A morselizer has a first end section with an axially and radially hollow luer fitting, a second end section with an axially and radially hollow luer fitting, a housing juxtaposed therebetween, a channel extending axially between the first end section and the second end section and through the housing providing an axial liquid pathway therein, and at least one blade disposed within the housing. Each end of the morselizer is attachable to a structure with a complimentarily sized luer fitting. In an embodiment, the morselizer facilitates atraumatic resizing of material through axial liquid transfer, by transferring material from a first structure attached to the first end section, thence through the channel, where material is resized by the blade, and through the second end section to a second structure attached to the second end section. The resized material may be suitable for injection, such as through a fine needle.

The invention relates to a dialysis device that provides recirculating flow dialysis in a wearable and portable format. It uses an exchangeable purification unit holding a volume of dialysate and/or a sorbent system for the in-situ regeneration of dialysate. The invented dialysis device comprises a carrier that is mounted on a replaceable cartridge. The carrier holds the electronics, user-interface, actuators and sensors. It actuates, controls and monitors the dialysis operation. The cartridge is a replaceable part that is connected to the patient via a flexible tubing. It consists of a reusable housing with a memory chip and holds a disposable inlay containing the purification unit with fluid lines, connectors, dialysate and/or sorbents in combination with a nanofilter. The cartridge is intended for use during the day, as a wearable system. The cartridge can be enlarged with an extension set to offer more capacity. The extended cartridge is intended to be used during the night as a bedside device.

A device for aspirating body fluids and for supplying a substance to a human or animal body is defined. The device comprises a first pump (8) for the aspiration of the body fluids, and a second pump (3), or a coupling element (76′) for connecting a second pump (3′) in order to convey the substance to the body by means of the second pump (3, 3′). Moreover, the device comprises a drive (70, 70′) for driving the first pump (8). The same drive (70, 70′) which serves to drive the first pump (8) also serves to drive the second pump (3, 3′).

A portable apparatus useful for collection and processing of human biological material, such as adipose or cancellous bone material, to prepare a concentrated product (e.g., stromal vascular fraction). The apparatus has a container with a containment volume with a tissue retention volume and a filtrate volume separated by a filter and with a pellet well for collecting concentrate product in the form of a pellet phase from centrifuge processing. The pellet well is accessible only from above when the apparatus is in an access orientation. Collected pellet phase material may be removed from the pellet well by direct aspiration, without suspending the material in a suspension liquid within the container. Access ports may be configured for access only from above the container. The apparatus may include a tissue collector disposed in the disuse retention volume to engage and collect collagen or other stringy tissue. A method of processing adipose tissue to concentrate leuko stromal vascular cells includes multi-step processing using a portable container.

A fat conditioning apparatus includes a conditioning vessel enclosing a conditioning chamber and a displacable plug. The conditioning chamber is bounded on one end by the displacable plug and has a variable volume that is a function of the position of the plug within the conditioning vessel. The apparatus has utility in a fat conditioning method, wherein the conditioning chamber contains a harvested fat emulsion. A washing liquid is injected into the conditioning chamber and mixes with the harvested fat emulsion, thereby displacing the plug in an outward expansion direction and expanding the variable volume of the conditioning chamber. The resulting mixture of harvested fat emulsion and washing liquid is stratified in the conditioning chamber into a contaminant-lean fat fraction and a contaminant-rich remainder fraction. The fat fraction, which is substantially free of the remainder fraction, is recovered from the conditioning chamber as a desired product of the method.

A device for increasing a concentration of at least one analyte in an advective flow of biofluid includes an agent for enhancing a paracellular permeability of an epithelial tissue; and an iontophoresis electrode and a counter electrode, which are adapted to increase the concentration of said analyte in the advective flow of the biofluid. A method of sensing an analyte in a biofluid includes increasing a paracellular permeability of an epithelial tissue layer; and inducing electro-osmotic flow by reverse iontophoresis to increase a concentration of said analyte in an advective flow of the biofluid, wherein said advective flow is driven by at least one of saliva generation, sweat generation, or reverse iontophoresis.

A fat harvesting system and related methods of harvesting and reinjecting fat that provides a medical professional with multiple technique options. Harvested fat can be subjected to a variety of pre-reinjection preparation steps within a single, self-contained reservoir such that the potential for contaminating the harvested fat is avoided. The fat harvesting system can be completely self-contained kit requiring no additional external systems or alternatively, can utilize available surgical suite systems, for example, vacuum to successfully harvest, prepare and reinject fat cells. The fat harvesting system can size harvested fat cells so as to be especially desirable for different injection locations in the body. The fat harvesting system is a single use, disposable system that requires no sterilization equipment and recovered and sized fat cells are maintained in a sanitary environment so as to avoid contamination that could result in having to discard recovered fat cells.

Disclosed are methods and devices for processing lipoaspirate that include mechanically-processing harvested lipoaspirate in a liposuction filter canister. In some embodiments, the devices are liposuction devices that include a lipoaspirate processing unit for mechanically-processing lipoaspirate. The mechanical processing reduces the average size of adipose tissue pieces in the lipoaspirate without substantially rupturing lipocytes therein.

An adipose tissue (AT) transfer system includes, on the aspiration side, an aspiration cannula, an aspiration pump, a container, and flexible tubing connecting the aspiration cannula to the container. On the reinjection side, the system includes a reinjection cannula, flexible tubing connecting the inlet of the reinjection cannula to the container, and a reinjection pump imposing positive-displacement pumping action on the flexible tubing and causing movement of AT in a pulsed mode. The aspiration pump operates to continually supply harvested AT to the second flexible tubing while the reinjection pumps causes continuous or pulsed deposition of the AT at injection site. To ensure that internal pressure and/or flow of the AT through a channel of delivery of the AT to the reinjection site does not exceed a predetermined value, the system contains an external pressure sensor configured to measure such internal pressure in absence of a part that is in direct contact with the AT.

An apparatus for processing biological material includes a supporting structure, provided with a seat and with a rotation device supplied with constraining means, and a container for biological material, provided with a shaped body, with a base, shaped to match the seat of the supporting structure, with at least one valve (24a) for extracting the biological material, and with movable cutting means equipped with coupling means for coupling to the constraining means of the rotation device, in such a way as to acquire a relative motion relative to the container.