Biomedical Apparatus for Pumping Blood of a Human or an Animal Patient through a Secondary Intra- or Extracorporeal Blood Circuit

1 . A biomedical apparatus for pumping blood of a human or an animal patient through a secondary intra- or extracorporeal blood circuit, comprising a blood pump for pumping blood, an inlet duct connected to the blood pump, for being inserted into a patient's circulatory system, in order to guide blood of the patient to the blood pump, an outlet duct connected to the blood pump, for being inserted into the patient's circulatory system, in order to guide blood from the blood pump back to the patient's circulatory system, a measuring device for measuring at least one physical parameter of the heart or of a blood vessel of the patient, the measuring device being adapted to be arranged inside the heart or the blood vessel and being adapted to send out an electromagnetic or a mechanical wave, and a controller being configured to determine an estimate for an inner volume of the heart or of the blood vessel based on the measured physical parameter and being configured to regulate the power of the blood pump depending on this estimate. 2 . The biomedical apparatus as claimed in claim 1 , wherein the measuring device is arranged on the inlet duct. 3 . The biomedical apparatus as claimed in claim 1 , wherein the biomedical apparatus is a Ventricular Assist Device (VAD), a heart-lung machine or an extracorporeal membrane oxygenation (ECMO) apparatus. 4 . The biomedical apparatus as claimed in claim 1 , wherein the physical parameter is a distance between the measuring device and a ventricular wall of the heart or between the measuring device and a vascular wall of the blood vessel. 5 . The biomedical apparatus as claimed in claim 4 , wherein the measuring device is adapted for measuring a plurality of distances between the measuring device and the ventricular wall or between the measuring device and the vascular wall in differing directions. 6 . The biomedical apparatus as claimed in claim 1 , wherein the measuring device is an ultrasound measuring device suited for carrying out ultrasound measurements. 7 . The biomedical apparatus as claimed in claim 1 , wherein the controller is configured to determine an estimate for the end-diastolic volume of the heart. 8 . The biomedical apparatus as claimed in claim 7 , wherein the controller is configured to regulate the power of the blood pump based on the following linear function: PW des ( t )=( EDV ( t )− EDV 0 )· k prsw , in which PW des (t) denotes the desired pump work per heartbeat at a certain time t and EDV(t) an estimate for the end-diastolic volume of the heart determined based on the measured physical parameter, and in which the two parameters EDV 0 and k prsw denote the end-diastolic volume at which the desired pump work is zero and the gain of the pump work relative to the estimated EDV(t), respectively. 9 . The biomedical apparatus as claimed in claim 8 , wherein k prsw is in the range of 0.003 J/ml to 0.02 J/ml. 10 . The biomedical apparatus as claimed in claim 8 , wherein EDV 0 is in the range of 10 ml to 150 ml. 11 . The biomedical apparatus as claimed in claim 1 , wherein the controller is configured to determine an estimate for the heart rate of the patient based on the measured physical parameter. 12 . The biomedical apparatus as claimed in claim 1 , wherein the controller is configured to detect an asystolic cardiac motion and to regulate the power of the blood pump according to a special mode, if an asystolic cardiac motion has been detected. 13 . A method for operating a biomedical apparatus for pumping blood of a human or an animal patient through a secondary intra- or extracorporeal blood circuit, wherein the biomedical apparatus comprises a blood pump for pumping blood, an inlet duct connected to the blood pump, for being inserted into a patient's circulatory system, in order to guide blood of the patient to the blood pump, and an outlet duct connected to the blood pump, for being inserted into the patient's circulatory system, in order to guide blood from the blood pump back to the patient's circulatory system, and wherein the method comprises at least the following steps: measuring at least one physical parameter of the heart or of a blood vessel of the patient by means of electromagnetic or mechanical waves sent out by a measuring device arranged inside the heart or the blood vessel, determining an estimate for an inner volume of the heart or of the blood vessel based on the measured physical parameter, and regulating the power of the blood pump depending on the determined estimate. 14 . The method as claimed in claim 13 , wherein the physical parameter is measured by measuring at least one distance between the measuring device and a ventricular wall of the heart or between the measuring device and a vascular wall of the blood vessel.