Sensor, Oxygen tension (po – Bayer HealthCare Rapidlab 800 User Manual

Operating Principles

IĆ11

pCO

2

Sensor

The pCO

2

sensor is based upon the electrode described by Severinghaus and

Bradley.

15

It is a complete electrochemical cell that consists of a measuring

electrode and an internal reference electrode. The measuring electrode, which is a
pH electrode, is surrounded by a chloride bicarbonate solution. A membrane
permeable to gaseous CO

2

separates this solution from the sample. The internal

reference electrode, which contains a silver/silver chloride electrode surrounded by
the chloride-bicarbonate solution, provides a fixed potential.

Figure IĆ6.āăpCO

2

Sensor

Sample Path

Measuring Electrode
Contact

Internal Reference
Electrode Contact

As the sample comes in contact with the membrane, CO

2

diffuses into

the chloride-bicarbonate solution, which causes a change in the hydrogen ion
activity.

CO

2

+ H

2

O

{ HCO

3

–

+ H

+

The internal pH electrode detects the change in hydrogen concentration occurring
in the chloride bicarbonate solution and generates a half-cell potential. This
potential, when compared to the fixed potential of the reference electrode, results
in a measurement that reflects pH change in the chloride bicarbonate solution. The
change in pH is related to the log of the partial pressure of CO

2

.

Oxygen Tension (pO

2

)

Oxygen (O

2

) is essential for cell and tissue metabolism in the body. The

cardiopulmonary system is responsible for transporting oxygen to the cells.
Oxygen transport involves four major steps: convection and diffusion from the air
into the pulmonary circulation, combination of O

2

from the lungs with hemoglobin

in red blood cells, transportation of the O

2

through the arteries to the cell, and

finally the release into the tissues and utilization of O

2

at the cellular level.