Abstract: Described herein are methods for treating rhinosinusitis by administering to the subject an effective amount of verapamil and mometasone as well as compositions and kits for treating rhinosinusitis.

Abstract: Methods and compositions for the treatment of chronic rhinosinusitis in a subject, and more particularly to methods for treating chronic rhinosinusitis with nasal polyps in a subject with cystatin inhibitors.

Abstract: A composition of an omega-3 polyunsaturated fatty acid (PUFA)-taxoid conjugate formulated in an oil-in-water nanoemulsion (NE) drug delivery system in combination with an immune-oncology (IO) agent to enhance therapeutic efficacy in refractory cancers, such as PDAC. A method of treating cancer, by administering an effective amount of a pharmaceutical composition including an omega03 PUFA-taxoid conjugate in combination with an IO agent encapsulated in an NE drug delivery system to a subject in need of treatment, and treating cancer.

Abstract: Methods of manufacturing squalene and alpha-tocopherol-containing oil-in-water emulsions having small oil droplet particle sizes. Such emulsions being of use as vaccine adjuvants.

Abstract: A composition of an omega-3 polyunsaturated fatty acid (PUFA)-taxoid conjugate formulated in an oil-in-water nanoemulsion (NE) drug delivery system in combination with an immune-oncology (IO) agent to enhance therapeutic efficacy in refractory cancers, such as PDAC. A method of treating cancer, by administering an effective amount of a pharmaceutical composition including an omega03 PUFA-taxoid conjugate in combination with an IO agent encapsulated in an NE drug delivery system to a subject in need of treatment, and treating cancer.

Abstract: A method of preparing multifunctionalized nanoparticles involves using a modular system of half-linkers to attach functional moieties that serve to deliver the nanoparticles to a desired target, exert an effect at the target, or track the nanoparticles within a cell or an animal. The modular chemistry of the half-linker system permits the custom design and synthesis of functionalized nanoparticles bearing multiple groups and therefore results in precise delivery to desired cell types and intracellular locations. The functionalized nanoparticles can be used to treat or diagnose a variety of medical conditions, including neoplastic diseases, infectious diseases, and chronic diseases.

Abstract: A method of preparing multifunctionalized nanoparticles involves using a modular system of half-linkers to attach functional moieties that serve to deliver the nanoparticles to a desired target, exert an effect at the target, or track the nanoparticles within a cell or an animal. The modular chemistry of the half-linker system permits the custom design and synthesis of functionalized nanoparticles bearing multiple groups and therefore results in precise delivery to desired cell types and intracellular locations. The functionalized nanoparticles can be used to treat or diagnose a variety of medical conditions, including neoplastic diseases, infectious diseases, and chronic diseases.

Abstract: Vesicles for delivery of active macromolecules which are formed from amphiphilic segmented copolymers having one or more mucoadhesive groups or regions and which can be used for delivery of an active agent to an area of the body having a mucous membrane, such as but not limited to the gastrointestinal tract.

Abstract: An oil-in-water nanoemulsion delivery system that includes at least one oil having a concentration of greater than or equal to 2% (w/w) of at least one polyunsaturated fatty acid, preferably of the omega-3 or omega-6 family, is disclosed. The delivery system further includes at least one emulsifier and also an aqueous phase. Preferably, one or more hydrophobic therapeutic, monitoring and/or diagnostic agents are dispersed in the oil phase. The nanoemulsions may optionally contain other conventional pharmaceutical aids such as stabilizers, preservatives, buffering agents, antioxidants, polymers, proteins and charge inducing agents. The invention also relates to a process for preparing the nanoemulsions and to their use in the oral, parenteral, opthalmic, nasal, rectal or topical delivery of hydrophobic therapeutic, monitoring or diagnostic agents.

Abstract: An encapsulated delivery system, and, in particular, a nanoparticulate delivery system representing a qualitatively different approach to overcoming multi-drug resistance while simultaneously administering the chosen drug treatment to a patient, e.g., in a site-specific manner, is disclosed.

Abstract: Poly(?-amino esters) prepared from the conjugate addition of bis(secondary amines) or primary amines to a bis(acrylate ester) are described. Methods of preparing these polymers from commercially available starting materials are also provided. These tertiary amine-containing polymers are preferably biodegradable and biocompatible and may be used in a variety of drug delivery systems. Given the poly(amine) nature of these polymers, they are particularly suited for the delivery of polynucleotides. Nanoparticles containing polymer/polynucleotide complexes have been prepared. The inventive polymers may also be used to encapsulate other agents to be delivered. They are particularly useful in delivering labile agents given their ability to buffer the pH of their surroundings.