A hemostatic composition is provided. The hemostatic composition includes a hemostatically effective amount of a hemostatic agent that includes a nanoparticle and a polyphosphate polymer attached to the nanoparticle. Also provided are medical devices and methods of use to promote blood clotting.

Described herein is a nanoparticle system including a multivalent nanoparticle core having a plurality of β-hairpin peptides conjugated thereto. Also included are pharmaceutical compositions and methods of making the nanoparticle system. Further included are immunotherapy methods including administering the nanoparticle system to a subject in need thereof, such as a human cancer patient.

Dendrimer compositions and methods for the treatment of cancer or autoimmune diseases are described. The compositions include dendrimers complexed or conjugated with one or more active agents for the treatment or alleviation of one or more symptoms of cancer or autoimmune diseases. The dendrimers may include one or more ethylene diamine-core poly(amidoamine) (PAMAM) hydroxyl-terminated generation-4, 5, 6, 7, 8, 9, or 10 dendrimers. The active agents may be immunomodulatory agents such as STING agonists, CSF1R inhibitors, PARP inhibitors, VEGFR tyrosine kinase inhibitors, MEK inhibitors, glutaminase inhibitors, TIE II antagonists, and CXCR2 inhibitors, and STING antagonists. Methods of using the dendrimer compositions to treat cancer, bone disease or inflammatory diseases are also provided.

This disclosure relates to systems, compounds and methods for stem cell delivery. More specifically, the disclosure relates a system for promoting tissue regeneration, the system comprising a plurality of stem cells coated with at least one or a plurality of dendrimer nanocarriers that specifically bind to an adhesion molecule. Additionally, the disclosure relates to methods for delivering stem cells to damaged or diseased tissue for stem cell regeneration of the tissue.

Compositions of dendrimers conjugated with one or more therapeutic agents that decrease exosome secretion and methods of use thereof for treating, alleviating, and/or preventing one or more symptoms associated with one or more neurological disease or disorders, cancer, inflammatory diseases, bacterial and viral infections, and other disorders have been developed. Preferably, the therapeutic agents are one or more agents that inhibit or reduce activity and/or quantity of neutral sphingomyelinase 2 (nSMase2) such as small molecule inhibitors of nSMase2. Compositions are particularly suited for reducing Aβ plaque formation, reducing tau propagation, improving cognition, or combinations thereof in a subject with psychiatric and neurological disorders. Compositions are also suited for treating, alleviating, and/or preventing one or more symptoms associated with cancer, bacterial and viral infections, and inflammatory diseases. Methods of treating a human subject having one or more of the diseases and disorders are provided.

A polymer-prostaglandin conjugate comprising: a polymer backbone comprising a plurality of moieties of formula (I): where: T represents a triazole moiety; Q is independently selected at each occurrence and may be present or absent and when present represents a linking group; R is selected from the group consisting of linear or branched hydrocarbon; D is selected from prostaglandins; and L is a group of formula (II) wherein R.sup.5 is selected from hydrogen and C.sub.1 to C.sub.6 alkyl; (R) indicates the end of the group bonded to the R group; and (D) indicates the end of the group attached to the group D. ##STR00001##

The present invention relates to a targeted protease degradation (TED) platform, and specifically to a conjugate of target molecule-linker-E3 ligase ligand as shown in formula I, R.sub.T-L1-R.sub.E3 (formula I), wherein R.sub.T is a monovalent group of the target molecule, R.sub.E3 is a monovalent group of the E3 ligase ligand, L1 is the linker linking A and B, and L1 is as shown in formula II below: —W-L2-W.sup.2— (II).

Poly(amidoamine) [PAMAM] dendrimers for use as PSMA-targeted contrast agents for optical and photoacoustic imaging (PA) and theranostic agents for treating prostate cancer are disclosed.

Provided herein are dendrimers comprising a core unit, five generations of building units being a lysine residue or analogue thereof, a plurality of first terminal groups each comprising a residue of a nucleoside analogue, and a plurality of second terminal groups each comprising a hydrophilic polymeric group. Also provided herein are pharmaceutical compositions comprising the dendrimer, and methods and uses of the dendrimers in therapy of disorders such as cancers.

Particles with a spatial and/or temporal release profile for delivery of different agents at different times to the same cells of a subject have been developed. The particles include a core polymeric particle containing a polymer and a first agent, a tethering moiety, covalent linker or covalent linkage attached to the core particle, and a tethered particle attached to the particle via the tethering moiety, covalent linker or covalent linkage and containing a second agent, where the agents are released at different times within or to the same cells. The first and second agents may be a therapeutic or prophylactic agent, such as an antigen, an immunomodulator, an anti-neoplastic agent, a hormone, an inhibitor, etc. The particles may form compositions for treating diseases with a spatial and/or temporal treatment regimen.