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427 results about "Co culturing" patented technology

Device and method or three-dimensional spatial localization and functional interconnection of different types of cells

A device, method and process for three-dimensional spatial localization and functional interconnection of the same or different types of cells. The two or three-dimensional device comprising multiple layers containing wells for cell deposition where both the wells and layers are interconnected through microfluidic channels. A process for fabricating the three-dimensional device and a method for depositing different types of cells within the device in a functional interdependent spatial orientation thereby mimicking physiological functions. The device is useful for diagnostic assays, determination of dysfunction of certain cells in the system, quantification of production of cellular proteins, metabolites, hormones or other cellular products, for organ or tissue replacement, for co-culturing different cells, for testing pharmaceutical agents and as a bioreactor for production of biologicals.
Owner:THE BOARD OF TRUSTEES OF THE LELAND STANFORD JUNIOR UNIV

Apparatus and method for co-culturing of cells

A co-culture apparatus and method for, among other things, converting a progenitor cell line into a target cell line. The apparatus comprises an exterior receptacle, a removable cartridge that fits into the exterior receptacle, and a closure member to seal the apparatus. The invention is also directed to a method for transforming a progenitor cell line into a target cell line. In one embodiment of the invention, the method comprises the steps of: establishing a progenitor cell line; establishing a support cell line; co-culturing said progenitor and support cell lines; establishing a transformation cell line; and co-culturing said progenitor and transformation cell lines, wherein the transformation cell line supports the transformation of the progenitor cell line into a target cell line.
Owner:FEYE GLEN

Complementary metabolizing organisms and methods of making same

InactiveUS20090023182A1Impaired metabolic capacityIncrease metabolic rateFermentationMicrobiology processesOrganismBiology
The invention provides a non-naturally occurring set of microbial organisms. The set of organisms includes: at least a first constituent complementary metabolizing organism (CMO) exhibiting the ability to metabolize a first carbon substrate and having substantially impaired metabolic capacity for a second carbon substrate, and at least a second constituent complementary metabolizing organism (CMO) exhibiting the ability to metabolize the second carbon substrate and having substantially impaired metabolic capacity for the first carbon substrate, wherein a co-culture of the at least first and second CMOs exhibit simultaneous metabolism of a mixture having the first and second carbon substrates compared to either CMO alone. Simultaneous metabolism of a mixture having first and second carbon substrates can include an enhanced rate of metabolism of the first and second substrates compared to either CMO alone. Also provided is a bioprocess for producing a chemical compound. The bioprocess includes co-culturing a non-naturally occurring set of microbial organisms in a mixture having at least a first and a second carbon substrate under conditions sufficient for biosynthesis of a target chemical compound, the set of non-naturally occurring microbial organisms including: at least a first constituent complementary metabolizing organism (CMO) exhibiting the ability to metabolize the first carbon substrate and having substantially impaired metabolic capacity for the second carbon substrate, and at least a second constituent complementary metabolizing organism (CMO) exhibiting the ability to metabolize the second carbon substrate and having substantially impaired metabolic capacity for the first carbon substrate, wherein a co-culture of the at least first and second CMOs exhibit simultaneous metabolism of a mixture having the first and second carbon substrates compared to either CMO alone. Simultaneous metabolism of a mixture having first and second carbon substrates can include an enhanced rate of metabolism of the first and second substrates compared to either CMO alone.
Owner:GENOMATICA INC

Composite porous membrane and process for producing the same

[Problems]To provide a membrane material that realizes effective and efficient separation of a target substance of micron size, being easy to handle and that can be worked into various forms; a blood filtration membrane and a leukocyte removing filter unit that realizes a substantial reduction of filter material volume while retaining high capability of removing leukocytes, thereby reducing the loss of hemocyte suspension; and a cell culturing diaphragm suitable for co-culturing and a relevant method of cell culturing. [Means for Solving Problems]There is provided a composite porous membrane comprising a porous membrane comprised of an organic polymeric compound, and a supporting porous membrane adjacent to the porous membrane, characterized in that the organic polymeric compound constituting the porous membrane penetrates in at least part of a surface adjacent to porous membrane of the supporting porous membrane, the porous membrane having specified opening ratio, average pore diameter, standard deviation of pore diameter, ratio of through pore, average membrane thickness, standard deviation of membrane thickness and internal structure, and that the supporting porous membrane has communicating pores of 0.5D μm or greater average pore diameter. Further, there are provided a blood filtration membrane comprising the composite porous membrane; a leukocyte removing filter unit comprising the composite porous membrane as a second filter; and, utilizing the composite porous membrane, a cell culturing diaphragm and method of cell culturing.
Owner:ASAHI KASEI MEDICAL CO LTD

Assay device that analyzes the absorption, metabolism, permeability and/or toxicity of a candidate compound

This invention provides device for co-culturing at least two different cell types in a two-dimensional configuration, methods of patterning at least two different cell types in a two-dimensional co-culture configuration, and uses of these devices and methods for analyzing an effect of candidate compound on such cellular cocultures. Also provided is a transmigration and extravasation device. Assay devices for analyzing the absorption, permeability, metabolism and / or toxicity of a candidate compound by a cell are provided. A microfluidic network, which is adaptable for integration with a device for coculturing is provided.
Owner:SURFACE LOGIX INC

Three dimensional vaginal tissue model containing immune cells

Disclosed is a cervico-vaginal tissue equivalent comprised of vaginal epithelial cells and immune cells, cultured at the air-liquid interface. The tissue equivalent is capable of being infected with a sexually transmitted pathogen such as a virus (e.g., HIV), a bacteria, a helminthic parasite, or a fungus. The tissue equivalent is also capable of undergoing an allergic-type reaction or an irritant-type reaction. The tissue equivalent is characterized as having nucleated basal layer cells and nucleated suprabasal layer cells, and further as having cell layers external to the suprabasal layer progressively increasing in glycogen content and progressively decreasing in nuclei content. Immune cells of the tissue equivalent are primarily located in the basal and suprabasal layers. Also disclosed are methods for producing the tissue equivalent. The methods involve providing vaginal epithelial cells and immune cells, seeding the cells onto a porous support, and co culturing the seeded cells at the air-liquid interface under conditions appropriate for differentiation. One such method disclosed is for generation of the tissue equivalent in serum free medium. Specific cells from which the tissue equivalent is generated, and also specific preferred components of the medium in which the tissue equivalent is generated are provided. Also disclosed is a cervico-vaginal tissue equivalent produced by the methods disclosed herein.
Owner:MATTEK CORP

Methods for using dendritic cells to activate gamma/delta-T cell receptor-positive T cells

This invention relates to methods of using human dendritic cells to present antigens for the induction of antigen-specific T cell-mediated immune responses. In particular, it relates to the isolation of dendritic cells from human blood, exposing the cells to antigens, co-culturing the antigen-pulsed dendritic cells with gammadelta-T cell receptor-positive-T cells (gammadelta-TCR<+> T cells) obtained from unprimed or weakly primed individuals for the stimulation of antigen-specific T cell proliferative and cytotoxic activities. The dendritic cell antigen presentation system described herein has a wide range of applications, including but not limited to, activation and expansion of large numbers of antigen-specific major histocompatibility complex-unrestricted T cells for use in adoptive cellular immunotherapy against infectious diseases and cancer.
Owner:THE BOARD OF TRUSTEES OF THE LELAND STANFORD JUNIOR UNIV

Transplantable cell growth niche and related compositions and methods

Provided is a method of culturing a successor cell from a precursor cell comprising co-culturing a precursor cell such as, without limitation, a human embryonic stem cell or a neuronal stem cell with an adult mesenchymal stem cell. In one embodiment, the adult mesenchymal stem cell is derived from adipose tissue. Also provided is a composition comprising mesenchymal stem cells in a growth matrix biologically-compatible with the cells. In another embodiment, a method of regenerating tissue is provided comprising introducing into a patient a cell growth niche comprising either or both of mesenchymal stem cells and neuronal stem cell or successor cell in a growth matrix biologically-compatible with the cells. In another embodiment, a method of regenerating tissue is provided comprising introducing into a patient a cell growth niche comprising matrix, cells and slow release polymer beads containing growth factors.
Owner:UNIVERSITY OF PITTSBURGH

Stat3 antagonists and their use as vaccines against cancer

The present invention relates to methods for treating and / or preventing cancer. In particular the present invention relates to ex vivo immunotherapeutic methods. The methods comprise decreasing Stat3 (signal transducer and activator of transcription3) expression and / or function in tumor cells and the administration of such cells to a subject in need of treatment and / or prevention. Other methods of the invention comprise activating T-cells by co-culturing the T-cells with the tumor cells with decreased Stat3 expression or function. The invention further encompasses methods comprising decreasing Stat3 expression or function in antigen-presenting cells and co-administering tumor cells and the antigen-presenting cells with decreased Stat3 function to a patient. The invention further relates to methods for stimulating dendritic cell differentiation.
Owner:THE JOHN HOPKINS UNIV SCHOOL OF MEDICINE +1

Complex microbial agent for producing soybean paste in Pixian County and preparation method thereof

The invention discloses a complex microbial agent for producing soybean paste in Pixian County, which mainly comprises coculture of saccharomyces cerevisiae, candida utilis, lactobacillus plantarum and salt tolerant tetrads, and skim milk powder, glycerin, maltodextrin, trehalose and L-sodium glutamate, or mainly comprises coculture of saccharomyces cerevisiae, candida utilis, lactobacillus plantarum and salt tolerant tetrads, and porous starch, maltodextrin and polyvinyl pyrrolidone. A method for preparing the complex microbial agent for producing soybean paste in Pixian County comprises the following technological steps of: (1) activating and propagating strains; (2) inoculating; (3) co-culturing; and (4) adding a protective agent and drying. By using the complex microbial agent in the preparation of cooked soybean paste, the complex microbial agent maintains the characteristics of traditional soybean paste in Pixian County. Meanwhile, compared with the traditional technology, the complex microbial agent has the advantages of shortening the production period by 1 / 3, improving the amino nitrogen content by 3 to 8 times, improving the volatile aroma content by 2 to 4 times, and ensuring the aflatoxin B1 of 0 to 0.5ppm only.
Owner:XIHUA UNIV

Differentiation of human embryonic stem cells to cardiomyocytes

A method for inducing cardiomyocyte differentiation of a hES cell, the method comprising co-culturing the hES cell with a cell excreting at least one cardiomyocyte differentiation inducing factor or with an extracellular medium therefrom, under conditions that induce differentiation, cells and cell populations so produced, and uses of the cells.
Owner:MUMMERY CHRISTINE LINDSAY +2

Complex microbial preparation capable of resisting replant obstacle resistance and preparation method thereof

The invention discloses a complex microbial preparation for resisting replant obstacle. The complex microbial preparation comprises lactobacillus plantarum, bacillus megaterium, saccharomyces cerevisiae, streptomyces albus and rhodopseudomonas palustris, and is prepared by co-culturing the bacterial components by anaerobic and aerobic combined fermentation technology, wherein the complex microbial preparation comprises the following bacterial components in percentage by weight: 15 to 35 percent of lactobacillus plantarum, 5 to 25 percent of bacillus megaterium, 10 to 30 percent of saccharomyces cerevisiae, 15 to 30 percent of streptomyces albus and 10 to 25 percent of rhodopseudomonas palustris.
Owner:北京意科乐生态科技有限公司

Preparation method and use of TCR gene modified CD8+T memory stem cell

The invention belongs to the technical fields of immunology and tumor therapy, and relates to a preparation method and a use of a TCR gene modified CD8+T memory stem cell. The method comprises the following steps: co-incubating a tumor antigen and an immature dendritic cell to obtain a specific tumor antigen-supported mature dendritic cell, co-culturing the specific tumor antigen-supported maturedendritic cell and a CD8+ naive T cell, and adding a stem cell differentiation inhibitor to promote the generation of a CD8+ stem cell-like memory T lymphocyte; separating the CD8+ stem cell-like memory T lymphocyte; and cloning a T cell receptor gene (TCR) for specifically identifying a specific antigenic epitope, and carrying out lentivirus packaging or retroviral vector cotransfection on an autologous CD8+ Tscm cell to in-vitro prepare a CD8+ TCR-Tscm cell specific for different tumor specific antigens. The CD8+ TCR-Tscm cell prepared by the method has the advantages of overcoming of the tumor heterogeneity, high specificity, few adverse reactions, and highly-efficient and lasting tumor preventing and treating effects.
Owner:FUDAN UNIV SHANGHAI CANCER CENT

Method for the induction and expansion of natural killer cells derived from peripheral blood mononuclear cells

The present invention relates to a method for inducing and expanding natural killer cells derived from peripheral blood mononuclear cells, which comprises co-culturing, as feeder cells, irradiated Jurkat cells and irradiated Epstein-Barr virus transformed lymphocyte continuous line (EBV-LCL) cells in the presence of cytokines, along with peripheral blood mononuclear cells. According to the present invention, a large quantity of natural killer cells can be induced and proliferated from a small quantity of peripheral blood mononuclear cells even without the use of high-cost equipment or various kinds of expensive cytokines, thereby making it possible to significantly improve the efficiency and efficacy of the prevention and treatment of cancer using the natural killer cells.
Owner:NKMAX CO LTD

Isolation, characterization and differentiation of in vitro adult human germ line stem cells

A method of in vitro maturation of adult human germ line cells in an artificial biological environment, which entails:a) isolating human spermatogonial stem cells (SSCs), and optionally purifying the same; andb) co-culturing the isolated and optionally purified SSCs with a suitably adjusted Sertoli cell environment to obtain haploid germ cells.
Owner:THE BOARD OF TRUSTEES OF THE LELAND STANFORD JUNIOR UNIV

Non-disruptive three-dimensional culture and harvest system for anchorage-dependent cells

A non-disruptive three-dimensional culture system allows cell growth and proliferation in three dimensions, permitting cell splitting without subjecting cells to disruptive conditions that affect cell structure and functions. An extracellular matrix provides a good environment for culturing or co-culturing anchorage-dependent cells. The cells cultured this manner can be readily used in such applications as cell transplantation, tissue engineering seeding of cells on scaffolds, and other applications that require immediate availability of functioning cells.
Owner:AGENCY FOR SCI TECH & RES +1

Human omental mesothelial cells, methods of isolation and uses thereof

The present invention discloses novel methods and omental, myocardial, liver, lung, renal, peritoneal, intestinal and pancreatic mesothelial cells which are useful for a number of procedures including drug discovery, co-culturing, cell therapy and bioassay. The invention provides a method for isolating these cells that improves upon the methods previously used and provides cells isolated in quantity. The present invention provides a list of secreted proteins from omentum mesothelial cells that can be utilized in the described cell based assays.
Owner:ZENBIO

Method for detecting the colon bacillus by combining magnetic nanoparticle enrichment with bi-color flow cytometry

The invention relates to a detection method of colon bacillus, particularly discloses a method for detecting the colon bacillus by combining magnetic nanoparticle enrichment with bi-color flow cytometry. The method comprises the following steps of: firstly co-culturing nanoparticles and samples to be measured and enriching composites formed by the magnetic nanoparticles and the samples to be measured under the action of an externally applied magnetic field; then carrying out immune co-culture and secondary enrichment on colon bacillus antibodies labelled by fluorescent nanoparticles and the enriched samples to be measured; then dyeing the secondarily-enriched samples to be measured by using nucleic acid dyes; finally detecting and viewing the dyed samples to be measured by adopting the multi-parameter flow cytometry and a laser confocal microscope, and analyzing and judging detection results of the colon bacillus contained in the samples to be measured according to the number of detected objects with fluorescent double-positive signals. The detection method has the advantages of rapidness, accuracy, sensitivity, low false positive rate, and the like.
Owner:HUNAN UNIV

Method for inducing differentiation from human umbilical cord mesenchymai stem cells (hucMSCs) into neural cells

The invention belongs to the field of cell biology and relates to a method for inducing differentiation from human umbilical cord mesenchymai stem cells (hucMSCs) into neural cells. The method comprises that HUCMSCs and Schwann cells are putted in Transwell with apertures of 0.4 microns to be co-cultured separately; a Schwann cell culture medium is utilized as a cell culture medium and half or all of the cell culture medium is replaced every three days; and then neural cells can be obtained after two weeks of culturing. Through a separate co-culturing method utilized by the invention, an umbilical cord can be digested by a mixture of composite collagenase NB4 and hyaluronidase and thus a large amount of HUCMSCs can be separated. High purity HUCMSCs can be obtained in third generation passage cells. In the invention, HUCMSCs are induced and differentiate into neural cells, wherein a cell differentiation rate is over 70%. Expressing rate ranges of specific markers, such as NF-200, nestin, Betar-III-tubulin, etc., of neural cells are from 70 to 80%.
Owner:SHANGHAI FIRST PEOPLES HOSPITAL

Stem Cell Immune Modulation Methods of Use and Apparatus

ActiveUS20120277652A1High expressionEducating and modulating lymphocytes or lymphocyteBioreactor/fermenter combinationsBiological substance pretreatmentsAutoimmune diseaseT cell
Methods and apparatus are disclosed co-culturing stem cells with mononuclear cells and / or lymphocytes to modulate their function. The invention also discloses the use of stem cells to educate autoreactive immune cells as a mechanism to treat autoimmune diseases and immune disorder-related diseases, such as diabetes. In one aspect of the invention, bioreactors are disclosed closed for modulating lymphocytes and suppressing autoreactive T cells. The bioreactors can include a chamber having at least one positively charged and / or hydrophobic substrate surface, a population of stem cells attached to the substrate surface, an inlet conduit for introducing lymphocytes into the chamber, and an outlet conduit for extracting treated lymphocytes following co-culturing with the stem cells.
Owner:THE BOARD OF TRUSTEES OF THE UNIV OF ILLINOIS

In Vitro Method for Isolating, Proliferating and Differentiating Germ-Line Stem Cells

The present invention discloses methods for isolating, proliferating and differentiating germ-line stem cell in vitro. More specifically, the present invention discloses a method for the in vitro isolation and proliferation of mammalian germ-line stem cells, characterized in culturing cells isolated from mammalian testis in an embryonic stem cell culture medium, and for the in vitro differentiation, characterized in encapsulating mammalian germ-line stem cells and Sertoli cells with calcium alginate and co-culturing with peritubular cells. Also, the present invention discloses germ-line stem cells obtained by above methods, a composition for the treatment of male infertility, comprising the germ-line stem cells, and a method for the treatment of male infertility by the use of the germ-line stem cells.
Owner:COLLEGE OF MEDICINE POCHON CHA UNIV IND

Co-culture compositions and methods

Co-culture compositions and methods are described for identifying agents that modulate a cellular phenotype, particularly of neurons or pancreatic beta cells are provided herein, where the methods include co-culturing differentiated cells, wherein at least one of the cell-types are derived from human induced pluripotent stem cells from a subject having or predisposed to a neurodegenerative or metabolic disorder. Co-culture compositions of differentiated cells from two different human subjects are also described.
Owner:IPIERIAN

Novel long-term three-dimensional tissue culture system

The present invention relates to a novel tissue culture system that provides for the long term culture of proliferating hepatocytes that retain hepatic function. Disclosed are methods and compositions for ex vivo culturing of hepatocytes and nonparenchymal cells on a matrix coated with a molecule that promotes cell adhesion, proliferation or survival, in the presence of growth factors, resulting in a long-term culture of proliferating hepatocytes that retain hepatic function. The co-culturing method results in the formation of matrix / hepatic cell clusters that may be mixed with a second structured or scaffold matrix that provides a three-dimensional structural support to form structures analogous to liver tissue counterparts. The hepatic cell culture system can be used to form bio-artificial livers through which a subjects blood is perfused. Alternatively, the novel hepatic cell culture system may be implanted into the body of a recipient host having a hepatic disorder. Such hepatic disorders, include, for example, cirrhosis of the liver, induced hepatitis, chronic hepatitis, primary sclerosing cholangitis and alpha1 antitrypsin deficiency.
Owner:PITTSBURGH UNIV OF

Pancreatic insulin-producing beta-cell lines derived from human pluripotent stem cells

PendingUS20150376574A1Expanded in vitroBiocidePancreatic cellsBiochemical markersC-peptide
Production of beta-cells from stem cells from pluripotent stem cells have always been significantly lacking in at least one of the following properties: 1) functional properties related to insulin-production and glucose signaling response, 2) mature phenotype such as biochemical markers or cell structures, 3) efficiency in production of differentiated cells. Described herein is multistep differentiation protocol which substantially overcomes all of the existing limitations. Pluripotent stem cells, including induced pluripotent stem cells (iPSCs), and embryonic stem cells (ESCs) can be differentiated using an embryoid body (EB) formation step, followed by B maturation via endothelial cells (EC) co-culturing and incubation with a sequential series of bone morphogenic protein (BMP)-related growth factor cocktails. The resulting cells displayed functional properties, including insulin-production and glucose signaling response, and mature phenotype of C-peptide expression.
Owner:CEDARS SINAI MEDICAL CENT

Method Of Inducing The Differentiation Of Amnion-Derived Cells And Utilization Of The Same

By a method of inducing differentiation of cells having: a step of co-culturing amniotic epithelial cells and amniotic interstitial cells so as to induce their differentiation into predetermined tissue cells, it is possible to efficiently induce differentiation of the amniotic epithelial cells and the amniotic interstitial cells. It is preferable that the amniotic epithelial cells or the amniotic interstitial cells are prepared by being cultured by a predetermined culture method.
Owner:HIROSHIMA UNIVERSITY

Cultured muscle cells with high metabolic activity and method for production of the cultured muscle cells

The object of the present invention is to provide a method of preparing excellent cultured muscle cells having high metabolic capacity and insulin responsiveness, and further provide a method for the measurement of sensitive metabolic capacity using the cells. Moreover, its purpose is to provide a culture system / culture apparatus that can smoothly translocate such highly advanced cultured muscle cells intact to activity evaluation systems of a number of drugs. Moreover, the object of the present invention is to provide cultured muscle cells that are very suitable for measurement of the membrane-translocation activity of GLUT4 in an extraneous stimulus-dependent manner such as insulin, etc., and to provide a method for the measurement of the membrane-translocation activity of GLUT4 using the cells. The present invention is a method of preparing myotube cells, comprising a step (1) of culturing myoblast cells, a step (2) of differentiation-inducing the myotube cells into the myoblast cells in a culture medium with a high content of amino acids, and a step (3) of applying an electric pulse to the differentiation-induced myotube cells, and a method for the measurement of insulin-dependent sugar uptake using the myotube cells prepared by said method, and relates to the method for the measurement, comprising applying insulin stimulation by culturing the cells in a culture medium containing insulin, culturing the cells in the culture medium further supplemented with sugar, and measuring the sugar uptake. Furthermore, the present invention relates to a differentiation-type culture myotube cell constitutively expressing a recombinant GLUT4 having a labeled substance at its extra-cellular site, which is prepared by co-culturing wild-type myoblast cells and recombinant myoblast cells constitutively expressing said recombinant GLUT4, and a method for the measurement of membrane-translocation activity of the recombinant GLUT4 using the cells, and particularly a method for the measurement of insulin-dependent sugar uptake activity.
Owner:TOHOKU UNIV
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