Dual-ventricle pump cartridge, pump and method of use in a wearable continuous renal replacement therapy device
First Claim
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1. A completely wearable artificial kidney (WAK) device comprising:
- a blood circuit;
a dialysate circuit;
a dual channel pulsatile pump comprising;
a first channel for pumping the blood through said blood circuit and a second channel for pumping dialysate through said dialysate circuit;
each of said first channel and said second channel comprising;
a peristaltic tube that is compressible, said peristaltic tube having an input end and an output end;
an input valve at the input end, said input valve comprising an input o-ring, an input ball adapted to seat against said input o-ring to stop fluid back flow through said input valve and an input spring member adapted to position said input ball against said input o-ring when the peristaltic tube is being compressed, said input spring member further adapted to allow the input ball to move away from said input o-ring and allow forward fluid flow through said input valve when said peristaltic tube decompresses, said input spring member comprises;
an outer ring having a first diameter;
an inner ring having a second diameter being smaller than the first diameter; and
at least two spokes extending radially from the inner ring to the outer ring;
the inner ring being adapted to move laterally with respect to a plane extending perpendicular to a center axis of the outer ring; and
an output valve at said output end, said output valve comprising an output o-ring, an output ball adapted to seat against said output o-ring to stop fluid back flow through said output valve and an output spring member adapted to position said output ball against said output o-ring when the peristaltic tube is being decompressed, said output spring member further adapted to allow the output ball to move away from said output o-ring and allow forward fluid flow through said output valve when said peristaltic tube is being compressed; and
a single electric motor and transmission that alternately compresses and decompress the peristaltic tube in said first channel and said peristaltic tube in said second channel;
said dialysate circuit, said blood circuit, and said WAK adapted to be completely worn by said user.
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Abstract
A dual channel pulsatile pump for use with a completely wearable renal replacement device is provided.
40 Citations
10 Claims
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1. A completely wearable artificial kidney (WAK) device comprising:
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a blood circuit; a dialysate circuit; a dual channel pulsatile pump comprising; a first channel for pumping the blood through said blood circuit and a second channel for pumping dialysate through said dialysate circuit;
each of said first channel and said second channel comprising;a peristaltic tube that is compressible, said peristaltic tube having an input end and an output end; an input valve at the input end, said input valve comprising an input o-ring, an input ball adapted to seat against said input o-ring to stop fluid back flow through said input valve and an input spring member adapted to position said input ball against said input o-ring when the peristaltic tube is being compressed, said input spring member further adapted to allow the input ball to move away from said input o-ring and allow forward fluid flow through said input valve when said peristaltic tube decompresses, said input spring member comprises; an outer ring having a first diameter; an inner ring having a second diameter being smaller than the first diameter; and at least two spokes extending radially from the inner ring to the outer ring; the inner ring being adapted to move laterally with respect to a plane extending perpendicular to a center axis of the outer ring; and an output valve at said output end, said output valve comprising an output o-ring, an output ball adapted to seat against said output o-ring to stop fluid back flow through said output valve and an output spring member adapted to position said output ball against said output o-ring when the peristaltic tube is being decompressed, said output spring member further adapted to allow the output ball to move away from said output o-ring and allow forward fluid flow through said output valve when said peristaltic tube is being compressed; and a single electric motor and transmission that alternately compresses and decompress the peristaltic tube in said first channel and said peristaltic tube in said second channel;
said dialysate circuit, said blood circuit, and said WAK adapted to be completely worn by said user. - View Dependent Claims (2, 3, 4, 5)
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6. A completely wearable artificial kidney (WAK) device comprising:
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a blood circuit; a dialysate circuit; a dialyzer connected to both the blood circuit and the dialysate circuit, the dialyzer comprising a blood circuit input, a blood circuit output, a dialysate circuit input and a dialysate circuit output; a dual channel pulsatile pump comprising; a first channel for pumping blood through said blood circuit and a second channel for pumping dialysate through said dialysate circuit, wherein said first channel comprises; a peristaltic tube that is compressible, said peristaltic tube having an input end and an output end; an input valve at the input end, said input valve comprising an input ball seat, an input ball adapted to seat against said input ball seat to stop fluid back flow through said input valve and an input spring member comprising an outer ring, a concentric inner ring and at least two spokes extending radially between the outer ring and the concentric inner ring;
the input spring member being placed and adapted to position the input ball against said input ball seat when the peristaltic tube is being compressed, said input spring member further adapted to allow the input ball to move away from said input ball seat thereby allowing forward fluid flow through said input valve when said peristaltic tube is being decompressed; andan output valve at said output end, said output valve comprising an output ball seat, an output ball adapted to seat against said output ball seat to stop fluid back flow through said output valve and an output spring member adapted to position the output ball against said output ball seat when the peristaltic tube is being decompressed, said output spring member further adapted to allow the output ball to move away from said output ball seat thereby allowing forward fluid flow through said output valve when said peristaltic tube is being compressed; said first channel and said second channel providing pump cycles that are out of phase, whereby the combination of the dialyzer and the dual channel pulsatile pump produce a pressure differential that varies periodically from about −
10 to about +150 mmHg between the blood circuit input and the dialysate circuit input.- View Dependent Claims (7, 8, 9, 10)
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Specification
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Current AssigneeFresenius Medical Care Holdings Incorporated (Fresenius Medical Care AG)
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Original AssigneeFresenius Medical Care Holdings Incorporated (Fresenius Medical Care AG)
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InventorsGura, Victor, Rambod, Edmond
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Primary Examiner(s)Deak; Leslie R
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Application NumberUS11/500,572Publication NumberTime in Patent Office1,597 DaysField of Search604/4.01, 604/5.01, 604/5.04, 604/6.09, 604/6.1, 604/6.11, 210/645, 210/646, 210/743, 210/433.1US Class Current604/6.1CPC Class CodesA61M 1/1645 with mechanically linked pe...A61M 1/1696 with dialysate regenerationA61M 1/3472 with treatment of the filtrateA61M 1/3672 Means preventing coagulationA61M 2205/3389 Continuous level detection ...A61M 2205/8206 battery-operatedA61M 2205/8212 with means or measures take...A61M 2205/8237 Charging meansA61M 2209/088 on the bodyA61M 60/113 in other functional devices...A61M 60/279 Peristaltic pumps, e.g. rol...A61M 60/38 Blood oxygenationA61M 60/443 with means converting the r...A61M 60/849 Disposable partsA61M 60/851 ValvesF04B 43/082 the tubular flexible member...F04B 43/086 with two or more tubular fl...F04B 43/09 Pumps having electric drive
