Carbon monoxide (CO) is a colorless, odorless gas product of the combustion of carbon-containing compounds.  CO poisoning can occur after exposure to automobile exhaust (especially in older cars without catalytic converters), fire smoke, or improperly vented natural gas appliances.  CO has 2 major effects on oxygen delivery to tissues:

1. CO binds to hemoglobin with an affinity approximately 250 times that of oxygen, reducing the number of heme binding sites available to oxygen.  As a result, levels of CO-bound hemoglobin, represented by carboxyhemoglobin (HBCO), increase.  By decreasing the fraction of hemoglobin available for oxygen binding, CO decreases the oxygen-carrying capacity and oxygen content of blood, but not the amount of oxygen dissolved in plasma, reflected by the partial pressure of oxygen (PaO₂).
2. CO poisoning causes a leftward shift of the hemoglobin-oxygen dissociation curve, reflecting a decreased tendency for oxygen to unload in the tissues.

CO's effects on arterial blood oxygen content are seen in the graphs below, which show the lower oxygen content with CO poisoning (similar to anemia) and the leftward shift of the dissociation curve that becomes increasingly more pronounced at increasingly higher HBCO concentrations (this does not occur with anemia).

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(Choices A, B, C, and E)  CO poisoning does not affect PaO₂ and it does not cause methemoglobinemia.  Methemoglobin is formed when the Fe²⁺ (ferrous iron) in heme is oxidized to Fe³⁺ (ferric iron).  Methemoglobinemia results from drug exposures (ie, dapsone, nitrites) as well as enzyme deficiencies and hemoglobinopathies.

Educational objective:
Carbon monoxide (CO) binds to hemoglobin with much higher affinity than oxygen, thereby preventing oxygen binding to hemoglobin.  It also reduces oxygen unloading from hemoglobin in the tissues.  CO poisoning increases carboxyhemoglobin concentrations but does not affect the partial pressure of oxygen and does not precipitate methemoglobinemia.