Perfusion loop assembly for an ex-vivo liver perfusion and a method for ex-vivo liver perfusion

The invention claimed is: 1. A perfusion loop assembly for perfusion of an ex vivo liver, comprising: a pump and a line, wherein the pump is configured to provide a fluid flow of a perfusion fluid through the line and wherein the line branches at a branching point into a first branch line and a second branch line downstream of the pump; the first branch line being configured to provide a first portion of the perfusion fluid to the hepatic artery (arteria hepatica propria or arteria hepatica communis) of the ex vivo liver; the first branch line being coupled with a first gas exchanger, wherein the first branch line comprises a port for administering additives to the perfusion fluid in the first branch line; wherein the first branch line comprises a flow rate sensor and a pressure sensor, the second branch line being configured to provide a second portion of the perfusion fluid to the portal vein (vena portae hepatis) of the ex vivo liver; the second branch line further comprising a first valve for controlling the flow of the perfusion fluid into the portal vein of the ex vivo liver, wherein the second branch line comprises a port for administering additives to the perfusion fluid in the second branch line; wherein the second branch line comprises a flow rate sensor and a pressure sensor; a liver chamber assembly configured to hold the ex vivo liver, a liver outlet line configured to be attached to the vena cava (vena cava inferior) of the ex vivo liver, the outlet line further comprising a second valve for adjusting the pressure in the outlet line at the vena cava of the ex vivo liver, wherein the outlet line comprises a pressure sensor, a reservoir connected to the outlet line and upstream from the pump, a bypass between the first branch line and the second branch line, wherein the bypass connects the first branch line downstream of the gas exchanger with the second branch line downstream of the first valve, or a bypass between the first branch line and the reservoir, and a dialysis machine for adjusting the composition of the perfusion fluid, wherein the dialysis machine is implemented between the outlet line upstream of the reservoir and the second branch line. 2. The perfusion loop assembly according claim 1 , wherein at least one of: the first branch line, the second branch line and/or the outlet line comprise an interface with the hepatic artery of the ex vivo liver, the portal vein and/or the vena cava, respectively, and the first branch line and the second branch line are connected to a sensor for monitoring blood gases. 3. The perfusion loop assembly according to claim 1 , wherein the outlet line comprises a sensor for monitoring the oxygen saturation SO 2 , hemoglobin and hematocrit value in the perfusion fluid. 4. The perfusion loop assembly according to claim 1 , wherein the first valve in the second branch line is a proportional pinch valve. 5. The perfusion loop assembly according to claim 1 , wherein at least one of: the port for administering additives in the first branch line is implemented in the first branch line downstream of the gas exchanger and downstream of the bypass, and the port for administering additives to the perfusion fluid in the second branch line is implemented in a parallel line to second branch line. 6. The perfusion loop assembly according to claim 1 , wherein a sensor for monitoring the glucose level and/or a sensor for monitoring the lactate level and/or a sensor for monitoring the ammonium level in the perfusion fluid is implemented in the loop assembly. 7. The perfusion loop assembly according to claim 1 , wherein a spectroscopic flow cell for recording fluorescence and/or absorbance spectra of at least one compound or molecule present in the perfusate is implemented in the loop assembly. 8. The perfusion loop assembly according to claim 1 , wherein a valve and a flow rate sensor are implemented in the bypass between the first branch line and the second branch line.