Patent application number | Description | Published |
20080199519 | Production of Double-or Multi-Layered Microcapsules - The invention relates to a method for production of double- or multi-layered micro-capsules, comprising an inner microcapsule of cross-linked polymers and biological cells and one or more layers of cross-linked polymers without biological cells, which completely enclose(s) the inner microcapsule, whereby, in a first method step, single-layered microcapsules of cross-linked polymers with biological cells are produced and, in at least one further method step, at least one outer layer shell of cross-linked polymer is applied which contains no biological cells. | 08-21-2008 |
20100068289 | SPHERICAL MICROCAPSULES COMPRISING GLP-I PEPTIDES, THEIR PRODUCTION AND USE - The present invention provides spherical microcapsules comprising at least one surface coating and a core, wherein the at least one surface coating comprises cross-linked polymers, and wherein the core comprises cross-linked polymers and cells capable of expressing and secreting a GLP-1 peptide, a fragment or variant thereof or a fusion peptide comprising GLP-1 or a fragment or variant thereof. The present application is furthermore directed to methods for production of these spherical microcapsules and to the use of these microcapsules e.g. in the treatment of type 2 diabetes, weight disorders and diseases or conditions associated thereto, neurodegenerative disorders and diseases or conditions associated thereto, or for the treatment of disorders and diseases or conditions associated to apoptosis. | 03-18-2010 |
20100160556 | GLP-1 Fusion Peptides Conjugated to Polymer(s), Their Production and Use - The present invention provides fusion peptides having GLP-1 activity and enhanced stability in vivo, in particular resistancy to dipeptidyl peptidase IV conjugated to polymers, thereby forming conjugate molecules. The fusion peptide of the conjugate molecule comprises as component (I) N-terminally a GLP-1(7-35, 7-36 or 7-37) sequence and as component (II) C-terminally a peptide sequence of at least 9 amino acids or a functional fragment, variant or derivative thereof. A synthetic polymer and/or a protein, e.g transferrin or albumin, is covalently or non-covalently bound to the fusion peptide to form the conjugate molecule. Component (II) is preferably a full or partial version of IP2 (intervening peptide 2). A preferred embodiment comprises the sequence GLP-1(7-35, 36 or 37)/IP2/GLP-1(7-35, 36 or 37) or GLP-2 and a polymeric component, e.g. a natural or non-natural polymer. The fusion peptide may be produced in engineered cells or synthetically and is e.g. conjugated to the polymeric component by chemical synthesis. The conjugate molecule may be used for the preparation of a medicament for treating various diseases or disorders, e.g. diabetes type 1 or 2, apoptosis related diseases or neurodegenerative disorders. | 06-24-2010 |
20110130329 | Glp-1 Fusion Peptides, Their Production and Use - The present invention provides fusion peptides having GLP-1 activity and enhanced stability in vivo, in particular resistancy to dipeptidyl peptidase IV. The fusion peptide comprises as component (I) N-terminally a GLP-1(7-35, 7-36 or 7-37) sequence and as component (II) C-terminally a peptide sequence of at least 9 amino acids or a functional fragment, variant or derivative thereof. Component (II) is preferably a full or partial version of IP2 (intervening peptide 2). A preferred embodiment comprises the sequence GLP-1(7-35, 36 or 37)/IP2/GLP-1(7-35, 36 or 37) or GLP-2. The fusion peptide may be produced in engineered cells or synthetically and may be used for the preparation of a medicament for treating various diseases or disorders, e.g. diabetes type 1 or 2, apoptosis related diseases or neurodegenerative disorders. | 06-02-2011 |
20120238497 | GLP-1 FUSION PEPTIDES, THEIR PRODUCTION AND USE - The present invention provides fusion peptides having GLP-1 activity and enhanced stability in vivo, in particular resistancy to dipeptidyl peptidase IV. The fusion peptide comprises as component (I) N-terminally a GLP-1(7-35, 7-36 or 7-37) sequence and as component (II) C-terminally a peptide sequence of at least 9 amino acids or a functional fragment, variant or derivative thereof. Component (II) is preferably a full or partial version of IP2 (intervening peptide 2). A preferred embodiment comprises the sequence GLP-1(7-35, 36 or 37)/IP2/GLP-1(7-35, 36 or 37) or GLP-2. The fusion peptide may be produced in engineered cells or synthetically and may be used for preparing a medicament for treating various diseases or disorders, e.g. diabetes type 1 or 2, apoptosis related diseases or neurodegenerative disorders. | 09-20-2012 |
20120263794 | TREATMENT OF EYE DISEASES USING ENCAPSULATED CELLS ENCODING AND SECRETING A NEUROPROTECTIVE FACTOR AND/OR AN ANTI-ANGIOGENIC FACTOR - The present application refers to cells, e.g. mesenchymal stem cells or mesenchymal stromal cells, or any further suitable cell, encoding and secreting a neuroprotective factor, an anti-angiogenic factor and/or any other protein or protein-like substance suitable for (intraocular) treatment of eye diseases. Such eye diseases include glaucoma and other optic nerve disorders, retinal diseases, particularly retinitis pigmentosa (RP), age-related macular degeneration (AMD) and diabetic retinopathy, etc. The cells used herein are encapsulated in a (spherical) microcapsule, preferably comprising a core and at least one surface layer, to prevent a response of the immune system of the patient to be treated. The present application also refers to the use of these (spherical) microcapsule(s) or such factors for (intraocular) treatment of eye diseases as defined herein (for the preparation of a (pharmaceutical) composition) for the treatment of such eye diseases. | 10-18-2012 |
20140004201 | Treatment of Vascular Diseases Using Encapsulated Cells Encoding and Secreting GLP-1, or a Fragment or Variant Thereof | 01-02-2014 |
20140105991 | SPHERICAL MICROCAPSULES COMPRISING GLP-1 PEPTIDES, THEIR PRODUCTION AND USE - The present invention provides spherical microcapsules comprising at least one surface coating and a core, wherein the at least one surface coating comprises cross-linked polymers, and wherein the core comprises cross-linked polymers and cells capable of expressing and secreting a GLP-1 peptide, a fragment or variant thereof or a fusion peptide comprising GLP-1 or a fragment or variant thereof. The present applicators is furthermore directed to methods for production of these spherical microcapsules and to the use of these microcapules e.g. in the treatment of type 2 diabetes, weight disorders and diseases or conditions associated thereto, neurodegenerative disorders and diseases or conditions associated thereto, or for the treatment of disorders and diseases or conditions associated to apoptosis. | 04-17-2014 |