Methods, pharmaceutical compositions, and kits are provided for treating a subject with an effective amount of an oxytocin receptor (OXTR) agonist and an effective amount of an ALK5 antagonist. In certain aspects, the OXTR agonist may be oxytocin or an oxytocin analog (e.g., a small molecule). The ALK 5 antagonist may be a small molecule, such as 2-(3-(6-Methyl-pyridin-2-yl)-1H-pyrazol-4-yl)-1,5-naphthyridine, LY2157299, A 83-01, D 4476, GW 788388, LY 364947, Rep Sox, SB 431542, SB 505124, SB 525334, or SD 208. In certain aspects, the amounts of the OXTR agonist and ALK5 antagonist may be sufficient to induce muscle regeneration and/or neural cell regeneration in the subject.

The present invention relates, in part, to a biocompatible hydrophobic-core carrier comprising a carrier, and a plurality of hydrophobic groups covalently linked to the polymeric carrier. The hydrophobic groups are capable of dissociably linking load molecules such as therapeutic agents. The hydrophobic-core carrier may also comprise protective side chains, orienting molecules, and targeting molecules.

ECM based compositions including amniotic membrane and methods for employing same to treat cardiovascular disorders.

A “nanolipogel” is a delivery vehicle including one or more lipid layer surrounding a hydrogel core, which may include an absorbent such as a cyclodextrin or ion-exchange resin. Nanolipogels can be constructed so as to incorporate a variety of different chemical entities that can subsequently be released in a controlled fashion. These different incorporated chemical entities can differ dramatically with respect to size and composition. Nanolipogels have been constructed to contain co-encapsulated proteins as well as small hydrophobic drugs within the interior of the lipid bilayer. Agents incorporated within nanolipogels can be released into the milieu in a controlled fashion, for example, nanolipogels provide a means of achieving simultaneous sustained release of agents that differ widely in chemical composition and molecular weight. Additionally, nanolipogels can favorably modulate biodistribution.

A system and method for updating computerized language models is provided that automatically adds or deletes terms from the language model to capture trending events or products, while maximizing computer efficiencies by deleting terms that are no longer trending and use of knowledge bases, machine learning model training and evaluation corpora, analysis tools and databases

The present invention provides a multi-compartment hydrogel, and a sulfated polysaccharide and at least two bioactive polypeptides capable of binding said sulfated polysaccharide, for use in repair or regeneration of a damaged tissue in a mammal. Also provided is a method for constructing the multi-compartment hydrogel. The present invention also provides a method for the repair or regeneration of a damaged tissue in a mammal, and a kit for constructing a multi-compartment hydrogel.

The invention provides compositions and methods for laser actuated drug delivery. Compositions comprise serum albumin based particles conjugated with therapeutic agents which cab become bioavailable upon actuation of the particles by light, e.g. low power laser.

A method for making an acellular human amnion-derived composition configured for therapeutic use is disclosed and generally includes the steps: obtaining amniotic membrane tissue; testing the amniotic membrane tissue for pathogens; washing the amniotic membrane tissue; manually removing blood-containing chorion tissue from the amniotic membrane tissue decellularizing the amniotic membrane tissue with xeno-free enzymes; collecting amniotic cells from the decellularized amniotic membrane tissue; seeding the amniotic cells for culture into xeno-free media formulated for mesenchymal stem cells; growing the amniotic cells to a specified confluency; collecting conditioned media; and freezing the collected conditioned media; wherein the method further includes irradiating the conditioned media.

The invention provides a method of treating a disease or disorder in a subject by inducing a TGF alpha immune response or by administering an anti-TGF-alpha antibody or a biologically active fragment thereof. The TGF-alpha immune response is induced using a TGF-alpha polypeptide or biologically active fragment, a vaccine, a genetic construct or a transformed cell, for example.

The invention provides a method of treating a disease or disorder in a subject by inducing a TGF alpha immune response or by administering an anti-TGF-alpha antibody or a biologically active fragment thereof. The TGF-alpha immune response is induced using a TGF-alpha polypeptide or biologically active fragment, a vaccine, a genetic construct or a transformed cell, for example.