Refrigeration source for a cryoablation catheter
Abstract
An apparatus and method for automatic operation of a refrigeration system to provide refrigeration power to a catheter for tissue ablation or mapping. The primary refrigeration system can be open loop or closed loop, and a precool loop will typically be closed loop. Equipment and procedures are disclosed for bringing the system to the desired operational state, for controlling the operation by controlling refrigerant flow rate, for performing safety checks, and for achieving safe shutdown. The catheter-based system for performing a cryoablation procedure uses a precooler to lower the temperature of a fluid refrigerant to a sub-cool temperature (−40° C.) at a working pressure (400 psi). The sub-cooled fluid is then introduced into a supply line of the catheter. Upon outflow of the primary fluid from the supply line, and into a tip section of the catheter, the fluid refrigerant boils at an outflow pressure of approximately one atmosphere, at a temperature of about −88° C. In operation, the working pressure is computer controlled to obtain an appropriate outflow pressure for the coldest possible temperature in the tip section.
Claims
exact text as granted — not AI-modified1 . A cryogenic medical system comprising:
a medical device; a refrigeration system for cooling the medical device including a primary cooling system circulating a coolant through the medical device; and a precooling system cooling the coolant before the coolant reaches the medical device; wherein the primary cooling system includes a recovery system which recovers the coolant after it passes through the medical device and wherein the primary cooling system is substantially an open loop.
2 . The cryogenic medical system of claim 1 wherein the primary cooling system includes:
a pressure bottle supplying the coolant to the primary cooling system; and a compressor interposed between the medical device and a recovery bottle.
3 . The cryogenic medical system of claim 1 wherein the precooling system includes a heat exchanger having an inlet and an outlet, the heat exchanger enveloping a portion of the primary cooling system; and wherein the precooling system is a substantially closed loop further comprising a compressor and an aftercooler.
4 . The cryogenic medical system of claim 1 wherein the precooling system includes a heat exchanger having an inlet and an outlet, the heat exchanger defining a coolant flow path and enveloping a portion of the primary cooling system; and further comprising a compressor in fluid communication with an aftercooler outputting coolant to the inlet of the heat exchanger and receiving coolant from the outlet of the heat exchanger.
5 . A cryogenic medical system comprising:
a medical device; a console; a primary cooling system directing a coolant to the medical device; and, a precooling system cooling the coolant before the coolant reaches the medical device; wherein the primary cooling system includes a recovery system which recovers the coolant after it passes through the medical device and wherein the primary cooling system is substantially an open loop.
6 . The cryogenic medical system of claim 5 wherein the primary cooling system includes:
a pressure bottle supplying the coolant to the primary cooling system; and a compressor interposed between the medical device and a recovery bottle.
7 . The cryogenic medical system of claim 5 wherein the precooling system includes a heat exchanger having an inlet and an outlet, the heat exchanger enveloping a portion of the primary cooling system; and wherein the precooling system is a substantially closed loop further comprising a compressor and an aftercooler.
8 . The cryogenic medical system of claim 5 wherein the precooling system includes a heat exchanger having an inlet and an outlet, the heat exchanger defining a coolant flow path and enveloping a portion of the primary cooling system; and further comprising a compressor in fluid communication with an aftercooler outputting coolant to the inlet of the heat exchanger and receiving coolant from the outlet of the heat exchanger.
9 . A cryogenic medical system comprising:
a medical device having a connection point; a console; a primary cooling system directing a coolant to the medical device; and a precooling system cooling the coolant before the coolant reaches the connection point; wherein the primary cooling system includes a recovery system which recovers the coolant after it passes through the medical device and wherein the primary cooling system is substantially an open loop.
10 . The cryogenic medical system of claim 9 wherein the primary cooling system includes:
a pressure bottle supplying the coolant to the primary cooling system; and a compressor interposed between the medical device and a recovery bottle.
11 . The cryogenic medical system of claim 9 wherein the precooling system includes a heat exchanger having an inlet and an outlet, the heat exchanger enveloping a portion of the primary cooling system; and wherein the precooling system is a substantially closed loop further comprising a compressor and an aftercooler.
12 . The cryogenic medical system of claim 9 wherein the precooling system includes a heat exchanger having an inlet and an outlet, the heat exchanger defining a coolant flow path and enveloping a portion of the primary cooling system; and further comprising a compressor in fluid communication with an aftercooler outputting coolant to the inlet of the heat exchanger and receiving coolant from the outlet of the heat exchanger.
13 . A cryogenic medical system comprising:
a medical device having a connection point; a console, the console being used to cool the medical device and being connectable to the medical device at the connection point, the console including a primary cooling system directing a coolant to the medical device along a supply conduit; and a precooling system cooling the coolant within the supply conduit before the coolant reaches the connection point; wherein the primary cooling system includes a return conduit leading from the medical device to a recovery system which recovers the coolant after it passes through the medical device and wherein the primary cooling system is substantially an open loop.
14 . The cryogenic medical system of claim 13 wherein the primary cooling system includes:
a pressure bottle in fluid communication with the supply conduit; and a compressor interposed between the medical device a recovery bottle.
15 . The cryogenic medical system of claim 13 wherein the precooling system includes a heat exchanger having an inlet and an outlet, the heat exchanger enveloping a portion of the supply conduit; and wherein the precooling system is a substantially closed loop further comprising a compressor and an aftercooler.
16 . The cryogenic medical system of claim 13 wherein the precooling system includes a heat exchanger having an inlet and an outlet, the heat exchanger defining a coolant flow path and enveloping a portion of the supply conduit; and further comprising a compressor in fluid communication with an aftercooler outputting coolant to the inlet of the heat exchanger and receiving coolant from the outlet of the heat exchanger.
17 . A cryogenic medical system comprising:
a medical device; a console, the console being connectable to the medical device at a connection point, the console controlling temperature of the medical device, and the console including a first cooling circuit directing coolant to the medical device at a first temperature along a coolant supply line; and a second cooling circuit chilling the coolant within the coolant supply line to a temperature below the first temperature before the coolant reaches the connection point; wherein the first cooling circuit includes a coolant return line leading from the catheter to a coolant scavenging system, and wherein the first cooling circuit and the catheter comprise a substantially open-loop.
18 . The cryogenic medical system of claim 17 wherein the first cooling circuit includes:
a coolant reservoir in fluid communication with the fluid supply line; and a vacuum pump interposed between the catheter and the coolant collection tank.
19 . The cryogenic medical system of claim 17 wherein the second cooling circuit includes an enclosure having an inlet and an outlet; the enclosure defining a fluid path from the inlet to the outlet, and the enclosure enveloping a portion of the coolant supply line; and further comprising a compressor in fluid communication with a condenser outputting coolant to the inlet of the enclosure and receiving coolant from the outlet of the enclosure.
20 . A cryogenic medical system comprising:
a medical device, wherein the medical device includes a catheter; a refrigeration system for cooling the medical device including a primary cooling system circulating a coolant through the medical device; and a precooling system cooling the coolant before the coolant reaches the catheter; wherein the primary cooling system includes a recovery system which recovers the coolant after it passes through the catheter and wherein the primary cooling system is substantially an open loop; and wherein the precooling system includes a heat exchanger having an inlet and an outlet, the heat exchanger enveloping a portion of the primary cooling system.
21 . The cryogenic medical system of claim 20 wherein the coolant is supplied to the primary cooling system in a substantially gaseous state; and wherein the precooling system cools the coolant within the primary cooling system from a substantially gaseous state to a substantially liquid state.
22 . A cryogenic medical system comprising:
a medical device, wherein the medical device includes a catheter; a console; a primary cooling system directing a coolant to the catheter; a precooling system cooling the coolant before the coolant reaches the catheter; wherein the primary cooling system includes a recovery system which recovers the coolant after it passes through the catheter and wherein the primary cooling system is substantially an open loop; and wherein the precooling system includes a heat exchanger having an inlet and an outlet, the heat exchanger enveloping a portion of the primary cooling system.
23 . The cryogenic medical system of claim 22 wherein the coolant is supplied to the primary cooling system in a substantially gaseous state; and wherein the precooling system cools the coolant within the primary cooling system from a substantially gaseous state to a substantially liquid state.
24 . A cryogenic medical system comprising:
a medical device having a connection point, wherein the medical device includes a catheter; a console; a primary cooling system directing a coolant to the catheter; a precooling system cooling the coolant before the coolant reaches the connection point; wherein the primary cooling system includes a recovery system which recovers the coolant after it passes through the catheter and wherein the primary cooling system is substantially an open loop; and wherein the precooling system includes a heat exchanger having an inlet and an outlet, the heat exchanger enveloping a portion of the primary cooling system.
25 . The cryogenic medical system of claim 24 wherein the coolant is supplied to the primary cooling system in a substantially gaseous state; and wherein the precooling system cools the coolant within the primary cooling system from a substantially gaseous state to a substantially liquid state.
26 . A cryogenic medical system comprising:
a medical device having a connection point, wherein the medical device includes a catheter; a console, the console being used to cool the catheter and being connectable to the medical device at the connection point, the console including a primary cooling system directing a coolant to the catheter along a supply conduit; and a precooling system cooling the coolant within the supply conduit before the coolant reaches the connection point; wherein the primary cooling system includes a return conduit leading from the catheter to a recovery system which recovers the coolant after it passes through the catheter and wherein the primary cooling system is substantially an open loop; and wherein the precooling system includes a heat exchanger having an inlet and an outlet, the heat exchanger enveloping a portion of the supply conduit.
27 . The cryogenic medical system of claim 26 wherein the coolant is supplied to the primary cooling system in a substantially gaseous state; and wherein the precooling system cools the coolant within the primary cooling system from a substantially gaseous state to a substantially liquid state.
28 . A cryogenic medical system comprising:
a medical device, wherein the medical device includes a catheter; a system component, the system component being connectable to the medical device at a connection point, the system component controlling temperature of the medical device, and the system component including a first cooling circuit directing coolant to the medical device at a first temperature along a coolant supply line; and a second cooling circuit chilling the coolant within the coolant supply line to a temperature below the first temperature before the coolant reaches the connection point, wherein the first cooling circuit includes a coolant return line leading from the catheter to a coolant scavenging system, and wherein the first cooling circuit and the catheter comprise a substantially open-loop, and wherein the second cooling circuit includes an enclosure having a fluid inlet and a fluid outlet; the enclosure defining a fluid path from the inlet to the outlet, and the enclosure enveloping a portion of the coolant supply line, and wherein the inlet is provided inside the enclosure.
29 . The cryogenic medical system of claim 28 wherein coolant is supplied to the first cooling circuit in a substantially gaseous state; and, wherein the second cooling circuit chills the coolant within the first cooling circuit and coolant supply line from a substantially gaseous state to a substantially liquid state.
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