Micro-current Iontophoretic Percutaneous Absorptive Patch
First Claim
1. A disposable, self-contained percutaneous absorptive patch comprised of the following built in systems and components:
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Abstract
A self-contained, conveniently disposable percutaneous absorptive patch of the present invention utilizes, in a novel ways, the existing percutaneous absorptive principles to delivering topical medications quickly, painlessly, and effectively through the skin barrier. The absorptive principles include the epidermal microcuts/micro-needles, permeation enhancers, and micro-current iontophoresis. Most importantly, the transdermal absorptive patch of the present invention introduces a novel incorporation of self-producing micro-electrical currents and micro-electrodes into the existing conventional iontophoretic principle.
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Citations
15 Claims
- 1. A disposable, self-contained percutaneous absorptive patch comprised of the following built in systems and components:
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1-1. Said a Voltaic cell system of the present invention comprised of said micro-electrodes and said electrolytic solution;
- The Voltaic cell system supplies DC current for said the iontophoretic system;
- The Voltaic cell system supplies DC current for said the iontophoretic system;
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2. Said iontophoretic system of the present invention comprised of said micro-electrodes, a DC (Hereafter referred as Direct Current) power supply, and said medication layer which contains substances to be iontophoretically delivered, hereafter referred as therapeutic agents of choice;
- The DC power supply is the Voltaic cell system claimed 1 above;
- The DC power supply is the Voltaic cell system claimed 1 above;
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4. There are said two groups of micro-needles;
- one group of needles are made of one type of metal/compound with a positive electromotive force (Magnesium, Aluminium, Duralumin, Zinc, Cadmium, Iron, Chromium iron alloys, Chromium nickel iron alloys, Tin) which act simultaneously as said anodes, hereafter, referred as the anodes for the Voltaic cell system as well as negative electrolytic electrodes for the iontophoretic system of the present invention'"'"'s dermal patch;
the other group of needles are made of a different type of metal/compound with a negative electromotive force (Platinum, Gold, Silver, Copper, Nickel copper alloys, Bronze, Brass, Nickel, Lead) which act simultaneously as said cathodes, hereafter, referred as cathodes for said the Voltaic cell system as well as positive electrolytic electrodes for said the iontophoretic system of the present invention'"'"'s dermal patch;
- one group of needles are made of one type of metal/compound with a positive electromotive force (Magnesium, Aluminium, Duralumin, Zinc, Cadmium, Iron, Chromium iron alloys, Chromium nickel iron alloys, Tin) which act simultaneously as said anodes, hereafter, referred as the anodes for the Voltaic cell system as well as negative electrolytic electrodes for the iontophoretic system of the present invention'"'"'s dermal patch;
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5. The micro-needles have a specially designed shape including a big said flatten-spherical shaped head portion, said body portion, and said a pointed tip;
- The special shape of micro-needles serves as two crucial functions;
intentionally allowing the concentration of electrical charges to be highest at the tip of the needles and optimally maximizing its electricity production capability by optimally increasing the contact surface area with the electrolyte substance at the head portion of the needle;
- The special shape of micro-needles serves as two crucial functions;
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6. Said a needle-sheet:
- a thin, rectangular shaped, or other configurations, sheet of soft, flexible, hypoallergic natural or polymer plastic/vinyl;
the sheet has said top and bottom surfaces;
there are said rows of micro-needles tightly embedded into the sheet;
- a thin, rectangular shaped, or other configurations, sheet of soft, flexible, hypoallergic natural or polymer plastic/vinyl;
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7. Said an electrolytic solution/gel component constituted of an electrolyte dissolved in either an aqueous medium or a gelatinous substrate;
- The electrolyte could be one of the following organic or inorganic substances/compounds;
acidic electrolytes (H2CO3, HCl, H2SO4, HNO3, CH3COOH . . . ), basic electrolytes (NH4OH, KOH, NaOH . . . ), and salt electrolytes (NaCl, CaCl2, NH4Cl, KBr, CuSO4, NaCH3COO (sodium acetate), CaCO3, NaHCO3 (baking soda) . . . );
the electrolytic component is enclosed within a thin leakage-proof, rupturable membrane made of natural or synthetic polymer;
The membrane prevents premature interaction between needle electrodes and electrolyte before usage;
The electrolytic solution/gel is located on the top surface of the needle sheet;
- The electrolyte could be one of the following organic or inorganic substances/compounds;
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8. Said medication layer which is a thin gelatinous layer located on the bottom surface of the needle sheet;
- it is comprised of mixtures of said therapeutic agents and said permeation enhancers of choice dissolved in a hydrophilic gel substrate;
The gel substrate of said medication layer is relatively rigid so it would not drop off when in an upside down position during the process of application to patient'"'"'s skin;
- it is comprised of mixtures of said therapeutic agents and said permeation enhancers of choice dissolved in a hydrophilic gel substrate;
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9. Said therapeutic agents are any pharmaceutical compounds/substances of choice, which are intentionally to be delivered into a patient'"'"'s body;
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10. Said permeation enhancers are any biochemical or chemical substances/compounds, which are able to safely and passively promote the transport of substances across the skin barrier;
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11. Said the electrolyte layer, the needle-sheet, and the medication gel layer are stacked on top of each other from top to bottom respectively;
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12. Said the outer structure framework includes a built in said chamber and a said skin adhesion peripheral area;
- the chamber covers all the layers of gel and needle sheet;
the chamber portion is made of a soft, flexible, thin sheet of hypoallergic natural or synthetic polymer, which could be transparent, opaque or colors;
The chamber is opened on the bottom surface;
The skin adhesion portion is a soft, flexible, porous fabrics or polymer with a thin layer of hypoallergic adhesive on the skin contact surface;
- the chamber covers all the layers of gel and needle sheet;
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13. The peripheral edges of said needle sheet are tightly glued to said the walls of the chamber to prevent mixing between electrolyte gel and medication gel during application
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14. A said cover sheet is a thin plastic sheet that covers the exposed content, which is the medication gel layer, of the chamber and the skin adhesive portion of the dermal patch on the bottom/skin contact surface;
- this cover sheet is peeled off when the patch is readily being applied to skin;
the cover sheet'"'"'s function is to protect the chamber'"'"'s contents and the skin adhesive portion;
- this cover sheet is peeled off when the patch is readily being applied to skin;
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15. Gelatinous substrate for both said the electrolytic layer and said the medication layer is either hydrogel or material selected from the group consisting of agarose, polyvinyl alcohol, polyvinylpyrrolidone, methyl cellulose, hydroxypropyl methylcellulose and, carboxymethyl cellulose, and combinations thereof.
Specification