Abstract: Compositions and methods are provided for making hyper compliant polymer particles by inverse emulsification and having a predetermined mechanical compliance and a predetermined size with a monodisperse diameter. Compositions and methods are provided for use of hyper compliant polymer particles in drug delivery, assay, particle image velocimetry, ceramics, cosmetics, deconvolution, electronic paper, insulation, personal care, standards, retroreflective paint and paint applications, thickening agents, regenerative medicine, device calibration, micro-carriers and force indicators.

Abstract: Compositions and methods are provided for making hyper compliant polymer particles by inverse emulsification and having a predetermined mechanical compliance and a predetermined size with a monodisperse diameter. Compositions and methods are provided for use of hyper compliant polymer particles in drug delivery, assay, particle image velocimetry, ceramics, cosmetics, deconvolution, electronic paper, insulation, personal care, standards, retroreflective paint and paint applications, thickening agents, regenerative medicine, device calibration, micro-carriers and force indicators.

Abstract: Compositions for stabilizing and delivering proteins and/or other bioactive agents are disclosed. The bioactive agents are embedded or encapsulated in a crystalline matrix. Typically the bioactive agents are in the form of micro- or nanoparticles. The crystalline matrix confers enhanced stability to the agents embedded therein relative to other microparticulate or nanoparticulate bioactive agents. The carriers are especially useful for stabilizing bioactive macromolecules, such as proteins.

Abstract: Described are polymeric particles containing polymers and formulations containing these polymeric particles. The polymeric particles are effectively absorbed by intestinal mucosa and/or GI tissue, and show increased systemic uptake following oral administration as a result of their negative zeta potentials in DI water. The polymers contain a moiety that imparts a negative charge in DI water to the polymers. Optionally, the polymeric particles contain an anionic surfactant, lipid(s), peptide(s), salt(s), amino acids, induced electrons in appropriate quantities to induce the desired negative charge or/and to further enhance GI absorption and/or systemic uptake. The polymeric particles can be used to deliver any therapeutic, diagnostic, and/or prophylactic agent suitable for encapsulation.

Abstract: Novel anticoagulant reversal compounds are disclosed, as well as methods of making the compounds, pharmaceutical compositions including the compounds, methods of using the compounds to reverse the anticoagulant effects of coagulation inhibitors, and diagnostic assays comprising the compounds.

Abstract: Compositions including Glucagon-like peptide-1 (GLP-1) or an analogue thereof such as exenatide, liraglutide, lixisenatide, albiglutide, dulaglutide, semaglutide, or taspoglutide, entrapped in or incorporated into a polymeric particles are provided. Typically, the particles are composed of one or more biodegradable polyesters or polyanhydrides, or a combination thereof, for example as copolymers or a blend to two or more polymers or copolymers. In some embodiments, the particles do not include a poly(lactide-co-glycolide). The particles can be microparticles or nanoparticles. In some embodiments, the particles are formed by Phase Inversion Nanoencapsulation (PIN). Pharmaceutical compositions and dosage forms, including formulations suitable for oral delivery, are also provided. Method of treating subject in need thereof, for example subjects with diabetes, by administering the subject an effect amount of the disclosed compositions, are also provided.

Abstract: Compositions for stabilizing and delivering proteins and/or other bioactive agents are disclosed. The bioactive agents are embedded or encapsulated in a crystalline matrix. Typically the bioactive agents are in the form of micro- or nanoparticles. The crystalline matrix confers enhanced stability to the agents embedded therein relative to other microparticulate or nanoparticulate bioactive agents. The carriers are especially useful for stabilizing bioactive macromolecules, such as proteins.

Abstract: Compositions for stabilizing and delivering proteins and/or other bioactive agents are disclosed. The bioactive agents are embedded or encapsulated in a crystalline matrix. Typically the bioactive agents are in the form of micro- or nanoparticles. The crystalline matrix confers enhanced stability to the agents embedded therein relative to other microparticulate or nanoparticulate bioactive agents. The carriers are especially useful for stabilizing bioactive macromolecules, such as proteins.

Abstract: Methods and compositions for delivering antigens to the lymphatic system in doses that desensitize patients to future exposure to antigens have been developed. Rapid desensitization is achieved by introducing small quantities of antigen into the lymphatic system. In preferred embodiments, the compositions are administered to yield therapeutically effective levels of antigen within the lymph, where macrophages reside in the greatest concentration, by intradermal administration, using for example, microneedles or microparticles, oral administration, using for example, enteric coated capsules or tablets, or autologous transfusion. In some embodiments, the methods and compositions for delivering antigens orally achieve uptake by the Peyer's patches of the small intestines.

Abstract: Compositions and methods are provided for making hyper compliant polymer particles by inverse emulsification and having a predetermined mechanical compliance and a predetermined size with a monodisperse diameter. Compositions and methods are provided for use of hyper compliant polymer particles in drug delivery, assay, particle image velocimetry, ceramics, cosmetics, deconvolution, electronic paper, insulation, personal care, standards, retroreflective paint and paint applications, thickening agents, regenerative medicine, device calibration, micro-carriers and force indicators.

Abstract: Methods and compositions for delivering antigens to the lymphatic system in doses that desensitize patients to future exposure to antigens have been developed. Rapid desensitization is achieved by introducing small quantities of antigen into the lymphatic system. In preferred embodiments, the compositions are administered to yield therapeutically effective levels of antigen within the lymph, where macrophages reside in the greatest concentration, by intradermal administration, using for example, microneedles or micro articles, oral administration, using for example, enteric coated capsules or tablets, or autologous transfusion. In some embodiments, the methods and compositions for delivering antigens orally achieve uptake by the Peyer's patches of the small intestines.

Abstract: Novel anticoagulant reversal compounds are disclosed, as well as methods of making the compounds, pharmaceutical compositions including the compounds, methods of using the compounds to reverse the anticoagulant effects of coagulation inhibitors, and diagnostic assays comprising the compounds.

Abstract: Novel anticoagulant reversal compounds are disclosed, as well as methods of making the compounds, pharmaceutical compositions including the compounds, methods of using the compounds to reverse the anticoagulant effects of coagulation inhibitors, and diagnostic assays comprising the compounds.

Abstract: Compositions for delivering materials, such as a biological material, sand, soil, metal, water, sea water, holy water, synthetic or biological polymers, cremated ash, ceramics, animal or plant tissue, or another physiologically compatible component having personal significance to an individual are described herein. The material(s) are encapsulated in an inert, non-bioerodible, hydrophobic, polymeric material. Methods of making microparticles encapsulating the personalizing substance and methods of use are also provided, The personalizing substance may be encapsulated in a polymeric non-bioerodible microparticle. The encapsulated personalizing substance may be combined with a carrier for delivery to an individual's skin. In some embodiments, the personalizing substance is added to a tattoo ink and incorporated in a tattoo created on an individual's skin. Following injection in the skin, the encapsulated material remains in the microparticles, and is not released over time.

Abstract: Compositions for stabilizing and delivering proteins and/or other bioactive agents are disclosed. The bioactive agents are embedded or encapsulated in a crystalline matrix. Typically the bioactive agents are in the form of micro- or nanoparticles. The crystalline matrix confers enhanced stability to the agents embedded therein relative to other microparticulate or nanoparticulate bioactive agents. The carriers are especially useful for stabilizing bioactive macromolecules, such as proteins.

Abstract: Compositions for delivering materials, such as a biological material, sand, soil, metal, water, sea water, holy water, synthetic or biological polymers, cremated ash, ceramics, animal or plant tissue, or another physiologically compatible component having personal significance to an individual are described herein. The material(s) are encapsulated in an inert, non-bioerodible, hydrophobic, polymeric material. Methods of making microparticles encapsulating the personalizing substance and methods of use are also provided. The personalizing substance may be encapsulated in a polymeric non-bioerodible microparticle. The encapsulated personalizing substance may be combined with a carrier for delivery to an individual's skin. In some embodiments, the personalizing substance is added to a tattoo ink and incorporated in a tattoo created on an individual's skin. Following injection in the skin, the encapsulated material remains in the microparticles, and is not released over time.

Abstract: Methods and compositions for delivering antigens to the lymphatic system in doses that desensitize patients to future exposure to antigens have been developed. Rapid desensitization is achieved by introducing small quantities of antigen into the lymphatic system. In preferred embodiments, the compositions are administered to yield therapeutically effective levels of antigen within the lymph, where macrophages reside in the greatest concentration, by intradermal administration, using for example, microneedles or micro articles, oral administration, using for example, enteric coated capsules or tablets, or autologous transfusion. In some embodiments, the methods and compositions for delivering antigens orally achieve uptake by the Peyer's patches of the small intestines.

Abstract: Compositions for delivering materials, such as a biological material, sand, soil, metal, water, sea water, holy water, synthetic or biological polymers, cremated ash, ceramics, animal or plant tissue, or another physiologically compatible component having personal significance to an individual are described herein. The material(s) are encapsulated in an inert, non-bioerodible, hydrophobic, polymeric material. Methods of making microparticles encapsulating the personalizing substance and methods of use are also provided. The personalizing substance may be encapsulated in a polymeric non-bioerodible microparticle. The encapsulated personalizing substance may be combined with a carrier for delivery to an individual's skin. In some embodiments, the personalizing substance is added to a tattoo ink and incorporated in a tattoo created on an individual's skin. Following injection in the skin, the encapsulated material remains in the microparticles, and is not released over time.

Abstract: Formulations of a neuroprotective agent for parenteral administration are described herein. The formulation is in the form of a concentrated (supersaturated) solution or a concentrated suspension of microparticles. The suspension medium or the solution solvent carrier may also contain dissolved neuroprotective agent. For the supersaturated solutions, the agent is dissolved a high concentrations of at least about 1% by weight, 5% by weight, 10% by weight, 15% by weight, or 20% by weight in a solvent suitable for parenteral administration. For the concentrated suspension, the microparticles have an effective particle size form about 100 nm to about 5 microns, preferably form about 50 nm to about 3 microns, more preferably from about 10 nm to about 2 microns. The formulations described herein can be used to treat a variety of neurological disease/disorders and/or neurological injury or trauma.

Abstract: Compositions for delivering materials, such as a biological material, sand, soil, metal, water, sea water, holy water, synthetic or biological polymers, cremated ash, ceramics, animal or plant tissue, or another physiologically compatible component having personal significance to an individual are described herein. The material(s) are encapsulated in an inert, non-bioerodible, hydrophobic, polymeric material. Methods of making microparticles encapsulating the personalizing substance and methods of use are also provided. The personalizing substance may be encapsulated in a polymeric non-bioerodible microparticle. The encapsulated personalizing substance may be combined with a carrier for delivery to an individual's skin. In some embodiments, the personalizing substance is added to a tattoo ink and incorporated in a tattoo created on an individual's skin. Following injection in the skin, the encapsulated material remains in the microparticles, and is not released over time.