminders
Quickly ensure that the victim has a
patent airway. Maintain adequate circulation. If trauma is
suspected, maintain cervical immobilization manually and apply
a cervical collar and a backboard when feasible. Apply direct
pressure to stop arterial bleeding, if present.
Victim Removal
If victims can walk, lead them out of
the Hot Zone to the Decontamination Zone. Victims who are
unable to walk may be removed on backboards or gurneys. If
these are not available, carefully carry or drag victims to
safety.
Decontamination Zone
All victims require decontamination (see
Basic Decontamination, below). Rapid decontamination
is critical to prevent further absorption by the patient and
to prevent exposure to others. Decontaminable gurneys and
back boards should be used if available when managing casualties
in a contaminated area. Decontaminable gurneys are made of
a monofilament polypropylene fabric that allows drainage of
liquids, does not absorb chemical agents, and is easily decontaminated.
Fiberglass back boards have been developed specifically for
use in HAZMAT incidents. These are nonpermeable and readily
decontaminated. The Chemical Resuscitation Device is
a bag-valve mask equipped with a chemical agent cannister
that can be used to ventilate casualties in a contaminated
environment.
Rescuer Protection
Personnel should wear the same level
of protection as required in the Hot Zone (see Rescuer
Protection under Hot Zone, above).
ABC Reminders
Quickly ensure that the victim has a
patent airway. Maintain adequate circulation. Stabilize the
cervical spine with a decontaminable collar and a backboard
if trauma is suspected. Administer supplemental oxygen if
cardiopulmonary compromise is suspected. Assist ventilation
with a bag-valve-mask device equipped with a cannister or
air filter if necessary. Direct pressure should be applied
to control bleeding, if present.
Basic Decontamination
To significantly reduce tissue damage,
the eyes and skin must be decontaminated within 1 or 2
minutes after exposure. Flush the eyes immediately with
water for about 5 to 10 minutes by tilting the head to the
side, pulling eyelids apart with fingers, and pouring water
slowly into eyes. Do not cover eyes with bandages.
If exposure to liquid agent is suspected,
cut and remove all clothing and wash skin immediately with
soap and water. If shower areas are available, showering with
water alone will be adequate. However, in those cases where
water is in short supply, and showers are not available, an
alternative form of decontamination is to use 0.5% sodium
hypochlorite solution or absorbent powders such as flour,
talcum powder, or Fuller's earth. If exposure to vapor only
is certain, remove outer clothing and wash exposed areas with
soap and water or 0.5% solution of sodium hypochlorite. Place
contaminated clothes and personal belongings in a sealed double
bag.
In cases of ingestion, do not induce
emesis.
Transfer to Support Zone
As soon as basic decontamination is complete,
move the victim to the Support Zone.
Support Zone
Be certain that victims have been decontaminated
properly (see Decontamination Zone above). Victims
who have undergone decontamination pose no serious risk of
secondary contamination to rescuers. In such cases, Support
Zone personnel require no specialized protective gear.
ABC Reminders
Quickly ensure that the victim has a
patent airway. If trauma is suspected, maintain cervical immobilization
manually and apply a cervical collar and a backboard when
feasible. Ensure adequate respiration; administer supplemental
oxygen if cardiopulmonary compromise is suspected. Maintain
adequate circulation. Establish intravenous access if necessary.
Attach a cardiac monitor, as needed. Direct pressure should
be applied to stop bleeding, if present.
Additional Decontamination
In cases of ingestion, do not induce
emesis.
Advanced Treatment
Intubate the trachea in cases of respiratory
compromise. When the patient's condition precludes endotracheal
intubation, perform cricothyrotomy if equipped and trained
to do so.
Treat patients who have bronchospasm
with bronchodilators.
Patients who are comatose, hypotensive,
or have seizures or cardiac dysrhythmias should be treated
according to advanced life support (ALS) protocols.
Transport to Medical Facility
Report to the base station and the receiving
medical facility the condition of the patient, treatment given,
and estimated time of arrival at the medical facility.
Emergency Department Management
- Patients whose skin or clothing is contaminated with liquid
Lewisite and Mustard-Lewisite Mixture can contaminate rescuers
by direct contact or through off-gassing vapor.
- Lewisite and Mustard-Lewisite Mixture cause immediate
pain and irritation to the eyes, skin, and respiratory tract.
Systemic effects include capillary leakage and subsequent
shock. The Mustard-Lewisite Mixture may cause bone marrow
suppression due to the mustard component.
- British Anti-Lewisite (BAL) can be given by intramuscular
injection as an antidote for systemic effects but has no
effect on the local lesions of the skin, eyes, or airways.
Treatment consists primarily of supportive care.
Decontamination Area
Previously decontaminated patients may
be treated or held for observation. Others require decontamination
as described below.
ABC Reminders
Evaluate and support the airway, breathing,
and circulation. Intubate the trachea in cases of respiratory
compromise. If the patient's condition precludes intubation,
surgically create an airway.
Treat patients who have bronchospasm
with bronchodilators.
Patients who are comatose or hypotensive,
or have seizures or ventricular dysrhythmias due to other
exposures or trauma should be treated in the conventional
manner.
Personal Protection
If contaminated patients arrive at the
Emergency Department, they must be decontaminated before being
allowed to enter the facility. Decontamination can only take
place inside the hospital if there is a decontamination facility
with negative air pressure and floor drains to contain contamination.
Personnel should wear the same level of protection required
in the Hot Zone (see Rescuer Protection under Hot Zone,
above).
Basic Decontamination
Flush the eyes with water for about 5-10
minutes by tilting the head to the side, pulling eyelids apart
with fingers, and pouring water slowly into eyes. Do not cover
eyes with bandages; if necessary, use dark or opaque goggles
to relieve discomfort from photophobia.
If a liquid splash is suspected, clothing
must be removed and the patient showered using soap and water.
Showering should be accomplished using cool water and enough
water pressure to quickly reduce the potential for agent penetration
of the skin. If the patient was exposed to vapor only, remove
outer clothing and wash exposed skin with soap and water.
Place contaminated clothes and personal belongings in a sealed
double bag.
In cases of ingestion, do not induce
emesis. If the victim is alert and able to swallow, give
4 to 8 ounces of milk or water to drink if not already administered.
There are no data regarding the efficacy of activated charcoal
after exposure to Lewisite or Mustard-Lewisite Mixture.
Critical Care Area
Be certain that appropriate decontamination
has been carried out (see Decontamination Area, above).
ABC Reminders
Evaluate and support the airway, breathing,
and circulation (as in ABC Reminders, above). Establish
intravenous access and continuously monitor cardiac rhythm
in seriously ill patients.
Patients who are comatose or hypotensive,
or have seizures or ventricular dysrhythmias due to other
exposures or trauma should be treated in the conventional
manner.
Triage
Patients arriving at the emergency department
directly from the scene of potential exposure (within 30-60
minutes) will have pain or irritation if they were exposed.
If they have no pain or irritation, they may be sent home
and told to return with the onset of symptoms. Following decontamination,
patients with signs of airway involvement should be admitted
directly to the Critical Care Unit. Whether in the hospital
or not, patients with no symptoms should be observed for 18
to 24 hours. Patients arriving later should be evaluated as
described below. The sooner after exposure that symptoms occur,
the more likely they are to progress and become severe.
Eye Exposure
Mild conjunctivitis beginning more than
12 hours after exposure is unlikely to progress to a severe
lesion. The patient should have a thorough eye examination
(including a test for visual acuity), treatment with a soothing
eye solution such as Visine or Murine, and be advised to return
if there is worsening. Conjunctivitis beginning earlier and
other effects such as lid swelling and signs/symptoms of inflammation
indicate a need for inpatient care and observation.
Lesions more severe than conjunctivitis
should be treated with a topical mydriatic (e.g., atropine),
topical antibiotics, and vaseline or similar substance applied
to the lid edges several times a day. Consult an ophthalmologist
for patients with severe corneal injuries. Topical analgesics
should be used only for an initial examination (including
slit lamp and a test of visual acuity), but not after. Pain
should be controlled with systemic analgesics. Once the lid
edema and blepharospasm subside and the eyes are open, dark
glasses may reduce the discomfort of photophobia. Some authorities
feel that topical steroids (used within the first 24 hours
only) may reduce inflammation.
Skin Exposure
A small area of erythema beginning later
than 12 hours after exposure is unlikely to progress to a
significant lesion. The patient should be examined, treated
with a soothing lotion and a systemic analgesic, sent home,
and instructed to return if progression occurs. A patient
with a significant area of erythema or one seen earlier with
a significant area of erythema with or without blistering
should be admitted for further evaluation.
Most burns are second degree although
third degree burns may occur after liquid exposure. In general,
small blisters (i.e., <1 cm) should remain roofed and larger
ones (i.e., >1 cm) should be unroofed. This is a controversial
issue, but many feel that the roof will eventually come off
anyway. The denuded area should be irrigated two or three
times a day using a whirlpool.
If the lesion is large (the patient should
be given ample amounts of a systemic analgesic beforehand).
This should be followed by liberal application of a topical
antibiotic. Skin lesions may take many months to heal. Fluids
are not lost as they are in thermal burns, and fluid replacement
should be according to the general needs of the patient and
not according to "burn therapy" formulas. Systemic antibiotics
should be used when there are signs of infection and a culture
indicates the responsible organism. Patients with a large
area of second or third degree burns should be transferred
to a Burn Unit for further care and reverse isolation.
Airway Exposure
A patient with a mild, non-productive
cough, irritation of the nose and sinuses, and/or a sore throat
that began later than 12 hours after exposure should be advised
to use a cool steam vaporizer and lozenges or cough drops,
and sent home with instructions to return if the symptoms
worsen. Intubation should be done at the first sign of more
severe effects. A patient with more severe effects (laryngitis,
shortness of breath, a productive cough, pulmonary edema,
pseudomembrane formation) should be provided with oxygen-assisted
ventilation as necessary and admitted directly to the Critical
Care Unit once decontamination has been assured. Signs of
damage to the larynx or lower airway indicate oxygen-assisted
ventilation with PEEP. Patients with less severe effects should
be admitted to a routine care ward.
Lewisite causes systemic capillary leakage,
and hypovolemic shock may occur in severely exposed patients.
Closely monitor blood pressure, blood volume, and hepatic
and renal function.
Ingestion Exposure
Do not induce emesis. Treat nausea
and vomiting with anti-emetics.
Antidotes
British Anti-Lewisite (BAL), also called
Dimercaprol, is a chelating agent shown to reduce systemic
effects from Lewisite exposure. Due to toxic side effects,
BAL should be administered only to patients who have signs
of shock or significant pulmonary injury.
Chelation therapy should be performed
only by trained personnel. Consultation with the regional
poison control center is recommended. The standard dosage
regimen is 3 to 5 mg/kg IM every 4 hours for four doses. This
regimen can be adjusted depending on the severity of the exposure
and the symptoms. Contraindications to BAL include pre-existing
renal disease, pregnancy (except in life threatening circumstances)
and concurrent use of medicinal iron.
Alkalization of the urine stabilizes
the Dimercaprol-metal complex and has been proposed to protect
the kidneys during chelation therapy. If acute renal insufficiency
develops, hemodialysis should be considered to remove the
Dimercaprol-arsenic complex. Side effects of BAL administered
at 3 mg/kg are mostly pain at the injection site. At 5 mg/kg,
the effects may include nausea; vomiting; headache; burning
sensation of the lips, mouth, throat, and eyes; lacrimation;
rhinorrhea; salivation; muscle aches; burning and tingling
in the extremities; tooth pain; diaphoresis; chest pain; anxiety;
and agitation.
Laboratory Tests
Routine laboratory studies should be
done for all patients requiring admission. These include CBC,
glucose, serum electrolytes, and liver and kidney function
tests. Consider monitoring hourly fluid intake and output.
Chest X-ray and pulse oximetry (or ABG measurements) are recommended
for all patients with inhalation exposures. Since Lewisite
contains arsenic, urinary arsenic excretion may be helpful
if the diagnosis is in doubt. A test for urine thiodiglycol,
a metabolite of mustard, can be performed at specialized laboratories,
but is not a routine laboratory measure.
Disposition and Follow-up
Patients who have skin, eye, or airway
signs and symptoms will require hospitalization, as discussed
above.
Delayed Effects
Skin burns take up to 18 hours to fully
develop. Chemical pneumonitis may begin within 24 hours or
up to 3 days after inhalation exposure. Significant systemic
absorption of Mustard-Lewisite Mixture may produce a fall
in the leukocyte count beginning on days 3 through 5. Erythrocytes
and thrombocytes may subsequently fall if bone marrow damage
is severe and in this case the risk of life-threatening infection
rises.
Patient Release
A patient who initially had mild symptoms
should be observed for at least 18 to 24 hours after exposure.
If no further symptoms develop and there is no significant
progression, the patient may be discharged. Discharged patients
should be advised to rest and to seek medical care promptly
if symptoms develop (see below, Follow-up Instructions, included
with the Lewisite and Mustard-Lewisite Mixture Patient
Information Sheet).
Follow-up
Follow-up laboratory evaluation of bone
marrow, hepatic, and renal function should be arranged for
severely exposed patients until they are completely recovered.
Patients who have mild skin burns or corneal lesions should
be reexamined within 24 hours.
Reporting
Other persons may still be at risk in
the setting where this incident occurred. If a public health
risk exists, notify your state or local health department
or other responsible public agency.
Patient Information Sheet
This handout provides information and
follow-up instructions for persons who have been exposed to
Lewisite or Mustard-Lewisite Mixture.
Print this handout only.pdf icon[42 KB]
What are Lewisite and Mustard-Lewisite Mixture?
Lewisite is a chemical warfare agent
that was first produced in 1918. It has not been used in warfare,
although it may be stockpiled by some countries. Mustard-Lewisite
Mixture is a mixture of Lewisite and Mustard. It was developed
to achieve a lower freezing point for ground dispersal and
aerial spraying.
What immediate health effects can be caused by exposure to Lewisite and Mustard-Lewisite
Mixture?
Lewisite and Mustard-Lewisite Mixture
produce pain and skin irritation immediately after exposure.
Both compounds cause skin blisters and damage to the airways
and eyes. They are also extremely irritating to the eyes,
skin, nose, and throat. Exposure to very high levels may result
in kidney and liver damage. Mustard-Lewisite Mixture can also
damage the immune system.
Can Lewisite and Mustard-Lewisite poisoning be treated?
Immediate decontamination reduces symptoms.
Intramuscular injection of British Anti-Lewisite (BAL) may
be used to treat severe conditions but will not prevent lesions
on the skin, eye, or airways. Persons who have been exposed
to large amounts of Lewisite and Mustard-Lewisite Mixture
will need to be hospitalized.
Are any future health effects likely to occur?
Adverse health effects, such as chronic
respiratory diseases, may occur from exposure to high levels
of these agents. Severe damage to the eye may be present for
a long time after the exposure.
What tests can be done if a person has been exposed to Lewisite or Mustard-Lewisite?
There is no specific test to confirm
exposure to Lewisite or Mustard-Lewisite Mixture; however,
measurement of arsenic in the urine may help to identify exposure.
Where can more information about Lewisite or Mustard-Lewisite be found?
More information about Lewisite and Mustard-Lewisite
Mixture can be obtained from your regional poison control
center; the Agency for Toxic Substances and Disease Registry
(ATSDR); your doctor; or a clinic in your area that specializes
in toxicology or occupational and environmental health. Ask
the person who gave you this form for help locating these
telephone numbers.
Follow-up Instructions
Keep this page and take it with you to
your next appointment. Follow only the instructions
checked below.
Print instructions only.pdf icon[42 KB]
[ ] Call your doctor or the Emergency
Department if you develop any unusual signs or symptoms within
the next 24 hours, especially:
- coughing, wheezing, shortness of breath, or discolored
sputum
- increased pain or discharge from injured eyes
- increased redness, pain, or a pus-like discharge from
injured skin; fever; or chills
[ ] No follow-up appointment is necessary
unless you develop any of the symptoms listed above.
[ ] Call for an appointment with Dr.____
in the practice of ________.
When you call for your appointment, please
say that you were treated in the Emergency Department at _________
Hospital by________and were advised to be seen again in ____days.
[ ] Return to the Emergency Department/Clinic
on ____ (date) at _____ AM/PM for a follow-up examination.
[ ] Do not perform vigorous physical
activities for 1 to 2 days.
[ ] You may resume everyday activities
including driving and operating machinery.
[ ] Do not return to work for _____days.
[ ] You may return to work on a limited
basis. See instructions below.
[ ] Avoid exposure to cigarette smoke
for 72 hours; smoke may worsen the condition of your lungs.
[ ] Avoid drinking alcoholic beverages
for at least 24 hours; alcohol may worsen injury to your stomach
or have other effects.
[ ] Avoid taking the following medications:
________________
[ ] You may continue taking the following
medication(s) that your doctor(s) prescribed for you: _______________________________
[ ] Other instructions:
____________________________________
_____________________________________________________
- Provide the Emergency Department with the name and the
number of your primary care physician so that the ED can
send him or her a record of your emergency department visit.
- You or your physician can get more information on the
chemical by contacting: ____________ or _____________, or by
checking out the following Internet Web sites:
___________;__________.
Signature of patient _______________ Date ____________
Signature of physician _____________ Date ____________
Where can I get more information?
If you have questions or concerns, please contact your community or state health or environmental quality department or:
For more information, contact:
Agency for Toxic Substances and Disease Registry
Division of Toxicology and Human Health Sciences
4770 Buford Highway
Chamblee, GA 30341-3717
Phone: 1-800-CDC-INFO 888-232-6348 (TTY)
Email: Contact CDC-INFO
ATSDR can also tell you the location of occupational and environmental health clinics. These clinics specialize in recognizing, evaluating, and treating illnesses resulting from exposure to hazardous substances.