Transcutaneous oximetry and dynamic modelling

Author

Ruzicka, Jan

Author_Institution

Med. Fac., Charles Univ., Pilsen

fYear

1997

fDate

7-9 Sep 1997

Firstpage

71

Lastpage

72

Abstract

Ischaemic tissue damage is a common symptom of a various diseases of arterial, venous or lymphatic ethiology. The stage of ischaemic damage can be evaluated by the transcutaneously measured tissue oxygen partial pressure (TcpO₂). Single TcpO₂ measurement is tasked by different variability sources causing the TcpO₂ is not generally used in daily clinical practice. A new method of dynamic TcpO₂ monitoring is presented which is based on tissue response to the increased oxygen delivery which is ensured by the hyperbaric oxygenotherapy. The evaluation of measured data is solved by regression dynamic models constructed according to pathophysiologic laws such as Krogh´s model of oxygen tissue distribution which is derived from Fick´s laws of diffusion and it describes the radial diffusion of oxygen from the centrally situated capillary

Keywords

biodiffusion; biomedical measurement; physiological models; O₂ tissue distribution; arterial ethiology; centrally situated capillary; disease; hyperbaric oxygenotherapy; increased O₂ delivery; ischaemic tissue damage; lymphatic ethiology; measured data evaluation; pathophysiologic laws; radial diffusion; regression dynamic models; tissue response; transcutaneous oximetry; transcutaneously measured tissue O₂ partial pressure; venous ethiology; Condition monitoring; Delay effects; Diseases; Equations; Guidelines; Patient monitoring; Postal services; Pressure measurement; Testing; Tissue damage;

fLanguage

English

Publisher

ieee

Conference_Titel

Information Technology Applications in Biomedicine, 1997. ITAB '97., Proceedings of the IEEE Engineering in Medicine and Biology Society Region 8 International Conference

Conference_Location

Prague

Print_ISBN

0-7803-4318-2

Type

conf

DOI

10.1109/ITAB.1997.649411

Filename

649411