A flow path is formed in a cassette body of a blood component collection cassette. The cassette body includes a bulging structure in which at least a portion of the flow path is formed. A first gripped member, which is configured to be gripped by a first gripping member provided on a centrifugal separation device, is disposed on one surface of the bulging structure in a thickness direction thereof. A second gripped member, which is configured to be gripped by a second gripping member to which a load detection unit that is provided on the centrifugal separation device is fixed, is disposed on another surface of the bulging structure in the thickness direction thereof.

The invention provides means, methods, and compositions of matter useful for enhancing tumor response to checkpoint inhibitors. In one embodiment, the invention teaches utilization of extracorporeal apheresis, specifically removal of various tumor derived, or tumor microenvironment derived immunological “blocking factors”. In one embodiment the invention provides the removal of soluble TNF-alpha receptors (sTNF-Rs) as a means of augmenting efficacy of immune checkpoint inhibitors. In one specific embodiment removal of sTNF-Rs is utilized to enhance efficacy of inhibitors of the PD-1/PD-L1 pathway, and/or the CD28/CTLA-4 pathway.

The present invention relates to an extracorporeal device or an ex vivo organ perfusion device comprising an inline monitoring method or device for measuring cell free nucleosomes, particularly an apheresis device comprising a monitoring method or device for measuring cell free nucleosomes in the blood of a subject.

A medical fluid delivery system and apparatus for remote machine updating and control are disclosed. An example medical fluid delivery apparatus includes a processor and a dialysis fluid circuit including at least one dialysis fluid pump. The processor determines a dialysis treatment or a preprogrammed task is not being performed by the least one dialysis fluid pump. After determining a dialysis treatment or a preprogrammed task is not being performed, the processor activates a connectivity agent to communicatively couple to a server via a network. The processor then receives, from the server via the connectivity agent, a command message to perform a preprogrammed task. The processor next deactivates the connectivity agent to stop communication with the server and causes the at least one dialysis fluid pump to perform the preprogrammed task.

This invention teaches a targeted apheresis method of treating a pregnant woman with preeclampsia, or who is predisposed to developing preeclampsia, utilizing immobilized binding agents contained within an apheresis device to remove sVEGFR-1 and sVEGFR-2, and one or more other harmful factors associated with preeclampsia selected from a list that includes: sEndoglin, Endothelin-1, TNF, IL-1, IL-6, IL-12, IL-18, digitalis-like factor, ouabain-like factor, marinobufagenin, .marinobufotoxenin, and telocinobufagin. The binding agents used are antibodies or aptamers or binding peptides. Reducing the concentration of sVEGFR-1, sVEGFR-2 and other harmful factors in the pregnant woman's blood using targeted apheresis will alleviate or delay the symptoms of preeclampsia, and thus postpone premature delivery of the baby so that the baby is born at term or as close to term as possible.

Described are embodiments that include methods and devices for separating components from multi-component fluids. Embodiments may involve use of separation vessels and movement of components into and out of separation vessels through ports. Embodiments may involve the separation of plasma from whole blood. Also described are embodiments that include methods and devices for positioning portions, e.g., loops, of disposables in medical devices. Embodiments may involve use of surfaces for automatically guiding loops to position them into a predetermined position.

Described are embodiments that include methods and devices for separating components from multi-component fluids. Embodiments may involve use of separation vessels and movement of components into and out of separation vessels through ports. Embodiments may involve the separation of plasma from whole blood. Also described are embodiments that include methods and devices for positioning portions, e.g., loops, of disposables in medical devices. Embodiments may involve use of surfaces for automatically guiding loops to position them into a predetermined position.

The invention provides apheresis devices and their use for removal of substantially all types of cell free DNA (cfDNA) in patients' blood, including nucleosome-bound cfDNA, exosome-bound cfDNA and unbound cfDNA (including double stranded DNA (dsDNA), single stranded DNA (ssDNA) and oligonucleotides), to limit the negative effects of the circulating cfDNA and to treat various diseases.

Described are embodiments that include methods and devices for separating components from multi-component fluids. Embodiments may involve use of separation vessels and movement of components into and out of separation vessels through ports. Embodiments may involve the separation of plasma from whole blood. Also described are embodiments that include methods and devices for positioning portions, e.g., loops, of disposables in medical devices. Embodiments may involve use of surfaces for automatically guiding loops to position them into a predetermined position.

The invention provides apheresis devices and their use for removal of substantially all types of cell free DNA (cfDNA) in patients' blood, including nucleosome-bound cfDNA, exosome-bound cfDNA and unbound cfDNA (including double stranded DNA (dsDNA), single stranded DNA (ssDNA) and oligonucleotides), to limit the negative effects of the circulating cfDNA and to treat various diseases.