Carbon monoxide toxicity: Difference between revisions

Revision as of 12:47, 13 February 2015

Colorless, odorless gas
Most toxic component in smoke inhalation and major contributor to fire-related deaths
- Can co-occur with Cyanide toxicity in industrial fires
Peak incidence in winter months

Hypoxia
- Binding affinity of Hb for CO (carboxyhemoglobin) is 200x that of O2
- Half-Life
  - Room air: ~5hrs
  - 100% O2: ~1hr
  - HBO 2.5atm: 24min
Lactic acidosis
- CO inhibits oxidative phosphorylation
Hypotension
- CO induces NO2 and guanylate cyclase release --> vasodilation release

May range from "flu-like" symptoms to coma
CNS
- Headache
- Visual disturbances
- Confusion
- Ataxia
- Seizure
- Syncope
- Retinal hemorrhage
- Focal neurologic deficit
GI
- Vomiting
Pulm
- Dyspnea/tachypnea
Cardio
- Chest pain
- ECG changes/dysrhythmias
Derm
- Bullous skin lesions
- Classic finding of cherry red oral mucosa is rarely seen in living pts
  - More likely seen in > 25% COHb levels

Must have high clinical suspicion (esp in pts w/ coma, AMS, or anion gap acidosis)
- Comatose pt removed from fire should be assumed to have CO poisoning
Carboxyhemoglobin Level
- Interpretation must take into account time since exposure and O2 tx
- Normal value in non-smokers is ~1%, normal value in smokers may be up to 10%
- Symptoms and COHb levels do not always correlate well
Pulse oximetry is unreliable
- CoHb registers the same as O2Hb so will have artificially high SpO2
- O2 saturation gap reflects discordance of SpO2 by pulse oximeter vs by VBG

VBG (ABGs are no longer considered necessary^[1])
- Laboratory Co-oximetry analysis will provide carboxyhemoglobin level
- pH will be low secondary to metabolic acidosis caused by anaerobic metabolism and elevated lactate levels
Pulse CO-oximetry
- Special pulse CO-ox can accurately determine CO level^[2]
Lactate
Chemistry
Troponin
Total CK (rhabdo)
ECG
- May range from normal to STEMI (most common ST, then prolonged QT)
  - Few of the pts w/ AMI from CO have occlusive lesions in their arteries
Head CT
- Identified radiolographically within 12 hours of exposure
- Bilateral hypodense lesions in the basal ganglia: globus pallidus, putamen, and caudate nuclei^[3]

If smoke inhalation, good pulmonary toilet is very important
NEVER use steroids in smoke inhalation injury; intubate early if concern for obstructing edema
O2 100% by NRB or ETT
- Provide O2 until COHb value <10%
- Early PEEP prevents progressive atelectasis and improves O2 diffusion
- In general, COHb levels fall rapidly to < 10% within 30 min of 100% O2
- Maintain 100% O2 for additional 2-3 hrs after < 10%, since anaerobic metabolism is occuring due to cytochrome oxidase poisoning^[4]
  - Anaerobic metabolism universally seen with COHb > 40%
  - Monitor for return of aerobic metabolism with normal serum bicarbonate levels

Decision to initiate HBO should be made in consultation w/ hyperbaric specialist
Controversial Outcomes regarding benefit^[5]
- Three HBO treatments within 24hrs reduced risk of cognitive sequelae 6 weeks and 12 months after CO poisoning^[6]
- While an Australian study showed not benefit and suggested worse outcomes in HBO therapy^[7]
Pt must be stable prior to transport since response to acute medical conditions while undergoing hyperbaric therapy in a chamber is difficult.
Indications (generally accepted guidelines): ^[8]
- Syncope
- Confusion/AMS
- Seizure
- Coma
- Focal neuro deficit
- Pregnancy w/ CoHb level >15%
- Blood level >25%
- Acute myocardial ischemia

Minimal or no symptoms
- Discharge^
Mildly symptomatic
- Headache, vomiting, elevated COHb level
- Discharge after 4hr obs and symptom resolution^
Severely symptomatic
- Ataxia, syncope, chest pain, focal neuro deficit, dyspnea, ECG changes, pregnant w/ COHb >15%
- Admit; discuss with hyperbaric specialist

^If discharging patient- may need to alert local fire/police services to evaluate home/work before they return. Check with your local branch.

↑ Lopez DM, et al. Relationship between arterial, mixed venous, and internal jugular carboxyhemoglobin concentrations at low, medium, and high concentrations in a piglet model of carbon monoxide toxicity. Crit Care Med. 2000; 28(6):1998-2001.
↑ Coulange M, et al. Reliability of new pulse CO-oximeter in victims of carbon monoxide poisoning. Undersea Hyperb Med. 2008; 35(2):107-111.
↑ Lee, DC: Hydrocarbons, in Marx JA, Hockberger RS, Walls RM, et al (eds): Rosen’s Emergency Medicine: Concepts and Clinical Practice, ed 7. St. Louis, Mosby, Inc., 2010, (Ch) 156:p 2035-2038
↑ MetroHealth Medical Center Burn ICU Handbook (Not a policy manual), Cleveland, OH
↑ http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1116883/pdf/1083.pdf
↑ Weaver, L. et al. Hyperbaric Oxygen For Acute Carbon Monoxide Poisoning. NEJM. 2002:347(14):1057 http://emed.wustl.edu/Portals/2/Answer%20Key%20PDF/2012/January2012/SecondYear.pdf
↑ Scheinkestel C. et al. Med J Aust 1999; 170 (5): 203-210. Hyperbaric or normobaric oxygen for acute carbon monoxide poisoning: a randomised controlled clinical trial http://www.mja.com.au/journal/1999/170/5/hyperbaric-or-normobaric-oxygen-acute-carbon-monoxide-poisoning-randomised
↑ Practice Recommendations in the Diagnosis, Management and Prevention of Carbon Monoxide Poisoning. Hampson NB et al. Am J Respir Crit Care Med 2012 Oct 18

@@ Line 66: / Line 66: @@
 == Workup ==
-*[[VBG]]
+*[[VBG]] (ABGs are no longer considered necessary<ref>Lopez DM, et al. Relationship between arterial, mixed venous, and internal jugular carboxyhemoglobin concentrations at low, medium, and high concentrations in a piglet model of carbon monoxide toxicity. Crit Care Med. 2000; 28(6):1998-2001.</ref>)
-**Co-oximetry analysis will provide carboxyhemoglobin level
+**Laboratory Co-oximetry analysis will provide carboxyhemoglobin level
 **pH will be low secondary to metabolic acidosis caused by anaerobic metabolism and elevated lactate levels
+*Pulse CO-oximetry
+**Special pulse CO-ox can accurately determine CO level<ref>Coulange M, et al. Reliability of new pulse CO-oximeter in victims of carbon monoxide poisoning. Undersea Hyperb Med. 2008; 35(2):107-111. </ref>
 *Lactate
 *Chemistry
@@ Line 74: / Line 76: @@
 *Total CK ([[rhabdo]])
 *[[ECG]]
-**May range from normal to STEMI&nbsp;(most common ST, then prolonged QT)
+**May range from normal to STEMI (most common ST, then prolonged QT)
 ***Few of the pts w/ AMI from CO have occlusive lesions in their arteries
 *Head CT