Metabolite sensor including a chemical concentration sensitive flow controller for a drug delivery system
First Claim
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1. A method for the measurement of the concentration of a metabolite present in a physiological fluid such as blood, comprising the steps of:
- (a) inserting a catheter into a stream of said blood containing the metabolite;
(b) flowing an aqueous infusate into said catheter at a pressure above that of the blood stream, wherein said infusate contains a concentration of said blood metabolite which is higher than the concentration of the metabolite in the blood;
(c) contacting said flowing infusate with a microporous segment of the wall of said catheter for a period of time effective to bring the concentration of the metabolite within the infusate and the concentration of the metabolite in the blood into equilibrium;
(d) measuring the concentration of the metabolite in the flowing infusate by means of a sensor positioned within the catheter downstream from the microporous segment; and
(e) passing said flowing infusate out the catheter and into the blood.
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Abstract
A system for the measurement of a metabolite in a physiological fluid is disclosed which comprises a catheter which includes an internal metabolite sensor downstream from a semipermeable region where dynamic equilibrium is attained between the external metabolite and a higher concentration of the same metabolite contained in an infusate which is flowed through the catheter. The changing metabolite concentration also can open and close a chemical valve to control the codelivery of a drug through the catheter.
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Citations
36 Claims
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1. A method for the measurement of the concentration of a metabolite present in a physiological fluid such as blood, comprising the steps of:
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(a) inserting a catheter into a stream of said blood containing the metabolite; (b) flowing an aqueous infusate into said catheter at a pressure above that of the blood stream, wherein said infusate contains a concentration of said blood metabolite which is higher than the concentration of the metabolite in the blood; (c) contacting said flowing infusate with a microporous segment of the wall of said catheter for a period of time effective to bring the concentration of the metabolite within the infusate and the concentration of the metabolite in the blood into equilibrium; (d) measuring the concentration of the metabolite in the flowing infusate by means of a sensor positioned within the catheter downstream from the microporous segment; and (e) passing said flowing infusate out the catheter and into the blood. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A system for the measurement of a metabolite in the blood, comprising:
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a catheter having a fluid input port, a fluid output port, a lumen interconnecting the ports, and a microporous wall segment located between the ports which is permeable to water and to said metabolite but which is substantially impermeable to blood components of higher molecular weight; a sensor for said metabolite positioned within the lumen of said catheter at or downstream from the microporous wall segment; and means for flowing an aqueous infusate through said catheter with a pressure and metabolite concentration relatively higher than that of the blood so that the concentrations of metabolites equilibrate, whereby the amount of metabolite in the infusate measured by said sensor corresponds to the amount of metabolite in the blood. - View Dependent Claims (11, 12, 13, 14)
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15. A method for the controlled delivery of a drug which is effective to reduce the concentration of a metabolite present in the blood, comprising the steps of:
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(a) inserting a catheter into a stream of said blood containing the metabolite; (b) flowing an aqueous infusate into said catheter at a pressure above that of the blood stream, wherein said infusate contains; (i) an amount of said drug effective to reduce the concentration of said metabolite; (ii) a concentration of said metabolite which is higher than the concentration of the metabolite in blood; and (iii) a biopolymer comprising a moiety derived from said metabolite; (c) contacting said flowing infusate with a microporous segment of the wall of said catheter for a period of time effective to bring the concentration of the metabolite within the infusate and the concentration of the infusate in the blood into equilibrium, wherein said microporous segment is permeable with respect to the metabolite, but is substantially impermeable to the drug and to the biopolymer; (d) passing the infusate through a porous matrix positioned within the catheter, wherein said matrix comprises a binding substance in an amount effective to decrease the porosity of the matrix as the concentration of the metabolite in the infusate decreases by competitively complexing both the metabolite and the biopolymer; and (e) passing the flowing infusate out the catheter and into the blood. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29)
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30. A system for the controlled delivery of a drug which is effective to reduce the concentration of a metabolite present in the blood, comprising:
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a catheter having a fluid input port, a fluid output port, a microporous polymeric wall segment downstream from the input port which is permeable to water and to the metabolite but which is substantially impermeable to blood components of higher molecular weight, and a flow controller comprising a porous matrix positioned within catheter at or downstream from said microporous wall segment; wherein said matrix comprises a binding substance in an amount effective to decrease the porosity of the matrix as the concentration of the metabolite within the catheter decreases by competitively complexing both the metabolite and a biopolymer which comprises a moiety derived from said metabolite. - View Dependent Claims (31, 32, 33, 34, 35, 36)
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Specification