Provided herein are novel methods of treating cerebral ischemia, comprising administering a polymer nanocapsule or a composition thereof. Said nanocapsules comprise a polymer shell and an RNAi (e.g., miRNA) molecule, wherein the polymer shell comprises a) at least one positively charged monomer, b) at least one degradable cross-linker, and c) at least one neutral monomer; and the RNAi molecule provides therapeutic benefits to a subject suffering from cerebral ischemia. Also disclosed herein are compositions of said polymer nanocapsules.

Methods of preparing polymersome-encapsulated functional protein suspensions may include thermally blending an amount of a block copolymer with an amount of a low molecular weight polyethylene glycol (PEG) for at least 30 minutes, mixing and cooling a resulting PEG/polymer formulation to room temperature, adding an aliquot of a solution of the functional protein to a sample containing the PEG/polymer formulation, and performing at least three dilution steps in which polymersomes that are generated are progressively saturated with the functional protein. The aliquot of the solution of the functional protein added may have a to the PEG/polymer sample of around 0.5:1 to 1.5:1 by volume, and the thermal blending may be performed at 90-100 C.

The present invention relates to novel 2-primary amino-4-secondary amino-quinoline derivatives, their manufacture, pharmaceutical compositions comprising them and their use as medicaments. The active compounds of the present invention are useful for the treatment and prevention of proliferative neoplastic and non-neoplastic diseases.

Colloidosome containing active agents and uses thereof are described. The colloidosome can include (a) a responsive micro- or nanostructured porous shell defined by a plurality of nanomaterials and interstices formed between the micro- or nanomaterials and (b) a core that is defined by the responsive micro- or nanostructured porous shell. The shell is loaded with an active agent capable of being released from the shell in response to a stimulus.

The use of nanometric liposome-like (chitosomes) in pharmaceutical or cosmetic composition and a preparation thereof with the chitosomes including chitosan molecules, phospholipid molecules, a cross-linking agent and at least one active pharmaceutical or cosmetic ingredient.

The invention relates to a novel drug delivery vehicle. Various embodiments of the invention provide a hybrid polymerized liposomal nanoparticle comprising both polymerizable lipids and non-polymerizable lipids. Therapeutic agents can be loaded into the polymerized liposomal nanoparticle and targeting agents can be conjugated to the surface of the polymerized liposomal nanoparticle. Also described in the invention are methods, compositions and kits that utilize the hybrid polymerized liposomal nanoparticle to treat disease conditions such as various cancers.

Provided is a method for easily and efficiently producing encapsulated substance vesicles wherein a substance is encapsulated in the cavity of vesicles obtained by polymer self-assembly. Empty vesicles that have membranes comprising a first polymer that is a block copolymer with uncharged hydrophilic segments and a first kind of charged segments and a second polymer with a second kind of charged segments that carry a charge that is the opposite of said first kind of charged segments as well as spaces that are enclosed by said membranes are mixed in an aqueous medium with the substance that is to be encapsulated in the spaces.

Compositions and methods for treating or ameliorating the symptoms of inflammatory or autoimmune disease or disorder are described herein. The compositions contain a nanolipogel for sustained delivery of an effective amount of one or more active agents of choice, preferably a drug for treating or ameliorating the symptoms of inflammatory or autoimmune disease or disorder. The nanolipogel includes a lipid bilayer surrounding a hydrogel core, which may optionally include a host molecule, for example, an absorbent such as a cyclodextrin or ion-exchange resin. In preferred embodiments at least one of active agents is an immunosuppressant.

The invention provides a blood substitute product comprising haemoglobin and a self-assembled microparticle having an acid having two or more acid groups and an organic base in a solvent. The particle is of micron scale. The microparticle may be obtained by contacting a bis-acid and organic base in a hydrophilic solvent, wherein the acid is insoluble or sparingly soluble in the hydrophilic solvent and the organic base is soluble in a hydrophilic solvent.

Block copolymers containing charged blocks or chemical moieties sensitive to oxidation or hydrolysis have been developed. We describe the use of such block copolymers in supramolecular structures, e.g., micelles or vesicles, and pharmaceutical compositions and in methods of preparing the supramolecular structures and pharmaceutical compositions. The invention is particularly useful for the delivery of pharmaceutical agents, e.g., nucleic acids, to cells.