Provided herein are methods that include introducing into an inner ear of a mammal a therapeutically effective amount of an adeno-associated virus (AAV) vector that includes a nucleotide sequence encoding (a) a polypeptide including an antibody heavy chain variable domain operably linked to a signal peptide and a polypeptide including an antibody light chain variable domain operably linked to a signal peptide; (b) a polypeptide including an antigen-binding antibody fragment operably linked to a signal peptide; or (c) a soluble vascular endothelial growth factor receptor operably linked to a signal peptide.

In an aspect, the invention relates to compositions and methods for permeabilizing membranes of cells. In an aspect, the invention relates to compositions and methods for killing cells. In an aspect, the invention relates to compositions and methods of permeabilizing the membranes of cancer cells or microbial cells.

Compositions for delivering a drug to a subject having: a plurality of self-assembled supramolecular nanoparticles (SMNPs), each of the plurality of self-assembled supramolecular nanoparticles (SMNPs) having: a plurality of binding components, each having a plurality of binding regions; a plurality of cores that are suitable to at least provide some mechanical structure to the plurality of self-assembled supramolecular nanoparticles (SMNPs), the plurality of cores comprising at least one core binding element adapted to bind to the binding regions to form a first inclusion complex; a plurality of terminating components, each having a single terminating binding element that binds to remaining binding regions of one of said plurality of binding components by forming a second inclusion complex; the drug; and a reporter agent, and methods of use thereof.

Described herein are materials and methods for inducing therapeutic hypothermia in a subject in need thereof.

Provided is a method of encapsulation, the method including: providing a first mixture, the first mixture including: a first carrier; and a first active ingredient; applying heat to the first mixture until the first mixture reaches a first temperature; providing a second mixture, the second mixture including: a second carrier; and a first emulsifying agent; applying heat to the second mixture until the second mixture reaches a second temperature; mixing the first mixture with the second mixture to obtain a third mixture, wherein: the mixing is performed at a third temperature; and the third temperature is lower than the first temperature; and cooling the third mixture until the third mixture reaches a fourth temperature, wherein: the second carrier is in solid state at the fourth temperature.

Symmetrically and asymmetrically branched homopolymers are modified at the surface level with functional groups that enable forming aggregates with a taxane, such as, paclitaxel and derivatives thereof, which are water insoluble or poorly water soluble. The aggregates are formed by interaction of a taxane and a homopolymer. Such aggregates improve drug solubility, stability, delivery and efficacy.

Provided is a composition including a dispersion medium including: an aqueous solution; a first active ingredient; a flavor agent; and a first type of polymer; and a dispersed phase including: a population of particles, each particle including: a core including: a second active ingredient a second type of polymer; and an aqueous solution; a shell, substantially surrounding the core, the shell including: a third type of polymer; a plurality of lipophilic carriers; and a third active ingredient; and a plurality of emulsifying agents.

The present invention relates to a molecule delivery technology and a carrier technology, which may selectively deliver a material to a desired specific cell and living tissue. The present invention may be utilized in the field of a drug carrier which effectively delivers an imaging probe and a therapeutic agent to an affected part.

Disclosed herein are methods for modulating an amount or activity of a gene or a gene product in a cell. The methods herein may comprise contacting a cell with a therapeutic agent assembled with a lipid composition, which lipid composition may comprise a dendrimer or dendron which may comprise one or more degradable diacyl group, in which may result in modulating the amount or activity of the gene or the gene product in the cell. The therapeutic agent modulating a gene or gene product in a cell may be sufficient to treat a disease or disorder in a subject. Further disclosed herein are pharmaceutical compositions, kits, and lipid compositions for modulating an amount or activity of a gene or a gene product in a cell.

The disclosure relates to tropical diseases such as viral mosquito borne illnesses and the treatment thereof. The invention includes ribonucleic acid vaccines and combination vaccines, as well as methods of using the vaccines and compositions comprising the vaccines for treating and preventing tropical disease.