Device and method for monitoring the state of health of a patient

The invention claimed is: 1 . A cardiac support system comprising: an intravascular blood guiding device configured to be delivered to a heart of a patient via the vasculature and to be positioned across the aortic valve; a first pressure sensor and a second pressure sensor, wherein the first pressure sensor and the second pressure sensor are disposed at a predetermined distance from one another in the intravascular blood guiding device such that the first pressure sensor and the second pressure sensor are configured to be located in a ventricle and an aorta of the heart, respectively, when the intravascular blood guiding device is positioned across the aortic valve; and a monitoring device for monitoring a condition of a patient, the first pressure sensor configured to send a first pressure signal to the monitoring device, the second pressure sensor configured to send a second pressure signal to the monitoring device, the monitoring device comprising: an input interface for receiving the first pressure signal and the second pressure signal; and a processing unit for processing the first pressure signal and the second pressure signal to determine a processing value indicative of the condition of the patient, wherein: the monitoring device determines a change in a differential pressure between the ventricle and the aorta of a heart of the patient based at least in part on the first pressure signal and the second pressure signal, and wherein the monitoring device determines an elasticity of a blood vessel proximate to the cardiac support system based at least in part on the changes in the differential pressure; the input interface is configured to receive a cardiac support blood flow value associated with the cardiac support system which represents a blood flow induced by the cardiac support system, wherein the processing unit is configured to use the cardiac support blood flow value as the processing value to determine a performance value of the heart; and the performance value is a pump power of the heart of the patient minus the cardiac support blood flow value. 2 . The cardiac support system of claim 1 , wherein the input interface and the processing unit are configured to be disposed and operated outside a body of the patient. 3 . The cardiac support system of claim 1 , wherein one of the input interface and the processing unit is configured to be disposed outside a building in which the patient is located. 4 . The cardiac support system of claim 1 , wherein the input interface or the processing unit is configured to be a unit of a cloud server or a computer unit that can communicate via an Internet connection. 5 . The cardiac support system of claim 1 , wherein the input interface is configured to receive the first pressure signal and the second pressure signal at predetermined time intervals, wherein the processing unit is configured to determine the processing values using the first pressure signal and the second pressure signal received at the predetermined time intervals, and wherein the processing unit is configured to store the processing values, compare them with one another, and output an alarm signal in response to one or more of the processing values exceeding a threshold value. 6 . The cardiac support system of claim 1 , wherein the processing unit is configured to output a control signal to the cardiac support system based at least in part on the processing value, wherein the processing unit is configured to output a data transmission signal as the processing value to a central processing unit or a cloud server via an Internet connection, and wherein the data transmission signal comprises at least one piece of information obtained from the first pressure signal or the second pressure signal via data compression. 7 . The cardiac support system of claim 1 , further comprising a motor configured to pump blood within the patient, wherein the processing unit is configured to generate a control signal based at least in part on the processing value, and wherein the control signal is configured to control operation of the motor. 8 . The cardiac support system of claim 7 , wherein the control signal is configured to control operation of the motor to reach a desired blood pressure. 9 . The cardiac support system of claim 1 , wherein the intravascular blood guiding device comprises a tip configured to be positioned in a ventricle when implanted, wherein the first pressure sensor is disposed on the tip, and wherein the first pressure signal is indicative of a ventricular pressure. 10 . The cardiac support system of claim 9 , wherein the first pressure signal comprises a systolic ventricular pressure and a diastolic ventricular pressure. 11 . The cardiac support system of claim 1 , wherein the intravascular blood guiding device comprises a motor configured to be positioned in the aorta when implanted, wherein the second pressure sensor is disposed on a back end of the motor, and wherein the second pressure signal is indicative of an aortic pressure. 12 . The cardiac support system of claim 1 , wherein the intravascular blood guiding device comprises: a hose having an inlet configured to be located in the ventricle when implanted and an outlet located proximal to the inlet and configured to be located in the aorta when implanted; and a motor configured to be positioned in the aorta when implanted, wherein the first pressure sensor is located distally of the inlet for sensing a pressure in the ventricle, and wherein the second pressure sensor is located proximally to the outlet for sensing a pressure in the aorta. 13 . A cardiac support system comprising: an intravascular blood guiding device configured to be delivered to a heart of a patient via the vasculature and to be positioned across the aortic valve; a first pressure sensor and a second pressure sensor, wherein the first pressure sensor and the second pressure sensor are disposed at a predetermined distance from one another in the intravascular blood guiding device such that the first pressure sensor and the second pressure sensor are configured to be located in a ventricle and an aorta of the heart, respectively, when the intravascular blood guiding device is positioned across the aortic valve; and a monitoring device for monitoring a condition of a patient, the first pressure sensor configured to send a first pressure signal to the monitoring device, the second pressure sensor configured to send a second pressure signal to the monitoring device, the monitoring device comprising: an input interface for receiving the first pressure signal and the second pressure signal; and a processing unit for processing the first pressure signal and the second pressure signal to determine a processing value indicative of the condition of the patient, wherein: the monitoring device determines a change in a differential pressure between the ventricle and the aorta of a heart of the patient based at least in part on the first pressure signal and the second pressure signal, and wherein the monitoring device determines an elasticity of a blood vessel proximate to the cardiac support system based at least in part on the changes in the differential pressure; and the input interface is configured to receive an ambient air pressure, and wherein the processing unit is configured to determine a blood pressure value of the patient based at least in part on the ambient air pressure. 14 . The cardiac support system of claim 13 , wherein the input interface and the processing unit are configured to be disposed and operated outside a body of the patient.