Infusion pump and method for use
First Claim
1. A device for delivering controllable quantities of a fluid, comprising, in combination:
- a first chamber having a fixed volume for containing a gas;
a second chamber;
a device for transferring said gas from said first chamber to said second chamber;
a third chamber for containing a fluid, wherein a combined volume of said second and third chambers is fixed;
solenoid communication vales;
at least a luer connector;
a movable boundary disposed between said second and third chambers;
a dispensing port for dispensing said fluid from said third chamber;
a pressure sensor for sensing pressure in at least one of said first and second chambers; and
,a processor for determining the volume of said second chamber.
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0 Petitions
Accused Products
Abstract
A fluid dispensing system provides a non-contact method of monitoring the change in the fluid volume over time. This approach avoids the use of probes or sensors that come into direct contact with the fluid to be dispensed. The system comprises an apparatus comprising three chambers. The first chamber has a fixed volume and contains a pressurized gas. A solenoid valve is used to control the flow of gas from the first chamber into the second. The second chamber is sealed so that the combined mass of air in the first and second chambers remains fixed. The third chamber is adjacent to the second and contains medication in the form of incompressible fluid that is to be administered to a human or animal subject via a suitable delivery port. A piston is disposed between the second and third chambers and is movable responsive to the flow of gas into the second chamber to dispense fluid from the third chamber as desired. By sensing the pressure in the first and second chambers at any point in time, a processor is programmed to calculate the flow rate or dispensed volume of the fluid being delivered using principles derived from the Ideal Gas Law.
118 Citations
10 Claims
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1. A device for delivering controllable quantities of a fluid, comprising, in combination:
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a first chamber having a fixed volume for containing a gas; a second chamber; a device for transferring said gas from said first chamber to said second chamber; a third chamber for containing a fluid, wherein a combined volume of said second and third chambers is fixed; solenoid communication vales; at least a luer connector; a movable boundary disposed between said second and third chambers; a dispensing port for dispensing said fluid from said third chamber; a pressure sensor for sensing pressure in at least one of said first and second chambers; and
,a processor for determining the volume of said second chamber. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10)
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2. A device for delivering controllable quantities of a fluid, comprising, in combination:
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a first chamber having a fixed volume for containing a gas; a second chamber; a device for transferring said gas from said first chamber to said second chamber; a third chamber for containing a fluid, wherein a combined volume of said second and third chambers is fixed; solenoid communication valves; at least a luer connector disposed at a port of the third chamber in conjunction with an orifice of fixed flow rate located in the port; a movable boundary disposed between said second and third chambers; a dispensing port for dispensing said fluid from said third chamber; a non-fluid contact pressures sensor for sensing pressure in at least one of said first and second chambers which does not come into contact with subject fluid in the device; and
,a processor for determining the volume of said second chamber.
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3. A device for delivering controllable quantities of a fluid, which comprises:
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a first chamber having a fixed volume for containing a gas; a second chamber; a device for transferring said gas from said first chamber to said second chamber; a third chamber for containing a fluid, wherein a combined volume of said second and third chambers is fixed; solenoid communication valves; at least a luer connector disposed at a port of the third chamber in conjunction with an orifice of fixed flow rate located in the port; a piston disposed between said second and third chambers; a dispensing port for dispensing said fluid from said third chambers; a non-fluid contact pressure sensor for sensing pressure in at least one of said first and second chambers which does not come into contact with subject fluid in the device; and
, a processor for determining the volume of said second chamber, based upon flow through the orifice as defined by an algorithm.
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Specification