Method for controlling a device for extracorporeal blood gas exchange, device for extracorporeal blood gas exchange, as well as control device for controlling a device for extracorporeal blood gas exchange

What is claimed is: 1. A method for controlling a device for extracorporeal blood gas exchange, wherein the device comprises a membrane as a gas-liquid barrier between a bloodstream and a gas stream, wherein the membrane makes possible a passing of carbon dioxide content over from the bloodstream into the gas stream, at least one actuator, wherein a change in a value of an operating parameter of the actuator brings about a change in a value of the carbon dioxide content, which passes over from the bloodstream into the gas stream, the method comprising the steps of: providing at least one control device comprising an anesthesia device and a capnometer; providing breathing gas information, which indicates a carbon dioxide concentration in a breathing gas; providing a control signal, which indicates a request for setting a value of the operating parameter; changing the value of the operating parameter as a function of the carbon dioxide concentration in the breathing gas; providing at least one minimal value, wherein in case the value of the at least one operating parameter reaches the minimal value, the value of the at least one operating parameter is retained; and stopping a weaning process when the value of the at least one operating parameter reaches the minimal value. 2. A method in accordance with claim 1 , wherein the operating parameter has an effect on a pumping capacity of a pump that is a part of or is associated with the device. 3. A method in accordance with claim 1 , wherein the operating parameter has an effect on an oxygen quantity of the gas stream. 4. A method in accordance with claim 1 , further comprising the steps of: providing at least one comparison value, which indicates a comparison concentration; and changing of the value of the operating parameter as a function of the carbon dioxide concentration in the breathing gas and of the comparison concentration. 5. A method in accordance with claim 4 , wherein in case the carbon dioxide concentration in the breathing gas is higher than the comparison concentration, the value of the at least one operating parameter is changed such that the value of the carbon dioxide content, which passes over from the bloodstream into the gas stream, is reduced. 6. A method in accordance with claim 4 , wherein in case the carbon dioxide concentration in the breathing gas is lower than the comparison concentration, the value of the at least one operating parameter is changed such that the value of the carbon dioxide content, which passes over from the bloodstream into the gas stream, is increased. 7. A method in accordance with claim 1 , further comprising the steps of: providing at least one piece of information, which indicates an extent of a state of ventilation of a lung; and providing a ventilation threshold value, wherein the retaining of the value of the at least one operating parameter is further made dependent on a comparison of the extent of the state of ventilation with the ventilation threshold value. 8. A method in accordance with claim 1 , further comprising the steps of: providing information, which indicates an extent of inspiratory muscle activity; and providing an activity threshold value, wherein the retaining of the value of the at least one operating parameter is further made dependent on a comparison of the extent of the inspiratory muscle activity and on the activity threshold value. 9. A method in accordance with claim 1 , further comprising the steps of: providing at least one first blood gas measured value, which corresponds to a first measurement time; providing at least one second blood gas measured value, which corresponds to a second measurement time; and providing an output signal as a function of the first and of the second blood gas measured value. 10. A method in accordance with claim 1 , further comprising: providing a control unit, wherein the control unit receives the breathing gas information as input and provides the control signal as output, the at least one actuator receiving the control signal as input. 11. A device for extracorporeal blood gas exchange, the device comprising: a bloodstream guide area for guiding a bloodstream; a gas-guiding area for guiding a gas stream; a membrane forming a gas-liquid barrier between the bloodstream guided in the bloodstream guide area and the gas stream guided in the gas-guiding area for passing over of carbon dioxide content from the bloodstream into the gas stream; a data network interface; at least one actuator operating based on an actuator operating parameter, the actuator operating parameter having a value that determines a value of the carbon dioxide content which passes over from the bloodstream into the gas stream; and at least one control unit comprising a capnometer and an anesthesia device, the at least one control unit being configured: to receive a control signal by means of the data network interface, the control signal indicating a request for setting the value of the actuator operating parameter; to receive at least one minimal value, wherein in case the value of the at least one operating parameter reaches the minimal value, the value of the at least one operating parameter is retained; to provide the control signal to the actuator; and to terminate a weaning process when the value of the at least one operating parameter reaches the minimal value. 12. A device for extracorporeal blood gas exchange, the device comprising: a bloodstream guide area for guiding a bloodstream; a gas-guiding area for guiding a gas stream; a membrane forming a gas-liquid barrier between the bloodstream guided in the bloodstream guide area and the gas stream guided in the gas-guiding area for passing over of carbon dioxide content from the bloodstream into the gas stream; a data network interface; at least one actuator operating based on an actuator operating parameter, which actuator operating parameter has a value that determines a value of the carbon dioxide content which passes over from the bloodstream into the gas stream; and at least one control unit comprising a capnometer and an anesthesia device, the at least one control unit being configured: to receive breathing gas information by means of the data network interface, which breathing gas information indicates a carbon dioxide concentration in a breathing gas; to provide a control signal, which indicates a setting request for setting the value of the operating parameter, to the actuator; to change the value of the operating parameter as a function of the breathing gas information indicative of the carbon dioxide concentration in the breathing gas; to receive at least one minimal value, wherein in case the value of the at least one operating parameter reaches the minimal value, the value of the at least one operating parameter is retained; and to stop a weaning process when the value of the at least one operating parameter reaches the minimal value. 13. A control device for controlling a device for extracorporeal blood gas exchange, wherein the device for extracorporeal blood gas exchange comprises a membrane forming a gas-liquid barrier between a bloodstream and a gas stream, providing a passing over of the carbon dioxide content from the bloodstream into the gas stream and the device for extracorporeal blood gas exchange further comprises at least one actuator operating based on an actuator operating parameter, which actuator operating parameter has a value that determines a value of the carbon dioxide content which passes over from the bloodstream into the gas stream, the control device comprising: an anesthesia device; a capno