Patent application number | Description | Published |
20100098742 | FABRICATION OF TISSUE LAMINA USING MICROFABRICATED TWO-DIMENSIONAL MOLDS - Methods and materials for making complex, living, vascularized tissues for organ and tissue replacement, especially complex and/or thick structures, such as liver tissue is provided. Tissue lamina is made in a system comprising an apparatus having (a) a first mold or polymer scaffold, a semi-permeable membrane, and a second mold or polymer scaffold, wherein the semi-permeable membrane is disposed between the first and second molds or polymer scaffolds, wherein the first and second molds or polymer scaffolds have means defining microchannels positioned toward the semi-permeable membrane, wherein the first and second molds or polymer scaffolds are fastened together; and (b) animal cells. Methods for producing complex, three-dimensional tissues or organs from tissue lamina are also provided. | 04-22-2010 |
20100234678 | BIOMIMETIC VASCULAR NETWORK AND DEVICES USING THE SAME - The invention provides method of fabricating a scaffold comprising a fluidic network, including the steps of: (a) generating an initial vascular layer for enclosing the chamber and providing fluid to the cells, the initial vascular layer having a network of channels for fluid; (b) translating the initial vascular layer into a model for fluid dynamics analysis; (c) analyzing the initial vascular layer based on desired parameters selected from the group consisting of a characteristic of a specific fluid, an input pressure, an output pressure, an overall flow rate and combinations thereof to determine sheer stress and velocity within the network of channels; (d) measuring the sheer stress and the velocity and comparing the obtained values to predetermined values; (e) determining if either of the shear stress or the velocity are greater than or less than the predetermined values, and (f) optionally modifying the initial vascular layer and repeating steps (b)-(e). The invention also provides compositions comprising a vascular layer for use in tissue lamina as well as a medical devices having a vascular layer and kits. | 09-16-2010 |
20100267136 | FABRICATION OF VASCULARIZED TISSUE USING MICROFABRICATED TWO-DIMENSIONAL MOLDS - Methods and materials for making complex, living, vascularized tissues for organ and tissue replacement, especially complex and/or thick structures, such as liver tissue is provided. Tissue lamina is made in a system comprising an apparatus having (a) a first mold or polymer scaffold, a semi-permeable membrane, and a second mold or polymer scaffold, wherein the semi-permeable membrane is disposed between the first and second molds or polymer scaffolds, wherein the first and second molds or polymer scaffolds have means defining microchannels positioned toward the semi-permeable membrane, wherein the first and second molds or polymer scaffolds are fastened together; and (b) animal cells. Methods for producing complex, three-dimensional tissues or organs from tissue lamina are also provided. | 10-21-2010 |
20110008765 | USE OF THREE-DIMENSIONAL MICROFABRICATED TISSUE ENGINEERED SYSTEMS FOR PHARMACOLOGIC APPLICATIONS - The present invention generally relates to a combination of the fields of tissue engineering, drug discovery and drug development. It more specifically provides new methods and materials for testing the efficacy and safety of experimental drugs, defining the metabolic pathways of experimental drugs and characterizing the properties (e.g., side effects, new uses) of existing drugs. Preferably, evaluation is carried out in three-dimensional tissue-engineered systems, wherein drug toxicity, metabolism, interaction and/or efficacy can be determined. | 01-13-2011 |
20110091930 | WELL-BASED FLOW SYSTEM FOR CELL CULTURE - A well-based flow system for cell culture is described which provides for flow of culture containing compounds for drug screening to be exposed to cells seeded on a membrane. The flow of medium may be planar or radial and means are provided for the removal of waste media through fluid outlets in fluid communication with the assay well plates through conduits. Methods of using the system for cell culture and drug toxicity screening are also provided including coculturing cells such as hepatocytes, stem cells, fibroblasts and smooth muscle cells and selectively exposing cells to test compounds. | 04-21-2011 |
20110129436 | POLYGLYCEROL SEBECATE PERITONEAL ADHESION PREVENTION BARRIER - The present invention is directed to a method of preventing adhesions between two tissue surfaces. The method includes providing a film comprising a condensation polymer of glycerol and a diacid, wherein the film does not contain anti-inflammatory drugs and positioning the film between a first tissue surface and a second tissue surface under conditions effective to prevent adhesion between said first tissue surface and said second tissue surface. | 06-02-2011 |
20110256619 | MICROFABRICATED COMPOSITIONS AND PROCESSES FOR ENGINEERING TISSUES CONTAINING MULTIPLE CELL TYPES - The present invention relates to a three-dimensional system, and compositions obtained therefrom, wherein individual layers of the system comprise channels divided longitudinally into two compartments by a centrally positioned membrane, and wherein each compartment can comprise a different cell type. | 10-20-2011 |
20150366651 | BIOMIMETIC VASCULAR NETWORK AND DEVICES USING THE SAME - The invention provides method of fabricating a scaffold comprising a fluidic network, including the steps of: (a) generating an initial vascular layer for enclosing the chamber and providing fluid to the cells, the initial vascular layer having a network of channels for fluid; (b) translating the initial vascular layer into a model for fluid dynamics analysis; (c) analyzing the initial vascular layer based on desired parameters selected from the group consisting of a characteristic of a specific fluid, an input pressure, an output pressure, an overall flow rate and combinations thereof to determine sheer stress and velocity within the network of channels; (d) measuring the sheer stress and the velocity and comparing the obtained values to predetermined values; (e) determining if either of the shear stress or the velocity are greater than or less than the predetermined values, and (f) optionally modifying the initial vascular layer and repeating steps (b)-(e). The invention also provides compositions comprising a vascular layer for use in tissue lamina as well as a medical devices having a vascular layer and kits. | 12-24-2015 |