Device and method employing shape memory alloy
First Claim
Patent Images
1. A device for pumping an exact volume of insulin, comprising:
- a cavity operably associated with an inlet and an outlet, the inlet of a construction sufficient for operable communication with a source of insulin;
an inlet check valve operably associated with the inlet and an outlet check valve operably associated with the outlet;
a plunger operably associated with the cavity, the plunger urged to a first position by a biasing force and moveable therefrom to a second position, wherein the plunger travels to compress the cavity when in the first position and to decompress the cavity when in the second position;
a biasing element operably associated with the plunger to provide the biasing force;
an actuator including a NiTi alloy wire having a high transition temperature and a low transition temperature, wherein the actuator operably associated with the plunger moves the plunger from the first position to the second position when the NiTi alloy wire thermally transforms at the high transition temperature, and moves the plunger with the biasing element force from the second position to the first position when the NiTi alloy wire thermally transforms at the low transition temperature to the original condition;
a pulse generating circuit having a 200 milliamp-hour lithium-manganese dioxide battery, a direct current (DC) to direct current (DC) converter, a capacitor, a low-resistance field effect transistor switch, a programmable digital timing circuit, an inductor, and a diode; and
wherein the pulse generating circuit supplies power to the NiTi alloy wire to change the length of the NiTi wire and thereby move the plunger an exact distance so that the plunger consistently draws only 1 μ
l of insulin into the cavity when the plunger moves from the first position to the second position and consistently expels all of the fluid from the cavity when the plunger moves from the second position to the first position so that the 1 μ
l of insulin delivered over multiple plunger cycles has a linear correlation coefficient of 0.999.
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Accused Products
Abstract
A system for the metering and delivery of small discrete volumes of liquid is comprised of a small or minimal number of inexpensive components. One such component is a movable member, such as a miniature precision reciprocating displacement pump head, which is driven by an actuator that comprises a shape memory alloy material. The operating mechanism of the system is of little or minimal complexity. The system facilitates the precise metering and delivery of the small discrete volumes of liquid. Potential applications for the system include subcutaneous, long-term, automated drug delivery, for example, the delivery of insulin to a person with diabetes. In such an application, the small, simple and inexpensive nature of the invention would allow for its use as both a portable and a disposable system.
101 Citations
18 Claims
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1. A device for pumping an exact volume of insulin, comprising:
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a cavity operably associated with an inlet and an outlet, the inlet of a construction sufficient for operable communication with a source of insulin; an inlet check valve operably associated with the inlet and an outlet check valve operably associated with the outlet; a plunger operably associated with the cavity, the plunger urged to a first position by a biasing force and moveable therefrom to a second position, wherein the plunger travels to compress the cavity when in the first position and to decompress the cavity when in the second position; a biasing element operably associated with the plunger to provide the biasing force; an actuator including a NiTi alloy wire having a high transition temperature and a low transition temperature, wherein the actuator operably associated with the plunger moves the plunger from the first position to the second position when the NiTi alloy wire thermally transforms at the high transition temperature, and moves the plunger with the biasing element force from the second position to the first position when the NiTi alloy wire thermally transforms at the low transition temperature to the original condition; a pulse generating circuit having a 200 milliamp-hour lithium-manganese dioxide battery, a direct current (DC) to direct current (DC) converter, a capacitor, a low-resistance field effect transistor switch, a programmable digital timing circuit, an inductor, and a diode; and wherein the pulse generating circuit supplies power to the NiTi alloy wire to change the length of the NiTi wire and thereby move the plunger an exact distance so that the plunger consistently draws only 1 μ
l of insulin into the cavity when the plunger moves from the first position to the second position and consistently expels all of the fluid from the cavity when the plunger moves from the second position to the first position so that the 1 μ
l of insulin delivered over multiple plunger cycles has a linear correlation coefficient of 0.999. - View Dependent Claims (2, 3, 4, 5)
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6. A device for pumping an exact volume of fluid per plunger cycle, comprising:
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a displacement cavity operably associated with an inlet and an outlet, the inlet in communication with a source of fluid; an inlet check valve operably associated with the inlet and an outlet check valve operably associated with the outlet; a plunger operably associated with the displacement cavity, the plunger urged to a first position by a biasing force and moveable therefrom to a second position, wherein the plunger travels to compress the cavity when in the first position and to decompress the cavity when in the second position; a biasing element operably associated with the plunger to provide the biasing force; an actuator including a NiTi alloy having a first transition temperature and a second transition temperature, wherein the actuator is directly connected to the plunger to move the plunger from the first position to the second position when the NiTi alloy thermally transforms at the first transition temperature, and moves the plunger from the second position to the first position when the NiTi alloy thermally transforms at the second transition temperature and returns toward the original condition; a pulse generating circuit having a 200 milliamp-hour lithium-manganese dioxide battery, a direct current (DC) to direct current (DC) converter, a capacitor, a low-resistance field effect transistor switch, a programmable digital timing circuit, an inductor, and a diode; and wherein the pulse generating circuit supplies power to the NiTi alloy actuator to change the length of the NiTi alloy actuator and thereby move the plunger an exact distance every cycle so that the same volume of fluid is drawn into the displacement cavity on each plunger cycle, the amount of fluid being in the range of 1 μ
l to 3 μ
l, and the plunger expels the fluid from the cavity when the plunger moves from the second position to the first position and expels all of the fluid from the cavity when the plunger moves from the second position to the first position so that the 1 μ
l to 3 μ
l of fluid delivered over multiple plunger cycles has a linear correlation coefficient of 0.999. - View Dependent Claims (7, 8)
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9. A device for pumping an exact volume of fluid per plunger cycle, comprising:
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a displacement cavity operably associated with an inlet and an outlet, the inlet in communication with a source of fluid; an inlet check valve operably associated with the inlet and an outlet check valve operably associated with the outlet; a plunger operably associated with the cavity, the plunger urged to a first position by a biasing force and moveable therefrom to a second position, wherein the plunger travels to compress the cavity when in the first position, and to decompress the cavity when in the second position; a biasing element operably associated with the plunger to provide the biasing force; an actuator including a NiTi alloy having a first transition temperature and a second transition temperature, wherein the actuator is directly connected to the plunger to move the plunger from the first position to the second position when the NiTi alloy thermally transforms at the first transition temperature, and moves the plunger from the second position to the first position when the NiTi alloy thermally transforms at the second transition temperature and returns toward the original condition; a pulse generating circuit having a 200 milliamp-hour lithium-manganese dioxide battery, a direct current (DC) to direct current (DC) converter, a capacitor, a low-resistance field effect transistor switch, a programmable digital timing circuit an inductor and a diode; and wherein the pulse generating circuit supplies power to the NiTi alloy actuator to change the length of the NiTi alloy actuator and thereby move the plunger an exact distance every cycle so that the plunger draws exactly the same volume of fluid into the cavity each cycle, the volume of fluid being in the range from 1 μ
l to 3 μ
l, and the plunger expels all of the fluid from the cavity when the plunger moves from the second position to the first position so that the 1 μ
l to 3 μ
l of fluid delivered over multiple plunger cycles has a linear correlation coefficient of 0.999. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18)
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Specification
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Current AssigneeAbbott Diabetes Care Incorporated (Abbott Laboratories Incorporated)
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Original AssigneeAbbott Diabetes Care Incorporated (Abbott Laboratories Incorporated)
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InventorsRush, Benjamin M., Reggiardo, Christopher V.
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Primary Examiner(s)Freay, Charles
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Assistant Examiner(s)STIMPERT, PHILIP EARL
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Application NumberUS12/572,075Publication NumberTime in Patent Office1,692 DaysField of Search417/321, 417/415, 604/135US Class Current417/321CPC Class CodesA61M 2005/1726 the body parameters being m...A61M 2205/0288 Electro-rheological or magn...A61M 2205/3317 Electromagnetic, inductive ...A61M 2205/3569 sublocal, e.g. between cons...A61M 2205/3592 using telemetric means, e.g...A61M 2205/702 automatically during useA61M 5/14216 Reciprocating piston typeA61M 5/14244 adapted to be carried by th...A61M 5/16886 for measuring fluid flow ra...F04B 2205/09 Flow through the pumpF04B 43/043 MicropumpsF04B 49/065 and making use of computersF04B 51/00 Testing machines, pumps, or...F05C 2251/08 Shape memoryG01F 1/64 by measuring electrical cur...G01F 1/708 Measuring the time taken to...G01F 1/7088 using electrically charged ...G01F 25/10 of flowmeters
