Apparatus and method for performing diagnostics and intravascular therapies
First Claim
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1. An apparatus for performing intravascular therapy comprising:
- a catheter having a shaft and a balloon attached to a distal portion of the shaft wherein the interior of the balloon communicates with an inflation lumen in the shaft used to deliver inflation fluid to the interior of the balloon;
a controlled signal source for generating a variable driving signal;
a heating element located in the interior of the balloon, the heating element communicating with the signal source which receives the variable driving signal and heat the inflation fluid within the balloon;
a current meter communicating with the heating element which measures the current flowing through the heating element;
a voltage meter communicating with the heating element to measure the voltage across the heating element;
a divider circuit communicating with the current meter and the voltage meter which generates a measured signal;
a subtractor circuit communicating with the measure signal which compares the measured signal with a desired signal and generates an output signal representative of the comparison; and
a feedback circuit communicating with the subtractor circuit to receive the output of the subtractor circuit and generate an output signal having an exponential relation to the output of the subtractor circuit, the output of the feedback circuit communicating with the signal source to vary the driving signal delivered to the heating element;
wherein the shaft of the catheter includes an inner tubular member extending through the interior of the balloon, an outer tubular member concentrically located around the exterior of the inner tubular member wherein the inflation lumen is formed between the outer and inner tubular members, wherein the heating element is supported on the inner tubular member.
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Abstract
An apparatus and method for performing diagnostics and intravascular therapies. A guidewire anemometer can be used to measure the velocity of fluid flowing through the vasculature. An in-line anemometer can be used to measure the volumetric flow rate of fluid transported out of a patient'"'"'s body. A heated balloon catheter can be used to deliver heat therapy no a vessel wall in a patient'"'"'s vasculature.
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Citations
15 Claims
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1. An apparatus for performing intravascular therapy comprising:
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a catheter having a shaft and a balloon attached to a distal portion of the shaft wherein the interior of the balloon communicates with an inflation lumen in the shaft used to deliver inflation fluid to the interior of the balloon; a controlled signal source for generating a variable driving signal; a heating element located in the interior of the balloon, the heating element communicating with the signal source which receives the variable driving signal and heat the inflation fluid within the balloon; a current meter communicating with the heating element which measures the current flowing through the heating element; a voltage meter communicating with the heating element to measure the voltage across the heating element; a divider circuit communicating with the current meter and the voltage meter which generates a measured signal; a subtractor circuit communicating with the measure signal which compares the measured signal with a desired signal and generates an output signal representative of the comparison; and a feedback circuit communicating with the subtractor circuit to receive the output of the subtractor circuit and generate an output signal having an exponential relation to the output of the subtractor circuit, the output of the feedback circuit communicating with the signal source to vary the driving signal delivered to the heating element; wherein the shaft of the catheter includes an inner tubular member extending through the interior of the balloon, an outer tubular member concentrically located around the exterior of the inner tubular member wherein the inflation lumen is formed between the outer and inner tubular members, wherein the heating element is supported on the inner tubular member. - View Dependent Claims (2, 3)
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4. An intravascular anemometer comprising:
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a guidewire having a proximal and distal end; and a heating element located near the distal end of the guidewire wherein the temperature of the heating element is directly proportional to the resistance of said heating element and said heating element is raised to a selected target temperature and the power needed to maintain the temperature of the heating element at said selected target temperature when the guidewire is positioned in the vasculature is measured and converted into a velocity measurement and wherein the resistance of said heating element is measured and used to modulate the power provided to said heating element to maintain said heating element at said selected target temperature during said velocity measurement. - View Dependent Claims (5, 6)
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7. An in-line anemometer comprising:
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an inner tubular member defining an inner lumen; a heating element positioned on the exterior of the inner member; an intermediate member formed by two side tubes, each tube placed concentrically over an end portion of the inner tubular member wherein the tubes are separated from one another by the heating element; and an outer tubular member concentrically disposed over the heating element and a portion of the side tubes, wherein the temperature of the heating element is raised to a select temperature and the power needed to maintain the temperature of the heating element at the select temperature when fluid is flowing through the inner lumen is measured and the flow rate of the fluid through the tube is derived from said measurement. - View Dependent Claims (8, 9, 10)
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11. An in-line anemometer comprising:
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an inner member having an inner lumen, and said inner lumen having an exterior surface;
a heating element being placed on said exterior surface of the inner member;an intermediate member formed by two side tubes, each tube placed concentrically over a portion of the inner member, the two side tubes being separated by the heating element; an outer member concentrically disposed over the combination of the inner member, heating element and intermediate member; a controlled signal source means for generating a variable driving signal wherein the signal source communicates with the heating element and supplies the variable driving signal to the heating element; a current meter communicating with the heating element which measures the current flowing through the heating element; a voltage meter communicating with the heating element to measure the voltage across the heating element; a divider circuit communicating with the current meter and the voltage meter which generates a measured signal; and a subtractor communicating with the measured signal which compares the measured signal with a desired signal and generates an output signal representative of the comparison, the output of the subtractor communicating with the signal source to vary the driving current delivered to the heating element.
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12. An anemometer for measuring blood flow in a vascular comprising:
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an elongate body structure for introduction into said vasculature, and having a proximal end and having a distal end; a heating element located proximate to said distal end of said body structure and exposed to blood flow in said vasculature; said heating element exhibiting a resistance proportional to the temperature of said heating element, and said heating element coupled to a modulated current source; means for establishing a target temperature for said heating element; a linear feedback control system for modulating said modulated current source when said heating element is near a selected target temperature range defined with respect to said target temperature; a non-linear feedback control system for modulating said modulated current source when said heating element is outside of a selected target temperature range defined with respect to said target temperature; whereby, said temperature of said heating element is maintained at said target temperature for determination of blood velocity at the location of said heating element. - View Dependent Claims (13, 14, 15)
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Specification
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Current AssigneeBoston Scientific Scimed, Inc. (Boston Scientific Corporation)
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Original AssigneeScimed Life Systems Incorporated (Boston Scientific Corporation)
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InventorsHastings, Roger
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Primary Examiner(s)Sykes, Angela D.
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Application NumberUS08/055,702Time in Patent Office502 DaysField of Search128/691-692, 128/713, 607/89, 607/99, 607/100, 606/7, 606/27-31, 606/41-42, 606/192, 606/194, 604/96US Class Current607/99CPC Class CodesA61B 5/028 by thermo-dilutionA61B 5/6851 Guide wiresA61M 2025/0002 with a pressure sensor at t...A61M 2205/3331 Pressure; FlowA61M 2205/36 related to heating or coolingA61M 29/02 Dilators made of swellable ...G01F 1/68 by using thermal effectsG01F 1/69 of resistive typeG01F 1/698 Feedback or rebalancing cir...G01P 5/12 using variation of resistan...
