Abstract
This research project was concerned with applying the technique of mass spectrometry to the analysis of blood gases. A production model mass spectrometer was used for theexperimental work.
The performance of a commercially available blood gas catheter was investigated and found to be unsatisfactory. This led to a fundamental study of membrane systems used with mass
spectrometers and blood. In the course of this it became
apparent that the analysis of oxygen from blood by this method was affected by phenomena concerned with boundary layer depletion,
in particular a complicated non-linearity between the oxygen flux
measured by the mass spectrometer and the partial pressure of the
oxygen in blood. Such phenomena, although observed by others in the past, had not been systematically studied or satisfactorily explained.
A series of in vitro experiments was therefore devised to elucidate the situation. It was carried out using a number of membrane systems on whole blood, plasma, and haemolysed blood. A new theoretical model of oxyhaemoglobin dissociation in the
depleted boundary level of blood was developed and found to explain
the experimental observations qualitatively. An extension of this
model yielded quantitative predictions that agreed with the results obtained by the experiments. The non-linearity effect was seen to
be of significance for membrane systems with oxygen sampling rates
of about 2.10-9 ml/s/torr and over...
| Date of Award | Jan 1980 |
|---|---|
| Original language | English |
| Awarding Institution |
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Keywords
- mass spectrometry
- blood gas analysis