A dialyzer control apparatus includes a magnetic field generator which is disposed on an outer surface of a dialyzer which removes wastes from a blood flowing therein and generates a magnetic field; and a controller which controls the magnetic field generator to perform a magnetic field stimulation on the blood flowing into the dialyzer. The magnetic field stimulation may be a stimulation related to the improvement of the Rouleaux formation for the red blood cells in the blood.

An optical sensor device includes a light source configured to emit a light including a wavelength in a range of 650 to 900 nm that is exposed to a biological fluid at first and second times. At least a portion of the light is reflected off of the fluid and received by a light detector. The light detector analyzes at least a portion of the received light to determine a first intensity of the light at the wavelength at the first time and a second intensity of the light at the wavelength at the second time. A controller compares the first and second intensities and generates an output indicative of the presence of red blood cells or free hemoglobin in the biological fluid depending on which intensity is greater and whether there is more redness in the biological fluid at the first time or at the second time.

A method for preparing a composition for external treatment of wounds includes charging at least 90% of the oxygen binding sites of hemoglobin with carbon monoxide during or after isolation from its natural environment. The method further includes adding at least one further ingredient selected from the group consisting of electrolyte(s), preservative(s), stabilizer(s), anti-flocculant(s), anticoagulant(s), pH buffering agent(s), solvent(s), antioxidant(s), film-forming agent(s) and crosslinking agent(s). The method can further include packaging the composition, such as in an aerosol can.

Apparatus(es)/method(s) relating generally to remotely administering a medication is/are disclosed. In one such method, a drug delivery device is obtained. The drug delivery device has: at least one reservoir in fluid communication with a needle; at least one actuator to drive a fluid within a respective at least one reservoir to the needle; a microcontroller to control operation of the at least one actuator; and a dosage control loop configured for communication with the microcontroller and a hemoglobin sensor. A dosage provided by the drug delivery device is automatically adjusted responsive to hemoglobin count sensed by the hemoglobin sensor for transdermal administration of medication for management of chronic kidney disease.

A colorimetric optical sensor device includes a broadband light source configured to emit a light that is exposed to a fluid in a vessel. At least a portion of the light is reflected off of the fluid and received by an optical spectrometer. The optical spectrometer analyzes at least a portion of the received light to determine a main wavelength of the light. A controller correlates the main wavelength to a corresponding hematocrit or free hemoglobin concentration and generates an output indicative of the hematocrit or the free hemoglobin concentration of the fluid. The hematocrit or free hemoglobin concentration information may be used by a separation assembly in which the colorimetric optical sensor device may be incorporated to modify a separation procedure in which the monitored fluid is to be separated or is a component or constituent of a previously separated biological fluid.

Methods to treat anemia are provided whereby an erythropoietin stimulating agent (ESA) and an iron supplement are administered by a wearable device, based on patient parameters sensed by the wearable device. The method can involve monitoring patient parameters and dosing an ESA and an iron supplement in real-time, via the wearable device.

A cell washing apparatus is provided to wash a cell-containing fluid. The apparatus is arranged to exchange one or more exchangeable entities from a cell-containing first fluid, and comprises, a first fluid conduit and a second fluid conduit, the second fluid conduit separated from the first fluid conduit by a semi-permeable membrane disposed therebetween; the first fluid conduit having a first fluid inlet and a first fluid outlet, the first fluid conduit arranged to transport the first fluid in a first direction between the first fluid inlet and the first fluid outlet; the second fluid conduit being arranged to house a second fluid; wherein the semi-permeable membrane comprises a plurality of pores arranged to permit transport of said one or more exchangeable entities from the first fluid to the second fluid; wherein the one or more exchangeable entities comprise free haemoglobin and/or blood plasma; and wherein the first fluid is whole blood isolated from a human body, or packed red blood cells. The cell washing apparatus of the present invention aims to solve the problem of harmful species that accumulate in a cell-containing fluid (such as, for example, transfusion blood) during storage and other applications, in which it is desired to transfer red blood cells to a clean suspending liquid.