System and method for varying return pressure to control tip temperature of a cryoablation catheter
First Claim
1. A cryoablation device having a temperature control system, said device comprising:
- a refrigerant supply unit;
an elongated catheter tube having a central lumen and formed with a closed distal tip;
a supply line having a proximal end connected to said refrigerant supply unit and a distal end disposed in the central lumen of said catheter tube and distanced from the distal tip thereof;
a flow restrictor positioned at the distal end of said supply line to bound an expansion chamber between said flow restrictor and the closed distal tip of said catheter tube, with said flow restrictor delivering a refrigerant from said refrigerant supply unit to the expansion chamber for expansion therein;
a return line in fluid communication with the expansion chamber for exhausting refrigerant from the expansion chamber, with said return line having a first end bounding the expansion chamber and a second end, wherein said return line defines an unobstructed path between the first end and the second end; and
a valve positioned at the second end of the return line, said valve being adjustable to vary a pressure in the return line to control a temperature at the distal tip of the catheter tube;
wherein said valve is positioned at an extracorporeal location during a cryoablation procedure to establish an unrestricted flow between the flow restrictor and the extracorporeal valve.
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Accused Products
Abstract
A cryoablation device having a temperature control system includes an elongated catheter tube that has a central lumen and is formed with a closed distal tip. The distal end of a refrigerant supply line is positioned in the central lumen and distanced from the catheter tube'"'"'s distal tip to establish an expansion chamber therebetween. A return line, which can be established between the supply line and the catheter tube, is provided to exhaust expanded refrigerant from the chamber. The temperature control system includes a valve that is positioned at a predetermined location along the return line. The valve is adjustable to vary a pressure within the return line to control the operational temperature at the distal tip of the catheter tube. Specifically, the valve can be used to reduce the pressure in the return line to thereby increase the tip temperature, and vice versa.
135 Citations
20 Claims
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1. A cryoablation device having a temperature control system, said device comprising:
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a refrigerant supply unit; an elongated catheter tube having a central lumen and formed with a closed distal tip; a supply line having a proximal end connected to said refrigerant supply unit and a distal end disposed in the central lumen of said catheter tube and distanced from the distal tip thereof; a flow restrictor positioned at the distal end of said supply line to bound an expansion chamber between said flow restrictor and the closed distal tip of said catheter tube, with said flow restrictor delivering a refrigerant from said refrigerant supply unit to the expansion chamber for expansion therein; a return line in fluid communication with the expansion chamber for exhausting refrigerant from the expansion chamber, with said return line having a first end bounding the expansion chamber and a second end, wherein said return line defines an unobstructed path between the first end and the second end; and a valve positioned at the second end of the return line, said valve being adjustable to vary a pressure in the return line to control a temperature at the distal tip of the catheter tube;
wherein said valve is positioned at an extracorporeal location during a cryoablation procedure to establish an unrestricted flow between the flow restrictor and the extracorporeal valve. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A system for controlling a temperature at a distal tip of a cryoablation catheter, said catheter having a supply line extending to a distal end located within the cryoablation catheter for delivering a refrigerant to an expansion chamber at the distal tip for expansion therein, said system comprising:
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a return line being in fluid communication with the expansion chamber for exhausting expanded refrigerant from the expansion chamber, with said return line having a first end bounding the expansion chamber and a second end, wherein said return line defines an unobstructed path between the first end and the second end; a flow restrictor positioned at the distal end of said supply line to regulate flow of the refrigerant, with said flow restrictor bounding the expansion chamber; an adjustable valve at the second end of the return line for varying a pressure in the return line, with said valve being positioned at an extracorporeal location during a cryoablation procedure to establish an unrestricted flow between the flow restrictor and the extracorporeal valve; a means for measuring a temperature at the distal tip of said cryoablation catheter; and a control unit for comparing the measured temperature with a pre-selected temperature to create an error signal and for adjusting said valve to make the error signal a nullity to obtain the pre-selected temperature at the distal tip of said cryoablation catheter. - View Dependent Claims (11, 12)
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13. A method for cryoablating tissue at a treatment site in the vasculature of a patient, said method comprising the steps of:
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providing an elongated catheter tube having a central lumen and formed with a closed distal tip; establishing a flow restrictor at the distal end of a supply line; placing the supply line in the central lumen of said catheter tube to position said flow restrictor at a distance from the distal tip thereof to establish an expansion chamber between the flow restrictor and a return line, with said flow restrictor bounding the expansion chamber, and with said return line having a first end bounding the expansion chamber and a second end, wherein said return line defines an unobstructed path between the first end and the second end; positioning a valve at the second end of the return line, with said valve being positioned at an extracorporeal location during the method to establish an unrestricted flow between the flow restrictor and the extracorporeal valve; advancing the distal tip of said catheter tube through the patient'"'"'s vasculature to the treatment site; introducing a refrigerant into said supply line for outflow from the flow restrictor and expansion in the expansion chamber; and adjusting said valve to reduce a pressure in the return line to decrease a temperature at the distal tip of said catheter tube and, alternatively, to increase the pressure in the return line to increase the temperature at the distal tip of said catheter tube. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
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Specification