A method for anesthetizing a human patient undergoing surgery and/or pain block procedure, the method comprising sterilizing the patient's skin including a target region, the target region including a surgical site including the patient's spine; inserting at least one cryo-needle into a first tissue region, the cryo-needle having a distal end configured to cool surrounding patient tissue, the first tissue region comprising soft tissue superficial to the one or more vertebra and on a first lateral side of the patients spine; cooling the distal end of the cryo-needle to cause cooling of surrounding patient tissue thus inhibiting one or more sensory nerves in the surrounding patient tissue; thereafter, performing spinal surgery on the patient's spine at the surgical site; and, thereafter, performing an erector spinae plane block to further inhibit nerves post-operatively in the target region.

A method for anesthetizing a human patient undergoing surgery and/or pain block procedure, the method comprising sterilizing the patient's skin including a target region, the target region including a surgical site including the patient's spine; inserting at least one cryo-needle into a first tissue region, the cryo-needle having a distal end configured to cool surrounding patient tissue, the first tissue region comprising soft tissue superficial to the one or more vertebra and on a first lateral side of the patients spine; cooling the distal end of the cryo-needle to cause cooling of surrounding patient tissue thus inhibiting one or more sensory nerves in the surrounding patient tissue; thereafter, performing spinal surgery on the patient's spine at the surgical site; and, thereafter, performing an erector spinae plane block to further inhibit nerves post-operatively in the target region.

A process and related assemblies for delivering slush through a tube towards a patient. Obtaining an elongated container partially filled with slush with a port end that has a first port and a second port. Placing the first port in fluid communication with tubing for delivery of slush towards the patient. Placing the second port in fluid communication with a source of gas which may be air. Subjecting the elongated container to automated repetitive movements so that the slush in the partially filled elongated container moves against interior surfaces within the elongated container. Ideally, two different forms of repetitive motion are used to impose complex movement upon the slush within the elongated container. Applying a pressure gradient to cause slush to flow out of the first port towards the patient. The elongated container may be made from a slush bottle with a reversibly engaged cap with the two ports.

The present invention relates to organ transplant systems used to keep organs chilled and viable as they are moved between patients. More specifically, the present invention both contains the organ and holds it in position during transplant surgery. Thus, there is no need for a member of the implant surgical team to hold the organ while it is being sewn into place.

A method and apparatus are disclosed for preventing injury to an esophagus caused by heat or cold being delivered to the left atrium, the method including altering a heat exchange device from an insertable configuration to a heat exchanging configuration which has an inflated generally flattened cross section (e.g. capsule-shaped, elliptical) corresponding with the cross section of the inside of the esophagus such that the esophagus is maintained in its natural shape and location. In some embodiments the heat exchange device has a heat exchanger which is inflated to be in the heat exchanging configuration.

The present application describes a pollinator species detection and monitoring device and system that utilizes specifically positioned and spaced receptacles for determining and conveying the numbers, health and movements of pollinator species ranging from real-time to intermittent transmittance of detected information for an area, region, areas or regions, singularly and in the aggregate. The detected information is collected and recorded via a pair of closely related sensors, residing at 180 degrees from one another, wherein pollinator species' entrance, exit, number, gender and activity are sensed, analyzed algorithmically and stored locally for eventual transmittance from a transmitting device to an external computer or mobile device for data observance, collection, storage and analysis. Detected information may be species specific or across a plurality of species.

The invention is directed to a mouth piece for cooling of oral tissue of a patient during chemotherapy treatment. The mouth piece includes a cooling medium contained within the top element and the bottom element and able to retain a cooling environment within the mouth sufficient to reduce capillary blood flow to the patient's mouth. In one embodiment, an external chamber extends from the front of the mouth piece to house a cooling medium. A bladder is positioned inside the external chamber for storing a solution having a freezing temperature above the freezing point temperature of the cooling medium to assist in cooling the cooling medium.

The invention discloses an in vivo organ transfer device, which comprises an organ fixing bag and an organ bag push assembly, wherein the organ fixing bag is composed of an inner bag and an outer bag, the outer bag is provided with an ice water filling hole and a link rod fixing interfaces, multiple groups of link rod fixing interfaces are arranged on both sides of the outer bag, and the inner layer bag is provided with an organ inlet, an input conduit opening and an output conduit opening. The invention belongs to the technical field of in vivo organ transfer, in particular relates to an in vivo organ transfer device that can provide good temperature conditions in the organ implantation process and it can fix the transplant in the reconstruction process to make the transplant in the optimum location and angle most conducive to the conduit suturing, creating favorable conditions for minimally invasive organ transplantation.

A device to change the temperature of a localized volume of material. A workable device includes at least one heat transfer mechanism having an external surface for direct contact with an exposed surface of the material. A working fluid is directed by input and output conduits to contact an internal surface of the heat transfer mechanism. The heat transfer mechanism exchanges heat between the working fluid and the material. Temperature of the working fluid may be regulated by a thermal system disposed at a remote location. An optional temperature sensing element may monitor a local temperature of the heat transfer mechanism or otherwise infer a temperature of a portion of the material. Sometimes, a device includes a cooperating anchoring arrangement to facilitate holding the heat transfer mechanism in a desired spot. Certain devices may be plastically deformed to a desired device shape.

A device to change the temperature of a localized volume of material. A workable device includes at least one heat transfer mechanism having an external surface for direct contact with an exposed surface of the material. A working fluid is directed by input and output conduits to contact an internal surface of the heat transfer mechanism. The heat transfer mechanism exchanges heat between the working fluid and the material. Temperature of the working fluid may be regulated by a thermal system disposed at a remote location. An optional temperature sensing element may monitor a local temperature of the heat transfer mechanism or otherwise infer a temperature of a portion of the material. Sometimes, a device includes a cooperating anchoring arrangement to facilitate holding the heat transfer mechanism in a desired spot. Certain devices may be plastically deformed to a desired device shape.