Low volume extracorporeal photopheresis systems and methods

1 . A unitary disposable kit for performing low volume extracorporeal photopheresis comprising: a) a first container configured to receive whole blood from a patient and to be mountable in both a centrifuge and a blood component separator; b) a second container connected to the upper portion of the first container by a first tubing segment for receipt of plasma configured to be mountable in both a centrifuge and a blood component separator, the first container and second container each having an upper portion and a lower portion when mounted in the centrifuge and blood component separator; c) a third container connected to the lower end of the first container by a second tubing segment for receipt of packed red blood cells; d) a fourth container connected to the first container by a third tubing segment for receipt of buffy coat and configured to be mountable in an irradiation device. 2 . The unitary disposable kit of claim 1 further comprising a phlebotomy needle connected to the first container by a fourth tubing segment for introducing whole blood into the first container and wherein the first container is prefilled with a volume of anticoagulant. 3 . The unitary disposable kit of claim 1 further comprising a fifth tubing segment connected to the fourth container for introducing a photoactivation agent into the fourth container. 4 . The unitary disposable kit of claim 3 further comprising a fifth container containing prefilled with a volume of photoactivation agent and connected to the fourth container by the fifth tubing segment. 5 . The unitary disposable kit of claim 1 further comprising a sixth container prefilled with a volume of saline and connected to the first container by a sixth tubing segment for introducing saline into the first container. 6 . The unitary disposable kit of claim 1 wherein a flow control clamp is associated with at least one of the tubing segments. 7 . The unitary disposable kit of claim 1 wherein a break-away cannula is associated with at least one of the tubing segments. 8 . The unitary disposable kit of claim 1 wherein the third container is prefilled with a volume of allogenic, ABO packed red blood cells matched to the patient. 9 . The unitary disposable kit of claim 3 further comprising an in-line anti-microbial filter associated with the fifth tubing segment. 10 . A method for performing a low volume extracorporeal photopheresis procedure utilizing the unitary disposable kit of claim 1 in combination with a centrifuge, a blood separation device and an irradiation device, comprising: a) mounting the first container containing a volume of whole blood in the centrifuge; b) operating the centrifuge to separate the whole blood into separate layers of plasma at the upper end of the first container, packed red blood cells at the lower end of the first container, and buffy coat intermediate the layers of plasma and packed red blood cells; c) loading the first container onto the blood separation device; d) expressing plasma from the upper end of the first container through the first tubing segment and into the second container; e) expressing packed red blood cells from the lower end of the first container through the second tubing segment and into the third container; f) retaining the buffy coat in the first container; g) adding plasma from the second container and/or saline to the first container to dilute the buffy coat retained in the first container and to achieve a target hematocrit and volume for the diluted buffy coat; h) flowing the diluted buffy coat through the third tubing segment and into the fourth container; i) adding photoactivation agent to the diluted buffy coat; j) loading the fourth container onto the irradiation device; k) irradiating the fourth container. 11 . The method of claim 10 wherein photoactivation agent is added to the diluted buffy coat by flowing photoactivation agent from the fifth container through the fifth tubing segment and into the fourth container. 12 . The method of claim 10 wherein photoactivation agent is added to the diluted buffy coat by introducing photoactivation agent into the third tubing segment simultaneously with flowing the diluted buffy coat through the third tubing segment and into the fourth container. 13 . The method of claim 10 wherein the buffy coat is diluted by flowing saline from the sixth container through the sixth tubing segment and into the first container. 14 . The method of claim 10 wherein the irradiated buffy coat is recombined with a portion of the separated plasma and/or packed red blood cells. 15 . The method of claim 10 wherein any excess air in the fourth container is flowed into the first container prior to irradiation of the fourth container. 16 . The method of claim 10 wherein the irradiated buffy coat is reinfused into the patient. 17 . The method of claim 10 wherein a label identifying the patient is applied to at least the fourth container prior to collecting whole blood in the first container and separating the fourth container from the unitary kit only after the diluted buffy coat is flowed from the first container into the fourth container. 18 . The method of claim 10 wherein a label identifying the patient is applied to at least the fourth container prior to collecting whole blood in the first container and separating the fourth container from the unitary kit only after the fourth container is irradiated. 19 . The unitary disposable kit of claim 1 wherein each of the first, second, third, and fourth containers is configured to be mountable in the centrifuge. 20 .- 44 . (canceled) 45 . (canceled) 46 . The system of claim 49 wherein the fluid flow circuit further comprises a container of photoactivation agent connected to the collection container. 47 . The system of claim 49 wherein the collection container comprises a syringe. 48 . The system of claim 49 in which the first tubing segment comprises one of a phlebotomy device for flowing whole blood directly from a patient through the first tubing segment and to the separation chamber and a sterile connector for connecting a container of previously-collected whole blood to the first tubing segment. 49 . A system for performing low volume extracorporeal photopheresis comprising a single-use fluid flow circuit and a durable hardware component, the single-use fluid flow circuit comprising a separation chamber configured to be received in a centrifuge, a first tubing segment connected to the separation chamber for flowing whole blood thereto, a collection container for receipt of buffy coat separated from the whole blood in the separation chamber by operation of the centrifuge and configured to be received in a treatment chamber of an irradiation device, and a second tubing segment for flawing buffy coat from the separation chamber onto the collection container, the durable hardware component further comprising a centrifuge configured to receive the separation chamber of the fluid flow circuit; one or more pumps for flowing whole blood through the first tubing segment to the separation chamber and flowing buffy coat through the second tubing segment into the collection container; an irradiation device having a treatment chamber configured to receive the collection container, and a programmable controller for automatically operating the one or more pumps, the centrifuge and the irradiation device.