A cryoadhesion apparatus includes a remote control assembly, a valve assembly, a needle catheter assembly, and a gas cylinder, the remote control assembly includes a sheath structure and a remote control, the sheath structure is provided with a catheter channel for the needle catheter assembly to pass through, two ends of the valve assembly are respectively connected to the needle catheter assembly and the gas bottle; the sheath structure is capable of squeezing the needle catheter assembly, when squeezing is maintained, the needle catheter assembly is capable of moving along with the sheath structure under a frictional force between an inner wall of the catheter channel and the needle catheter assembly; the remote control is configured to, when triggered, send a trigger signal to the valve assembly; the valve assembly is configured to transport, when receiving the trigger signal, a gas from the gas cylinder to the needle catheter assembly.

A cryoadhesion apparatus includes a remote control assembly, a valve assembly, a needle catheter assembly, and a gas cylinder, the remote control assembly includes a sheath structure and a remote control, the sheath structure is provided with a catheter channel for the needle catheter assembly to pass through, two ends of the valve assembly are respectively connected to the needle catheter assembly and the gas bottle; the sheath structure is capable of squeezing the needle catheter assembly, when squeezing is maintained, the needle catheter assembly is capable of moving along with the sheath structure under a frictional force between an inner wall of the catheter channel and the needle catheter assembly; the remote control is configured to, when triggered, send a trigger signal to the valve assembly; the valve assembly is configured to transport, when receiving the trigger signal, a gas from the gas cylinder to the needle catheter assembly.

A system for laparoscopic thermal treatment of visceral fat includes an elongate cooling probe configured for placement through a trocar, the probe including an elongate shaft having a proximal end and a distal end and having a maximum transverse dimension, and an expandable endpiece having a proximal end and a distal end, and including a collapsed state configured for placement through a channel of the trocar and an expanded state, the expanded state having a maximum outer diameter, the maximum outer diameter at least about twice the maximum transverse dimension of the shaft, wherein the proximal end of the endpiece is sealingly coupled to the distal end of the shaft, and a heat exchanger coupled to the cooling probe and configured to remove heat from the endpiece such that adipose tissue placed in contact with the endpiece can be cooled to a temperature of between about 2° C. and about .sup.+1° C.

Systems and methods for controllable delivery of pressurized refrigerant to a medical device, such as a cryoablation catheter. In some examples, a delivery system includes a tank holding the pressurized refrigerant, an electrical heater arranged to heat the tank, and an electronic controller connected to regulate the heater based on input signals received from a plurality of sensors including a temperature sensor in thermal contact with the exterior surface of the tank and a pressure sensor for measuring pressure in the refrigerant-delivery line connecting the tank to the medical device. In operation, the electronic controller processes the input signals by comparing values of at least some of the input signals with respective threshold values and uses logic operations configured for combined processing of two or more of the input signals to decide when to switch the heater between an ON state and an OFF state.

Systems and methods for controllable delivery of pressurized refrigerant to a medical device, such as a cryoablation catheter. In some examples, a delivery system includes a tank holding the pressurized refrigerant, an electrical heater arranged to heat the tank, and an electronic controller connected to regulate the heater based on input signals received from a plurality of sensors including a temperature sensor in thermal contact with the exterior surface of the tank and a pressure sensor for measuring pressure in the refrigerant-delivery line connecting the tank to the medical device. In operation, the electronic controller processes the input signals by comparing values of at least some of the input signals with respective threshold values and uses logic operations configured for combined processing of two or more of the input signals to decide when to switch the heater between an ON state and an OFF state.

Proposed is a filter fixing module mounted to a handpiece cooling device having a connecting unit such that a refrigerant supply unit is coupled thereto, the filter fixing module including a body having a support surface formed in a plate shape, and a receiving surface formed on an edge of the support surface and protruding in a first direction relative to the support surface so as to prevent removal of a filter received in the support surface, and a grip unit connected to the body, wherein the grip unit comprises a first grip member and a second grip member extending in directions opposite to the protruding direction of the receiving surface relative to the body.

Proposed is a filter fixing module mounted to a handpiece cooling device having a connecting unit such that a refrigerant supply unit is coupled thereto, the filter fixing module including a body having a support surface formed in a plate shape, and a receiving surface formed on an edge of the support surface and protruding in a first direction relative to the support surface so as to prevent removal of a filter received in the support surface, and a grip unit connected to the body, wherein the grip unit comprises a first grip member and a second grip member extending in directions opposite to the protruding direction of the receiving surface relative to the body.

The invention relates to a dispensing system for use in cryogenic skin treatment that is capable of targeted delivery of a cryogen at a high rate, thereby achieving rapid freezing of targeted skin tissue. The dispensing system of the present invention uses a cryogen that contains dimethyl ether and is designed to deliver the cryogen in an accurate and very effective manner.

The present disclosure provides systems and method for medical ice slurry production. In particular, systems and methods are provided for medical ice slurry production that enable an end user to produce and deliver a sterile medical ice slurry at the point of care.

An ablation apparatus for creating a lesion in target tissue, the ablation apparatus having an ablation shaft including a handle, a first portion, an ablation portion, distal tip, at least one ablation energy delivery lumen, at least one ablation energy return lumen, and a stylet lumen that extends substantially along a length of the ablation shaft from the handle to at least the ablation portion. The ablation apparatus also includes a stylet that is capable of being inserted into the stylet lumen where the stylet is made of a shape-memory material.