Multi component controlled delivery system for soap bars
First Claim
1. A controlled delivery system for soap comprising:
- a plurality of solid positively charged nanospheres, each of said solid nanospheres comprising an effective amount of a first active agent said plurality of nanospheres being encapsulated in a moisture sensitive microsphere, said moisture sensitive microsphere is formed of a moisture sensitive matrix material and a second active agent encapsulated in said moisture sensitive matrix material wherein said first active agent is the same or different than said second active agent, said first active agent and said second active agent is a fragrance and one or more of a vitamin, antimicrobial agent, antifungal agent, anti-inflammatory agent, anti-acne agent, cosmetic soothing active, skin lightening active, sunscreen active, anti-itch active, antioxidant or skin conditioner and wherein said moisture sensitive matrix material releases said second active agent upon contact with moisture.
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Abstract
The present invention relates to an improved controlled delivery system that can be incorporated in soap bars to enhance deposition of active ingredients and sensory markers onto skin. The carrier system also provides controlled release or prolonged release of these actives from the skin over an extended period of time. The controlled delivery system of the present invention comprises substantially free-flowing, powder formed of solid hydrophobic, positively charged, nanospheres of encapsulated active ingredients, that are encapsulated in moisture sensitive microspheres. The high cationic charge density of the nanosphere improves deposition of active ingredients onto skin. The high cationic charge density on the nanosphere surface is created by incorporating a cationic conditioning agent into the solid hydrophobic matrix of the nanospheres, by incorporating a cationic charge “booster” in the moisture sensitive microsphere matrix, or by using a cationic conditioning agent in the nanosphere matrix in conjunction with a cationic charge “booster” in the microsphere matrix. The invention also pertains to soap products comprising the controlled release system of the present invention.
206 Citations
16 Claims
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1. A controlled delivery system for soap comprising:
a plurality of solid positively charged nanospheres, each of said solid nanospheres comprising an effective amount of a first active agent said plurality of nanospheres being encapsulated in a moisture sensitive microsphere, said moisture sensitive microsphere is formed of a moisture sensitive matrix material and a second active agent encapsulated in said moisture sensitive matrix material wherein said first active agent is the same or different than said second active agent, said first active agent and said second active agent is a fragrance and one or more of a vitamin, antimicrobial agent, antifungal agent, anti-inflammatory agent, anti-acne agent, cosmetic soothing active, skin lightening active, sunscreen active, anti-itch active, antioxidant or skin conditioner and wherein said moisture sensitive matrix material releases said second active agent upon contact with moisture.
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2. A controlled delivery system for soap comprising:
a plurality of solid positively charged nanospheres, each of said solid nanospheres comprising an effective amount of a first active agent said plurality of nanospheres being encapsulated in a moisture sensitive microsphere, said moisture sensitive microsphere is formed of a moisture sensitive matrix material and a second active agent encapsulated in said moisture sensitive matrix material wherein said system comprises about 1% to about 50% by weight of said hydrophobic matrix material, about 1% to about 50% of said moisture sensitive matrix, from about 0% to about 10% by weight of a cationic charge booster, from about 0.01% to about 10% by weight first and second cationic conditioning agent, and said active agent comprising from about 1% to about 50% by weight fragrance and from 0% to 50% by weight of the nanospheres of an active ingredient and wherein said moisture sensitive matrix material releases said second active agent upon contact with moisture.
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3. A controlled delivery system for soap comprising:
a plurality of solid positively charged nanospheres, each of said solid nanospheres comprising an effective amount of a first active agent, said plurality of nanospheres being encapsulated in a moisture sensitive microsphere, said moisture sensitive microsphere is formed of a moisture sensitive matrix material wherein said moisture sensitive matrix material is formed of polyvinyl alcohol in an amount of about 1% to about 80% by weight of the matrix material.
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4. A controlled delivery system for soap comprising:
a plurality of solid positively charged nanospheres, each of said solid nanospheres comprising an effective amount of a first active agent, said plurality of nanospheres being encapsulated in a moisture sensitive microsphere, said moisture sensitive microsphere is formed of a moisture sensitive matrix material wherein said nanoparticle comprises a cationic conditioning agent. - View Dependent Claims (5, 6, 7)
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8. A controlled delivery system for soap comprising:
a plurality of solid positively charged nanospheres, each of said solid nanospheres comprising an effective amount of a first active agent, said plurality of nanospheres being encapsulated in a moisture sensitive microsphere, said moisture sensitive microsphere is formed of a moisture sensitive matrix material wherein said microparticle comprises a cationic charge booster. - View Dependent Claims (9, 10)
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11. A controlled delivery system for soap comprising:
a plurality of solid positively charged nanospheres, each of said solid nanospheres comprising an effective amount of a first active agent, said plurality of nanospheres being encapsulated in a moisture sensitive microsphere, said moisture sensitive microsphere is formed of a moisture sensitive matrix material wherein said nanoparticle comprises a cationic conditioning agent and said microparticle comprises cationic charge booster. - View Dependent Claims (12, 13)
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14. An article of manufacture comprising a controlled delivery system for soap comprising a plurality of solid positively charged nanospheres, each of said solid nanospheres comprising an effective amount of a first active agent said plurality of nanospheres being encapsulated in a moisture sensitive microsphere, said moisture sensitive microsphere is formed of a moisture sensitive matrix material wherein said article is a soap bar.
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15. A method for forming a controlled delivery system for soap comprising a plurality of solid positively charged nanospheres, each of said solid nanospheres comprising an effective amount of a first active agent said plurality of nanospheres being encapsulated in a moisture sensitive microsphere, said moisture sensitive microsphere is formed of a moisture sensitive matrix material, wherein the method comprises the steps of:
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heating a hydrophobic material to a temperature above the melting point to form a melt;
dissolving or dispersing a cationic conditioning agent into the melt;
dissolving or dispersing said first active agent into the melt;
dissolving or dispersing a second active agent and fragrance, a cationic charge booster, and a water sensitive materials;
mixing the hot melt with the aqueous phase to form an dispersion; and
high shear homogenization of the dispersion at a temperature above the melting temperature until a homogeneous fine dispersion is obtained, cooling the dispersion to ambient temperature; and
spray drying the emulsified mixed suspension to form a dry powder composition.
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16. A method for forming a controlled delivery system for soap comprising a plurality of solid positively charged nanospheres, each of said solid nanospheres comprising an effective amount of a first active agent said plurality of nanospheres being encapsulated in a moisture sensitive microsphere, said moisture sensitive microsphere is formed of a moisture sensitive matrix material and a second active agent encapsulated in said moisture sensitive matrix material, wherein said moisture sensitive matrix material releases said second active agent upon contact with moisture, wherein the method comprises the steps of:
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heating a hydrophobic material to a temperature above the melting point to form a melt;
dissolving or dispersing a cationic conditioning agent into the melt;
dissolving or dispersing said first active agent into the melt;
dissolving or dispersing said second active agent, a cationic charge booster, and a water sensitive material in the aqueous phase and heating it to above the melting temperature of the hydrophobic material;
mixing the hot melt with the aqueous phase to form an dispersion;
high shear homogenization of the dispersion at a temperature above the melting temperature until a homogeneous fine dispersion is obtained;
cooling the dispersion to ambient temperature; and
spray drying the emulsified mixed suspension to form a dry powder composition.
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Specification