A composition is provided comprising an electrospun fiber having a surface with a biological adhesive moiety conjugated to the surface of the electrospun fiber. The biological adhesive moiety included in the composition can be a lectin such as griffithsin. The composition can further include an effective amount of an antiviral agent encapsulated by an electrospun fiber. Nanoparticles including a microbicide conjugated to the surface of the nanoparticle can also be included in the composition. Methods of treating a viral infection are also provided and include administering to a subject an effective amount of a composition comprising an electrospun fiber having a surface and a biological adhesive moiety conjugated to the surface of the electrospun fiber.

The disclosure describes collagen constructs comprising anticancer agents, preferably, platinum, and related methods.

Methods for functionalizing the surface of nanofiber substrates, including electrospun fibers and non-woven or woven mats of fibers are described. Functionalized nanofiber substrates presenting biologically active moieties such as biotin and saccharides are described.

The disclosure describes collagen constructs comprising anticancer agents, preferably, platinum, and related methods.

The disclosure provides compositions comprising peptide-based nanofiber precursors and methods of using the same to inhibit cancerous cell growth and/or to deliver therapeutic or diagnostic agents to cells, e.g., cancerous cells. The compositions of the present technology include peptide-based nanofiber precursors as well as carrier complexes comprising a therapeutic or diagnostic agent, and a peptide-based nanofiber precursor. Also provided herein are methods for delivering a therapeutic or diagnostic agent to a cell comprising contacting the cell with a carrier complex including a therapeutic or diagnostic agent, and a peptide-based nanofiber precursor.

The invention provides a composition and pharmaceutical formulation including a peptide immobilized in a hydrogel. Compositions and formulations of the invention are useful in reducing the size, severity or duration of a wound, ameliorating of one or more symptoms associated with a wound without necessarily curing the wound, or lessening in the growth or severity of a wound. Compositions and formulations of the invention are particularly useful in the treatment of a wound associated with diabetes, such as a diabetic ulcer.

A patch for treating vascular ulcers caused by excessive enzymatic activity may include a substrate configured to span a vascular ulcer as well as a linking material that is disposed relative to the substrate and has an affinity for an enzyme involved in causing the vascular ulcer. A magnetic material may be coupled to the linking material. In some cases, the enzymes involved in causing the vascular ulcer may become coupled to the linking material and thus become coupled to the magnetic material so that that the enzymes can be removed by applying a magnetic field in the proximity of the vascular ulcer. The enzymes may include matrix metalloproteinases.

A drug carrier and a method of using the same are provided, wherein the drug carrier includes a base made of a carbon fiber which is magnetic and has a first polarity, a positioning member connected to the base, and is adapted to be positioned and move to a target location by guiding of at least an energy field, and a connector connected to the positioning member and a drug with two ends respectively, wherein the connector has a second polarity opposite to the first polarity, and is recognized by an organism and digested in the organism. The method includes the steps of: injecting the drug carrier into an organism; positioning the drug carrier to a target location within the organism by an equipment; and releasing the drug from the drug carrier by an external energy.

Materials and methods for forming self-assembled peptoid structures that are extremely stable, crystalline, free-standing and self-repairing are described. Based on the peptoid design, peptoid membranes in a 2D arrangement was able toroll into single-walled nanotubes with tunable sizes, diameters, thicknesses and stiffnesses as well as tailorable functions result. Crystalline nanomaterials made through this facile solution crystallization and anisotropic formation process are highly tailorable and exhibit a number of properties advantageous for applications such as water decontamination, cellular adhesion, imaging, surface coating, biosensing, energy conversion, biocatalysis or other applications.

A polypeptide conjugate for use in a method for binding and/or internalization of the polypeptide conjugate to a mammalian cell having a transferrin receptor (TFRC) and/or receptor for advanced glycation end products (RAGE). The polypeptide conjugate may be used in a method for targeting of a drug delivery system or diagnostic delivery system.