A peristaltic pumping apparatus for use in blood processing procedures, comprising: a pump rotor rotatable about a rotational axis and a pump raceway circumferentially spaced about the axis; a pump cap disposed atop the pump rotor, the pump cap having a finger configured to engage a tubing loop of a length of tubing at a time of loading the tubing and guide the tubing loop within the raceway along the length of the tubing loop; and wherein the pump cap further comprises a tensioning wall disposed laterally opposite the finger, the tensioning wail configured to engage a length of the tubing loop at a time of unloading the tubing and provide tension to the tubing length as the tubing loop exits the raceway.

The present invention relates to a microfluidic assay system and associated reading device, as well as the individual components themselves. The present invention also relates to methods of conducting assays, using a disposable system and associated reading device, as well as kits for conducting assays.

The present invention relates to a microfluidic assay system and associated reading device, as well as the individual components themselves. The present invention also relates to methods of conducting assays, using a disposable system and associated reading device, as well as kits for conducting assays.

A pumping assembly includes a flexible tube extending along a longitudinal axis. The flexible tube defines an internal cavity extending along the longitudinal axis. The internal cavity is configured to contain a fluid disposed therein, wherein the fluid is a liquid and/or a gas. A plurality of ferromagnetic or magnetic particles are disposed within at least a portion of a thickness of the flexible tube. The plurality of ferromagnetic or magnetic particles are also disposed extending along the longitudinal axis. A plurality of electromagnets are placed in series adjacent to one another. The flexible tube is disposed adjacent to the plurality of electromagnets. A controller is configured to selectively magnetize at least one electromagnet from the plurality of electromagnets in a progression along the plurality of electromagnets, thereby compressing the tubing in a progression being a pumping action. A power source is electrically connected to the controller.

A peristaltic pump device is provided with a tube allowing the passage of a fluid, a tube holder holding the tube, and a base to which the tube holder is fitted. A rotor is attached rotatably onto the base, and rollers are pivotally supported on the rotor and configured to rotate while pressing and crushing the tube. A substantially U-shaped tube holding groove is formed on a bonded surface of the tube holder on the base side. A depth of the tube holding groove is formed to be shorter than an outer diameter of the tube. When the tube is inserted into the tube holding groove, the tube is held inside the tube holding groove by a frictional resistance caused by a restoring elastic force of the tube.

A peristaltic pump device is provided with a tube allowing the passage of a fluid, a tube holder holding the tube, and a base to which the tube holder is fitted. A rotor is attached rotatably onto the base, and rollers are pivotally supported on the rotor and configured to rotate while pressing and crushing the tube. A substantially U-shaped tube holding groove is formed on a bonded surface of the tube holder on the base side. A depth of the tube holding groove is formed to be shorter than an outer diameter of the tube. When the tube is inserted into the tube holding groove, the tube is held inside the tube holding groove by a frictional resistance caused by a restoring elastic force of the tube.

A process for manufacturing a fluidic element, which consists in forming at least one fluid-permeable zone and one fluid-impermeable zone in a three-dimensional cellular material, by addition of at least one second material having a liquid initial state. The process will for example include soaking of the cellular material by the second material present in the liquid initial state, evacuating the second material present in its liquid initial state from at least one zone of the cellular material, in order to render the permeable zone.

A process for manufacturing a fluidic element, which consists in forming at least one fluid-permeable zone and one fluid-impermeable zone in a three-dimensional cellular material, by addition of at least one second material having a liquid initial state. The process will for example include soaking of the cellular material by the second material present in the liquid initial state, evacuating the second material present in its liquid initial state from at least one zone of the cellular material, in order to render the permeable zone.

A pump assembly includes a chamber, a compressible conduit along a periphery of the chamber, an elongated sun member within the chamber, and an elongated planet member arranged to orbit around the sun member. The sun member includes a first portion at one axial end having a gear and a second portion at the other axial end. The planet member includes a first portion at one axial end with a gear engaged with the gear of the sun member and a second portion at the other axial end configured to be engaged with a section of the compressible conduit to constrict the section. The first portion has a different texture from the second portion, and teeth of the gears on either the sun member or the planet member are retained in an axial direction by the second portion of the other of the sun member and planet member.

A pump assembly includes a chamber, a compressible conduit along a periphery of the chamber, an elongated sun member within the chamber, and an elongated planet member arranged to orbit around the sun member. The sun member includes a first portion at one axial end having a gear and a second portion at the other axial end. The planet member includes a first portion at one axial end with a gear engaged with the gear of the sun member and a second portion at the other axial end configured to be engaged with a section of the compressible conduit to constrict the section. The first portion has a different texture from the second portion, and teeth of the gears on either the sun member or the planet member are retained in an axial direction by the second portion of the other of the sun member and planet member.