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T e c h n i c a l D i s c u s s i o n
Oximetry Overview
N-550B
The N-550B Pulse Oximeter measures functional oxygen saturation by
measuring the light absorption of tissue, bone, and blood during the pulsatile
cycle. Red and infrared sensor LED's are used as light sources. A photodiode,
acting as a photodetector, senses each received wavelength of light; namely,
incident light less the amount absorbed by tissue, for both the red and infrared
channels. It also feeds corresponding electrical signals from the sensor to the
N-550B. These signals are then processed by the N-550B software engine to
produce SpO
and pulse rate data. Bone, tissue, pigmentation, and venous
2
vessels normally absorb a constant amount of light over time. The arteriolar
bed normally pulsates and absorbs variable amounts of light during the
pulsations. The ratio of light absorbed is translated into a measurement of
functional oxygen saturation (SpO
Because a measurement of SpO
excessive ambient light can interfere with this measurement.
Specific information about ambient conditions, sensor application, and patient
conditions is contained throughout this manual.
Pulse oximetry is based on two principles: that oxyhemoglobin and
deoxyhemoglobin differ in their absorption of red and infrared light (i.e.,
spectrophotometry), and that the volume of arterial blood in tissue (and hence,
light absorption by that blood) changes during the pulse (i.e.,
plethysmography). A pulse oximeter determines SpO
infrared light into an arteriolar bed and measuring changes in light absorption
during the pulsatile cycle. Red and infrared low-voltage light-emitting diodes
(LED) in the oximetry sensor serve as light sources; a photodiode serves as
the photo detector.
Because oxyhemoglobin and deoxyhemoglobin differ in light absorption, the
amount of red and infrared light absorbed by blood is related to hemoglobin
oxygen saturation. To identify the oxygen saturation of arterial hemoglobin,
the N-550B uses the pulsatile nature of arterial flow. During systole, a new
pulse of arterial blood enters the vascular bed, and blood volume and light
absorption increase. During diastole, blood volume and light absorption reach
their lowest point. The N-550B bases its SpO
difference between maximum and minimum absorption (i.e., measurements at
systole and diastole). By doing so, it focuses on light absorption by pulsatile
arterial blood, eliminating the effects of nonpulsatile absorbers such as tissue,
bone, and venous blood.
).
2
is dependent upon light from the sensor,
2
2
measurements on the
2
by passing red and
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