Polymeric particles are provided for use in therapeutic and/or diagnostic procedures. The particles include poly[bis(trifluoroethoxy)phosphazene and/or a derivative thereof which may be present throughout the particles or within an outer coating of the particles. The particles may also include a core having a hydrogel formed from an acrylic-based polymer. Such particles may be provided to a user in specific selected sizes to allow for selective embolization of certain sized blood vessels or localized treatment with an active component agent in specific clinical uses. Particles of the present invention may further be provided as color-coded microspheres or nanospheres to allow ready identification of the sized particles in use. Such color-coded microspheres or nanospheres may further be provided in like color-coded delivery or containment devices to enhance user identification and provide visual confirmation of the use of a specifically desired size of microspheres or nanospheres.

A method for forming an embolism within a blood vessel is disclosed. The method includes including: implanting an oxidized cellulose embolization solution into a lumen of a blood vessel to form an embolism within the lumen. The oxidized cellulose is present in an amount from about 10 % by weight to 20 % by weight of the oxidized cellulose embolization solution. The method also includes adjusting recanalization time of the embolism, which may be adjusted by tailoring a degradation rate of the oxidized cellulose.

Polymeric particles are provided for use in therapeutic and/or diagnostic procedures. The particles include poly[bis(trifluoroethoxy)phosphazene and/or a derivative thereof which may be present throughout the particles or within an outer coating of the particles. The particles may also include a core having a hydrogel formed from an acrylic-based polymer. Such particles may be provided to a user in specific selected sizes to allow for selective embolization of certain sized blood vessels or localized treatment with an active component agent in specific clinical uses. Particles of the present invention may further be provided as color-coded microspheres or nanospheres to allow ready identification of the sized particles in use. Such color-coded microspheres or nanospheres may further be provided in like color-coded delivery or containment devices to enhance user identification and provide visual confirmation of the use of a specifically desired size of microspheres or nanospheres.

Certain aspects of the present invention relates to microcapsules comprising a core; and a hydrophobic, cross-linked polymeric shell, as well as method for making and using same. Some embodiments of the present invention relate to microcapsules comprising a core; and a hydrophobic, cross-linked polymeric shell. These microcapsules can be used in a variety of applications, including agriculture, encapsulation of food ingredients, health care, cosmetics (e.g., perfumes, detergents, and sunscreen), coatings (e.g., paints and pigments), additives, catalysis, and oil recovery.

The present disclosure describes an imaging composition including porous silicon microparticles, and more particularly, to a biological tissue imaging composition including a composite in which oxidized porous silicon microparticles and silver nanoparticles are combined. Since a biological tissue imaging agent of the present invention, which includes a composite of oxidized porous silicon microparticles and silver nanoparticles, continuously provides an image signal without spreading in the body as compared to conventional imaging agents, it is possible to increase surgical stability by accurately identifying target tissues in vivo in an affected area.

The invention relates to non-biodegradable embolisation microspheres comprising a cross-linked matrix, the matrix being based on at least: a) from 20% to 95% of hydrophilic monomer; b) from 1% to 15% of a non-biodegradable hydrophilic cross-linking monomer; and c) from 1.5% to less than 6% of transfer agent selected from alkyl halides and cycloaliphatic or aliphatic thiols having in particular from 2 to 24 carbon atoms, and optionally having another functional group selected from amino, hydroxy and carboxy groups. The invention further relates to a pharmaceutical composition comprising non-biodegradable embolisation microspheres according to the invention in conjunction with a pharmaceutically acceptable vehicle, advantageously for parenteral administration. The invention further relates to a kit comprising a pharmaceutical composition comprising non-biodegradable embolisation microspheres according to the invention in conjunction with a pharmaceutically acceptable vehicle for parenteral administration, and at least one injection means.

The present invention relates to compositions and methods for imaging and treating various diseases and disorders, including cancers. The composition of the invention can include a plurality of biodegradable micro-beads, each embedding a plurality of nano-beads, further including a polymer, a radionuclide, a radionuclide chelator, a radioligand, a chemotherapeutic agent, and a cell-penetrating peptide. Upon injection into a blood vessel supplying a cancer tumor, the micro-beads lodge into the tumor and degrade, releasing the nano-beads with a therapeutic or diagnostic agent. The compositions and methods of the invention provide a more homogeneous and deeper distribution of radiation or chemotherapeutic agents throughout the target tumor. The micro-beads provide a local, sustained, and controlled delivery nano-beads including therapeutic or diagnostic agents.

Radiopaque monomers, polymers, and microspheres are disclosed herein. Methods of using the radiopaque monomers, polymers, and microspheres are disclosed herein. Methods of manufacturing radiopaque monomers, polymers, and microspheres are disclosed herein.

The invention relates to a polymer comprising a crosslinked matrix, the matrix being based on at least: a) 20 to 90% hydrophilic monomer; b) 5 to 50% radio-opaque halogenated monomer; c) 1 to 15% non-biodegradable hydrophilic crosslinking agent; and d) 0.1 to 10% transfer agent chosen among the alkyl halides and cycloaliphatic or aliphatic thiols having, in particular, 2 to 24 carbon atoms, and optionally having another functional group chosen among the amino, hydroxy and carboxy groups. The invention further relates to a pharmaceutical composition comprising at least one polymer according to the invention, in association with a pharmaceutically acceptable vehicle, advantageously for a parenteral administration. The invention further relates to a kit comprising a pharmaceutical composition comprising the polymer according to the invention in association with a pharmaceutically acceptable vehicle for a parenteral administration, and an injection means.

Radiopaque hydrogels, in particular radiopaque hydrogel microspheres, comprising a polymer having 1,2-dil or 1,3-diol groups acetalized with radiopaque species.