Iontophoretic fluid delivery device
First Claim
1. An A disposable iontophoretic fluid delivery device comprising:
- a cationic chamber defining a volume in which to hold a cationic substance, a wall of said chamber having a first passageway permitting migration therethrough by ions;
an anionic chamber defining a volume in which to hold an anionic substance, a wall of said anionic chamber having a second passageway permitting migration therethrough by ions, said first and second passageways being oriented and arranged on a surface of a container to enable creation of an ion conducting path, through a cooperating body, of an electrical circuit between said cationic and anionic chambers;
a first electromotive cell comprising a mini battery configured to produce a single, approximately square-wave current discharge over the first electromotive cell'"'"'s working life and comprising first and second poles of opposite electrical sign, said first electromotive cell being disposed in an electron conducting path configured to complete said electrical circuit; and
a shunt resistance disposed in parallel with an ion conducting path between said cationic and anionic chambers, said shunt resistance selected to control the delivery of fluid from the iontophoretic fluid delivery device;
wherein a quantity of energy from said mini battery is substantially exhausted after delivery of a treatment dose.
3 Assignments
0 Petitions
Accused Products
Abstract
A low cost, accurate, single use, disposable, iontophoretic fluid delivery device having cationic and anionic chambers separated by container structure and arranged to promote a flow of treatment ions into a body. The device desirably uses rugged minibatteries safely to provide increased electromotive force to the ion transfer process compared to galvanic cells having electrolyte matched to a human body'"'"'s electrolyte. Minibatteries may be located in one or both cationic and anionic chambers, and/or attached to structure of a container outside the chambers. A shunt resistance may be arranged in a parallel circuit to the body to control delivery of a beneficial agent in any amount between 1 mAmp-min to 500 mAmp-min, or more. Substrates, located in the chambers and adapted to hold electrolyte or treatment drugs, may be electrically conductive to resist polarization of the chemicals near a conducting terminal. Cationic and anionic chambers may be made having different sizes and/or shapes to facilitate placement of treatment drugs into the correct chamber.
64 Citations
5 Claims
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1. An A disposable iontophoretic fluid delivery device comprising:
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a cationic chamber defining a volume in which to hold a cationic substance, a wall of said chamber having a first passageway permitting migration therethrough by ions;
an anionic chamber defining a volume in which to hold an anionic substance, a wall of said anionic chamber having a second passageway permitting migration therethrough by ions, said first and second passageways being oriented and arranged on a surface of a container to enable creation of an ion conducting path, through a cooperating body, of an electrical circuit between said cationic and anionic chambers;
a first electromotive cell comprising a mini battery configured to produce a single, approximately square-wave current discharge over the first electromotive cell'"'"'s working life and comprising first and second poles of opposite electrical sign, said first electromotive cell being disposed in an electron conducting path configured to complete said electrical circuit; and
a shunt resistance disposed in parallel with an ion conducting path between said cationic and anionic chambers, said shunt resistance selected to control the delivery of fluid from the iontophoretic fluid delivery device;
wherein a quantity of energy from said mini battery is substantially exhausted after delivery of a treatment dose. - View Dependent Claims (2, 3, 4, 5)
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Specification