Extracorporeal circuit for peripheral vein fluid removal
First Claim
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1. An extracorporeal blood circuit comprising:
- a withdrawal tube connectable at a first end to a first peripheral blood vessel a vascular system of a mammalian patient;
a filter having a blood input connectable to a second end of the withdrawal tube;
a return tube having a first end connectable to an output of the filter and a second end connectable to a second peripheral blood vessel the vascular system;
a continuous blood passage is formed in said withdrawal tube, filter and return tube through which blood is withdrawn from the first peripheral blood vessel vascular system, filtered and returned to the second blood vessel;
vascular system, andwherein said continuous blood passage is air free andfurther wherein said filter has a concentration rise flow volume of no greater than 15% of the total volume of the filter, where the concentration flow volume is defined as a volume of flow through the output of the filter during which a concentration of a first fluid flowing through the filter output rises from a concentration of 10% to a concentration of 90%.
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Abstract
An extracorporeal blood circuit is disclosed for withdrawing, filtering and returning blood from peripheral blood vessels. The blood passage in the circuit extends through a withdrawal tube connected to a catheter in a peripheral vein, a filter, one or more pressure sensors and return tube also connected to a catheter in a peripheral vein (which may or may not be the same vein as used for the withdrawal tube). The blood passage is air free, and has smooth passage walls which promoted continuous and uniform flow of the blood through the circuit.
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Citations
14 Claims
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1. An extracorporeal blood circuit comprising:
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a withdrawal tube connectable at a first end to a first peripheral blood vessel a vascular system of a mammalian patient;
a filter having a blood input connectable to a second end of the withdrawal tube;
a return tube having a first end connectable to an output of the filter and a second end connectable to a second peripheral blood vessel the vascular system;
a continuous blood passage is formed in said withdrawal tube, filter and return tube through which blood is withdrawn from the first peripheral blood vessel vascular system, filtered and returned to the second blood vessel;
vascular system, andwherein said continuous blood passage is air free and further wherein said filter has a concentration rise flow volume of no greater than 15% of the total volume of the filter, where the concentration flow volume is defined as a volume of flow through the output of the filter during which a concentration of a first fluid flowing through the filter output rises from a concentration of 10% to a concentration of 90%. - View Dependent Claims (2, 3)
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4. A method for moving blood through an extracorporeal blood circuit having a withdrawal tube connected to a first blood vessel vascular system of a mammalian patient, a filter and a return tube connected to a second blood vessel the vascular system and a pump acting on the circuit, wherein the method comprises:
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withdrawing blood from the first blood vessel vascular system into the withdrawal tube;
moving blood through the circuit by action of the pump;
filtering the blood flowing through the filter from the withdrawal tube, wherein the blood enters an inlet to the filter and flows out of a blood output;
returning blood flowing from the blood output through the return tube to the second blood vessel vascular system, and wherein said filter has a concentration rise volume of no greater than 15% of a total blood volume in the filter, where the concentration rise volume is defined as a volume of flow from the output from the filter occurring after an abrupt change at the inlet to the filter from a first fluid to a second fluid and as a concentration of the second fluid flowing through the output rises from 10% of fluid flowing through the output to 90% of said fluid flowing through the output.
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5. A method for moving blood through an extracorporeal blood circuit having a withdrawal tube connected to a first blood vessel vascular system of a mammalian patient, a filter and a return tube connected to a second blood vessel vascular system and a pump acting on the circuit, wherein the method comprises:
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withdrawing blood from the first blood vessel vascular system into the withdrawal tube;
moving blood through the circuit by action of the pump;
filtering the blood flowing from the withdrawal tube and into the filter, returning blood output from the filter through the return tube to the second blood vessel vascular system, and after abruptly switching an input flow to the filter from a first fluid to a second fluid, measuring the output flow from the filter to be no greater than 15% of a total blood path volume of the filter as a concentration of the second fluid at the outlet of the filter raises from a 10% concentration level to a 90% concentration level.
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6. A method for moving blood through an extracorporeal blood circuit having a withdrawal tube connected to a first blood vessel vascular system of a mammalian patient, a filter and a return tube connected to a second blood vessel the vascular system and a pump acting on the circuit, wherein the method comprises:
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withdrawing blood from the first blood vessel vascular system into the withdrawal tube;
moving blood through the circuit by action of the pump;
filtering the blood flowing from the withdrawal tube and into an inlet of the filter, returning blood output through a filter output from the filter through the return tube to the second blood vessel vascular system, and abruptly switching an input flow to the inlet from a first fluid to a second fluid such that a transition fluid volume flowing from the blood outlet of the filter does not exceed 15% of a total volume of a blood path in the filter, where the transition fluid volume is a fluid having more that a concentration of at least 10% of the second fluid and less than 90% of the second fluid. - View Dependent Claims (7, 8)
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9. A method for moving blood through an extracorporeal blood circuit having a withdrawal tube connected to a first blood vessel vascular system of a mammalian patient, a filter and a return tube connected to a second blood vessel vascular system and a pump acting on the circuit, wherein the method comprises:
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withdrawing blood from the first blood vessel vascular system into the withdrawal tube;
moving blood through the circuit by action of the pump;
filtering the blood flowing from the withdrawal tube and into an inlet of the filter, wherein the filter has a blood path, and said blood path has a total volume of blood in the filter;
returning blood output through a blood output from the filter through the return tube to the second blood vessel vascular system, abruptly switching an input fluid to the inlet of the filter from a first fluid to a second fluid;
detecting a transition volume of mixed fluid flowing through the blood outlet, wherein said transition volume does not exceed 15% of the total volume of the blood path and wherein the transition volume is a fluid mixture having at least 10% and no more than 90% of the first fluid. - View Dependent Claims (10, 11)
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12. A method for moving blood through an extracorporeal blood circuit having a withdrawal tube connected to a first blood vessel vascular system of a mammalian patient, a filter and a return tube connected to a second blood vessel vascular system and a pump acting on the circuit, wherein the method comprises:
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withdrawing blood from the first blood vessel vascular system into the withdrawal tube;
moving blood through the circuit by action of the pump;
filtering the blood flowing from the withdrawal tube and into an inlet of the filter, wherein the filter has a blood path, and said blood path has a total volume of blood in the filter;
returning blood output through a blood output from the filter through the return tube to the second blood vessel vascular system, abruptly switching an input fluid to the inlet of the filter from a first fluid to a second fluid, and a transition flow period is no greater than a period during which 15% of the total volume of the blood path of the filter flows through the filter output, where the transition flow period starts when a fluid mixture at the filter output has at least 10% concentration of the second fluid and no more than 90% concentration of the first fluid. - View Dependent Claims (13, 14)
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Specification
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Current AssigneeGambro Lundia AB (Baxter International Inc.)
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Original AssigneeCHF Solutions, Inc.
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InventorsLevin, Howard R., Gelfand, Mark, Polaschegg, Hans-Dietrich, Bernard, Steven
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Primary Examiner(s)Michalsky, Gerald A.
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Application NumberUS10/936,827Time in Patent Office425 DaysField of Search604/6.09US Class Current604/6.09CPC Class CodesN/A
