The present specification discloses plasma processing systems that include a number of different fluid flow circuits that are defined by sources of fluid, fluid lines, fluid flow paths, waste containers, a mixer, a separator, valves, and a pump. The systems also include a connector tube and a solvent extraction device, wherein the connector tube and solvent extraction device are configured to be alternatively inserted in a same position along a fluid flow line. In addition, the systems include a controller that is configured to execute a plurality of programmatic instructions to open and close each of a first fluid flow line valve, a second fluid flow line valve, a third fluid flow line valve, and a fourth fluid flow line valve in a predetermined sequence to either enable or prevent a flow of fluid through various fluid flow lines.

Methods of priming a plasma processing system are disclosed. The plasma processing system has a number of different fluid flow circuits that are defined by sources of fluid, fluid flow paths, waste containers, a mixer, a separator, valves and a pump. A first fluid circuit is flushed, where the first fluid circuit is defined by a source of a first fluid, a first valve positioned between the source of the first fluid and the first fluid flow path, a second valve positioned between the first fluid flow path and the second fluid flow path, a first pump positioned between the second fluid flow path and the third fluid flow path, and a first waste container in fluid communication with the third fluid flow path. A second fluid circuit is then flushed by closing and opening certain valves.

The present specification discloses plasma processing systems that include a number of different fluid flow circuits that are defined by sources of fluid, fluid lines, fluid flow paths, waste containers, a mixer, a separator, valves, and a pump. The systems also include a connector tube and a solvent extraction device, wherein the connector tube and solvent extraction device are configured to be alternatively inserted in a same position along a fluid flow line. In addition, the systems include a controller that is configured to execute a plurality of programmatic instructions to open and close each of a first fluid flow line valve, a second fluid flow line valve, a third fluid flow line valve, and a fourth fluid flow line valve in a predetermined sequence to either enable or prevent a flow of fluid through various fluid flow lines.

The present specification discloses plasma processing systems that include a number of different fluid flow circuits that are defined by sources of fluid, fluid lines, fluid flow paths, waste containers, a mixer, a separator, valves, and a pump. The systems also include a connector tube and a solvent extraction device, wherein the connector tube and solvent extraction device are configured to be alternatively inserted in a same position along a fluid flow line. In addition, the systems include a controller that is configured to execute a plurality of programmatic instructions to open and close each of a first fluid flow line valve, a second fluid flow line valve, a third fluid flow line valve, and a fourth fluid flow line valve in a predetermined sequence.

Provided are a treatment method, a separation method, and a filter assembly capable of preventing so-called Blue Toe syndrome which is so-called cholesterol crystal embolism of which a fat-soluble compound such as cholesterol crystals generated during dilation of a stenosed site causes clogging in glomeruli of peripheral capillaries or kidney, acute renal failure, and the like. Cholesterol crystals generated from plaque during use of a balloon catheter are taken out of the body and removed using a centrifugal separation device or a filter, and usable living cells are returned to the body to reduce blood transfusion and reduce cholesterol crystal embolism.

Methods of priming a plasma processing system are disclosed. The plasma processing system has a number of different fluid flow circuits that are defined by sources of fluid, fluid flow paths, waste containers, a mixer, a separator, valves and a pump. A first fluid circuit is flushed, where the first fluid circuit is defined by a source of a first fluid, a first valve positioned between the source of the first fluid and the first fluid flow path, a second valve positioned between the first fluid flow path and the second fluid flow path, a first pump positioned between the second fluid flow path and the third fluid flow path, and a first waste container in fluid communication with the third fluid flow path. A second fluid circuit is then flushed by closing and opening certain valves.

A detoxification method for treating sepsis, microbial infections, and other inflammatory conditions includes the steps of inducing flow of patient blood through a blood treatment device consisting of a bioreactor inlet and outlet in fluid connection to the circulatory system of a patient. Biological agents including lipopolysaccharide (LPS) and extracellular adenosine triphosphate (ATP) contained within patient blood can be irreversibly detoxified by passage of patient blood over a bioreactor surface having attached or immobilized alkaline phosphatase enzymes and acyloxyacyl hydrolase enzyme, with the bioreactor being contained within the blood treatment device. The method uses continuous treatment of a patient's blood to convert LPS and extracellular ATP in blood into inhibitors of inflammation in vivo without adding any chemicals to the bloodstream of the patient.