The invention relates to process for preparing cannabinoid-containing particles, wherein first a solution is provided wherein the solvent has a water solubility in the range of 2-100 g/L at 25° C. and wherein the solution comprises 1) a cannabis component comprising THC; and 2) a shell-forming component comprising one or more compounds selected from the group of C10-C30 fatty alcohols, C10-C30 fatty acids and esters of C10-C30 fatty alcohols and C10-C30 fatty acids. Then, droplets of the solution are generated in an aqueous medium and the solvent is allowed to migrate from the droplets to the aqueous medium to thereby form solid particles wherein a shell of shell-forming component encapsulates the cannabis component.

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.

The preparation method of a starch-based double-loaded functional nanoparticle includes: performing restrictive hydrolysis treatment on egg high-density lipoprotein using proteases to obtain the polypeptide; performing self-assembling on a mixed system containing the polypeptide and quercetin under the alkaline condition to form a micelle nanoparticle; performing covalent grafting reaction on a mixed system containing the micelle nanoparticle and anthocyanin under the alkaline condition to form a graft; and electrostatically compounding carboxymethyl dextrin with the graft to obtain the starch-based double-loaded functional nanoparticle. In the preparation method, raw materials derived from natural sources are used, and the self-assembled colloid nanoparticle with good properties can be obtained by adjusting the pH without any organic reagents. The obtained product has a nanoparticle size, has high antioxidant activity and stability against environmental stress, and can be widely applied to the fields of delivery of nutrients, stabilization of biologically active substances and the like.

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.

The present invention provides for a process for preparing liposomes, lipid discs, and other lipid nanoparticles using a multi-port manifold, wherein the lipid solution stream, containing an organic solvent, is mixed with two or more streams of aqueous solution (e.g., buffer). In some aspects, at least some of the streams of the lipid and aqueous solutions are not directly opposite of each other. Thus, the process does not require dilution of the organic solvent as an additional step. In some embodiments, one of the solutions may also contain an active pharmaceutical ingredient (API). This invention provides a robust process of liposome manufacturing with different lipid formulations and different payloads. Particle size, morphology, and the manufacturing scale can be controlled by altering the port size and number of the manifold ports, and by selecting the flow rate or flow velocity of the lipid and aqueous solutions.

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 invention discloses a composition comprising surface modified iron oxide nanoparticles with citric acid modified cyclodextrin with a hydrodynamic diameter of less than 10 nm and a hydrophobic molecule.

The composition finds use in targeted delivery of a hydrophobic drug and as contrast agent in imaging applications.

The present disclosure provides nanoparticles comprising methyl palmitate and at least one serumglobular protein and uses thereof.

Disclosed herein compositions of polysaccharides chemically cross-linked by aromatic dialdehydes. The compositions may be in form of polymeric sheets for a variety of applications. Disclosed also nano-sized particles comprising the polysaccharide chemically cross-linked by aromatic dialdehydes. The nano-sized particles may further comprise lipids and surfactants. Intranasal delivery of the nano-sized particles enables delivery of biologically active agents into the brain. Topical and transdermal delivery of the nano-sized particles enables delivery of biologically active agents for treatment of systemic or dermatological disorders. Methods of manufacturing and uses of the compositions are also disclosed.