Apparatus and a method for ex-vivo measurement of performance of a donor heart

The invention claimed is: 1. An apparatus for ex-vivo measurement of performance of a human donor heart, comprising: a heart holder in a receptacle for holding the human donor heart ex vivo in the heart holder; a perfusion fluid supply conduit extending into the receptacle with a connector for connection to the human donor heart; a perfusion discharge conduit communicating with the interior space of the receptacle for collection of perfusion fluid drained from the human donor heart; a perfusion pump and an oxygenator connected between the perfusion fluid supply conduit and the perfusion discharge conduit; a bag for placement into a left ventricle of the human donor heart, the bag having a bag interior space; a fluid tight, compressible and expandable container having a container interior space communicating with the bag interior space; a sensor for measuring compression and expansion of the container; and an actuator for exerting a compression force on the container and an actuator control for varying the compression force; wherein the actuator and the actuator control are configured for controlling a preload pressure or fluid displacement or flow driving a fluid transfer from the container into the bag, wherein the actuator and the actuator control are configured for at least controlling the preload pressure or fluid displacement or flow by: controlling a force urging the container into compression in accordance with a measured rate of compression or expansion of the container and with at least one predetermined fluidic impedance value, and/or controlling a rate of compression or expansion of the container in accordance with at least measured force urging the container into compression or a measured pressure in the container or in the bag and with at least one predetermined fluidic impedance value. 2. The apparatus according to claim 1 , wherein the sensor and the actuator are integrated. 3. The apparatus according to claim 1 , wherein the sensor is arranged for sensing an expansion force exerted by the container and a registration unit connected to the sensor for registering sensed expansion forces. 4. The apparatus according to claim 1 , wherein the container is arranged for expansion and compression in substantially one direction only. 5. The apparatus according to claim 1 , in which the container is in the form of a bellow or in the form of a cylinder in which a plunger or piston is movable. 6. An apparatus for ex-vivo measurement of performance of a human donor heart, comprising: a heart holder in a receptacle for holding the human donor heart; a perfusion fluid supply conduit extending into the receptacle with a connector for connection to the human donor heart; a perfusion discharge conduit communicating with the interior space of the receptacle for collection of perfusion fluid drained from the human donor heart; a perfusion pump and an oxygenator connected between the perfusion fluid supply conduit and the perfusion discharge conduit; a bag for placement into a left ventricle of the human donor heart, the bag having a bag interior space; a fluid tight, compressible and expandable container having a container interior space communicating with the bag interior space; and a sensor for measuring compression and expansion of the container, wherein the heart holder includes an enclosure for enclosing the human donor heart, the bag and the container, wherein at least the sensor is arranged outside of the enclosure, and further comprising a motion transfer mechanism extending from the container to at least the sensor for transferring motion between the container and the sensor. 7. The apparatus according to claim 6 , wherein the motion transfer mechanism includes at least one Bowden cable. 8. The apparatus according to claim 7 , wherein at least the sensor is connected to a drum around which at least one inner cable of the at least one Bowden cable is wound. 9. A method of using an apparatus for ex-vivo measurement of performance of the human donor heart obtained from a deceased donor, wherein the apparatus comprises: a heart holder in a receptacle for holding the human donor heart; a perfusion fluid supply conduit extending into the receptacle with a connector for connection to the human donor heart; a perfusion discharge conduit communicating with the interior space of the receptacle for collection of perfusion fluid drained from the human donor heart; a perfusion pump and an oxygenator connected between the perfusion fluid supply conduit and the perfusion discharge conduit; a bag for placement into a left ventricle of the human donor heart, the bag having a bag interior space; a fluid tight, compressible and expandable container having a container interior space communicating with the bag interior space; and a sensor for measuring compression and expansion of the container; wherein the method comprises: holding the human donor heart ex-vivo in the heart holder; providing said bag into the left ventricle of the human donor heart; circulating perfusion fluid through the human donor heart through a circuit including said perfusion pump and said oxygenator, including supplying perfusion fluid to coronary arteries of the human donor heart and discharging perfusion fluid collected from the human donor heart; measuring said compression and said expansion of the container by the sensor while the human donor heart is beating; and controlling a preload pressure or fluid displacement or flow driving a fluid transfer from the container into the bag, wherein at least the preload pressure or fluid displacement or flow is controlled by: controlling a force urging the container into compression in accordance with a measured rate of compression or expansion of the container and with at least one predetermined fluidic impedance value, or controlling a rate of compression or expansion of the container in accordance with at least a measured force urging the container into compression or a measured pressure in the container or in the bag and with at least one predetermined fluidic impedance value. 10. The method according to claim 9 , wherein the bag has a bag wall and wherein, at a maximum volume of the bag during the measurements, the bag wall is free from elastic stretch in a plane of the bag wall. 11. A method of using an apparatus for ex-vivo measurement of performance of the human donor heart obtained from a deceased donor, wherein the apparatus comprises: a heart holder in a receptacle for holding the human donor heart; a perfusion fluid supply conduit extending into the receptacle with a connector for connection to the human donor heart; a perfusion discharge conduit communicating with the interior space of the receptacle for collection of perfusion fluid drained from the human donor heart; a perfusion pump and an oxygenator connected between the perfusion fluid supply conduit and the perfusion discharge conduit; a bag for placement into a left ventricle of the human donor heart, the bag having a bag interior space; a fluid tight, compressible and expandable container having a container interior space communicating with the bag interior space; and a sensor for measuring compression and expansion of the container; wherein the method comprises: holding the human donor heart ex-vivo in the heart holder; providing said bag into the left ventricle of the human donor heart; circulating perfusion fluid through the human donor heart through a circuit including said perfusion pump and said oxygenator, including supplying perfusion fluid to coronary arteries of the human donor heart and discharging perfusion fluid collected from the human donor heart; mea