The present invention provides, among other things, effective methods and compositions for delivering messenger RNA (mRNA) via rectal delivery. The present invention is, in part, based on unexpected observation that mRNA may be effectively delivered to the circulation, liver, kidney, colon and/or rectum via rectal delivery despite the barriers such as RNase and mucus layer.

The present invention relates to a kit for preparing a nanoparticle composition for drug delivery and, more specifically, to a kit for preparing a nanoparticle composition for drug delivery, which is designed to easily form a nanoparticle in which a drug is encapsulated by simply mixing an amphiphilic block copolymer, a cationic compound, a polylactic acid salt, and the drug that are the components of the kit.

Disclosed herein are crosslinked polycarbonates, composition thereof and methods thereof. The crosslinked polycarbonates can be prepared from allyl or epoxy polycarbonates. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present invention.

Disclosed are nanoparticles comprising an end-modified poly(β-amino ester) and an additive that is a sugar or sugar derivative, such as a sugar, a sugar alcohol or chitosan. The nanoparticles may be used in any field where polymers have been found useful, including in medical fields, particularly in drug delivery. The polymers are useful in delivering a polynucleotide such as DNA, RNA or siRNA, a small molecule or a protein. Also disclosed are compositions comprising said nanoparticles and an active agent, methods for preparing said nanoparticles, said nanoparticles and compositions for use in medicine, and in vitro methods using said nanoparticles and compositions.

The present invention relates to a polymer nanoparticle freeze-dried product, and a preparation method therefor, the polymer nanoparticle freeze-dried product being obtainable by treating, through a freeze-drying process comprising an annealing step, a polymer nanoparticle aqueous solution comprising an amphiphilic block copolymer, a polylactic acid derivative having a carboxyl terminal group, and a freeze-drying adjuvant, wherein the polymer nanoparticle freeze-dried product is reconstituted within five minutes upon reconstitution by means of an aqueous solvent under atmospheric pressure.

Disclosed herein are stable complexes with controlled particle size, increased apparent solubility and increased dissolution rate comprising as active compound Celecoxib, its salts, or derivatives thereof, which is useful in the treatment of osteoarthritis, rheumatoid arthritis, juvenile rheumatoid arthritis, ankylosing spondylitis, acute pain especially in cancer related acute pain, primary dysmenorrhea. More specifically, the complexes possess instantaneous redispersibility, increased apparent solubility and permeability that provide faster onset of action for acute pain relief and lower GI related side effects. Further disclosed are methods of formulating and manufacturing the complexes described herein, pharmaceutical compositions, and uses and methods of treatment.

Provided is a monodisperse agglomerate of a substance-containing vesicle filled with a substance at a concentration higher than conventionally possible. A mixed solution, in which a target substance is included in an aqueous medium, is mixed with a monodisperse agglomerate of a crosslinked vesicle comprising a prescribed polymer which includes a first polymer, i.e. a block copolymer having uncharged hydrophilic segments and first charged segments, and a second polymer having second charged segments carrying a charge opposite to that of the first charged segments, and in which the first polymer and/or the second polymer are/is crosslinked. As a result, the crosslinked vesicle is made to contain the target substance.

A polyacrylamide-based copolymer reduces or prevents aggregation of biologic molecules including proteins, peptides, and nucleic acids, and lipid-based vehicles such as liposomes, lipid nanoparticles, polymerosomes, and micelles, in aqueous formulations at hydrophobic interfaces, thereby increasing the thermal stability of the molecules in the formulation. Methods and compositions comprising the copolymer and a protein or the copolymer and insulin can be used for treating conditions including diabetes.

Compositions, systems and methods for delivering CRISPR/Cas9-based genome editing system and a donor protein to a cell.

Methods of making and using nanoparticle pharmaceutical compositions comprising histidine-lysine copolymers are provided. The solutions spontaneously form nanoparticles when mixed with nucleic acids such as siRNA. Methods are provided where the pH of the nucleic acid solution is controlled prior to mixing leading to a reduction in nanoparticle diameter to a desirable range, typically 100-150 nm, and Polydispersity Index (PDI), both of which improve transport into target cells to improve the efficacy of gene silencing.