Abstract: The invention, a transdermal delivery method, relates to penetration-enhancing pharmaceutical compositions comprising a novel, stable mixture of cetylated esters, cetyl or stearyl alcohols, polar solvents and surfactants, which, under appropriate conditions, combine into amphiphilic nanoparticles within a stabilized liquid dispersion for use in delivery of medicinal agents through the skin. The term cetosomes is used to describe these particles in order to differentiate them from other nanoparticles, such as niosomes, cerasomes, polymeric micelles, dendrimers, liposomes, lipoids, solid lipid nanoparticles and other particles. The self-assembling cetosomes, with both ionic and nonionic points of attraction, incorporate and concentrate a variety of different bioactive agents of interest and demonstrate stable properties with similarities to colloidal molecular structures. The compositions enhance topical transdermal fluxes of bioactives without permanently disrupting natural skin barrier function.
Abstract: The invention, a transdermal delivery method, relates to penetration-enhancing pharmaceutical compositions comprising a novel, stable mixture of cetylated esters, cetyl or stearyl alcohols, polar solvents and surfactants, which, under appropriate conditions, combine into amphiphilic nanoparticles within a stabilized liquid dispersion for use in delivery of medicinal agents through the skin. The term cetosomes is used to describe these particles in order to differentiate them from other nanoparticles, such as niosomes, cerasomes, polymeric micelles, dendrimers, liposomes, lipoids, solid lipid nanoparticles and other particles. The self-assembling cetosomes, with both ionic and nonionic points of attraction, incorporate and concentrate a variety of different bioactive agents of interest and demonstrate stable properties with similarities to colloidal molecular structures. The compositions enhance topical transdermal fluxes of bioactives without permanently disrupting natural skin barrier function.
Abstract: A process for treating psoriasis and similar skin disorders whereby two formulations are used. The first formulation in a cream, gel, lotion, foam or ointment base is used two or more times daily, and contains effective amounts of (but not limited to) methylcobalamin, niacinamide, select cetylated fatty esters, and antioxidants. This formulation is used to suppress immunoproliferative and inflammatory mediated activities that play significant roles in hyperproliferation and erythema. The second formulation, used selectively to reduce plaque thickening and to reduce irritation, contains effective amounts of (but not limited to) salicylic acid and select cetylated fatty esters in a cream, gel, lotion or ointment base, with pH optimized for exfoliation properties. The unique combination of salicylic acid (or other ?- or ?-hydroxy acid) and cetylated fatty esters provides keratolytic activity while suppressing irritation and inflammation.
Abstract: This invention describes a topical delivery mechanism that contains a mixture of cetylated fatty esters that act as transdermal carriers of desired therapeutic molecules. The proposed cetyl fatty ester penetrant-complex (Base CFEP-complex) contains specific cetyl fatty esters, polar solvents, a carrier base (gel, cream, lotion, patch or stick gel), antioxidants and the desired pharmaceutical, cosmetic or antigenic response eliciting molecules that are efficaciously delivered by selectively varying component ratios in the complex.
Abstract: The use of phonophoresis or iontophoresis to enhance transdermal delivery of medicinal Cetylated fatty esters when applied in cream or gel compositions is disclosed. These compositions provide hydrophilic salt forms and penetration-enhancing vehicles that work in conjunction with phonophoresis or iontophoresis to increase the efficacy of the medicinal actives.
Abstract: This invention describes a topical delivery mechanism that contains a mixture of cetylated fatty esters that act as transdermal carriers of desired therapeutic molecules. The proposed cetyl fatty ester penetrant-complex (Base CFEP-complex) contains specific cetyl fatty esters, polar solvents, a carrier base (gel, cream, lotion, patch or stick gel), antioxidants and the desired pharmaceutical, cosmetic or antigenic response eliciting molecules that are efficaciously delivered by selectively varying component ratios in the complex.