System and method for separating cells incorporating magnetic separation

The invention claimed is: 1. A cell processing system comprising: a first processor connectable to a source container filled with a biological fluid, the first processor comprising: a separator configured to separate the biological fluid from the source container into at least two streams of material; and a first container configured to receive one of the at least two streams along a first fluid pathway; a second processor connectable to the first container, the second processor comprising: a magnetic separator configured to select target cells, the target cells being associated with magnetic particles; a second, pass-through container associated with the magnetic separator, the second, pass-through container connected at a first end to the first container along a second fluid pathway; and a third container connected to a second end of the second, pass-through container; and one of the first processor and the second processor comprising at least one pump configured to transfer material between the separator and the first container along the first fluid pathway, and between the first container and the second, pass-through container along the second fluid pathway; and at least one controller coupled to the first processor and the second processor; wherein the magnetic separator comprises first and second opposing plates, at least the first plate translatable relative to the second plate, the second, pass-through container disposed between the first and second plates, and the first plate comprising a magnet, wherein the at least one controller is configured to move the first and second plates toward each other to express fluid from the second, pass-through container into the third container. 2. The cell processing system according to claim 1 , wherein a closed fluid circuit defines in part the first and second processors, the closed fluid circuit comprising and connecting the first, second and third containers. 3. The cell processing system according to claim 1 , wherein the first and second plates are mounted on an axle, the first and second plates being pivotable about the axle to change the inclination of the first and second plates and the second container disposed between the first and second plates. 4. The cell processing system according to claim 1 , wherein the magnet is translatable relative to the first plate. 5. The cell processing system according to claim 1 , wherein the at least one controller is configured to operate the first processor to associate the target cells with the magnetic particles in the first container, to operate the at least one pump to move the target cells with associated magnetic particles to the magnetic separator, and to operate the magnetic separator to select the target cells. 6. The cell processing system according to claim 5 , wherein the at least one controller comprises a processor and the processor is programmed to operate the first processor to associate the target cells with the magnetic particles in the first container, to operate the at least one pump to move the target cells with associated magnetic particles to the magnetic separator, and to operate the magnetic separator to select the target cells. 7. The cell processing system according to claim 1 , wherein the at least one controller is configured to operate the at least one pump to circulate the target cells and the magnetic particles between the first container and the separator during association of the target cells with the magnetic particles. 8. The cell processing system according to claim 1 , wherein the separator of the first processor comprises a spinning membrane separator.