According to some embodiments, a system may treat blood outside the body of a patient. The system may include at least one toxin removal system configured to process blood from at least two places on the patient's body at a rate, for example, of at least 0.5 liters per minute. The system may be configured to raise the pH level of the patient's blood by introducing a fluid at rate of at least 9 liters per hour.

A filter apparatus for removing small molecule chemotherapy agents from blood is provided. The filter apparatus comprises a housing with an extraction media comprised of polymer coated carbon cores. Also provided are methods of treating a subject with cancer of an organ or region comprising administering a chemotherapeutic agent to the organ or region, collecting blood laded with chemotherapeutic agent from the isolated organ, filtering the blood laden with chemotherapeutic agent to reduce the chemotherapeutic agent in the blood and returning the blood to the subject.

An apparatus, system, and method for contacting blood with ozone to kill microorganisms in the blood are described. The method involves injecting microbubbles of ozone containing gas into a flow of blood, preferably at a temperature of less than 12° C. The apparatus includes a blood flow conduit including a blood ozone contacting portion including a porous ozone injector.

The present invention relates to a polypeptide or protein for use in a method of diagnosis or treatment of an autoimmune disease in a subject, characterized in that said polypeptide or protein comprises one or more epitopes derived from the protein DPPX. Further, the invention relates to a nucleic acid or vector encoding such polypeptide, to a cell comprising such a vector, to an in vitro diagnostic method and test kit involving such polypeptide, to a pharmaceutical composition comprising such polypeptide, to a medical device coated with such polypeptide or pharmaceutical composition and to methods for treating an autoimmune disease in a subject.

A method for removal of at least a portion of carbon dioxide from an aqueous fluid such as a blood fluid includes placing a first surface of at least one membrane through which carbon dioxide and at least one acid gas other than carbon dioxide can pass in fluid in contact with the fluid. The membrane limits or prevent passage of the fluid therethrough. A carrier or sweep gas including the acid gas other than carbon dioxide is passed over a second surface (which is typically opposite the first surface) of the membrane so that the acid gas other than carbon dioxide can pass through the membrane into the fluid, and carbon dioxide from the fluid can pass from the liquid, through the membrane, and into the sweep gas.

A fluid extraction or filtration device for removing fluid from a body, the device comprising an array of microneedles for contacting fluid in said body and an absorbent gel matrix in fluid communication with said array of microneedles. There is further provided a combined fluid extraction and sampling device and methods employing the device(s), for example in determining the level of a target species in a sample of fluid, transdermal dialysis and renal replacement therapy. There is further provided an absorbent gel matrix for use in the treatment of uraemia and a haemodialysis filter comprising an absorbent gel matrix. Use of such a matrix is described in the context of methods including haemodialysis, transdermal dialysis and gastrointestinal dialysis.

A system for separating and concentrating a component of a whole material is disclosed. The whole material can include a material that has more than one component, such as whole blood that can include at least red blood cells, monocytes, and plasma. The system can include a substantially single container including a separation section and a concentration section wherein a component can be moved from the separation section, after a separation, to the concentration section to be concentrated. The concentrated component can then be withdrawn from the separation and concentration container for a selected procedure.

Some aspects of the invention include methods of treating a patient who has or is at risk of developing kidney disease, methods of selecting a suitable regimen for the prevention or treatment of kidney disease, and to methods of monitoring the effectiveness of a treatment regimen for the prevention or treatment of kidney disease. Other aspects of the invention include medical uses of a binding partner for an anti-IQCJ antibody, and methods of preventing or treating kidney disease in a subject using such binding partners. Still other aspects of the invention include devices for the extracorporeal treatment of a patient's blood.

Provided herein are new compositions and methods to target and deliver agents to pathological areas by utilizing multifunctional compounds. These compounds include three or more domains: (i) a vimentin-binding peptide, (ii) a linker, and (iii) a drug binding, a capturing reagent, or a detectable moiety. These compounds can be used to detect, isolate, and/or treat cancerous cells such as circulating tumor cells.

The present disclosure provides methods and systems for treating a biological fluid of a subject suffering from a microbial infection (e.g., a drug-resistant microbial infection). In some embodiments, these methods and systems involve a complement receptor immobilized on, or otherwise associated with a polymer substrate, for example, high surface area particles, membranes, hollow fibers, and/or other porous or non-porous media. In other embodiments, the methods and systems involve a complement receptor present in a dialysate used in a dialyzer for extracting pathogens out of a biological fluid, for example, the blood of a patient.