Patent application number | Description | Published |
20090011455 | DISEASE MODEL INCORPORATION INTO AN ARTIFICIAL IMMUNE SYSTEM (AIS) - The present invention relates to methods of constructing an integrated artificial immune system that comprises appropriate in vitro cellular and tissue constructs or their equivalents to mimic the tissues of the immune system in mammals. The artificial immune system can be used to test the efficacy of vaccine candidates and other materials in vitro and thus, is useful to accelerate vaccine development and testing drug and chemical interactions with the immune system, coupled with disease models to provide a more complete representation of an immune response. | 01-08-2009 |
20090104221 | RAPID GENERATION OF T CELL-INDEPENDENT ANTIBODY RESPONSES TO T CELL-DEPENDENT ANTIGENS - The present invention comprises the use of follicular dendritic cells (FDCs) or FDC-like cells to generate FDC-dependent, but T cell-independent, B cell responses to T cell-dependent antigens, with antigen-specific and polyclonal antibody production in ˜48 h. In another embodiment, a germinal center (GC) lymphoid tissue equivalent (LTE) was used to generate antigen-specific IgM, followed by switching to IgG. The GC LTE model can be used in vaccine assessment. Dual forms of immunogen were used in the GC LTE and in vivo. Dual immunogens resulted in rapid, specific IgM responses and enhanced IgG responses. This vaccine design approach can be used, for example, to provide rapid IgM protection (˜24-48 h) and high-affinity IgG more quickly in people moving to areas with endemic disease, or in people with T cell insufficiencies, who can be immunized to rapidly generate protective IgM. | 04-23-2009 |
20090117581 | Co-culture lymphoid tissue equivalent (LTE) for an artificial immune system (AIS) - The present invention relates to methods for preparing an artificial immune system. The artificial immune system comprises a cell culture comprising T cells, B cells and antigen-primed dendritic cells. The artificial immune system of the present invention can be used for in vitro testing of vaccines, adjuvants, immunotherapy candidates, cosmetics, drugs, biologics and other chemicals. | 05-07-2009 |
20100105135 | POROUS MEMBRANE DEVICE THAT PROMOTES THE DIFFERENTIATION OF MONOCYTES INTO DENDRITIC CELLS - Dendritic cells (DCs) for research and clinical applications are typically derived from purified blood monocytes that are cultured in a cocktail of cytokines for a week or more. Because it has been suggested that these cytokine-derived DCs may be deficient in some important immunological functions and might not accurately represent antigen-presenting cell (APC) populations found under physiologic conditions, there is a need for methods that allow the generation of DCs in a more physiologically relevant manner. The present invention comprises a simple and reliable technique for generating large numbers of highly purified DCs, based on a single migration of blood monocytes through endothelial cells that are cultured in, for example, a Transwell® device. The resultant APCs, harvested from the lower Transwell® chamber, resemble other in vitro-generated DC populations in their expression of major histocompatibility (MHC) and costimulatory molecules, ability to phagocytose foreign antigens, and capacity to trigger antigen-specific T cell responses. | 04-29-2010 |
20100159443 | DISEASE MODEL INCORPORATION INTO AN ARTIFICIAL IMMUNE SYSTEM (AIS) - The present invention relates to methods for preparing an artificial immune system. The artificial immune system comprises a cell culture comprising a three-dimensional matrix comprising lymphoid tissue, a three-dimensional matrix comprising epithelial and/or endothelial cells, and diseased cells. The artificial immune system of the present invention can be used for in vitro testing of vaccines, adjuvants, immunotherapy candidates, cosmetics, drugs, biologics and other chemicals. | 06-24-2010 |
20100166763 | METHOD FOR DETERMINING THE IMMUNOGENICITY OF AN ANTIGEN - The present invention relates to methods for preparing an artificial immune system. The artificial immune system comprises a cell culture comprising T cells, B cells and antigen-primed dendritic cells. The artificial immune system of the present invention can be used for in vitro testing of vaccines, adjuvants, immunotherapy candidates, cosmetics, drugs, biologics and other chemicals. | 07-01-2010 |
20100178676 | METHODS FOR ANTIBODY PRODUCTION - The present invention relates to methods of constructing an integrated artificial immune system that comprises appropriate in vitro cellular and tissue constructs or their equivalents to mimic the normal tissues that interact with vaccines in mammals. The artificial immune system can be used to test the efficacy of vaccine candidates in vitro and thus, is useful to accelerate vaccine development and testing drug and chemical interactions with the immune system. | 07-15-2010 |
20100184148 | IN VITRO GERMINAL CENTERS - The present invention incorporates germinal centers (GCs) into three-dimensional (3D) engineered tissue constructs (ETCs). In an embodiment, we have incorporated the GC in the design of an artificial immune system (AIS) to examine immune responses to vaccines and other compounds. Development of an in vitro GC adds functionality to an AIS, in that it enables generation of an in vitro human humoral response by human B lymphocytes that is accurate and reproducible, without using human subjects. The invention also permits evaluation of, for example, vaccines, allergens, and immunogens, and activation of human B cells specific for a given antigen, which can then be used to generate human antibodies. In an embodiment of the present invention the function of the in vitro GC is enhanced by placing FDCs and other immune cells in a 3D ETC; FDCs appear more effective over a longer time (antibody production is sustained for up to about 14 days. | 07-22-2010 |
20100279277 | METHODS OF EVALUATING A TEST AGENT IN A DISEASED CELL MODEL - The present invention relates to methods of constructing an integrated artificial immune system that comprises appropriate in vitro cellular and tissue constructs or their equivalents to mimic the tissues of the immune system in mammals. The artificial immune system can be used to test the efficacy of vaccine candidates and other materials in vitro and thus, is useful to accelerate vaccine development and testing drug and chemical interactions with the immune system, coupled with disease models to provide a more complete representation of an immune response. | 11-04-2010 |
20100287630 | MODELS FOR VACCINE ASSESSMENT - The present invention is directed to methods for constructing and using in vivo and in vitro models of aspects of human immunity and, in particular, construction of a human immune system model for the testing of, for example, vaccines, adjuvants, immunotherapy candidates, cosmetics, drugs, biologics and other chemicals. The present invention comprises both in vivo and in vitro models of aspects of human immunity that are useful for assessing the interaction of substances with the immune system, and thus can be used to accelerate and improve the accuracy and predictability of, for example, vaccine, drug, biologic, immunotherapy, cosmetic and chemical development. The invention is also useful for the generation of human monoclonal and polyclonal antibodies. | 11-11-2010 |
20110171689 | ARTIFICIAL IMMUNE SYSTEM: METHODS FOR MAKING AND USE - The present invention relates to methods of constructing an integrated artificial immune system that comprises appropriate in vitro cellular and tissue constructs or their equivalents to mimic the normal tissues that interact with vaccines in mammals. The artificial immune system can be used to test the efficacy of vaccine candidates in vitro and thus, is useful to accelerate vaccine development and testing drug and chemical interaction with the immune system. | 07-14-2011 |
20110250620 | METHODS OF EVALUATING AN IMMUNE RESPONSE TO AN ANTIGEN - The present invention incorporates germinal centers (GCs) into three-dimensional (3D) engineered tissue constructs (ETCs). In an embodiment, we have incorporated the GC in the design of an artificial immune system (AIS) to examine immune responses to vaccines and other compounds. Development of an in vitro GC adds functionality to an AIS, in that it enables generation of an in vitro human humoral response by human B lymphocytes that is accurate and reproducible, without using human subjects. The invention also permits evaluation of, for example, vaccines, allergens, and immunogens, and activation of human B cells specific for a given antigen, which can then be used to generate human antibodies. In an embodiment of the present invention the function of the in vitro GC is enhanced by placing FDCs and other immune cells in a 3D ETC; FDCs appear more effective over a longer time (antibody production is sustained for up to about 14 days. | 10-13-2011 |
20110269176 | METHODS FOR ASSAYING RESPONSES TO VACCINES - The present invention incorporates germinal centers (GCs) into three-dimensional (3D) engineered tissue constructs (ETCs). In an embodiment, we have incorporated the GC in the design of an artificial immune system (AIS) to examine immune responses to vaccines and other compounds. Development of an in vitro GC adds functionality to an AIS, in that it enables generation of an in vitro human humoral response by human B lymphocytes that is accurate and reproducible, without using human subjects. The invention also permits evaluation of, for example, vaccines, allergens, and immunogens, and activation of human B cells specific for a given antigen, which can then be used to generate human antibodies. In an embodiment of the present invention the function of the in vitro GC is enhanced by placing FDCs and other immune cells in a 3D ETC; FDCs appear more effective over a longer time (antibody production is sustained for up to about 14 days. | 11-03-2011 |
20120009561 | METHODS OF EVALUATING A TEST AGENT IN A DISEASED CELL MODEL - The present invention relates to methods of constructing an integrated artificial immune system that comprises appropriate in vitro cellular and tissue constructs or their equivalents to mimic the tissues of the immune system in mammals. The artificial immune system can be used to test the efficacy of vaccine candidates and other materials in vitro and thus, is useful to accelerate vaccine development and testing drug and chemical interactions with the immune system, coupled with disease models to provide a more complete representation of an immune response. | 01-12-2012 |
20130078656 | ARTIFICIAL IMMUNE SYSTEM: METHODS OF USE - The present invention relates to methods of constructing an integrated artificial immune system that comprises appropriate in vitro cellular and tissue constructs or their equivalents to mimic the normal tissues that interact with vaccines in mammals. The artificial immune system can be used to test the efficacy of vaccine candidates in vitro and thus, is useful to accelerate vaccine development and testing drug and chemical interaction with the immune system. | 03-28-2013 |
20140248640 | METHODS FOR TESTING AN IMMUNE RESPONSE USING CULTURES OF T CELLS, B CELLS, DENDRITIC CELLS AND FOLLICULAR DENDRITIC CELLS - The present invention relates to methods for preparing an artificial immune system. The artificial immune system comprises a cell culture comprising T cells, B cells and antigen-primed dendritic cells. The artificial immune system of the present invention can be used for in vitro testing of vaccines, adjuvants, immunotherapy candidates, cosmetics, drugs, biologics and other chemicals. | 09-04-2014 |
20140273209 | ARTIFICIAL IMMUNE SYSTEM: METHODS OF USE - The present invention relates to methods of constructing an integrated artificial immune system that comprises appropriate in vitro cellular and tissue constructs or their equivalents to mimic the normal tissues that interact with vaccines in mammals. The artificial immune system can be used to test the efficacy of vaccine candidates in vitro and thus, is useful to accelerate vaccine development and testing drug and chemical interaction with the immune system. | 09-18-2014 |