The present invention relates to a solution for treating blood vessels where the solution comprises a heparin conjugate. The invention further relates to the use of the conjugate as a medicament and a method of coating tissue using the conjugate.

The disclosure relates to compositions and superstructures comprising peptide amphiphiles. In some aspects, the disclosure relates to compositions and superstructures comprising host and guest peptide amphiphiles, wherein the host and guest moieties of the peptide amphiphiles interact via non-covalent interactions to form a supramolecular assembly, such a superstructure. In some aspects, the superstructure further comprises a bioactive moiety. Suitable bioactive moieties may be selected to promote cell growth, migration, and/or differentiation.

Disclosed are Somatostatin receptor ligands comprising a peptide moiety, pharmaceutical compositions and uses thereof. Disclosed are also synthetic Somatostatin receptor ligands comprising a cyclic peptide moiety and an active agent moiety covalently bonded to the cyclic peptide moiety through a nitrogen atom of a side chain functional group of an internal residue of the cyclic peptide moiety, pharmaceutical compositions and uses thereof. Disclosed are also synthetic Somatostatin receptor ligands comprising a cyclic peptide moiety and a nanoparticle active agent moiety covalently bonded to the cyclic peptide moiety, pharmaceutical compositions and uses thereof.

Silica-based biomolecule carriers, compositions comprising the same and preparation methods and uses thereof for delivering biomolecules into a cell are provided. The silica-based biomolecule carrier comprises a porous core; a first bioactive moiety; a second bioactive moiety functionally associated with the first bioactive moiety; and linkers for respectively conjugating the first bioactive moiety and the second bioactive moiety to the porous core.

Silica-based biomolecule carriers, compositions comprising the same and preparation methods and uses thereof for delivering biomolecules into a cell are provided. The silica-based biomolecule carrier comprises a porous core; a first bioactive moiety; a second bioactive moiety functionally associated with the first bioactive moiety; and linkers for respectively conjugating the first bioactive moiety and the second bioactive moiety to the porous core.

Described herein are self-assembling protein molecules for delivering a payload, for example, a toxic anti-cancer agent, a cancer immunotherapy, a toxic anti-cancer agent and a cancer immunotherapy, or an imaging agent, to specific tissues. Examples of self-assembled proteins include clathrin and derivatives of clathrin.

Described herein are self-assembling protein molecules for delivering a payload, for example, a toxic anti-cancer agent, a cancer immunotherapy, a toxic anti-cancer agent and a cancer immunotherapy, or an imaging agent, to specific tissues. Examples of self-assembled proteins include clathrin and derivatives of clathrin.

A medical material uses a nickel-titanium alloy wherein a polyelectrolyte has a reduced thickness while a sufficient amount of an antithrombogenic compound for production of a therapeutic effect is supported. The medical material in which a porous surface is formed on a nickel-titanium alloy to allow infiltration of a polyelectrolyte into the pores, to thereby reduce the thickness of the polyelectrolyte exposed on the surface of the nickel-titanium alloy while allowing supporting of a sufficient amount of an antithrombogenic compound due to contribution of the polyelectrolyte infiltrate.

Methods are disclosed herein for increasing bone mass and strength or bone fracture healing in a subject. The methods include administering to the subject a therapeutically effective amount of multipotent stem cells, wherein each multipotent stem cell is transformed with a recombinant nucleic acid molecule comprising a heterologous promoter operably linked to a nucleic acid encoding platelet derived growth factor (PDGF) B, and wherein the multipotent stem cells express a sufficient amount of PDGFB to increase bone mass and strength or bone fracture healing. A lentiviral vector also is disclosed that includes a phosphoglycerate kinase-1 (PGK) promoter operably linked to a nucleic acid encoding PDGFB.

Plasmonics-active metal nanostars are provided that can be used for treating and detecting cells in a subject. The modes of treatment include a photo-activated drug, which is activated by the photo-response of the nanostar to electromagnetic stimulation; a thermally-activated drug, which is activated by a thermal response of the nanostar to electromagnetic stimulation; and the thermal response of the nanostar itself to electromagnetic stimulation, which may directly or indirectly cause the death of an undesirable cell. Uptake of nanostars by undesirable cells may also aid in detection, by enhancing contrast or otherwise transforming electromagnetic stimulation during imaging.