Inactivation of pathogens in biological media

The invention claimed is: 1. A cassette for generating a continuous fluid film from supplied biological fluid, suitable for irradiating a generated fluid film and continuously inactivating pathogens in a biological fluid in an arrangement for continuous, dose-controlled irradiation, the cassette comprising: a module housing including: a tub for holding the biological fluid, an inlet channel for supplying the biological fluid to the tub, an overflow channel for discharging excess fluid from the tub to fix a fluid level in the tub, a cylindrical roller which dips into the tub and fluid and is rotatable within the tub, the cylindrical roller having magnetic elements, a wiper lip on a downward-rotating side of the cylindrical roller, the wiper lip in intimate contact with a roller surface of the cylindrical roller to wipe off the generated fluid film formed upon rotation of the cylindrical roller on the roller surface, and an outlet channel for receiving and discharging fluid wiped off by the wiper lip; a housing cover for closing the module housing, the housing cover having a gas-tight and fluid-tight metal window which is permeable for beta radiation; a mechanical or electromechanical drive unit arranged outside of the module housing; and a coupling magnetically coupling the mechanical or electromechanical drive unit to the cylindrical roller by way of the magnetic element, the coupling being configured to drive rotation of the cylindrical roller via the mechanical or electromechanical drive unit, wherein the cassette is sterilizable and interchangeable for repeated use in the arrangement for continuous, dose-controlled irradiation, and wherein the outlet channel is designed as at least one tube projecting into a groove formed between the wiper lip and the downward-rotating side of the cylindrical roller. 2. The cassette according to claim 1 , wherein the module housing further comprises: a gap-forming element on an upward-rotating side of the cylindrical roller, for forming and homogenizing the generated fluid film on the roller surface, wherein the gap-forming element on the upward-rotating side of the cylindrical roller is spaced from the roller surface in such a manner that it forms a capillary gap, wherein the capillary gap extends to above the fluid level. 3. The cassette according to claim 2 , wherein the gap-forming element is positionable at a variable distance from the roller surface, or is exchangeable, to regulate a thickness of the generated fluid film formed thereon. 4. The cassette according to claim 1 , which does not contain a gap-forming element. 5. The cassette according to claim 1 , wherein the wiper lip on the downward-rotating side of the cylindrical roller is oriented counter to a downward-rotating direction of the cylindrical roller. 6. The cassette according claim 1 , wherein the wiper lip on the downward-rotating side of the cylindrical roller is oriented in a downward-rotating direction of the cylindrical roller. 7. The cassette according to claim 1 , in combination with an arrangement for the continuous, dose-controlled irradiation of biological fluid for continuous inactivation of pathogens in the biological fluid, comprising: a source for beta radiation, wherein the cassette is directly coupled to the source for beta radiation. 8. The cassette in combination with the arrangement according to claim 7 , further comprising at least one pump for the continuous, active transport of the fluid through the module housing. 9. The cassette in combination with the arrangement according to claim 7 , further comprising a mechanical or electromagnetic drive unit for driving a rotation of the cylindrical roller in the module. 10. A method for inactivating pathogens in a biological fluid with the cassette according to claim 1 , the method comprising the steps of: a) supplying the biological fluid potentially containing active pathogens to the cassette, b) rotating the cylindrical roller in the module housing of the cassette such that a continuous fluid film of the biological fluid, of predeterminable thickness, is formed on the roller surface, c) irradiating the generated fluid film on the roller surface with ionizing beta radiation in a dose which causes inactivation of the pathogens of the biological fluid, and d) collecting the irradiated fluid with inactive pathogens from the roller surface.