Disclosed are methods and related compositions for administering a high affinity IL-2 receptor agonist in combination with immunosuppressants (e.g., comprised in synthetic nanocarriers), wherein the immunosuppressant is at a reduced effective dose.

Disclosed are copolymer micelles for simultaneous delivery of Cas9 mRNA and guide RNA for Cas9 CRISPR gene editing. Also disclosed are copolymer micelles for simultaneous delivery of a therapeutic or diagnostic nucleic acid and a cross-linking or alkylating anticancer agent.

There are provided herein, inter alia, cationic amphipathic polymers, complexes, and compositions comprising same, and methods for their use including for the delivery of therapeutic, diagnostic and imaging agents, including nucleic acids, into a cell. The complexes, compositions and methods may facilitate delivery and targeted release of the therapeutic, diagnostic and imaging agents to particular cell types and tissues.

The invention concerns a dye for use in a method of treating a vitreous opacity-related disease in a subject. The method preferably comprises administering the dye to the vitreous body of an affected eye of the subject; and irradiating at least part of the vitreous opacity, thereby inducing destruction of the vitreous opacity in the subject. The invention further relates to the use of a dye for photodestruction of a vitreous opacity in an eye of a subject, and to a method of photodestruction of a vitreous opacity in an eye of a subject, the method comprising: administering a dye to the vitreous body of the eye of the subject; and irradiating at least part of the vitreous opacity, thereby inducing destruction of the vitreous opacity of the subject.

The field of the disclosure relates generally to cancer cell destruction and, more specifically, to cancer cell destruction by photo-magnetic irradiation mediated multimodal therapy using smart nanostructures.

Disclosed herein are compositions and methods for preparation and delivery of protein therapeutics, and more particularly reversible linkers and use thereof.

Compositions, systems and methods for delivering CRISPR/Cas9-based genome editing system and a donor protein to a cell.

Embodiments of the present disclosure provide for magnetic particle conjugates, methods of making the magnetic particle conjugates, methods of using magnetic particle conjugates, micelles (also referred to as a “magnetic composite nanocarrier” (MCNC)), methods of making micelles, methods of using micelles, and the like.

The invention concerns the field of medical devices, more particularly devices for joint extraction, within an organism, of at least one metal cation and at least one target molecule. In order to do this, the device comprises: a) at least one ligand exhibiting specific affinity for the target molecule; b) at least one means for extraction of the metal cation, said means being a perfusion fluid comprising at least one chelating agent, the perfusion fluid being contained in a dialysis or microdialysis system. The use of these devices makes it possible, for example, to prevent and/or treat pathologies linked to dysregulation of the homeostasis of metals and/or target molecules in the organism, for example neurological diseases and/or proteinopathies.

The present disclosure provides poly(ester amide)s (PEAs) containing NO-Arg groups. The PEAs may be used to treat diseases having inflammation and/or diseases associated with inflammation. The PEAs may be used to treat wounds, such as, for example, wounds associated with obesity and/or diabetes. The PEAs may be incorporated into various articles such as medical devices, such as, for example, bandages and other wound care articles/devices.