Abstract: A system for treating a vascular condition includes a stent including hydroxyapatite fibers interwoven to define a stent lumen. Another aspect of the invention is a method of manufacturing a stent by forming hydroxyapatite fibers and biodegradable polymeric fibers, and interweaving the fibers to form a stent wall. The hydroxyapatite fibers can be formed by a sol-gel process, followed by spinning of the gel to form the hydroxyapatite fibers.
Abstract: Liposomes of a size of less than 200 nanometers target tumors and preferentially deliver imipramine blue to tumors, including brain tumors such as gliomas. The imipramine blue decreases the invasiveness of the tumors, and inhibits tumor metastasis. The liposomes include cholesterol and chemically pure phospholipids that are essentially neutral and contain saturated fatty acids of between 16 and 18 carbon atoms, such as distearoylphosphatidyl choline, and can also include one or more pegylated phospholipids, such as DSPE-PEG.
Type:
Grant
Filed:
April 21, 2010
Date of Patent:
December 29, 2015
Assignees:
Emory University, Georgia Tech Research Corporation, Children's Healthcare of Atlanta, Inc.
Inventors:
Jennifer M. Munson, Ravi V. Bellamkonda, Jack L. Arbiser
Abstract: The invention provides a method for obtaining local anesthetics encapsulated in liposomes, such as multi vesicular liposomes, with high encapsulation efficiency and slow release in vivo. When the encapsulated anesthetic is administered as a single intracutaneous dose, the duration of anesthesia and half-life of the drug at the local injection site is increased as compared to injection of unencapsulated anesthetic. The maximum tolerated dose of the encapsulated anesthetic is also markedly increased in the liposomal formulation over injection of unencapsulated anesthetic. These results show that the liposomal formulation of local anesthetic is useful for sustained local infiltration and nerve block anesthesia.
Abstract: The invention provides a method for obtaining local anesthetics encapsulated in liposomes, such as multi vesicular liposomes, with high encapsulation efficiency and slow release in vivo. When the encapsulated anesthetic is administered as a single intracutaneous dose, the duration of anesthesia and half-life of the drug at the local injection site is increased as compared to injection of unencapsulated anesthetic. The maximum tolerated dose of the encapsulated anesthetic is also markedly increased in the liposomal formulation over injection of unencapsulated anesthetic. These results show that the liposomal formulation of local anesthetic is useful for sustained local infiltration and nerve block anesthesia.
Abstract: One aspect of the disclosure relates to a new form of lipid-complexed active platinum compound, which allows for high concentrations of platinum compound in the composition. For example, the concentration of cisplatin in the composition is higher at room temperature, e.g., about greater than 1.2 mg/mL, compared to 1 mg/mL in aqueous solution. In one embodiment, the present invention is directed to a composition comprising a lipid-complexed active platinum compound, wherein the complex has a lipid to drug (L/D) ratio of less than about 1 by weight, e.g. about 0.10 to 1, wherein the lipid-complexed active platinum compound comprises at least one lipid and at least one active platinum compound. In other embodiments, wherein lipid-complexed active platinum compound has an average volume-weighted diameter of about 0.5 to about 20 microns. In still other embodiments, the composition further comprises a liposome.
Type:
Grant
Filed:
February 7, 2008
Date of Patent:
November 17, 2015
Assignee:
Insmed Incorporated
Inventors:
Jin K. Lee, Brian S. Miller, Fangjun Wu, Lawrence T. Boni, Vladimir Malinin
Abstract: Compositions comprising therapeutically effective amounts of lamellar bodies for the modification of linear macromolecules are disclosed. These lamellar compositions are useful in the treatment of conditions or diseases characterized by a preponderance of heavy mucous secretions, such as otitis media, cystic fibrosis, bronchitis, sinusitis and nasal congestion. Methods of treating these diseases and conditions by administering a therapeutically effective amount of a composition to a patient requiring such treatment are also disclosed.
Abstract: Anionic non-phospholipids, as well as lipid nanostructures formed therefrom, are disclosed herein. Also disclosed are methods of producing and using same.
Type:
Grant
Filed:
April 15, 2013
Date of Patent:
November 3, 2015
Assignee:
The Board of Regents of the University of Oklahoma
Abstract: The present invention relates to the use of a liposomal preparation for the manufacture of a pharmaceutical composition and the use of such a composition for the treatment of “triple receptor negative” breast cancer.
Type:
Grant
Filed:
March 26, 2012
Date of Patent:
September 29, 2015
Assignee:
Medigene AG
Inventors:
Kay-Oliver Kliche, Axel Mescheder, Martine Piccart
Abstract: Disclosed herein are methods of treating pulmonary disorders comprising administering to the patient an effective dose of a nebulized liposomal amikacin formulation for at least one treatment cycle, wherein: the treatment cycle comprises an administration period of 15 to 75 days, followed by an off period of 15 to 75 days; and the effective dose comprises 100 to 2500 mg of amikacin daily during the administration period.
Abstract: The invention broadly comprises a chemical composition including a plurality of cholesteryl esters arranged to form a vesicle. In several embodiments, all of the plurality of cholesteryl esters have a same molecular length, which in some embodiments provides a vesicle having a generally smooth outer surface, while in other embodiments, a portion of the plurality of cholesteryl esters have different molecular lengths, which in some embodiments provides a vesicle having a generally irregular outer surface. In yet further embodiments, a shape of the vesicle is selected from the group consisting of spherical, oval, disc-like, tubular and polyhedral shapes, and in yet other embodiments, a wall of the vesicle is selected from the group consisting of a monolayer and a bilayer. In still further embodiments, the chemical composition further includes a polyethylene glycol coat of mixed polymer size.
Abstract: Disclosed herein are methods of treating pulmonary disorders comprising administering to the patient an effective dose of a nebulized liposomal amikacin formulation for at least one treatment cycle, wherein: the treatment cycle comprises an administration period of 15 to 75 days, followed by an off period of 15 to 75 days; and the effective dose comprises 100 to 2500 mg of amikacin daily during the administration period.
Abstract: Biocompatible phase invertible proteinaceous compositions and methods for making and using the same are provided. The subject phase invertible compositions are prepared by combining a proteinaceous substrate and a crosslinking agent, such as a stabilized aldehyde crosslinking agent. Also provided are kits for use in preparing the subject compositions. The subject compositions, kits and systems find use in a variety of different applications.
Abstract: A novel pharmaceutical composition is provided by which nonsteroidal anti-inflammatory drugs (NSAIDs) are added directly to phospholipid-containing oil such as lecithin oils or to a bio-compatible oil to which an phospholipid has been added to make a NSAID-containing formulation that possess low gastrointestinal (GI) toxicity and enhanced therapeutic activity to treat or prevent inflammation, pain, fever, platelet aggregation, tissue ulcerations and/or other tissue disorders. The composition of the invention are in the form of a non-aqueous solution, paste, suspension, dispersion, colloidal suspension or in the form of an aqueous emulsion or microemulsion for internal, oral, direct or topical administration.
Type:
Grant
Filed:
September 16, 2010
Date of Patent:
August 11, 2015
Assignee:
THE BOARD OF REGENTS OF THE UNIVERSITY OF TEXAS SYSTEM
Abstract: The present invention relates to a novel preventive and/or therapeutic drug for myocardial infarction. The present invention provides a preventive and/or therapeutic drug for myocardial infarction or myocardial ischemia-reperfusion injury, the drug containing a lipid membrane structure retaining adenosine.
Type:
Grant
Filed:
September 18, 2009
Date of Patent:
August 4, 2015
Assignees:
OSAKA UNIVERSITY, NATIONAL CEREBRAL AND CARDIOVASCULAR CENTER, DAIICHI SANKYO COMPANY, LIMITED
Abstract: There is provided an adjuvant capable of enlarging an ablation area and reducing ablation unevenness in a dielectric heating-assisted cancer treatment such as radiofrequency ablation used for treatment of hepatic cancer. The adjuvant includes a conductive substance such as a metal element (e.g., iron) and a pharmaceutically acceptable carrier of lipid dispersion, polymer solution or polymer dispersion.
Abstract: A special photosensitizer formulation and Photodynamic Therapy method for treating choroidal neovascularization (CNV) associated with age-related macular degeneration (AMD) is provided. CNV is a major cause for vision loss in elderly patients. A special drug delivery formulation is used to encapsulate the hydrophobic photosensitizer, preferably a pegylated liposome. This improves the solubility and therapeutic index of the photosensitizers. In one preferred embodiment, a pegylated photoactive agent remains confined in the intravascular compartment of neovasculature for a longer duration. Thus efficient elimination of neovascular proliferation and minimal damage to extravascular tissue and normal vessels is ensured. In this method, a hydrophobic photosensitizer, that is able to photochemically destroy neovessels, is injected into the patient. CNV irradiation with a non-thermal laser follows after a predefined time interval.
Type:
Grant
Filed:
November 19, 2008
Date of Patent:
May 26, 2015
Assignee:
Biolitec Pharma Marketing Ltd
Inventors:
Volker Albrecht, Stefan Spaniol, Dietrich Scheglmann
Abstract: The instant invention is drawn to a hepatocyte targeted composition comprising insulin associated with a lipid construct comprising an amphipathic lipid and an extended amphipathic lipid that targets the construct to a receptor displayed by an hepatocyte. The composition can comprise a mixture of free insulin and insulin associated with the complex. The composition can be modified to protect insulin and the complex from degradation. The invention also includes methods for the manufacture of the composition and loading insulin into the composition and recycling various components of the composition. Methods of treating individuals inflicted with diabetes.
Abstract: The present invention is directed to seamless capsules and methods for making seamless capsules having a high oil content as described herein. More specifically, the present invention is directed to seamless capsules, and methods for making seamless capsules, made from a process involving the steps of: (a) preparing an emulsion comprising oil, water, an emulsifier, and at least one of a water-soluble monovalent metal salt, polyvalent metal salt, and an acid, wherein said oil is present in an amount of at least 50% by weight of said emulsion; with the proviso that said emulsion does not contain marmelo mucilage; and (b) adding portions of said emulsion to an aqueous gelling bath comprised of at least one ionic polysaccharide thereby encapsulating said portions of said emulsion in a polysaccharide gel membrane, and optionally (c) drying the resulting capsules by removing water.
Type:
Grant
Filed:
April 19, 2011
Date of Patent:
April 28, 2015
Assignee:
FMC Bioploymer AS
Inventors:
Peder Oscar Andersen, Olav Gåseröd, Christian Klein Larsen
Abstract: The present invention provides a long circulating non-pegylated liposomal doxorubicin hydrochloride composition for parenteral administration and a process for its preparation. The circulation time in Swiss albino mice is at least 25 times longer than conventional non-liposomal formulations. The non-pegylated liposomes are stable, exhibit low toxicity and have been found to be efficacious in different tumor models.
Abstract: The present invention provides apparatus and processes for producing liposomes. By providing a buffer solution in a first reservoir, and a lipid solution in a second reservoir, continuously diluting the lipid solution with the buffer solution in a mixing chamber produces a liposome. A therapeutic agent, such as nucleic acid, is included in one of the buffer solution or the lipid solution. Upon mixing a liposome encapsulating the therapeutic product is substantially instantaneously formed. Thereafter the liposome solution formed is immediately diluted with buffer solution to enhance homogeneity and maintain small particle size.
Type:
Grant
Filed:
July 27, 2006
Date of Patent:
April 14, 2015
Assignee:
Protiva Biotherapeutics, Inc.
Inventors:
Ian MacLachlan, Lloyd B. Jeffs, Edward Yaworski, Kieu Lam