Coronary Rheothermia: A Quasi Non-invasive Method for Controlling Bypass Patency

P. P. Lunkenheimer; Chr. Konermann; D. Weritz; C. Meyer; F. Wallner; F. Klinke; A. Lunkenheimer; N. Stroh; F. Köhler

doi:10.1055/s-2007-1020296

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Thorac Cardiovasc Surg 1983; 31(1): 58-64
DOI: 10.1055/s-2007-1020296

Coronary Rheothermia: A Quasi Non-invasive Method for Controlling Bypass Patency

P. P. Lunkenheimer¹ , Chr. Konermann¹ , D. Weritz¹ , C. Meyer¹ , F. Wallner¹ , F. Klinke¹ , A. Lunkenheimer² , N. Stroh³ , F. Köhler⁴

¹Department of Thoraco-vascular Surgery
²Department of Pediatric Cardiology, University Hospital Münster
³Fraunhofer-Institute, Stuttgart
⁴Department of Pathology, University of Marburg

Further Information

Publication History

1982

Publication Date:
19 March 2008 (online)

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Summary

A method based on the principle of thermodilution was developed for a quasi non-invasive permeability control of aortocoronary bypass.

An epivascularly-attached thermistor records the cooling of the bypass wall when, following the intravenous injection of 5 to 10 ml of a NaCl solution at 4°C, a bolus of cooled blood passes through the bypass.

During cardiosurgical intervention, the thermistor is attached to the venous bridge by one or 2 sutures. The efferent cable goes through the thorax wall and is coupled to a subcutaneously implanted telemetric amplifier unit.

The influence of the vessel wall on the perivascular temperature signal, as compared to the intravascular one, was studied in acute and chronic animal experiments. In acute experiments the perivascular peak of temperature was found to be lower than the intravascular one. Continuous measurements over 9 days showed variations in the perivascular signals which must have been due to changes in the thermal capacity of the tissue coupled to the thermistor as well as to changes in resistance caused by a variable extent of scarred area and by the varying water content of the wound bed.

These variables will continue to keep rheothermia within the limitations of a method with primarily binary results (= bypass: open or closed). Given stable coupling conditions after full development of the scar around the thermistor, the signal falsification by the then constantly coupled tissue capacity becomes calculable such as to obtain semiquantitative results which, theoretically should vary predominantly with cardiac output.

Key words

AC-bypass - Patency control - Rheothermia

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