Interactive Case Study: A Hazardous Materials Incident at a Metal Plating Shop Dennis Shusterman, MD, MPH* Kent R. Olson, MD, FACEP** *Division of Occupational & Environmental Medicine **California Poison Control System University of California, San Francisco With video editing assistance from: Alan Barr (UCSF) & Joel Hagemeyer (Univ. of Washington) PowerPoint Beta Version 3.0
28
Embed
Interactive Case Study: A Hazardous Materials Incident at a Metal Plating Shop
Interactive Case Study: A Hazardous Materials Incident at a Metal Plating Shop. Dennis Shusterman, MD, MPH* Kent R. Olson, MD, FACEP** *Division of Occupational & Environmental Medicine **California Poison Control System University of California, San Francisco - PowerPoint PPT Presentation
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Interactive Case Study:
A Hazardous Materials Incident at a Metal Plating Shop
Dennis Shusterman, MD, MPH*Kent R. Olson, MD, FACEP**
*Division of Occupational & Environmental Medicine**California Poison Control System
University of California, San FranciscoWith video editing assistance from: Alan Barr (UCSF) &
Joel Hagemeyer (Univ. of Washington)
PowerPoint Beta Version 3.0
Instructions
Tap on right arrow (or hit “return” key) to proceed to next slide.
Tap on left arrow to go back one slide. Tap on picture to activate video clip. Keep track of your responses to questions as you go along;
PowerPoint does not register or record your responses.
1. Of the following, which single agent would be of greatest concern for acute toxicity in a hazardous materials incident at a plating shop?
a. Lead
b. Chromium
c. Hydrogen cyanide
d. Sodium hydroxide
e. Hydrochloric acid
1. Of the following, which single agent would be of greatest concern for acute toxicity in a hazardous materials incident at a plating shop?
a. Lead
b. Chromium
c. Hydrogen cyanide
d. Sodium hydroxide
e. Hydrochloric acid
2. Why would this toxicant be of concern?
a. Skin burns
b. Bronchospasm
c. Reproductive toxicity
d. Systemic toxicity (asphyxia)
2. Why would this toxicant be of concern?
a. Skin burns
b. Bronchospasm
c. Reproductive toxicity
d. Systemic toxicity (asphyxia)
3. What is the major mechanism of toxicity of hydrogen cyanide (HCN) gas?
a. Interferes with oxygen binding to hemoglobin.
b. Interferes with cytochrome oxidase function.
c. Interferes with aminolevulinic acid dehydrogenase
(ALA-D) and ferrochelatase function.
d. Direct corrosive action on mucous membranes.
3. What is the major mechanism of toxicity of hydrogen cyanide (HCN) gas?
a. Interferes with oxygen binding to hemoglobin.
b. Interferes with cytochrome oxidase function.
c. Interferes with aminolevulinic acid dehydrogenase
(ALA-D) and ferrochelatase function.
d. Direct corrosive action on mucous membranes.
4. What are the three most common early symptoms of acute cyanide toxicity?
a. Headache
b. Nausea/vomiting
c. Diarrhea
d. Dizziness
e. Tinnitus
4. What are the three most common early symptoms of acute cyanide toxicity?
a. Headache
b. Nausea/vomiting
c. Diarrhea
d. Dizziness
e. Tinnitus
5. Which three physical signs may be found early on in acute cyanide intoxication?
a. Bradycardia
b. Tachycardia
c. Bradypnea
d. Tachypnea
e. Confusion
f. Cherry red mucous membranes
5. Which three physical signs may be found early on in acute cyanide intoxication?
a. Bradycardia
b. Tachycardia
c. Bradypnea
d. Tachypnea
e. Confusion
f. Cherry red mucous membranes
6. Which four laboratory findings are common in acute cyanide intoxication?
a. Increased lactic dehydrogenase (LDH)
b. Increased anion gap
c. Increased osmolar gap
d. Increased plasma lactate level
e. Increased whole blood cyanide level
f. Arteriolization of venous blood (increased venous
oxygen saturation).
6. Which four laboratory findings are common in acute cyanide intoxication?
a. Increased lactic dehydrogenase (LDH)
b. Increased anion gap
c. Increased osmolar gap
d. Increased plasma lactate level
e. Increased whole blood cyanide level
f. Arteriolization of venous blood (increased venous O2
saturation).
7. Which of the following cyanide antidote regimens is (are) currently approved by the US Food and Drug Administration (FDA)?
a. Sodium nitrite and sodium thiosulfate
b. Hydroxocobalamin
c. Dimethylaminophenol (DMAP)
d. Stroma-free methemoglobin
7. Which of the following cyanide antidote regimens is (are) currently approved by the US Food and Drug Administration (FDA)?
a. Sodium nitrite and sodium thiosulfate
b. Hydroxocobalamin
c. Dimethylaminophenol (DMAP)
d. Stroma-free methemoglobin
8. Match the following chemical mixing incompatibilities with the corresponding toxicant(s) produced:
3. Cyanide salts and acids (e.g., hydrochloric acid) ___
4. Metallic ores/slags and acids ___
Toxic reaction products:
a. Hydrogen cyanide (HCN)
b. Arsine gas (AsH3)
c. Chlorine gas (Cl2)
d. Chloramine gases (NH2Cl and
NHCl2)
8. Match the following chemical mixing incompatibilities with the corresponding toxicant(s) produced:
Mixing Incompatibilities:
1. Sodium hypochlorite (bleach) and ammonia d
2. Sodium hypochlorite (bleach) and acids (e.g., toilet bowel cleaners) c
3. Cyanide salts and acids (e.g., hydrochloric acid) a
4. Metallic ores/slags and acids b
Toxic reaction products:
a. Hydrogen cyanide (HCN)
b. Arsine gas (AsH3)
c. Chlorine gas (Cl2)
d. Chloramine gases (NH2Cl and
NHCl2)
9. What precautions are necessary when a worker enters an enclosed space in which chemical asphyxiants, oxygen deficient atmospheres, and/or dermally absorbed toxicants may be present?
a. Impermeable gloves
b. Impermeable clothing and footwear
c. Air-supplied respirator
d. Safety line
e. Hazardous materials training
f. All of the above
9. What precautions are necessary when a worker enters an enclosed space in which chemical asphyxiants, oxygen deficient atmospheres, and/or dermally absorbed toxicants may be present?
a. Impermeable gloves
b. Impermeable clothing and footwear
c. Air-supplied respirator
d. Safety line
e. Hazardous materials training
f. All of the above
10. Which three agencies are directly responsible for regulating the use, storage, handling and disposal of hazardous materials in California?
a. NIOSH (National Institute for Occupational Safety and Health)b. US OSHA (US Occupational Safety and Health Administration)
c. Cal-OSHA (California Occupational Safety and Health Admin.)
d. California Environmental Protection Agency, Department of Toxic
Substances Control (DTSC)e. Local firefighting / hazardous materials mgmt. authorities.
10. Which three agencies are directly responsible for regulating the use, storage, handling and disposal of hazardous materials in California?
a. NIOSH (National Institute for Occupational Safety and Health)b. US OSHA (US Occupational Safety and Health Administration)
c. Cal-OSHA (California Occupational Safety and Health Admin.)
d. California Environmental Protection Agency, Department of Toxic
Substances Control (DTSC)e. Local firefighting / hazardous materials mgmt. authorities.
3. Centers for Disease Control: Chlorine bleach toxicity from mixture of bleach with other cleaning products - California. MMWR 1991; 40:619-621;627-629.
4. Doig AT: Arseniuretted hydrogen poisoning in tank cleaners. Lancet 1958; ii:88-92.