A CO-oximeter measures the absorption of light passing through blood at multiple wavelengths of light to several dozens of
wavelengths, in order to distinguish
oxyhemoglobin, and deoxyhemoglobin, and thus determine the oxyhemoglobin saturation (the percentage of oxygenated hemoglobin compared to the total amount of available
hemoglobin (Hb)). Measurement of greater numbers of wavelengths enables the instrument to distinguish between these and
carboxyhemoglobin,-COHb,
methemoglobin -metHb, other hemoglobin moieties and 'background' light-absorbing species. Traditionally, measurement is made from
arterial blood processed in a specific device designed to be able to measure proportions of multiple components of several hemoglobin moieties using multi-wavelength spectrophotometry and complex, but straightforward internal computations. While these units still are in wide use, blood gas analyzers with integral CO-oximetry modules have also been developed and successfully marketed by several manufacturers. More recently, some 'pulse' or more precisely 'peripheral' oximeters have made it possible to estimate carboxyhemoglobin with non-invasive technology similar to a simple
(peripheral) pulse oximeter. In contrast, the use of a standard or simple pulse oximeter is not effective in the diagnosis of CO poisoning as patients who have carbon monoxide poisoning may have a normal
oxygen saturation reading on a pulse oximeter. ==Usage==