Patent application number | Description | Published |
20080199398 | Novel Peptides That Promote Lipid Efflux - Disclosed herein are peptides with domains that promote lipid efflux from cells and optionally possess at least one anti-inflammatory domain or a domain that stimulates LCAT activity. Provided herein are methods of using the peptides to treat or inhibit diseases including dyslipidemic disorders, stroke and myocardial infarction. Also provided are methods of detecting plaque in vessels using the labeled peptides of the present invention. | 08-21-2008 |
20080206142 | Novel Peptides That Promote Lipid Efflux - Disclosed herein are peptides with domains that promote lipid efflux from cells and optionally possess at least one anti-inflammatory domain or a domain that stimulates LCAT activity. Provided herein are methods of using the peptides to treat or inhibit diseases including dyslipidemic disorders, stroke and myocardial infarction. Also provided are methods of detecting plaque in vessels using the labeled peptides of the present invention. | 08-28-2008 |
20080214438 | Methods and Apparatus for Creating Particle Derivatives of HDL with Reduced Lipid Content - The present invention is directed to systems, apparatus and methods for creating derivatives of at least one form of HDL without substantially affecting LDL. These derivatives of HDL are particles with reduced lipid content, particularly reduced cholesterol content. These particles have the capacity to bind cholesterol and are administered to a patient to enhance cellular cholesterol efflux and reduce cholesterol levels in cells, tissues, organs, and blood vessels. The present method is useful for treating atherogenic vascular disease and may be combined with other therapies such as statins, inhibitors of cholesterol absorption, niacin, anti-inflammatories, exercise and dietary restriction. | 09-04-2008 |
20080227686 | Novel Peptides that Promote Lipid Efflux - Disclosed herein are peptides with domains that promote lipid efflux from cells and optionally possess at least one anti-inflammatory domain or a domain that stimulates LCAT activity. Provided herein are methods of using the peptides to treat or inhibit diseases including dyslipidemic disorders, stroke and myocardial infarction. Also provided are methods of detecting plaque in vessels using the labeled peptides of the present invention. | 09-18-2008 |
20080227726 | Methods and Apparatus for Creating Particle Derivatives of HDL with Reduced Lipid Content - The present invention is directed to systems, apparatus and methods for creating derivatives of at least one form of HDL without substantially affecting LDL. These derivatives of HDL are particles with reduced lipid content, particularly reduced cholesterol content. These particles have the capacity to bind cholesterol and are administered to a patient to enhance cellular cholesterol efflux and reduce cholesterol levels in cells, tissues, organs, and blood vessels. The present method is useful for treating atherogenic vascular disease and may be combined with other therapies such as statins, inhibitors of cholesterol absorption, niacin, anti-inflammatories, exercise and dietary restriction. | 09-18-2008 |
20080230465 | Methods and Apparatus for Creating Particle Derivatives of HDL with Reduced Lipid Content - The present invention is directed to systems, apparatus and methods for creating derivatives of at least one form of HDL without substantially affecting LDL. These derivatives of HDL are particles with reduced lipid content, particularly reduced cholesterol content. These particles have the capacity to bind cholesterol and are administered to a patient to enhance cellular cholesterol efflux and reduce cholesterol levels in cells, tissues, organs, and blood vessels. The present method is useful for treating atherogenic vascular disease and may be combined with other therapies such as statins, inhibitors of cholesterol absorption, niacin, anti-inflammatories, exercise and dietary restriction. | 09-25-2008 |
20080234621 | Methods and Apparatus for Creating Particle Derivatives of HDL with Reduced Lipid Content - The present invention is directed to systems, apparatus and methods for creating derivatives of at least one form of HDL without substantially affecting LDL. These derivatives of HDL are particles with reduced lipid content, particularly reduced cholesterol content. These particles have the capacity to bind cholesterol and are administered to a patient to enhance cellular cholesterol efflux and reduce cholesterol levels in cells, tissues, organs, and blood vessels. The present method is useful for treating atherogenic vascular disease and may be combined with other therapies such as statins, inhibitors of cholesterol absorption, niacin, anti-inflammatories, exercise and dietary restriction. | 09-25-2008 |
20100203099 | MULTI-DOMAIN AMPHIPATHIC HELICAL PEPTIDES AND METHODS OF THEIR USE - Disclosed herein are peptides or peptide analogs with multiple amphipathic α-helical domains that promote lipid efflux from cells via an ABCA1-dependent pathway. Also provided herein are methods of using multi-domain amphipathic α-helical peptides or peptide analogs to treat or inhibit dyslipidemic disorders. Methods for identifying non-cytotoxic peptides that promote ABCA1-dependent lipid efflux from cells are also disclosed herein. | 08-12-2010 |
20120148642 | MULTI-DOMAIN AMPHIPATHIC HELICAL PEPTIDES AND METHODS OF THEIR USE - Disclosed herein are peptides or peptide analogs with multiple amphipathic α-helical domains that promote lipid efflux from cells via an ABCA1-dependent pathway. Also provided herein are methods of using multi-domain amphipathic α-helical peptides or peptide analogs to treat or inhibit dyslipidemic disorders. Methods for identifying non-cytotoxic peptides that promote ABCA1-dependent lipid efflux from cells are also disclosed herein. | 06-14-2012 |
20140107029 | Methods and Apparatus for Creating Particle Derivatives of HDL with Reduced Lipid Content - The present invention is directed to systems, apparatus and methods for creating derivatives of at least one form of HDL without substantially affecting LDL. These derivatives of HDL are particles with reduced lipid content, particularly reduced cholesterol content. These particles have the capacity to bind cholesterol and are administered to a patient to enhance cellular cholesterol efflux and reduce cholesterol levels in cells, tissues, organs, and blood vessels. The present method is useful for treating atherogenic vascular disease and may be combined with other therapies such as statins, inhibitors of cholesterol absorption, niacin, anti-inflammatories, exercise and dietary restriction. | 04-17-2014 |