The use of dianhydrogalactitol provides a novel therapeutic modality for the treatment of glioblastoma multiforme and medulloblastoma. Dianhydrogalactitol acts as an alkylating agent on DNA that creates N7 methylation. Dianhydrogalactitol is effective in suppressing the growth of cancer stem cells and is active against tumors that are refractory to temozolomide; the drug acts independently of the MGMT repair mechanism.

A complex is provided comprising a conjugate in which a polymer having a boronic acid group and a compound having a diol structure are bonded, and a substance that is complexed with the conjugate.

The present invention features, inter alia, constructs for the delivery of therapeutic and diagnostic agents to a patient. The constructs can include a nanoparticle, a targeting agent that specifically binds a targeted tissue or cell, a therapeutic moiety, and a hydrogel. The constructs can be used in the treatment and diagnosis of bowel diseases, including inflammatory bowel disease (IBD) and colon cancer. In one embodiment, the therapeutic agent is a nucleic acid that mediates RNA inhibition (RNAi), and the invention is directed to treatments for IBD that combine the positive aspects of such agents {e.g., siRNAs) with the safety of a biodegradable polymeric delivery system to facilitate specific targeting of colonic tissues and cells. As the constructs can be formulated for oral administration, they are well tolerated and offer advantages with regard to patient compliance.

Disclosed are synthetic nanocarrier compositions with coupled adjuvant compositions as well as related methods.

Provided herein are composite nanoparticles, methods of making composite nanoparticles and methods of using composite nanoparticles to treat or ameliorate various diseases, such as, for example, cancer.

The present invention generally relates to controlled release of tetracycline antibiotics. Specifically, it relates to a complex comprising a tetracycline compound (TC) or a pharmaceutically acceptable salt, hydrate or solvate thereof and a divalent metal carboxylate; a pharmaceutical preparation comprising the complex, methods for manufacturing the complex and the pharmaceutical preparation, and a complex or a pharmaceutical preparation for use in a method for treatment of the human or animal body, in particular for therapy and/or prophylaxis of a bacterial infection; and/or wherein antibiotic activity is maintained over a prolonged period of time; and/or for the therapy and/or prophylaxis of an acute, chronic or recurrent periodontal disease.

High-polymer-density bioconjugate compositions including multi-layer polymer bioconjugates, polymer backfilled bioconjugates, and multi-layer polymer backfilled bioconjugates, and methods for making the compositions.

The subject disclosure is directed to techniques for enhancing the selectivity and efficacy of therapeutic polymers against a broad spectrum of pathogens and cancer cell lines. According to an embodiment, a method is provided that comprises forming a therapeutic polymer based on polymerization of a plurality of therapeutic monomers, wherein the therapeutic polymer provides a therapeutic functionality. The method further comprises attaching biotin to the therapeutic polymer, resulting in a biotin-functionalized therapeutic polymer, wherein the biotin-functionalized therapeutic polymer provides greater therapeutic efficacy relative to the therapeutic polymer.

The present invention relates to a multi-specific antibody conjugate (such as, a bispecific antibody conjugate), and a related composition, therapeutic method and use thereof. The antibody conjugate comprises a multispecific antibody, such as a bispecific antibody, conjugated to a nanomaterial. The antibody conjugate can be used to modulate an immune response, treat or prevent a disease or condition (e.g., a cancer, autoimmune disease, pathogen infection or inflammatory disease), etc.

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##