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METHACRYLOYL CHLORIDE

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Classification   |    Detailed evidence-based information

Substances Included Synonyms

Therapeutic Toxic Class

    A) Methacryloyl chloride is the acid chloride of methacrylic acid. It forms methacrylic acid and hydrochloric acid upon reaction with water, with the evolution of heat.

Specific Substances

    A) No Synonyms were found in group or single elements
    1.2.1) MOLECULAR FORMULA
    1) C4-H5-Cl-O

Available Forms Sources

    A) FORMS
    1) Methacryloyl chloride is available in 90% pure technical grade stablized with phenothiazine (Lewis, 1992).
    a) In assessing the total hazard of exposure to this material, the possible contribution of the stabilizer should be taken into account.
    B) USES
    1) No information was found on the uses of methacryloyl chloride at the time of this review.

Overview

Life Support

    A) This overview assumes that basic life support measures have been instituted.

Clinical Effects

    0.2.1) SUMMARY OF EXPOSURE
    A) THERE WAS NO INFORMATION on SPECIFIC CLINICAL EFFECTS OF EXPOSURE TO THIS AGENT IN AVAILABLE REFERENCES AT THE TIME OF THIS REVIEW.
    B) Exposed individuals should have a careful, thorough medical history and physical examination performed, looking for any abnormalities. Exposure to chemicals with a strong odor often results in such nonspecific symptoms as headache, dizziness, weakness, and nausea.
    C) Many chemicals cause irritation of the eyes, skin, and respiratory tract. In severe cases respiratory tract irritation can progress to ARDS/acute lung injury, which may be delayed in onset for up to 24 to 72 hours in some cases.
    D) Irritation or burns of the esophagus or gastrointestinal tract are also possible if caustic or irritant chemicals are ingested.
    E) A number of chemical agents produce an allergic hypersensitivity dermatitis or asthma with bronchospasm and wheezing with chronic exposure.
    F) Methacryloyl chloride is a corrosive. It is predicted to have similar and perhaps stronger irritant or corrosive properties as methacrylic acid, due to the evolution of heat and formation of hydrochloric acid during hydrolysis. Predicted properties include irritation and/or corrosion of the skin, eyes, mucous membranes, respiratory and gastrointestinal tracts, and sensitization.
    0.2.4) HEENT
    A) Eye, nasal and throat irritation may occur.
    0.2.6) RESPIRATORY
    A) Respiratory tract irritation may occur.
    0.2.8) GASTROINTESTINAL
    A) Irritation or burns of the esophagus or gastrointestinal tract may follow ingestion.
    0.2.14) DERMATOLOGIC
    A) Dermal irritation and burning may occur. Sensitization is predicted.
    0.2.20) REPRODUCTIVE
    A) At the time of this review, no data were available to assess the possible reproductive hazard of this agent. However, methacrylic acid has been shown to be teratogenic in the rat.
    0.2.21) CARCINOGENICITY
    A) At the time of this review, no data were available to assess the potential carcinogenic or mutagenic effects of methacryloyl chloride.

Laboratory Monitoring

    A) A number of chemicals produce abnormalities of the hematopoietic system, liver, and kidneys. Monitoring complete blood count, urinalysis, and liver and kidney function tests is suggested for patients with significant exposure.
    B) If respiratory tract irritation or respiratory depression is evident, monitor arterial blood gases, chest x-ray, and pulmonary function tests.

Treatment Overview

    0.4.2) ORAL/PARENTERAL EXPOSURE
    A) Because of potential burns or irritation of the esophagus or gastrointestinal tract following ingestion, EMESIS SHOULD NOT BE INDUCED.
    B) Significant esophageal or gastrointestinal tract irritation or burns may occur following ingestion. The possible benefit of early removal of some ingested material by cautious gastric lavage must be weighed against potential complications of bleeding or perforation.
    C) GASTRIC LAVAGE: Consider after ingestion of a potentially life-threatening amount of poison if it can be performed soon after ingestion (generally within 1 hour). Protect airway by placement in the head down left lateral decubitus position or by endotracheal intubation. Control any seizures first.
    1) CONTRAINDICATIONS: Loss of airway protective reflexes or decreased level of consciousness in unintubated patients; following ingestion of corrosives; hydrocarbons (high aspiration potential); patients at risk of hemorrhage or gastrointestinal perforation; and trivial or non-toxic ingestion.
    D) ACTIVATED CHARCOAL: Administer charcoal as a slurry (240 mL water/30 g charcoal). Usual dose: 25 to 100 g in adults/adolescents, 25 to 50 g in children (1 to 12 years), and 1 g/kg in infants less than 1 year old.
    E) Carefully observe patients with ingestion exposure for the development of any systemic signs or symptoms and administer symptomatic treatment as necessary.
    F) Observe patients with ingestion carefully for the possible development of esophageal or gastrointestinal tract irritation or burns. If signs or symptoms of esophageal irritation or burns are present, consider endoscopy to determine the extent of injury.
    0.4.3) INHALATION EXPOSURE
    A) INHALATION: Move patient to fresh air. Monitor for respiratory distress. If cough or difficulty breathing develops, evaluate for respiratory tract irritation, bronchitis, or pneumonitis. Administer oxygen and assist ventilation as required. Treat bronchospasm with an inhaled beta2-adrenergic agonist. Consider systemic corticosteroids in patients with significant bronchospasm.
    B) If bronchospasm and wheezing occur, consider treatment with inhaled sympathomimetic agents.
    C) ACUTE LUNG INJURY: Maintain ventilation and oxygenation and evaluate with frequent arterial blood gases and/or pulse oximetry monitoring. Early use of PEEP and mechanical ventilation may be needed.
    0.4.4) EYE EXPOSURE
    A) DECONTAMINATION: Remove contact lenses and irrigate exposed eyes with copious amounts of room temperature 0.9% saline or water for at least 15 minutes. If irritation, pain, swelling, lacrimation, or photophobia persist after 15 minutes of irrigation, the patient should be seen in a healthcare facility.
    0.4.5) DERMAL EXPOSURE
    A) OVERVIEW
    1) DECONTAMINATION: Remove contaminated clothing and jewelry and place them in plastic bags. Wash exposed areas with soap and water for 10 to 15 minutes with gentle sponging to avoid skin breakdown. A physician may need to examine the area if irritation or pain persists (Burgess et al, 1999).
    2) Treat dermal irritation or burns with standard topical therapy. Patients developing dermal hypersensitivity reactions may require treatment with systemic or topical corticosteroids or antihistamines.

Range Of Toxicity

    A) Minimum lethal human exposure is unknown.

Clinical Effects

Summary Of Exposure

    A) THERE WAS NO INFORMATION on SPECIFIC CLINICAL EFFECTS OF EXPOSURE TO THIS AGENT IN AVAILABLE REFERENCES AT THE TIME OF THIS REVIEW.
    B) Exposed individuals should have a careful, thorough medical history and physical examination performed, looking for any abnormalities. Exposure to chemicals with a strong odor often results in such nonspecific symptoms as headache, dizziness, weakness, and nausea.
    C) Many chemicals cause irritation of the eyes, skin, and respiratory tract. In severe cases respiratory tract irritation can progress to ARDS/acute lung injury, which may be delayed in onset for up to 24 to 72 hours in some cases.
    D) Irritation or burns of the esophagus or gastrointestinal tract are also possible if caustic or irritant chemicals are ingested.
    E) A number of chemical agents produce an allergic hypersensitivity dermatitis or asthma with bronchospasm and wheezing with chronic exposure.
    F) Methacryloyl chloride is a corrosive. It is predicted to have similar and perhaps stronger irritant or corrosive properties as methacrylic acid, due to the evolution of heat and formation of hydrochloric acid during hydrolysis. Predicted properties include irritation and/or corrosion of the skin, eyes, mucous membranes, respiratory and gastrointestinal tracts, and sensitization.

Heent

    3.4.1) SUMMARY
    A) Eye, nasal and throat irritation may occur.
    3.4.3) EYES
    A) IRRITATION - Eye irritation or corneal burns may be predicted to occur with either vapor exposure or direct eye contact based on this agent's similarity to corrosive methacrylic acid (Lewis, 1993).
    3.4.5) NOSE
    A) IRRITATION - Irritation of the mucosa of the nose and throat may be predicted to occur following vapor exposure based on this agent's similarity to corrosive methacrylic acid (Lewis, 1993).
    3.4.6) THROAT
    A) IRRITATION of the mucosa of the nose and throat may be predicted to occur following vapor exposure based on this agent's similarity to corrosive methacrylic acid (Lewis, 1993).

Respiratory

    3.6.1) SUMMARY
    A) Respiratory tract irritation may occur.
    3.6.2) CLINICAL EFFECTS
    A) IRRITATION SYMPTOM
    1) Respiratory tract irritation may be predicted to occur following vapor or mist inhalation based on this agent's similarity to corrosive methacrylic acid (Lewis, 1993).

Gastrointestinal

    3.8.1) SUMMARY
    A) Irritation or burns of the esophagus or gastrointestinal tract may follow ingestion.
    3.8.2) CLINICAL EFFECTS
    A) GASTROINTESTINAL IRRITATION
    1) Human ingestion has not been reported, but potential irritation or burns of the esophagus or gastrointestinal tract may be predicted to occur based on this agent's similarity to corrosive methacrylic acid (Lewis, 1993).

Dermatologic

    3.14.1) SUMMARY
    A) Dermal irritation and burning may occur. Sensitization is predicted.
    3.14.2) CLINICAL EFFECTS
    A) CHEMICAL BURN
    1) Dermal irritation or burns are predicted to develop following direct skin contact with this material. Methacryloyl chloride is a corrosive (Lewis, 1993).
    B) CONTACT DERMATITIS
    1) Contact dermatitis has been linked with exposure to the closely related compound, methacrylic acid (ACGIH, 1992).

Reproductive

    3.20.1) SUMMARY
    A) At the time of this review, no data were available to assess the possible reproductive hazard of this agent. However, methacrylic acid has been shown to be teratogenic in the rat.
    3.20.2) TERATOGENICITY
    A) LACK OF INFORMATION
    1) At the time of this review, no human data were available to assess the teratogenic potential of methacryloyl chloride.
    B) ANIMAL STUDIES
    1) CONGENITAL ANOMALY
    a) METHACRYLIC ACID TERATOGENICITY -
    1) Methacrylic acid in concentrations ranging from 1.2 to 2.1 millimolar caused decreases in growth parameters (decreased crown-rump length, number of somites, and embryo protein content) as well as a variety of malformations (abnormal neurulation, prosencephalon hypoplasia, edema, cardiac malposition, abnormal flexion, and dilated otic vessels) in rat embryos cultured in vitro (Rogers et al, 1986).
    3.20.3) EFFECTS IN PREGNANCY
    A) LACK OF INFORMATION
    1) At the time of this review, no data were available to assess the potential effects of exposure to this agent during pregnancy or lactation.

Carcinogenicity

    3.21.1) IARC CATEGORY
    A) IARC Carcinogenicity Ratings for CAS920-46-7 (International Agency for Research on Cancer (IARC), 2016; International Agency for Research on Cancer, 2015; IARC Working Group on the Evaluation of Carcinogenic Risks to Humans, 2010; IARC Working Group on the Evaluation of Carcinogenic Risks to Humans, 2010a; IARC Working Group on the Evaluation of Carcinogenic Risks to Humans, 2008; IARC Working Group on the Evaluation of Carcinogenic Risks to Humans, 2007; IARC Working Group on the Evaluation of Carcinogenic Risks to Humans, 2006; IARC, 2004):
    1) Not Listed
    3.21.2) SUMMARY/HUMAN
    A) At the time of this review, no data were available to assess the potential carcinogenic or mutagenic effects of methacryloyl chloride.
    3.21.3) HUMAN STUDIES
    A) LACK OF INFORMATION
    1) At the time of this review, no data were available to assess the carcinogenic or mutagenic potential of this agent.

Laboratory Monitoring

Monitoring Parameters Levels

    4.1.1) SUMMARY
    A) A number of chemicals produce abnormalities of the hematopoietic system, liver, and kidneys. Monitoring complete blood count, urinalysis, and liver and kidney function tests is suggested for patients with significant exposure.
    B) If respiratory tract irritation or respiratory depression is evident, monitor arterial blood gases, chest x-ray, and pulmonary function tests.
    4.1.2) SERUM/BLOOD
    A) BLOOD/SERUM CHEMISTRY
    1) A number of chemicals produce abnormalities of the hematopoietic system, liver, and kidneys. Monitoring complete blood count and liver and kidney function tests is suggested for patients with significant exposure.
    4.1.3) URINE
    A) URINALYSIS
    1) A number of chemicals produce abnormalities of the hematopoietic system, liver, and kidneys. Monitoring urinalysis is suggested for patients with significant exposure.
    4.1.4) OTHER
    A) OTHER
    1) MONITORING
    a) If respiratory tract irritation is present, monitor arterial blood gases and chest x-ray.
    2) PULMONARY FUNCTION TESTS
    a) If respiratory tract irritation is present, it may be useful to monitor pulmonary function tests.

Radiographic Studies

    A) CHEST RADIOGRAPH
    1) If respiratory tract irritation is present, monitor chest x-ray.

Treatment

Life Support

    A) Support respiratory and cardiovascular function.

Patient Disposition

    6.3.1) DISPOSITION/ORAL EXPOSURE
    6.3.1.1) ADMISSION CRITERIA/ORAL
    A) Patients symptomatic following exposure should be observed in a controlled setting until all signs and symptoms have fully resolved.

Monitoring

    A) A number of chemicals produce abnormalities of the hematopoietic system, liver, and kidneys. Monitoring complete blood count, urinalysis, and liver and kidney function tests is suggested for patients with significant exposure.
    B) If respiratory tract irritation or respiratory depression is evident, monitor arterial blood gases, chest x-ray, and pulmonary function tests.

Oral Exposure

    6.5.2) PREVENTION OF ABSORPTION
    A) EMESIS/NOT RECOMMENDED
    1) Induced emesis is NOT RECOMMENDED because of the possibility of further irritation or burns to the gastrointestinal tract by this corrosive material.
    B) GASTRIC LAVAGE
    1) Significant esophageal or gastrointestinal tract irritation or burns may occur following ingestion. The possible benefit of early removal of some ingested material by cautious gastric lavage must be weighed against potential complications of bleeding or perforation.
    2) INDICATIONS: Consider gastric lavage with a large-bore orogastric tube (ADULT: 36 to 40 French or 30 English gauge tube {external diameter 12 to 13.3 mm}; CHILD: 24 to 28 French {diameter 7.8 to 9.3 mm}) after a potentially life threatening ingestion if it can be performed soon after ingestion (generally within 60 minutes).
    a) Consider lavage more than 60 minutes after ingestion of sustained-release formulations and substances known to form bezoars or concretions.
    3) PRECAUTIONS:
    a) SEIZURE CONTROL: Is mandatory prior to gastric lavage.
    b) AIRWAY PROTECTION: Place patients in the head down left lateral decubitus position, with suction available. Patients with depressed mental status should be intubated with a cuffed endotracheal tube prior to lavage.
    4) LAVAGE FLUID:
    a) Use small aliquots of liquid. Lavage with 200 to 300 milliliters warm tap water (preferably 38 degrees Celsius) or saline per wash (in older children or adults) and 10 milliliters/kilogram body weight of normal saline in young children(Vale et al, 2004) and repeat until lavage return is clear.
    b) The volume of lavage return should approximate amount of fluid given to avoid fluid-electrolyte imbalance.
    c) CAUTION: Water should be avoided in young children because of the risk of electrolyte imbalance and water intoxication. Warm fluids avoid the risk of hypothermia in very young children and the elderly.
    5) COMPLICATIONS:
    a) Complications of gastric lavage have included: aspiration pneumonia, hypoxia, hypercapnia, mechanical injury to the throat, esophagus, or stomach, fluid and electrolyte imbalance (Vale, 1997). Combative patients may be at greater risk for complications (Caravati et al, 2001).
    b) Gastric lavage can cause significant morbidity; it should NOT be performed routinely in all poisoned patients (Vale, 1997).
    6) CONTRAINDICATIONS:
    a) Loss of airway protective reflexes or decreased level of consciousness if patient is not intubated, following ingestion of corrosive substances, hydrocarbons (high aspiration potential), patients at risk of hemorrhage or gastrointestinal perforation, or trivial or non-toxic ingestion.
    C) ACTIVATED CHARCOAL/CATHARTIC
    1) CHARCOAL ADMINISTRATION
    a) Consider administration of activated charcoal after a potentially toxic ingestion (Chyka et al, 2005). Administer charcoal as an aqueous slurry; most effective when administered within one hour of ingestion.
    2) CHARCOAL DOSE
    a) Use a minimum of 240 milliliters of water per 30 grams charcoal (FDA, 1985). Optimum dose not established; usual dose is 25 to 100 grams in adults and adolescents; 25 to 50 grams in children aged 1 to 12 years (or 0.5 to 1 gram/kilogram body weight) ; and 0.5 to 1 gram/kilogram in infants up to 1 year old (Chyka et al, 2005).
    1) Routine use of a cathartic with activated charcoal is NOT recommended as there is no evidence that cathartics reduce drug absorption and cathartics are known to cause adverse effects such as nausea, vomiting, abdominal cramps, electrolyte imbalances and occasionally hypotension (None Listed, 2004).
    b) ADVERSE EFFECTS/CONTRAINDICATIONS
    1) Complications: emesis, aspiration (Chyka et al, 2005). Aspiration may be complicated by acute respiratory failure, ARDS, bronchiolitis obliterans or chronic lung disease (Golej et al, 2001; Graff et al, 2002; Pollack et al, 1981; Harris & Filandrinos, 1993; Elliot et al, 1989; Rau et al, 1988; Golej et al, 2001; Graff et al, 2002). Refer to the ACTIVATED CHARCOAL/TREATMENT management for further information.
    2) Contraindications: unprotected airway (increases risk/severity of aspiration) , nonfunctioning gastrointestinal tract, uncontrolled vomiting, and ingestion of most hydrocarbons (Chyka et al, 2005).
    6.5.3) TREATMENT
    A) OBSERVATION REGIMES
    1) Carefully observe patients with ingestion exposure for the development of any systemic signs or symptoms and administer symptomatic treatment as necessary.
    B) IRRITATION SYMPTOM
    1) Observe patients with ingestion carefully for the possible development of esophageal or gastrointestinal tract irritation or burns. If signs or symptoms of esophageal irritation or burns are present, consider endoscopy to determine the extent of injury.
    C) ENDOSCOPIC PROCEDURE
    1) There is little information regarding the use of endoscopy, corticosteroids or surgery in the setting of concentrated methyacryloyl chloride ingestion. The following information is derived from experience with other corrosives.
    2) SUMMARY: Obtain consultation concerning endoscopy as soon as possible and perform endoscopy within the first 24 hours when indicated.
    3) INDICATIONS: Most studies associating the presence or absence of gastrointestinal burns with signs and symptoms after caustic ingestion have involved primarily alkaline ingestions. Because acid ingestion may cause severe gastric injury with fewer associated initial signs and symptoms, endoscopic evaluation is recommended in any patient with a definite history of ingestion of a strong acid, even if asymptomatic.
    4) RISKS: Numerous large case series attest to the relative safety and utility of early endoscopy in the management of caustic ingestion.
    a) REFERENCES: Gaudreault et al, 1983; Symbas et al, 1983; Crain et al, 1984; (Schild, 1985; Moazam et al, 1987; Sugawa & Lucas, 1989; Previtera et al, 1990; Zargar et al, 1991; Vergauwen et al, 1991; Gorman et al, 1992; Nuutinen et al, 1994)
    5) The risk of perforation during endoscopy is minimized by (Zargar et al, 1991):
    a) Advancing across the cricopharynx under direct vision
    b) Gently advancing with minimal air insufflation
    c) Never retroverting or retroflexing the endoscope
    d) Using a pediatric flexible endoscope
    e) Using extreme caution in advancing beyond burn lesion areas
    f) Most authors recommend endoscopy within the first 24 hours of injury, not advancing the endoscope beyond areas of severe esophageal burns, and avoiding endoscopy during the subacute phase of healing when tissue slough increases the risk of perforation (5 to 15 days after ingestion) (Zargar et al, 1991).
    6) GRADING
    a) Several scales for grading caustic injury exist. The likelihood of complications such as strictures, obstruction, bleeding and perforation is related to the severity of the initial burn (Zargar et al, 1991):
    b) Grade 0 - Normal examination
    c) Grade 1 - Edema and hyperemia of the mucosa; strictures unlikely.
    d) Grade 2A - Friability, hemorrhages, erosions, blisters, whitish membranes, exudates and superficial ulcerations; strictures unlikely.
    e) Grade 2B - Grade 2A plus deep discreet or circumferential ulceration; strictures may develop.
    f) Grade 3A - Multiple ulcerations and small scattered areas of necrosis; strictures are common, complications such as perforation, fistula formation, or gastrointestinal bleeding may occur.
    g) Grade 3B - Extensive necrosis through visceral wall; strictures are common, complications such as perforation, fistula formation, or gastrointestinal bleeding are more likely than with 3A.
    7) FOLLOW UP - If burns are found, follow 10 to 20 days later with barium swallow or esophagram.
    D) CORTICOSTEROID
    1) CORROSIVE INGESTION/SUMMARY: The use of corticosteroids for the treatment of caustic ingestion is controversial. Most animal studies have involved alkali-induced injury (Haller & Bachman, 1964; Saedi et al, 1973). Most human studies have been retrospective and generally involve more alkali than acid-induced injury and small numbers of patients with documented second or third degree mucosal injury.
    2) FIRST DEGREE BURNS: These burns generally heal well and rarely result in stricture formation (Zargar et al, 1989; Howell et al, 1992). Corticosteroids are generally not beneficial in these patients (Howell et al, 1992).
    3) SECOND DEGREE BURNS: Some authors recommend corticosteroid treatment to prevent stricture formation in patients with a second degree, deep-partial thickness burn (Howell et al, 1992). However, no well controlled human study has documented efficacy. Corticosteroids are generally not beneficial in patients with a second degree, superficial-partial thickness burn (Caravati, 2004; Howell et al, 1992).
    4) THIRD DEGREE BURNS: Some authors have recommended steroids in this group as well (Howell et al, 1992). A high percentage of patients with third degree burns go on to develop strictures with or without corticosteroid therapy and the risk of infection and perforation may be increased by corticosteroid use. Most authors feel that the risk outweighs any potential benefit and routine use is not recommended (Boukthir et al, 2004; Oakes et al, 1982; Pelclova & Navratil, 2005).
    5) CONTRAINDICATIONS: Include active gastrointestinal bleeding and evidence of gastric or esophageal perforation. Corticosteroids are thought to be ineffective if initiated more than 48 hours after a burn (Howell, 1987).
    6) DOSE: Administer daily oral doses of 0.1 milligram/kilogram of dexamethasone or 1 to 2 milligrams/kilogram of prednisone. Continue therapy for a total of 3 weeks and then taper (Haller et al, 1971; Marshall, 1979). An alternative regimen in children is intravenous prednisolone 2 milligrams/kilogram/day followed by 2.5 milligrams/kilogram/day of oral prednisone for a total of 3 weeks then tapered (Anderson et al, 1990).
    7) ANTIBIOTICS: Animal studies suggest that the addition of antibiotics can prevent the infectious complications associated with corticosteroid use in the setting of caustic burns. Antibiotics are recommended if corticosteroids are used or if perforation or infection is suspected. Agents that cover anaerobes and oral flora such as penicillin, ampicillin, or clindamycin are appropriate (Rosenberg et al, 1953).
    8) STUDIES
    a) ANIMAL
    1) Some animal studies have suggested that corticosteroid therapy may reduce the incidence of stricture formation after severe alkaline corrosive injury (Haller & Bachman, 1964; Saedi et al, 1973a).
    2) Animals treated with steroids and antibiotics appear to do better than animals treated with steroids alone (Haller & Bachman, 1964).
    3) Other studies have shown no evidence of reduced stricture formation in steroid treated animals (Reyes et al, 1974). An increased rate of esophageal perforation related to steroid treatment has been found in animal studies (Knox et al, 1967).
    b) HUMAN
    1) Most human studies have been retrospective and/or uncontrolled and generally involve small numbers of patients with documented second or third degree mucosal injury. No study has proven a reduced incidence of stricture formation from steroid use in human caustic ingestions (Haller et al, 1971; Hawkins et al, 1980; Yarington & Heatly, 1963; Adam & Brick, 1982).
    2) META ANALYSIS
    a) Howell et al (1992), analyzed reports concerning 361 patients with corrosive esophageal injury published in the English language literature since 1956 (10 retrospective and 3 prospective studies). No patients with first degree burns developed strictures. Of 228 patients with second or third degree burns treated with corticosteroids and antibiotics, 54 (24%) developed strictures. Of 25 patients with similar burn severity treated without steroids or antibiotics, 13 (52%) developed strictures (Howell et al, 1992).
    b) Another meta-analysis of 10 studies found that in patients with second degree esophageal burns from caustics, the overall rate of stricture formation was 14.8% in patients who received corticosteroids compared with 36% in patients who did not receive corticosteroids (LoVecchio et al, 1996).
    c) Another study combined results of 10 papers evaluating therapy for corrosive esophageal injury in humans published between January 1991 and June 2004. There were a total of 572 patients, all patients received corticosteroids in 6 studies, in 2 studies no patients received steroids, and in 2 studies, treatment with and without corticosteroids was compared. Of 109 patients with grade 2 esophageal burns who were treated with corticosteroids, 15 (13.8%) developed strictures, compared with 2 of 32 (6.3%) patients with second degree burns who did not receive steroids (Pelclova & Navratil, 2005).
    3) Smaller studies have questioned the value of steroids (Ferguson et al, 1989; Anderson et al, 1990), thus they should be used with caution.
    4) Ferguson et al (1989) retrospectively compared 10 patients who did not receive antibiotics or steroids with 31 patients who received both antibiotics and steroids in a study of caustic ingestion and found no difference in the incidence of esophageal stricture between the two groups (Ferguson et al, 1989).
    5) A randomized, controlled, prospective clinical trial involving 60 children with lye or acid induced esophageal injury did not find an effect of corticosteroids on the incidence of stricture formation (Anderson et al, 1990).
    a) These 60 children were among 131 patients who were managed and followed-up for ingestion of caustic material from 1971 through 1988; 88% of them were between 1 and 3 years old (Anderson et al, 1990).
    b) All patients underwent rigid esophagoscopy after being randomized to receive either no steroids or a course consisting initially of intravenous prednisolone (2 milligrams/kilogram per day) followed by 2.5 milligrams/kilogram/day of oral prednisone for a total of 3 weeks prior to tapering and discontinuation (Anderson et al, 1990).
    c) Six (19%), 15 (48%), and 10 (32%) of those in the treatment group had first, second and third degree esophageal burns, respectively. In contrast, 13 (45%), 5 (17%), and 11 (38%) of the control group had the same levels of injury (Anderson et al, 1990).
    d) Ten (32%) of those receiving steroids and 11 (38%) of the control group developed strictures. Four (13%) of those receiving steroids and 7 (24%) of the control group required esophageal replacement. All but 1 of the 21 children who developed strictures had severe circumferential burns on initial esophagoscopy (Anderson et al, 1990).
    e) Because of the small numbers of patients in this study, it lacked the power to reliably detect meaningful differences in outcome between the treatment groups (Anderson et al, 1990).
    6) ADVERSE EFFECTS
    a) The use of corticosteroids in the treatment of caustic ingestion in humans has been associated with gastric perforation (Cleveland et al, 1963) and fatal pulmonary embolism (Aceto et al, 1970).
    E) SURGICAL PROCEDURE
    1) In severe cases of gastrointestinal necrosis or perforation, emergent surgical consultation should be obtained. The need for gastric resection or laparotomy in the stable patient is controversial (Chodak & Passaro, 1978; Dilawari et al, 1984).
    2) LAPAROTOMY/LAPAROSCOPY - Early laparotomy or laparoscopy should be considered in patients with endoscopic evidence of severe esophageal or gastric burns after acid ingestion to evaluate for the presence of transmural gastric or esophageal necrosis (Estrera et al, 1986; Meredith et al, 1988; Wu & Lai, 1993). Emergent laparotomy should be strongly considered in any patient with hypotension, altered mental status, or acidemia (Hovarth et al, 1991).
    a) STUDY - In a retrospective study of patients with extensive transmural gastroesophageal necrosis after caustic ingestion, all 4 patients treated in the conventional manner (endoscopy, steroids, antibiotics, and repeated evaluation for the occurrence of esophagogastric necrosis and perforation) died, while all 3 patients treated with early laparotomy and immediate esophagogastric resection survived (Estrera et al, 1986).
    b) Wu & Lai (1993) reported the results of emergency surgical resection of the alimentary tract in 28 patients who had extensive corrosive injuries due to the ingestion of acids or other caustics. Operative mortality was most frequently associated with sepsis. Non-fatal bleeding, infections, biliary or bronchial fistulas were other noted complications. Morbidity and mortality were related to the severity of the damage and the extent of surgery required.
    1) Immediate postoperative management included antibiotics, extensive respiratory care, tracheobronchial toilet, maintenance of fluid, electrolyte and acid-base balance, and jejunostomy feeding or total parenteral nutrition.
    F) HOSPITAL ADMISSION
    1) Patients symptomatic following exposure should be observed in a controlled setting until all signs and symptoms have fully resolved.

Inhalation Exposure

    6.7.1) DECONTAMINATION
    A) Move patient from the toxic environment to fresh air. Monitor for respiratory distress. If cough or difficulty in breathing develops, evaluate for hypoxia, respiratory tract irritation, bronchitis, or pneumonitis.
    B) OBSERVATION: Carefully observe patients with inhalation exposure for the development of any systemic signs or symptoms and administer symptomatic treatment as necessary.
    C) INITIAL TREATMENT: Administer 100% humidified supplemental oxygen, perform endotracheal intubation and provide assisted ventilation as required. Administer inhaled beta-2 adrenergic agonists, if bronchospasm develops. Consider systemic corticosteroids in patients with significant bronchospasm (National Heart,Lung,and Blood Institute, 2007). Exposed skin and eyes should be flushed with copious amounts of water.
    6.7.2) TREATMENT
    A) BRONCHOSPASM
    1) If bronchospasm and wheezing occur, consider treatment with inhaled sympathomimetic agents.
    B) OBSERVATION REGIMES
    1) Carefully observe patients with inhalation exposure for the development of any systemic signs or symptoms and administer symptomatic treatment as necessary.
    C) IRRITATION SYMPTOM
    1) Respiratory tract irritation, if severe, can progress to noncardiogenic pulmonary edema which may be delayed in onset up to 24 to 72 hours after exposure in some cases.
    2) There are no controlled studies indicating that early administration of corticosteroids can prevent the development of noncardiogenic pulmonary edema in patients with inhalation exposure to respiratory irritant substances, and long-term use may cause adverse effects (Boysen & Modell, 1989).
    a) However, based on anecdotal experience, some clinicians do recommend early administration of corticosteroids (such as methylprednisolone 1 gram intravenously as a single dose) in an attempt to prevent the later development of pulmonary edema.
    1) Anecdotal experience with dimethyl sulfate inhalation showed possible benefit of methylprednisolone in the TREATMENT of noncardiogenic pulmonary edema (Ip et al, 1989).
    3) Anecdotal experience also indicated that systemic corticosteroids may have possible efficacy in the TREATMENT of drug-induced noncardiogenic pulmonary edema (Zitnik & Cooper, 1990; Stentoft, 1990; Chudnofsky & Otten, 1989) or noncardiogenic pulmonary edema developing after cardiopulmonary bypass (Maggart & Stewart, 1987).
    4) It is not clear from the published literature that administration of systemic corticosteroids early following inhalation exposure to respiratory irritant substances can PREVENT the development of noncardiogenic pulmonary edema. The decision to administer or withhold corticosteroids in this setting must currently be made on clinical grounds.
    D) ACUTE LUNG INJURY
    1) ONSET: Onset of acute lung injury after toxic exposure may be delayed up to 24 to 72 hours after exposure in some cases.
    2) NON-PHARMACOLOGIC TREATMENT: The treatment of acute lung injury is primarily supportive (Cataletto, 2012). Maintain adequate ventilation and oxygenation with frequent monitoring of arterial blood gases and/or pulse oximetry. If a high FIO2 is required to maintain adequate oxygenation, mechanical ventilation and positive-end-expiratory pressure (PEEP) may be required; ventilation with small tidal volumes (6 mL/kg) is preferred if ARDS develops (Haas, 2011; Stolbach & Hoffman, 2011).
    a) To minimize barotrauma and other complications, use the lowest amount of PEEP possible while maintaining adequate oxygenation. Use of smaller tidal volumes (6 mL/kg) and lower plateau pressures (30 cm water or less) has been associated with decreased mortality and more rapid weaning from mechanical ventilation in patients with ARDS (Brower et al, 2000). More treatment information may be obtained from ARDS Clinical Network website, NIH NHLBI ARDS Clinical Network Mechanical Ventilation Protocol Summary, http://www.ardsnet.org/node/77791 (NHLBI ARDS Network, 2008)
    3) FLUIDS: Crystalloid solutions must be administered judiciously. Pulmonary artery monitoring may help. In general the pulmonary artery wedge pressure should be kept relatively low while still maintaining adequate cardiac output, blood pressure and urine output (Stolbach & Hoffman, 2011).
    4) ANTIBIOTICS: Indicated only when there is evidence of infection (Artigas et al, 1998).
    5) EXPERIMENTAL THERAPY: Partial liquid ventilation has shown promise in preliminary studies (Kollef & Schuster, 1995).
    6) CALFACTANT: In a multicenter, randomized, blinded trial, endotracheal instillation of 2 doses of 80 mL/m(2) calfactant (35 mg/mL of phospholipid suspension in saline) in infants, children, and adolescents with acute lung injury resulted in acute improvement in oxygenation and lower mortality; however, no significant decrease in the course of respiratory failure measured by duration of ventilator therapy, intensive care unit, or hospital stay was noted. Adverse effects (transient hypoxia and hypotension) were more frequent in calfactant patients, but these effects were mild and did not require withdrawal from the study (Wilson et al, 2005).
    7) However, in a multicenter, randomized, controlled, and masked trial, endotracheal instillation of up to 3 doses of calfactant (30 mg) in adults only with acute lung injury/ARDS due to direct lung injury was not associated with improved oxygenation and longer term benefits compared to the placebo group. It was also associated with significant increases in hypoxia and hypotension (Willson et al, 2015).
    E) Treatment should include recommendations listed in the ORAL EXPOSURE section when appropriate.

Eye Exposure

    6.8.1) DECONTAMINATION
    A) EYE IRRIGATION, ROUTINE: Remove contact lenses and irrigate exposed eyes with copious amounts of room temperature 0.9% saline or water for at least 15 minutes. If irritation, pain, swelling, lacrimation, or photophobia persist after 15 minutes of irrigation, an ophthalmologic examination should be performed (Peate, 2007; Naradzay & Barish, 2006).

Dermal Exposure

    6.9.1) DECONTAMINATION
    A) DERMAL DECONTAMINATION
    1) DECONTAMINATION: Remove contaminated clothing and wash exposed area thoroughly with soap and water for 10 to 15 minutes. A physician may need to examine the area if irritation or pain persists (Burgess et al, 1999).
    6.9.2) TREATMENT
    A) SKIN ABSORPTION
    1) Some chemicals can produce systemic poisoning by absorption through intact skin. Carefully observe patients with dermal exposure for the development of any systemic signs or symptoms and administer symptomatic treatment as necessary.
    B) BURN
    1) APPLICATION
    a) These recommendations apply to patients with MINOR chemical burns (FIRST DEGREE; SECOND DEGREE: less than 15% body surface area in adults; less than 10% body surface area in children; THIRD DEGREE: less than 2% body surface area). Consultation with a clinician experienced in burn therapy or a burn unit should be obtained if larger area or more severe burns are present. Neutralizing agents should NOT be used.
    2) DEBRIDEMENT
    a) After initial flushing with large volumes of water to remove any residual chemical material, clean wounds with a mild disinfectant soap and water.
    b) DEVITALIZED SKIN: Loose, nonviable tissue should be removed by gentle cleansing with surgical soap or formal skin debridement (Moylan, 1980; Haynes, 1981). Intravenous analgesia may be required (Roberts, 1988).
    c) BLISTERS: Removal and debridement of closed blisters is controversial. Current consensus is that intact blisters prevent pain and dehydration, promote healing, and allow motion; therefore, blisters should be left intact until they rupture spontaneously or healing is well underway, unless they are extremely large or inhibit motion (Roberts, 1988; Carvajal & Stewart, 1987).
    3) TREATMENT
    a) TOPICAL ANTIBIOTICS: Prophylactic topical antibiotic therapy with silver sulfadiazine is recommended for all burns except superficial partial thickness (first-degree) burns (Roberts, 1988). For first-degree burns bacitracin may be used, but effectiveness is not documented (Roberts, 1988).
    b) SYSTEMIC ANTIBIOTICS: Systemic antibiotics are generally not indicated unless infection is present or the burn involves the hands, feet, or perineum.
    c) WOUND DRESSING:
    1) Depending on the site and area, the burn may be treated open (face, ears, or perineum) or covered with sterile nonstick porous gauze. The gauze dressing should be fluffy and thick enough to absorb all drainage.
    2) Alternatively, a petrolatum fine-mesh gauze dressing may be used alone on partial-thickness burns.
    d) DRESSING CHANGES:
    1) Daily dressing changes are indicated if a burn cream is used; changes every 3 to 4 days are adequate with a dry dressing.
    2) If dressing changes are to be done at home, the patient or caregiver should be instructed in proper techniques and given sufficient dressings and other necessary supplies.
    e) Analgesics such as acetaminophen with codeine may be used for pain relief if needed.
    4) TETANUS PROPHYLAXIS
    a) The patient's tetanus immunization status should be determined. Tetanus toxoid 0.5 milliliter intramuscularly or other indicated tetanus prophylaxis should be administered if required.
    C) Treatment should include recommendations listed in the ORAL EXPOSURE section when appropriate.

Enhanced Elimination

    A) EFFICACY
    1) No studies have addressed the utilization of extracorporeal elimination techniques in poisoning with this agent.

Range Of Toxicity

Summary

    A) Minimum lethal human exposure is unknown.

Minimum Lethal Exposure

    A) GENERAL/SUMMARY
    1) The minimum lethal human dose to this agent has not been delineated.

Maximum Tolerated Exposure

    A) GENERAL/SUMMARY
    1) The maximum tolerated human exposure to this agent has not been delineated.

Workplace Standards

    A) ACGIH TLV Values for CAS920-46-7 (American Conference of Governmental Industrial Hygienists, 2010):
    1) Not Listed

    B) NIOSH REL and IDLH Values for CAS920-46-7 (National Institute for Occupational Safety and Health, 2007):
    1) Not Listed

    C) Carcinogenicity Ratings for CAS920-46-7 :
    1) ACGIH (American Conference of Governmental Industrial Hygienists, 2010): Not Listed
    2) EPA (U.S. Environmental Protection Agency, 2011): Not Listed
    3) IARC (International Agency for Research on Cancer (IARC), 2016; International Agency for Research on Cancer, 2015; IARC Working Group on the Evaluation of Carcinogenic Risks to Humans, 2010; IARC Working Group on the Evaluation of Carcinogenic Risks to Humans, 2010a; IARC Working Group on the Evaluation of Carcinogenic Risks to Humans, 2008; IARC Working Group on the Evaluation of Carcinogenic Risks to Humans, 2007; IARC Working Group on the Evaluation of Carcinogenic Risks to Humans, 2006; IARC, 2004): Not Listed
    4) NIOSH (National Institute for Occupational Safety and Health, 2007): Not Listed
    5) MAK (DFG, 2002): Not Listed
    6) NTP (U.S. Department of Health and Human Services, Public Health Service, National Toxicology Project ): Not Listed

    D) OSHA PEL Values for CAS920-46-7 (U.S. Occupational Safety, and Health Administration (OSHA), 2010):
    1) Not Listed

Toxicity Information

    7.7.1) TOXICITY VALUES
    A) References: (RTECS, 1996)

Physicochemical

Physical Characteristics

    A) Methacryloyl chloride is a flammable and corrosive liquid (Lewis, 1993).
    B) It is available in technical grade (90%) stabilized with phenothiazine (Lewis, 1993).

Molecular Weight

    A) 104.54 (Lewis, 1993)

References

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