Products, compositions, systems, and methods for modifying a target structure which mediates or is associated with a biological activity, including treatment of conditions, disorders, or diseases mediated by or associated with a target structure, such as a virus, cell, subcellular structure or extracellular structure. The methods may be performed in situ in a non-invasive manner by placing a nanoparticle having a metallic shell on at least a fraction of a surface in a vicinity of a target structure in a subject and applying an initiation energy to a subject thus producing an effect on or change to the target structure directly or via a modulation agent. The nanoparticle is configured, upon exposure to a first wavelength λ.sub.1, to generate a second wavelength λ.sub.2 of radiation having a higher energy than the first wavelength λ.sub.1. The methods may further be performed by application of an initiation energy to a subject in situ to activate a pharmaceutical agent directly or via an energy modulation agent, optionally in the presence of one or more plasmonics active agents, thus producing an effect on or change to the target structure. Kits containing products or compositions formulated or configured and systems for use in practicing these methods.

The present invention concerns a thermosensitive polymeric hydrogel comprising at least one thermosensitive copolymer, one aqueous solution, and a mucoadhesive excipient, wherein said thermosensitive polymeric hydrogel further comprises at least one immunostimulatory adjuvant and/or at least one cytokine and/or at least one chemokine and/or atleast one heat shockprotein. Another object of the invention is a thermosensitive polymeric hydrogel according to the invention for use in the treatment of tumors or metastasis in a subject having a cancer, preferably a metastatic cancer.

The present invention provides a photo-exothermic composite material represented by Formula (I) of CNM-(Y.sup.1—R).sub.n1 (I) (wherein, CNM denotes a carbon nanomaterial, Y.sup.1 denotes a divalent linking group, R denotes a group derived from a fluorescent substance or pigment; and n1 is an integer of 1 or greater).

This invention is a method of treatment for inhibiting the cells of an infection from performing synthesis, while allowing the immune system within the infected host to maintain cell proliferation. This is accomplished by infusing an element isotope into the blood stream of the infected host. The element isotope must be capable of attaching or binding to the site of DNA or RNA polymerase. Thus, when a magnetic field and targeted low energy electromagnetic radiation are applied to substantially the location of the infection, the cells of the infection are inhibited from replicating. Therefore, the cells of the infection are prevented from replicating, which allows the host's immune system to more efficiently destroy the infectious cells through the natural process of producing antibodies.

Disclosed herein are methods of connecting disrupted tissue, tissue repair, treating colorectal disorder and tissue welding. The methods comprise using a bioadhesive composition comprising ELP and light absorbing chromophores and irradiating the bioadhesive tissue.

The invention provides a liquid-dispersible powder comprising nanoscale grains of matrix embedded with one or more isolated nanoparticles and a composition for the magnetic nanoparticle hyperthermia (MNH) treatment of tumours comprising nanoscale grains of matrix material containing one or more isolated nanoparticles. The invention also provides a method of production of a liquid-dispersible powder described herein, the method comprising the steps of providing nanoparticles prepared under ultra-high vacuum (UHV) gas phase conditions; co-depositing the nanoparticles within a matrix material under UHV gas phase conditions; and grinding the film to a fine powder comprising grains of groups of matrix material isolated nanoparticles. The invention also provides a method of reducing the agglomeration of nanoparticles in liquid, the method comprising isolating nanoparticles in nanoscale grains of matrix material, and the use of a liquid-dispersible powder comprising nanoscale grains of matrix material containing one or more isolated nanoparticles in the manufacture of a medicament for the MNH treatment of tumours.

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.

We disclose a composition, comprising a compound, comprising a melanin precursor that spontaneously synthesizes a melanin when in free form in vivo, and a peptide directly covalently bonded to or indirectly linked to the melanin precursor, wherein the direct covalent bond or indirect link of the peptide to the melanin precursor blocks spontaneous synthesis of the melanin in vivo in the absence of protease activity. We also disclose methods of tumor imaging, tumor detection, diagnosis, and treatment, including methods comprising administering, to a patient suffering from a tumor, the composition; and either surgically resecting the tumor or thermally ablating the tumor, wherein the surgical resection is guided at least in part by contrast imparted by, or the thermally ablating targets cells containing, the melanin, wherein the melanin is spontaneously synthesized in the tumor after administering the composition.

The present invention relates to the medical field, in particular to the treatment of neurological disorders. More specifically the present invention relates to a nanoparticle or nanoparticles' aggregate for use in prevention or treatment of a neurological disease or at least one symptom thereof in a subject when the nanoparticle or nanoparticles' aggregate is exposed to an electric field, wherein the nanoparticle's or nanoparticles' aggregate's material is selected from a conductor material, a semiconductor material, an insulator material with a dielectric constant ε.sub.ijk equal to or above 200, and an insulator material with a dielectric constant ε.sub.ijk equal to or below 100. It further relates to compositions and kits comprising such nanoparticles and/or nanoparticles' aggregates as well as to uses thereof.

A cryo-system for treating a body part of an individual by cryotherapy, which includes two parts. The first part is either i) a cryo-probe suitable for internal cooling, which includes a penetrating segment in communication with a cryogen source and is at least smaller than 1/10th of the body part's biggest volume and/or at least one dimension smaller than 1 cm or ii) a cryo-probe suitable for external cooling, which includes a non-penetrating segment in communication with a cryogen source. The second part is either i) an assembly of at least two nanoparticles bound to each other or associated with each other via binding or associating material or ii) at least one nanoparticle, which includes iron and at least one other metal than iron. The assembly of at least two nanoparticles or the at least one nanoparticle may be cooled by the cryo-probe or by switching on the cryo-probe.