Patent application number | Description | Published |
20100119494 | METHODS AND COMPOSITIONS RELATED TO MODULATING THE EXTRACELLULAR STEM CELL ENVIRONMENT - This invention relates, in part, to methods and compositions that modulate the stem cell environment. More specifically, the invention relates, in part, to methods and compositions for modulating stem cell differentiation. Therefore, methods and compositions are provided for modulating glycosaminoglycan moieties, e.g., heparan sulfate glycosaminoglycan (HSGAG) moieties, in the microenvironment of stem cells. Methods and compositions for promoting or inhibiting embryonic stem cell differentiation (e.g., differentiation into endothelial cells) are also provided. This invention also relates, therefore, in part, to cell populations (e.g., endothelial cell populations or impoverished endothelial cell populations) that can be produced with the methods and compositions provided. Furthermore, the invention relates, in part, to tissues, and uses thereof, formed by the methods and compositions provided. Moreover, the invention also relates, in part, to methods of treatment using the methods and compositions provided. | 05-13-2010 |
20100272822 | NANOCELL DRUG DELIVERY SYSTEM - Nanocells allow the sequential delivery of two different therapeutic agents with different modes of action or different pharmacokinetics. A nanocell is formed by encapsulating a nanocore with a first agent inside a lipid vesicle containing a second agent. The agent in the outer lipid compartment is released first and may exert its effect before the agent in the nanocore is released. The nanocell delivery system may be formulated in pharmaceutical composition for delivery to patients suffering from diseases such as cancer, inflammatory diseases such as asthma, autoimmune diseases such as rheumatoid arthritis, infectious diseases, and neurological diseases such as epilepsy. In treating cancer, a traditional antineoplastic agent is contained in the outer lipid vesicle of the nanocell, and an antiangiogenic agent is loaded into the nanocore. This arrangement allows the antineoplastic agent to be released first and delivered to the tumor before the tumor's blood supply is cut off by the antiangiogenic agent. | 10-28-2010 |
20100303912 | Nanocell Drug Delivery System - Nanocells allow the sequential delivery of two different therapeutic agents with different modes of action or different pharmacokinetics. A nanocell is formed by encapsulating a nanocore with a first agent inside a lipid vesicle containing a second agent. The agent in the outer lipid compartment is released first and may exert its effect before the agent in the nanocore is released. The nanocell delivery system may be formulated in pharmaceutical composition for delivery to patients suffering from diseases such as cancer, inflammatory diseases such as asthma, autoimmune diseases such as rheumatoid arthritis, infectious diseases, and neurological diseases such as epilepsy. In treating cancer, a traditional antineoplastic agent is contained in the outer lipid vesicle of the nanocell, and an antiangiogenic agent is loaded into the nanocore. This arrangement allows the antineoplastic agent to be released first and delivered to the tumor before the tumor's blood supply is cut off by the antianiogenic agent. | 12-02-2010 |
20130171091 | Nanocell Drug Delivery System - Nanocells allow the sequential delivery of two different therapeutic agents with different modes of action or different pharmacokinetics. A nanocell is formed by encapsulating a nanocore with a first agent inside a lipid vesicle containing a second agent. The agent in the outer lipid compartment is released first and may exert its effect before the agent in the nanocore is released. The nanocell delivery system may be formulated in pharmaceutical composition for delivery to patients suffering from diseases such as cancer, inflammatory diseases such as asthma, autoimmune diseases such as rheumatoid arthritis, infectious diseases, and neurological diseases such as epilepsy. In treating cancer, a traditional antineoplastic agent is contained in the outer lipid vesicle of the nanocell, and an antiangiogenic agent is loaded into the nanocore. This arrangement allows the antineoplastic agent to be released first and delivered to the tumor before the tumor's blood supply is cut off by the antianiogenic agent. | 07-04-2013 |
20130171205 | Nanocell Drug Delivery System - Nanocells allow the sequential delivery of two different therapeutic agents with different modes of action or different pharmacokinetics. A nanocell is formed by encapsulating a nanocore with a first agent inside a lipid vesicle containing a second agent. The agent in the outer lipid compartment is released first and may exert its effect before the agent in the nanocore is released. The nanocell delivery system may be formulated in pharmaceutical composition for delivery to patients suffering from diseases such as cancer, inflammatory diseases such as asthma, autoimmune diseases such as rheumatoid arthritis, infectious diseases, and neurological diseases such as epilepsy. In treating cancer, a traditional antineoplastic agent is contained in the outer lipid vesicle of the nanocell, and an antiangiogenic agent is loaded into the nanocore. This arrangement allows the antineoplastic agent to be released first and delivered to the tumor before the tumor's blood supply is cut off by the antiangiogenic agent. | 07-04-2013 |
20130177607 | Nanocell Drug Delivery System - Nanocells allow the sequential delivery of two different therapeutic agents with different modes of action or different pharmacokinetics. A nanocell is formed by encapsulating a nanocore with a first agent inside a lipid vesicle containing a second agent. The agent in the outer lipid compartment is released first and may exert its effect before the agent in the nanocore is released. The nanocell delivery system may be formulated in pharmaceutical composition for delivery to patients suffering from diseases such as cancer, inflammatory diseases such as asthma, autoimmune diseases such as rheumatoid arthritis, infectious diseases, and neurological diseases such as epilepsy. In treating cancer, a traditional antineoplastic agent is contained in the outer lipid vesicle of the nanocell, and an antiangiogenic agent is loaded into the nanocore. This arrangement allows the antineoplastic agent to be released first and delivered to the tumor before the tumor's blood supply is cut off by the antianiogenic agent. | 07-11-2013 |
20140363497 | Nanocell Drug Delivery System - Nanocells allow the sequential delivery of two different therapeutic agents with different modes of action or different pharmacokinetics. A nanocell is formed by encapsulating a nanocore with a first agent inside a lipid vesicle containing a second agent. The agent in the outer lipid compartment is released first and may exert its effect before the agent in the nanocore is released. The nanocell delivery system may be formulated in pharmaceutical composition for delivery to patients suffering from diseases such as cancer, inflammatory diseases such as asthma, autoimmune diseases such as rheumatoid arthritis, infectious diseases, and neurological diseases such as epilepsy. In treating cancer, a traditional antineoplastic agent is contained in the outer lipid vesicle of the nanocell, and an antiangiogenic agent is loaded into the nanocore. This arrangement allows the antineoplastic agent to be released first and delivered to the tumor before the tumor's blood supply is cut off by the antianiogenic agent. | 12-11-2014 |
Patent application number | Description | Published |
20090110633 | Nanocells for Diagnosis and Treatment of Diseases and Disorders - The present invention relates to novel nanocell compositions and their use in imaging, diagnostic and treatment methods. In one embodiment, nanocells tailored for imaging methods comprise a nanocore surrounded by a lipid matrix, and are modified to contain a radionuclide core or a nanocore with an emission spectra. The nanocells may be size restricted such as being greater than about 60 nm so that they selectively extravasate at sites of angiogenesis (e.g. tumor) and do not pass through normal vasculature or enter non-tumor bearing tissue. In this way, angiogenic sites can be both detected and treated. In another embodiment, nanocells are tailored for various treatment methods, including the treatment of brain cancer, asthma, Grave's Disease, Cystic Fibrosis, and Pulmonary Fibrosis. | 04-30-2009 |
20110280799 | NANOCELLS FOR DIAGNOSIS AND TREATMENT OF DISEASES AND DISORDERS - The present invention relates to novel nanocell compositions and their use in imaging, diagnostic and treatment methods. In one embodiment, nanocells tailored for imaging methods comprise a nanocore surrounded by a lipid matrix, and are modified to contain a radionuclide core or a nanocore with an emission spectra. The nanocells may be size restricted such as being greater than about 60 nm so that they selectively extravasate at sites of angiogenesis (e.g. tumor) and do not pass through normal vasculature or enter non-tumor bearing tissue. In this way, angiogenic sites can be both detected and treated. In another embodiment, nanocells are tailored for various treatment methods, including the treatment of brain cancer, asthma, Grave's Disease, Cystic Fibrosis, and Pulmonary Fibrosis. | 11-17-2011 |
20130216474 | NANOCELLS FOR DIAGNOSIS AND TREATMENT OF DISEASES AND DISORDERS - The present invention relates to novel nanocell compositions and their use in imaging, diagnostic and treatment methods. In one embodiment, nanocells tailored for imaging methods comprise a nanocore surrounded by a lipid matrix, and are modified to contain a radionuclide core or a nanocore with an emission spectra. The nanocells may be size restricted such as being greater than about 60 nm so that they selectively extravasate at sites of angiogenesis (e.g. tumor) and do not pass through normal vasculature or enter non-tumor bearing tissue. In this way, angiogenic sites can be both detected and treated. In another embodiment, nanocells are tailored for various treatment methods, including the treatment of brain cancer, asthma, Grave's Disease, Cystic Fibrosis, and Pulmonary Fibrosis. | 08-22-2013 |