Microporation of tissue for delivery of bioactive agents
First Claim
1. A method of delivering a permeant into an organism comprising steps of:
- porating a biological membrane of an organism at a selected area to form at least one micropore 1-1000 μ
m in diameter in said biological membrane, comprising the step of ablating the biological membrane by placing a heat conducting element in substantial physical contact with the selected area to deliver sufficient energy by conduction to said selected area of said biological membrane such that the temperature of tissue-bound water and other vaporizable substances in said selected area is elevated above the vaporization point of said water and other vaporizable substances, thereby removing the biological membrane in said selected area;
applying an electromagnetic field to the selected area; and
contacting the selected area with a permeant having a formulation and under conditions whereby the electromagnetic field actively induces the flux of the permeant into the organism through the at least one micropore formed in the biological membrane.
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Accused Products
Abstract
A method of enhancing the permeability of a biological membrane, including the skin or mucosa of an animal or the outer layer of a 20 plant to a permeant is described utilizing microporation of selected depth and optionally one or more of sonic, electromagnetic, mechanical and thermal energy and a chemical enhancer. Microporation is accomplished to form a micropore of selected depth in the biological membrane and the porated site is contacted with the permeant. Additional permeation enhancement measures may be applied to the site to enhance both the flux rate of the permeant into the organism through the micropores as well as into targeted tissues within the organism.
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Citations
21 Claims
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1. A method of delivering a permeant into an organism comprising steps of:
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porating a biological membrane of an organism at a selected area to form at least one micropore 1-1000 μ
m in diameter in said biological membrane, comprising the step of ablating the biological membrane by placing a heat conducting element in substantial physical contact with the selected area to deliver sufficient energy by conduction to said selected area of said biological membrane such that the temperature of tissue-bound water and other vaporizable substances in said selected area is elevated above the vaporization point of said water and other vaporizable substances, thereby removing the biological membrane in said selected area;
applying an electromagnetic field to the selected area; and
contacting the selected area with a permeant having a formulation and under conditions whereby the electromagnetic field actively induces the flux of the permeant into the organism through the at least one micropore formed in the biological membrane. - View Dependent Claims (2, 3, 4)
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5. A method of detecting presence of an analyte in an organism comprising steps of:
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porating a biological membrane at a selected area of the organism to form at least one micropore 1-1000 μ
m in diameter in said biological membrane, comprising the step of ablating the biological membrane by placing a heat conducting element in substantial physical contact with the selected area to deliver sufficient energy by conduction to said selected area of said biological membrane such that the temperature of tissue-bound water and other vaporizable substances in said selected area is elevated above the vaporization point of said water and other vaporizable substances thereby removing the biological membrane in said selected area;
contacting the selected area with a probe compound under conditions whereby the probe compound is taken up in the organism and interacts with an analyte in the organism; and
interrogating non-invasively the selected area to obtain information regarding the levels of the analyte in the organism. - View Dependent Claims (6, 7, 8, 9, 10)
irradiating the selected area with electromagnetic radiation; and
detecting radiation emanating from the selected area in response to the electromagnetic radiation, whereby at least one characteristic of the radiation detected from the selected area is a measure of the analyte in the organism.
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9. The method of claim 8,wherein the step of detecting at least one characteristic comprises detecting one or more of amplitude, wavelength, or fluorescent lifetime of the radiation.
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10. The method of claim 8, wherein the step of irradiating comprises irradiating the selected area with infrared radiation.
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11. A method of delivering a nucleic acid into an organism comprising steps of:
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porating a biological membrane at a selected area of the organism to form at least one micropore 1-1000 μ
m in diameter in said biological membrane comprising the step of ablating the biological membrane by placing a heat conducting element in substantial physical contact with the selected area to deliver sufficient energy by conduction to said selected area of said biological membrane such that the temperature of tissue-bound water and other vaporizable substances in said selected area is elevated above the vaporization point of said water and other vaporizable substances, thereby removing the biological membrane in said selected area;
applying an electromagnetic field to the selected area; and
contacting the selected area with a nucleic acid under conditions whereby the electromagnetic field actively induces the flux of the nucleic acid into the organism through the at least one micropore formed in the biological membrane. - View Dependent Claims (12, 13)
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14. A method for delivering a permeant into an organism comprising steps of:
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porating a biological membrane at a selected area of the organism to form at least one micropore 1-1000 μ
m in diameter in said biological membrane, comprising the step of ablating the biological membrane by placing a heat conducting element in substantial physical contact with the selected area to deliver sufficient energy by conduction to said selected area of said biological membrane such that the temperature of tissue-bound water and other vaporizable substances in said selected area is elevated above the vaporization point of said water and other vaporizable substances, thereby removing the biological membrane in said selected area;
applying an electromagnetic field to the selected area; and
contacting the selected area with a permeant having a formulation and under conditions whereby the electromagnetic field actively induces the flux of the permeant into the organism through the at least one micropore formed in the biological membrane, wherein the permeant is selected from the group consisting of insulin, interferon and heparin.
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15. A method of delivering a permeant associated with a carrier into an organism comprising steps of:
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porating a biological membrane at a selected area of the organism to form at least one micropore 1-1000 μ
m in diameter in said biological membrane comprising the step of ablating the biological membrane by placing a heat conducting element in substantial physical contact with the selected area to deliver sufficient energy by conduction to said selected area of said biological membrane such that the temperature of tissue-bound water and other vaporizable substances in said selected area is elevated above the vaporization point of said water and other vaporizable substances thereby removing the biological membrane in said selected area;
applying an electromagnetic field to the selected area; and
contacting the selected area with the carrier under conditions whereby the electromagnetic field actively induces the flux of the permeant associated with the carrier into the organism through the at least one micropore formed in the biological membrane. - View Dependent Claims (16, 17, 18, 19, 20)
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21. An apparatus for stimulating an immune response in an organism wherein a permeant is delivered into the organism comprising:
a heat source, which, when put in substantial physical contact with a selected area of a biological membrane of the organism, is capable of porating the biological membrane at the selected area to form at least one micropore 1-1000 μ
m in diameter and at a depth coincident with increased concentration of langerhans cells, by delivering sufficient energy to the selected area such that the temperature of tissue-bound water and other vaporizable substances in the selected area is elevated above the vaporization point of the water and other vaporizable substances, thereby removing the biological membrane in the selected area, and wherein the apparatus enables the permeant, when the permeant is put in contact with the selected area, to be taken up through the micropore into the organism.
Specification