Patent application number | Description | Published |
20090155272 | Targeted pharmaceuticals and ligands - The disclosure pertains to pharmaceuticals, more specifically, to targeted diagnostic and therapeutic formulations and ligands thereof. Such methods and composition comprise antigens that are post-translationally modified compared to antigens found on a normal cell phenotype. Also provided are ligands that bind to such post-translationally modified antigens. | 06-18-2009 |
20090171077 | DELIVERY OF NUCLEIC ACID-LIKE COMPOUNDS - A process for preparing a microparticulate complex is provided. The process comprises (a) combining a particle-forming component (“PFC”) and a nucleic acid-like component (“NAC”) in a monophasic composition comprising water and a water-miscible, organic solvent to form a mixture wherein the PFC and the NAC are independently molecularly or micellarly soluble in the aqueous/organic solvent system, and (b) reducing the amount of the organic solvent in the mixture. This effects formation of the microparticulate complex of the NAC and the PFC. Also provided is a microparticulate complex that comprises a particle-forming component complexed to a nucleic acid-like component forming an approximately spherical particle, wherein the particle-forming component encloses an interior of the particle containing the nucleic acid-like component and the so-enclosed interior volume has less than about 50% (preferably less than 20%) of the volume containing free water. Also disclosed composition comprising water and particles of the microparticulate complex. According to the invention a nucleic acid-like component is delivered to a cell by (a) contacting the cell with a composition comprising water and the microparticulate complex, and (b) maintaining the contact for a time sufficient to allow the nucleic acid-based moiety to enter the cell. A therapeutic nucleic acid-like component is delivered into a patient in need thereof by administering a composition comprising water and particles of the microparticulate complex. Also disclosed is a charge-changing composition represented by the formula A-X-B, wherein X represents a chemical bond capable of irreversible dissociation in reaction to a factor in a physiological or bioprocess environment; A represents a molecular moiety that upon dissociation of the bond X produces a ionically charged product; and B represents a molecular moiety, which upon the dissociation of bond X, separates from the composition leaving the remaining ionically charged product more positive than that of A-X-B itself. | 07-02-2009 |
20100008978 | NANOPARTICLES EFFECTIVE FOR INTERNALIZATION INTO CELLS - This invention provides antibodies that have improved affinity for the epidermal growth factor receptor (EGFR). In addition, this invention provides microparticles and nanoparticles comprising a plurality of EGFR affinity moieties that are effectively internalized by cells expressing an EGFR. | 01-14-2010 |
20110104261 | REMOTE DETECTION OF SUBSTANCE DELIVERY TO CELLS - The present invention provides for the development of endocytosis-sensitive probes, and a remote method for measuring cellular endocytosis. These probes are based on the reduced water permeability of a nanoparticle or liposomal delivery system, and inherent degradability or disruption of barrier integrity upon endocytosis. The invention also provides for liposomes having combined therapeutic and diagnostic utilities by co-encapsulating ionically coupled diagnostic and therapeutic agents, in one embodiment, by a method using anionic chelators to prepare electrochemical gradients for loading of amphipathic therapeutic bases into liposomes already encapsulating an imaging agent. The invention provides for imaging of therapeutic liposomes by inserting a lipopolymer anchored, remotely sensing reporter molecules into liposomal lipid layer. The invention allows for an integrated delivery system capable of imaging molecular fingerprints in diseased tissues, treatment, and treatment monitoring. | 05-05-2011 |
20140017300 | DELIVERY OF NUCLEIC ACID-LIKE COMPOUNDS - Provided herein is a process for preparing a microparticulate complex of a particle-forming component (“PFC”) and a nucleic acid-like component (“NAC”) in a monophasic composition comprising water and a water-miscible organic solvent. Also provided is a microparticulate complex that comprises a particle-forming component complexed to a nucleic acid-like component, and a composition comprising water and the microparticulate complex. Further provided is a method of delivery of a nucleic acid-like component to a cell or to a patient by contacting the cell with or administering to the patient a composition comprising water and the microparticulate complex described herein. Still further, a charge-changing composition represented by the formula A-X—B is provided. | 01-16-2014 |
20150140069 | DELIVERY OF NUCLEIC ACID-LIKE COMPOUNDS - Provided herein is a process for preparing a microparticulate complex of a particle-forming component (“PFC”) and a nucleic acid-like component (“NAC”) in a monophasic composition comprising water and a water-miscible organic solvent. Also provided is a microparticulate complex that comprises a particle-forming component complexed to a nucleic acid-like component, and a composition comprising water and the microparticulate complex. Further provided is a method of delivery of a nucleicacid-like component to a cell or to a patient by contacting the cell with or administering to the patient a composition comprising water and the microparticulate complex described herein. Still further, a charge-changing composition represented by the formula A-X—B is provided. | 05-21-2015 |