A method for performing a photopheresis procedure is provided comprising collecting MNCs in a suspension comprising RBCs and plasma and lysing the red blood cells in the solution, preferably by combining the suspension with a solution to cause lysis. In one example, the solution for causing lysis of the red blood cells comprises ammonium chloride, and the suspension including the ammonium chloride is incubated to cause lysing. After lysing, the suspension may be washed to remove plasma and hemoglobin freed by the lysis of the red blood cells, and an ultraviolet light activated substance is added to the suspension. The suspension is then irradiated with ultraviolet light.

Methods are provided for treating blood monocytes to produce functional antigen presenting dendritic cells. An extracorporeal quantity of a subject's blood is treated to separate the blood and produce a leukocyte concentrate comprising monocytes and plasma containing proteins. The leukocyte concentrate comprising monocytes and plasma containing proteins is pumped through a plastic treatment device, such as a photopheresis device. The resulting treated cells may be incubated for a sufficient period of time to allow the monocytes to form dendritic cells, or the treated cells may be reinfused directly to the subject.

An exposure cell and method for treatment of carbon monoxide poisoning in the blood of a living body by removal of a portion of blood from the body, placing the portion in the exposure cell, exposing the portion in the cell to light of wave length and intensity that causes dissociation of carbon monoxide from hemoglobin, and returning the portion to the body. The exposure cell has an exposure zone outside of the body, that holds the portion, and a window that allows light from outside the zone to enter the zone to disassociate carbon monoxide from the portion. Oxygen is injected into the zone and carbon monoxide is removed from the zone.

An irradiation device for photopheresis, comprising an exposure chamber configured to receive an illumination container holding a target cell suspension; an irradiation source configured to irradiate the illumination container and target cell suspension for a certain exposure time period; an irradiation sensor configured to detect the intensity of irradiation emitted by the irradiation source; and a processing circuit coupled to the irradiation sensor and configured to treat the target cell suspension with a predetermined treatment dosage of radiation, wherein the processing circuit adjusts the exposure time period based on the intensity of irradiation in order to achieve the predetermined treatment dosage.

A computer-implemented method for approving a medical device disposable component used in a medical procedure comprising providing an identifiable feature on a medical device disposable component, wherein the identifiable feature comprises one or more photo-identifiable entities having a first emission pattern when in an unexcited state and a second emission pattern when in an excited state. The method also comprises illuminating the identifiable feature with an excitation light source to elicit the second emission pattern, detecting the second emission pattern and comparing the second emission pattern against a set of established reference emission patterns, and determining whether the medical device disposable component is approved based on comparison of the second emission pattern to the set of established reference emission patterns.

A photopheresis system (200) is disclosed, and that may be configured to execute one or more protocols. These protocols include: 1) protocols (400; 430; 460) for purging air out of a centrifuge bowl (210) used by the photopheresis system (200); 2) protocols (500; 510 550) for assessing the installation/operation of one or more pressure domes (330) used by the photopheresis system (200); and 3) protocols (580; 600; 660; 700; 740) for collecting buffy coat from blood processed by the photopheresis system (200).

Provided are methods for preparing pathogen-inactivated platelet compositions, as well as processing sets and compositions related thereto.

Provided are methods, kits, and compositions for preparing platelet compositions suitable for infusion, including improved methods, compositions, and kits for pathogen inactivation of an apheresis-derived preparation of platelets.

A photopheresis system (200) is disclosed, and that may be configured to execute one or more protocols. These protocols include: 1) protocols (400; 430; 460) for purging air out of a centrifuge bowl (210) used by the photopheresis system (200); 2) protocols (500; 510 550) for assessing the installation/operation of one or more pressure domes (330) used by the photopheresis system (200); and 3) protocols (580; 600; 660; 700; 740) for collecting buffy coat from blood processed by the photopheresis system (200).

The present invention provides compositions and methods of use of nanoparticle-based probes for in vivo imaging and therapy. The probes can be used to track diseased target cells by non-invasive imaging in the near-infrared range. Additionally, the probes can induce cell death of the target cells via photodynamic treatment.