A cost-effective, single use bag or container is provided for storing biological substances that incorporates on its inner wall an electronic device that is configured to measure physiological and/or physical parameters of the enclosed biological substances, such as source history, identification, demographics, time stamping, temperature, pH, conductivity, glucose, O.sub.2, CO.sub.2 levels etc. The electronic device of the disclosed bag comprises a sensor configured to measure physiological and/or physical parameters of the biological substances enclosed within the bag, and a radio-frequency (RF) device communicably coupled to the sensor and configured to: (a) acquire from the sensor data associated with the measured parameters, (b) store the acquired sensor data in nonvolatile memory, and (c) communicate the stored data wirelessly to a RF reader.

Apparatus, system and method for heating fluid from a plurality of fluid sources. A heating chamber top portion includes a plurality of fluid inlet tubes configured to pass fluid from the plurality of fluid sources. A heating chamber may be coupled to the heating chamber top portion, the heating chamber collectively receives at least some of the fluid from the plurality of fluid sources. At least one heating element configured within the heating chamber heats the received fluid from the plurality of fluid sources. An agitator mixes the received fluid from the plurality of fluid sources in the heating chamber, wherein the agitator is configured to mix the received fluid from the plurality of fluid sources by rotationally turning within the heating chamber.

Disclosed is an apparatus and method for providing asymmetric oscillations to a container. The container may include a fluid, a particle, and/or a gas. A vibration driver attached to the container provides asymmetric oscillations. A controller connected to the vibration driver controls an amplitude, frequency, and shape of the asymmetric oscillations. An amplifier amplifies the asymmetric oscillations in response to the controller. A sensor disposed on the vibration driver provides feedback to the controller.

An isolation device for adipose-derived stromal vascular fraction is provided. More particularly the embodiments relates to novel systems, devices, methods and kits for adipose tissue collection and stromal vascular fractions isolation from collected adipose. The devices and systems are used in the field of healthcare/regenerative medicine.

Dry thawing systems and devices for thawing biological substances are provided herein. Methods for thawing biological substances are also provided.

Dry thawing systems and devices for thawing biological substances are provided herein. Methods for thawing biological substances are also provided.

A method or mixing magnetic particles with a liquid medium in a reaction chamber is provided, comprising providing an external magnetic field to the reaction chamber causing the magnetic particles to move, such as swirl or oscillate, etc., substantially on a plane crossing the reaction chamber; and simultaneously controlling the magnetic particles to have a relative reciprocating movement at a non-zero angle to the plane. The magnetic field can be provided by rotating or reciprocating a magnet or electromagnet array around the reaction chamber, or by coordinately activating at least two electromagnets in an electromagnet array. The relative reciprocating movement of the magnetic particles can be realized by moving the reaction chamber or the magnet array, or by alternately activating another magnetic field provided by another electromagnet array. An apparatus applying the method is further provided. The technology can be applied widely and has the potential for realizing true automation.

This disclosure concerns a method for removing gas and/or gas bubbles from a liquid medicament stored in a reservoir for an infusion pump device. The reservoir comprises a displacing member which is at least partly displaceable relative to the reservoir thereby enabling receiving mechanical oscillations in order to generate mechanical waves in the liquid medicament. The method comprises: providing the reservoir; and transmitting a mechanical oscillation to the displacing member of the reservoir thereby generating a mechanical wave in the liquid medicament for removing gas and/or gas bubbles from the liquid medicament.

A container system having connection devices for establishing a fluid connection between the containers. In one aspect, a connection device comprises a thin point that, within its shape, has a tip between two at least substantially straight legs and wherein the other connection device has a ram with a splitting device that is designed and arranged such as to rupture said thin point by acting on the tip when the containers are coupled. In another aspect, the thin point surrounds the ram, and in a third aspect the connection devices have corresponding, similar thin points, closure elements and splitting devices. In further aspects, the connection devices are similar, and the connection devices are linearly guided.

Disclosed is a method and a device for producing a homogenous metastable supersaturated solution. The homogenous metastable supersaturated solution is comprised of a liquid phase solvent and one or more solutes wherein these individual solutes are gases under conditions of standard temperature and pressure (STP) in a normal atmospheric environment. When the device is used for creating oxygen saturated metastable solutions, the oxygen levels reached to at least 3 times the maximum level that can be detected by commercial dissolved oxygen probes. The device can be used to treat any medical condition that can benefit from the use of high oxygenated or any other highly saturated gas solutions. The device can be used for any non-medical need where a highly saturated gas in solution is needed.