Compositions for coating microneedles with aluminum-adjuvanted vaccines are provided comprising an aluminum-containing wet gel suspension selected from aluminum hydroxide wet gel suspension and aluminum phosphate wet gel suspension; a vaccine in an amount effective to stimulate an immune response in a mammal; a sugar, sugar alcohol, or combinations thereof; and a thickener. Some embodiments of the compositions have a viscosity of 500 to 30,000 cps when measured at 100 s.sup.−1 and temperature of 25 C. Microneedle devices coated with the compositions, as well as methods of forming the compositions and coating the microneedles, and methods of maximizing the aluminum content of vaccine-coated microneedle arrays are also provided.

The present invention provides a method of promoting local bone growth by administering a therapeutic amount of a Sost antagonist to a mammalian patient in need thereof. Preferably, the Sost antagonist is an antibody or FAB fragment selectively recognizing any one of SEQ ID NOS: 1-23. The Sost antagonist may be coadministered together or sequentially with a matrix conducive to anchoring new bone growth. Orthopedic and Periodontal devices comprising an implantable portion adapted to be permanently implanted within a mammalian body and bearing an external coating ofa Sost antagonist are also disclosed, as it a method ofincreasing bone density by administering to a mammalian patient a therapeutic amount ofa Sost antagonist together with an antiresorptive drug.

The composition and method of the invention relate to dental implant or orthognathic implant, graft materials and platelet-rich fibrin (PRF) applications in the field of dental and jaw health. The invention particularly relates to a therapeutic composition comprising at least one anti-sclerostin antibody and at least one anti dickkopf-1 antibody in combination for increasing osseointegration and accelerating healing in dental implantation and bone volume augmentation in filling of insufficient bone sites, and methods of local administration thereof.

The disclosure relates to an in situ-gelling hydrogel composition based on functionalized zwitterionic polymers. The resulting hydrogels exhibit highly anti-fouling, anti-adhesive, and lubricating properties to enable the fabrication of bulk hydrogels or hydrogel-based coatings of relevance to biomedical applications.

Provided is a cardiovascular implant based on in-situ regulation of immune response and a method for making the same, belonging to the technical field of biomedicine. The cardiovascular implant includes a cardiovascular implant body and H4000-CD25/dcas9 sustained-release nanoparticles modified on the cardiovascular implant body; the H4000-CD25/dcas9 sustained-release nanoparticles include an H4000 plasmid nanocarrier (Engreen), an anti-CD25 antibody, and a dcas9 plasmid sequence; a method for preparing the cardiovascular implant includes: constructing a cardiovascular implant body, preparing an H4000-CD25 nanotransfection vector, preparing H4000-CD25/dcas9 sustained-release nanoparticles, and conjugating the H4000-CD25/dcas9 sustained-release nanoparticles on the cardiovascular implant body. The present disclosure aims to construct a cardiovascular implant modified with the H4000-CD25/dcas9 sustained-release nanoparticles, which may induce nerve fiber ingrowth into engineered blood vessels; with the regulation ability of Treg cells on immune response, antithrombotic function of the cardiovascular implant is improved and in-situ regeneration of the cardiovascular implant is promoted.

The invention relates to compositions useful for bone repair and methods of preparing the same. The invention is particularly suitable for bone repair of large bone defects. In an aspect of the invention, the compositions comprise a biocompatible polymer and a clay that form a scaffold. In a further aspect of the invention, the multiple scaffolds can be configured together to form scaffold blocks.

Described herein are electrospun core-shell fibers that include (i) a central core that is electrically conductive having an exterior surface, wherein the core comprises a first polymer and an electroconductive material; (ii) a shell adjacent to the exterior surface of the core, the shell comprising a second polymer; and (iii) one or more bioactive agents in the shell. In one aspect, the fibers are electrospun fibers. Additionally, described herein are methods for making and using the core-shell fibers.

The present disclosure provides compositions, methods, and kits that enable the in situ growth of polymers on or within a subject. In some aspects, the tissue-active monomers, including monomers comprising macromolecules, provide abroad set of material choices for synthetic tissue barriers. In additional aspects, the compositions, methods, and kits are useful for treating or preventing a disease or disorder.

The invention concerns a composition to be electrospun comprising a first compound to be electrospun, an electrospinning promoter and at least one active ingredient, as well as a method to prepare it. This composition allows to obtain electrospun nanometric fibers with good structural and absorption properties.

Implantable scaffolds that treat solid tumors and escape variants and that provide effective vaccinations against cancer recurrence are described. The scaffolds include genetically-reprogrammed lymphocytes and a lymphocyte-activating moiety.