Method and device for therapy of periodic respiration

What is claimed is: 1. A ventilator, wherein the ventilator comprises a controllable respiratory gas source for predetermining ventilation parameters in a respiratory gas supply of a patient with periodic respiration, one or more elements for establishing a measure of a current ventilation parameter of the controllable respiratory gas source, one or more first storage elements for storing a measure of a preceding ventilation parameter of the controllable respiratory gas source in a recallable manner, one or more first comparison elements for deriving a first measure of a change (increase/decrease) in a current ventilation parameter of the controllable respiratory gas source compared to a preceding ventilation parameter of the controllable respiratory gas source, one or more elements for establishing a measure of a current respiration, one or more second storage elements for storing a measure of a preceding respiration in a recallable manner, one or more second comparison elements for deriving a second measure of a change (increase/decrease) in a current respiration compared to a preceding respiration, one or more third comparison elements for deriving a third measure of a change (increase/decrease) in a respiratory exertion from at least one of the first and second measures, and a control apparatus which controls at least one ventilation parameter dependent on the third measure. 2. The ventilator of claim 1 , wherein the control apparatus is configured to be capable of controlling the at least one ventilation parameter dependent on the third measure to achieve a gradient of 0 for the third measure. 3. The ventilator of claim 1 , wherein the control apparatus is configured to be capable of controlling the at least one ventilation parameter dependent on the third measure to achieve a gradient of 0 for the measure of a preceding ventilation parameter. 4. The ventilator of claim 1 , wherein the control apparatus controls at least an IPAP pressure and/or an EPAP pressure for a subsequent breath dependent on a change in respiratory exertion (third measure) in preceding breaths. 5. The ventilator of claim 4 , wherein the control apparatus leads a pressure lift, i.e. a difference between IPAP pressure and EPAP pressure, to a preselected basal support in a step-by-step manner in phases with largely stable respiration in which respiratory exertion deviates by less than 20% from breath to breath. 6. The ventilator of claim 1 , wherein pressure support is adapted on a breath-by-breath basis in case of changes in ventilation during nighttime. 7. The ventilator of claim 1 , wherein recordings of at least one of a pressure curve, a flow curve, or a respiratory frequency of a natural respiration of a patient are used, at least from time to time, for modulating a pressure support. 8. The ventilator of claim 1 , wherein a recording of at least one of a pressure curve, a flow curve, or a respiratory frequency of a natural respiration of a patient is used, at least from time to time, for calculating a safety frequency for the ventilation. 9. The ventilator of claim 1 , wherein an expiratory positive airway pressure (EPAP) can be set from 2 to 15 cm H2O. 10. The ventilator of claim 1 , wherein different pressure profiles can be applied for inspiration and expiration. 11. The ventilator of claim 1 , wherein obstructions are identified by at least one of frequency-only tracking (FOT), flattening, snoring, apnea or a flow response to mandatory ventilation. 12. The ventilator of claim 1 , wherein at least one of cardiac output, blood pressure, cardiac frequency, SpO2 or CO2 is established by means of an adaptable module and measured variables of the at least one of cardiac output, blood pressure, cardiac frequency, SpO2 or CO2 are used for calculating pressure support. 13. The ventilator of claim 1 , wherein control of a power of a humidifier connected to the ventilator is carried out dependent on a measure of pressure support. 14. The ventilator of claim 1 , wherein during an initial accustoming phase a pressure support that is lower than an ideal calculated one is applied. 15. A method for controlling the respiratory gas supply of a patient with periodic respiration using the apparatus of claim 1 , wherein the method comprises: establishing a measure of a current ventilation parameter, storing, in a recallable fashion, a measure of a preceding ventilation parameter, establishing a first measure of a change (increase/decrease) in a current ventilation parameter compared to a preceding ventilation parameter, establishing a measure of a current respiration, storing, in a recallable fashion, a measure of a preceding respiration, establishing a second measure for a change (increase/decrease) in a current respiration compared to a preceding respiration, establishing a third measure for a change (increase/decrease) in a respiratory exertion from at least one of the first and second measures, controlling at least one ventilation parameter dependent on the third measure.