Patent application number | Description | Published |
20090239789 | METHODS OF TREATMENT WITH DRUG LOADED POLYMERIC MATERIALS - Polymeric microparticles have been developed which encapsulate therapeutic compounds such as drugs, cellular materials or components, and antigens, and can have targeting ligands directly bound to the microparticle surface. Preferred applications include use in tissue engineering matrices, wound dressings, bone repair or regeneration materials, and other applications where the microparticles are retained at the site of application or implantation. Another preferred application is in the use of microparticles to deliver anti-proliferative agents to the lining of blood vessels following angioplasty, transplantation or bypass surgery to prevent or decrease restenosis, and in cancer therapy. In still another application, the microparticles are used to treat or prevent macular degeneration when administered to the eye, where agents such as complement inhibitors are administered. | 09-24-2009 |
20090269397 | TARGETED AND HIGH DENSITY DRUG LOADED POLYMERIC MATERIALS - Polymeric delivery devices have been developed which combine high loading/high density of molecules to be delivered with the option of targeting. As used herein, “high density” refers to microparticles having a high density of ligands or coupling agents, which is in the range of 1000-10,000,000, more preferably between 10,000 and 1,000,000 ligands per square micron of microparticle surface area. A general method for incorporating molecules into the surface of biocompatible polymers using materials with an HLB of less than 10, more preferably less than 5, such as fatty acids, has been developed. Because of its ease, generality and flexibility, this method has widespread utility in modifying the surface of polymeric materials for applications in drug delivery and tissue engineering, as well other fields. Targeted polymeric microparticles have also been developed which encapsulate therapeutic compounds such as drugs, cellular materials or components, and antigens, and have targeting ligands directly bound to the microparticle surface. Preferred applications include use in tissue engineering matrices, wound dressings, bone repair or regeneration materials, and other applications where the microparticles are retained at the site of application or implantation. Another preferred application is in the use of microparticles to deliver anti-proliferative agents to the lining of blood vessels following angioplasty, transplantation or bypass surgery to prevent or decrease restenosis, and in cancer therapy. In still another application, the microparticles are used to treat or prevent macular degeneration when administered to the eye, where agents such as complement inhibitors are administered. | 10-29-2009 |
20100284965 | COMPOSITIONS AND METHODS FOR ADOPTIVE AND ACTIVE IMMUNOTHERAPY - Modular aAPCs and methods of their manufacture and use are provided. The modular aAPCs are constructed from polymeric microparticles. The aAPCs include encapsulated cytokines and coupling agents which modularly couple functional elements including T cell receptor activators, co-stimulatory molecules and adhesion molecules to the particle. The ability of these aAPCs to release cytokines in a controlled manner, coupled with their modular nature and ease of ligand attachment, results in an ideal, tunable APC capable of stimulating and expanding primary T cells. | 11-11-2010 |
20140147484 | Cell-Free Tissue Engineered Vascular Grafts - A composition containing a macrophage inhibitor may be administered in an effective amount to prevent, inhibit or reduce restenosis, thrombus or aneurysm formation in implanted polymeric vascular grafts. The composition may be administered prior to vascular graft implantation, at the same time as vascular graft implantation, following vascular graft implantation, or any combination thereof. Examplary macrophage inhibitors include bisphosphonates, anti-folate drugs and antibodies, preferably in a controlled release or liposomal formulation. | 05-29-2014 |
20140348889 | Compositions and Methods for Treating and Preventing Neointimal Stenosis - Methods for treating or preventing neointima stenosis are disclosed. The methods generally involve the use of a TGFβ inhibitor, a SMAD2 inhibitor, an FGF Receptor agonist, a Let-7 agonist, or a combination thereof, to inhibit endothelial-to-mesenchymal transition (Endo-MT) of vascular endothelial cells into smooth muscle cells (SMC) at sites of endothelial damage. The disclosed methods can therefore be used to prevent or inhibit neointimal stenosis or restenosis, e.g., after angioplasty, vascular graft, or stent. Also disclosed are methods for increasing the patency of biodegradable, synthetic vascular grafts using a composition that inhibits Endo-MT. A cell-free tissue engineered vascular graft (TEVG) produced by this method is also disclosed. | 11-27-2014 |
20150231266 | Neurotherapeutic Nanoparticle Compositions and Devices - There are provided compositions and methods for treatment of neurodegeneative diseases and CNS injury. The compositions a pharmaceutically acceptable carrier solution; and a plurality of biodegradable nanoparticles, wherein the nanoparticles comprise a targeting moiety that is able to bind selectively to the surface of a neural stem cell and wherein the nanoparticles further comprise factors such as leukaemia inhibitory factor (LIF); XAV939 and/or one or more of : brain-derived neurotrophic factor (BDNF) or an agonist thereof; epidermal growth factor (EGF) or an agonist thereof; glial cell-derived neurotrophic factor (GDNF) or an agonist thereof; retinoic acid and derivatives thereof; ciliary neurotrophic factor (CTNF) or an agonist thereof; and Wnt5A. The biodegradable nanoparticles may deliver via controlled time release. | 08-20-2015 |
Patent application number | Description | Published |
20100104503 | MODULAR NANOPARTICLES FOR ADAPTABLE VACCINES - Modular nanoparticle vaccine compositions and methods of making and using the same have been developed. Modular nanoparticle vaccine compositions comprise an antigen encapsulated in a polymeric particle and adaptor elements which modularly couple functional elements to the particle. The modular design of these vaccine compositions, which involves flexible addition and subtraction of antigen, adjuvant, immune potentiators, molecular recognition and transport mediation elements, as well as intracellular uptake mediators, allows for exquisite control over variables that are important in optimizing an effective vaccine delivery system. | 04-29-2010 |
20100151436 | Methods for Ex Vivo Administration of Drugs to Grafts Using Polymeric Nanoparticles - Methods for ex vivo administration of drugs to grafts using polymeric micro- and nanoparticles and applications for these methods are described herein. The particles contain encapsulated molecules which are released locally at the site of implantation and function to prevent graft rejection or aid in the proper adaptation of the graft to the host. The disclosed methods may be used to inhibit or reduce hyperplasia and stenosis of vascular grafts or to prevent graft rejection. | 06-17-2010 |
20100184104 | NANOELECTRONIC-ENZYME LINKED IMMUNOSORBENT ASSAY SYSTEM AND METHOD - The present invention relates to a device and method for determining the presence of a specific compound in solution. The device includes a nanosensor having an electrically conducting pathway between at least a first and second contact. The device also includes a first receptor, suitable for binding a specific compound in the solution, attached to the nanosensor, and a second receptor also suitable for binding the specific compound while the specific compound is bound to the first receptor. The second receptor is attached to an enzyme added to the solution. When the solution having the second receptor is added to the device, and a second compound that is a substrate for the enzyme is subsequently added to the solution, a measured difference in an electrical property in the device before and after the application of the second compound is indicative of the presence of the specific compound in the solution. | 07-22-2010 |
20100297608 | Systems and Methods for CMOS-Compatible Silicon Nano-Wire Sensors with Biochemical and Cellular Interfaces - The systems and methods described herein include a sensor for suitable for sensing chemical and biological substances. The sensor comprises a semiconductor layer formed in or on a substrate and a channel having nano-scale dimensions formed in the semiconductor layer, where the structure creates an electrically conducting pathway between a first contact and a second contact on the semiconductor layer. In certain preferred embodiments, the nano-scale channel has a trapezoidal cross-section with an effective width and exposed lateral faces, where the effective width is selected to have same order of magnitude as a Debye length (L | 11-25-2010 |
20110014217 | CARBON NANOTUBE COMPOSITIONS AND METHODS OF USE THEREOF - Carbon nanotube (CNT)-based compositions for activating cellular immune responses are provided. The CNTs function as high surface area scaffolds for the attachment of T cell ligands and/or antigens. The CNT compositions function as artificial antigen-presenting cells (aAPCs) or as modular vaccines. The disclosed CNT aAPCs are efficient at activating T cells and may be used to activate T cells ex vivo or in vivo for adoptive or active immunotherapy. | 01-20-2011 |
20120107954 | PHYSIOLOGIC SAMPLE PREPARATION FOR NANOSENSORS - The present invention provides a microfluidic purification chip for capturing a biomarker from a physiological solution. The present invention also provides a method of capturing and releasing a biomarker, wherein the biomarker is originally in a physiological solution. The present invention further provides a method of pre-purifying and measuring the concentration of a biomarker in a physiological solution. | 05-03-2012 |
20130216581 | Carbon Nanotube Compositions and Methods of Use Thereof - Carbon nanotube (CNT)-based compositions for activating cellular immune responses are provided. The CNTs function as high surface area scaffolds for the attachment of T cell ligands and/or antigens. The CNT compositions function as artificial antigen-presenting cells (aAPCs) or as modular vaccines. The disclosed CNT aAPCs are efficient at activating T cells and may be used to activate T cells ex vivo or in vivo for adoptive or active immunotherapy. | 08-22-2013 |
20130302409 | METHODS AND COMPOSITIONS FOR CANCER IMMUNOTHERAPY - The present invention generally relates to the field of cancer and methods and compositions for cancer immunotherapy. In one embodiment, a method for treating cancer in a patient comprises the steps of (a) administering at or near the cancer site an effective amount of a composition that promotes a therapeutic immune response to the cancer; and (b) ablating the cancer. In another embodiment, a method for treating an abnormal cellular proliferation in a patient comprises the steps of (a) administering at or near the site of the abnormal cellular proliferation an effective amount of a composition that promotes a therapeutic immune response to the abnormal cellular proliferation comprising (i) a polymeric particle; and (ii) optionally one or more therapeutic agents encapsulated in or incorporated on or into the polymeric particle; and (b) ablating the abnormal cellular proliferation. | 11-14-2013 |
20140128278 | Calibration of Nanostructure Sensors - The present invention relates to uniform nanostructure biosensors and methods of calibrating the response of nanostructure biosensors. The invention overcomes device to device variability that has made quantitative detection difficult. The described biosensors have uniform characteristics that allow for more reliable comparison across devices. The methods of the invention comprise normalizing the initial current rate, as measured by the nanostructure biosensor following the addition of an analyte, to device characteristics of the biosensor. The device characteristics of the biosensor which can be used to normalize the response include baseline current and transconductance. Calibration of responses allows for the generation of calibration curves for use in all devices to quantitatively detect an analyte, without the need for individual device calibration. | 05-08-2014 |
20150064265 | Vehicles for Controlled Delivery of Different Pharmaceutical Agents - A “nanolipogel” is a delivery vehicle including one or more lipid layer surrounding a hydrogel core, which may include an absorbent such as a cyclodextrin or ion-exchange resin. Nanolipogels can be constructed so as to incorporate a variety of different chemical entities that can subsequently be released in a controlled fashion. These different incorporated chemical entities can differ dramatically with respect to size and composition. Nanolipogels have been constructed to contain co-encapsulated proteins as well as small hydrophobic drugs within the interior of the lipid bilayer. Agents incorporated within nanolipogels can be released into the milieu in a controlled fashion, for example, nanolipogels provide a means of achieving simultaneous sustained release of agents that differ widely in chemical composition and molecular weight. Additionally, nanolipogels can favorably modulate biodistribution. | 03-05-2015 |
20150118318 | Methods of Treating Inflammatory and Autoimmune Diseases and Disorders - Compositions and methods for treating or ameliorating the symptoms of inflammatory or autoimmune disease or disorder are described herein. The compositions contain a nanolipogel for sustained delivery of an effective amount of one or more active agents of choice, preferably a drug for treating or ameliorating the symptoms of inflammatory or autoimmune disease or disorder. The nanolipogel includes a lipid bilayer surrounding a hydrogel core, which may optionally include a host molecule, for example, an absorbent such as a cyclodextrin or ion-exchange resin. In preferred embodiments at least one of active agents is an immunosuppressant. | 04-30-2015 |
20150125384 | MODULAR NANODEVICES FOR SMART ADAPTABLE VACCINES - Modular nanoparticle vaccine compositions and methods of making and using the same have been developed. Modular nanoparticle vaccine compositions comprise an antigen encapsulated in a polymeric particle and adaptor elements which modularly couple functional elements to the particle. The modular design of these vaccine compositions, which involves flexible addition and subtraction of antigen, adjuvant, immune potentiators, molecular recognition and transport mediation elements, as well as intracellular uptake mediators, allows for exquisite control over variables that are important in optimizing an effective vaccine delivery system. | 05-07-2015 |
20160054315 | NANOELECTRONIC-ENZYME LINKED IMMUNOSORBENT ASSAY SYSTEM AND METHOD - The present invention relates to a device and method for determining the presence of a specific compound in solution. The device includes a nanosensor having an electrically conducting pathway between at least a first and second contact. The device also includes a first receptor, suitable for binding a specific compound in the solution, attached to the nanosensor, and a second receptor also suitable for binding the specific compound while the specific compound is bound to the first receptor. The second receptor is attached to an enzyme added to the solution. When the solution having the second receptor is added to the device, and a second compound that is a substrate for the enzyme is subsequently added to the solution, a measured difference in an electrical property in the device before and after the application of the second compound is indicative of the presence of the specific compound in the solution. | 02-25-2016 |