This invention relates to atroipsomers of reduced tetraphenylporphyrin derivatives with halogen atoms (F, Cl, Br) in the ortho positions of the phenyl groups, particularly halogenated tetraphenylchlorins and halogenated tetraphenylbacteriochlorins, which can be used in photodynamic therapy. According to the formulae of the invention, the ortho-phenyl substituents X.sup.1, X.sup.2, X.sup.3, X.sup.4, X.sup.5, X.sup.6, X.sup.7 and X.sup.8 may be identical or different and represent halogen atoms or hydrogen atoms, provided that at least all of X.sup.2, X.sup.4, X.sup.6 and X.sup.8 are halogens, and the meta-phenyl substituents R.sub.1, R.sub.2, R.sub.3 and R.sub.4 are independently chosen from —OH, —OR or —SO.sub.2R″, where R″ are each independently chosen from —Cl, —OH, -aminoacid, —OR, —NHR, or —NR.sub.2, where R are alkyl of 1 to 12 carbon atoms or R.sub.2 represents cycloalkyl with 2 to 12 carbon atoms. The atropisomers of this invention have the majority of the substituents R.sub.1, R.sub.2, R.sub.3 and R.sub.4 on the same side of the plane defined by the macrocycle. The invention also relates to an anticancer and/or antimicrobial and/or antiviral pharmaceutical composition where atropisomers α.sub.4 and α.sub.3β are the main active ingredients, such that the mixture of atropisomers α.sub.4 and α.sub.3β constitutes more than 70% of the atropisomers present in the active ingredient and/or the atropisomer α.sub.4 constitutes more than 20% of the atropisomers present in the pharmaceutical composition.

The present disclosure belongs to the field of medicines, and particularly relates to property researches of an indotricarbocyanine structure-based small molecule medicine for tumor photothermal therapy. The present disclosure is based on a large-conjugated water-soluble indotricarbocyanine dye compound developed by the applicant, and the compound can be used as a photothermal therapeutic agent, and has a potential development and application prospect. In the present disclosure, the compound is found to be an excellent tumor photothermal therapy medicine, and such use of this compound has not been found and reported at present. Through in-vitro property researches on the photothermal efficiency of this compound, a foundation is provided for clinical application of the indocyanine green-like small molecule photothermal therapeutic agent, and a basis is provided for researches of the small molecule photothermal therapeutic agent.

The present invention provides compositions comprising energy (e.g., light) absorbing submicron particles (e.g., nanoparticles comprising a silica core and a gold shell) and methods for delivering such particles via topical application. This delivery is facilitated by application of mechanical agitation (e.g. massage), acoustic vibration in the range of 10 Hz-20 kHz, ultrasound, alternating suction and pressure, and microjets.

The invention discloses a dye sensitizer molecule taking triazole as a core and a preparation method of the dye sensitizer molecule. According to the dye molecule, a triazole ring is introduced to the design of a molecular structure, and the electronic absorption and transmission capability among D-pi-A dye molecules are greatly improved by substituting donors with different carbon chain lengths and receptors with triple bonds at the periphery, so that a novel triazole dye with high efficiency is obtained. The preparation method of the compound comprises: click chemical reaction, detrimethylsilyl reaction, Sonogashira coupling reaction and the like; and the prepared dye molecule can be applied to a dye-sensitive solar cell and can show favorable photoelectric conversion property so as to have wide application prospects on the aspects of energy development and utilization. In addition, the material also has liquid crystal property under a certain condition so as to also have a huge potential on the aspect of application to photoelectric devices.

The present invention concerns amphiphilic copolymers that may be photo- or redox-cleavable and that may assemble into polymersomes. It also concerns their process of preparation and their use as ding carriers.

The present invention provides an eco-friendly smart photosensitizer comprising a conjugate of hydroxypropyl methylcellulose and porfimer sodium photosensitizer, and a photo-stem cell therapy product comprising the photosensitizer. The photosensitizer of the present invention can be advantageously used in various fields including anticancer therapy, stem cell therapy, and the like, without side effects.

The present invention provides: nanoparticles including a compound that includes porous silica and at least one high-atom selected from the group consisting of gadolinium atoms, iodine atoms, gold atoms, silver atoms, and platinum atoms; and a pharmaceutical composition for radiation treatment, useful for treatment of solid tumors, etc., and including these nanoparticles and a pharmaceutically acceptable carrier.

The present invention provides: nanoparticles including a compound that includes porous silica and at least one high-atom selected from the group consisting of gadolinium atoms, iodine atoms, gold atoms, silver atoms, and platinum atoms; and a pharmaceutical composition for radiation treatment, useful for treatment of solid tumors, etc., and including these nanoparticles and a pharmaceutically acceptable carrier.

A water-soluble conjugated polymer for photothermal therapy, a polymerized monomer thereof, a preparation method therefor, and application thereof. The water-soluble conjugated polymer has good solubility in an aqueous solution, has excellent biocompatibility, does not need to be subjected to coating treatment, can be directly used for photothermal therapy, is easy to use, has a nanometer size, and can enter cells easily. Polar groups are contained in side chains, and the water-soluble conjugated polymer is capable of targeting, can locate intracellular organelles, has excellent photostability and chemical properties as well as high photothermal conversion efficiency, can achieve photothermal therapy of near-infrared region I or II, with high treatment efficiency and few side effects. In the preparation method for the water-soluble conjugated polymer, raw materials can be easily obtained, synthesis conditions are mild, and the purification is convenient. The preparation method is simple, can be easily implemented, and has a great application prospect.

Methods are provided that utilize irradiation to selectively induce release of granules (such as granules containing cytokines or other therapeutically active substances) from platelets. Such irradiation can be performed ex vivo or in vivo, and can be utilized to provide a treated platelet suspension for therapeutic infusion.