Extracorporeal circulation in European Economic Community (ECC in EEC): 1979-1989.

This study determines the evolution of ECC in EEC. After recollecting the great stages of ECC since its routinely use in open heart surgery, the study situates its position in the entire world taking into account several indexes like the Gross National Product (GNP) and its evolution, the life expectancy and some other factors either technical or economical. Only a coarse analysis could be done for Europe due to an unsteady evolution. A more detailed analysis has been achieved for France thanks to a greater number of data. In such a study the major difficulty is to estimate the relevance and consistency of data which can change very quickly and are provided either by companies or by other organization.

[Use of extracorporeal circulation oxygenators (CEC) in the European Economic Community (EEC)]. / Utilisation des oxygénateurs en circulation extra-corporelle (CEC) dans la Communauté Economique Européenne (CEE).

This study analyses the growth of CPB in the EEC. The study situates its position in the world taking into account several indexes such as the Gross National Product and its growth the life expectancy and other technical or economic factors. Only a broad analysis could be performed for Europe to the irregular development of CPB. A more detailed analysis was performed for France thanks to a greater number of data. In this type of study the most important problem is to estimate the relevance and consistency of the data provided either by companies or by other organizations because they can change very quickly.

Monitoring of blood gases during extracorporeal circulation with an artificial lung.

During cardiopulmonary bypass, the heart-lung machine and the patient's gas exchange systems (uptake and elimination) form an undissociable couple. Changes in one of the components lead to corresponding changes in the other. In the artificial lung, like in the natural lung and peripheral tissues, gas exchanges depend on several parameters: blood inlet conditions, blood flow rate, temperature, composition of the gas mixture used for ventilation, blood tissue perfusion, O2 consumption, etc. The perfusionist's primary objective is to obtain from the artificial lung adequate O2 delivery to and CO2 removal from the tissues. This paper discusses the main parameters which must be taken into account and analyses the main sensors currently available for in-line measurement of blood gases.