Patents by Inventor S. Jordan Kerns
S. Jordan Kerns has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20220081663Abstract: An in vitro microfluidic gut-on-chip is described herein that mimics the structure and at least one function of specific areas of the gastrointestinal system in vivo. In particular, a multicellular, layered, microfluidic culture is described, allowing for interactions between lamina propria-derived cells and gastrointestinal epithelial cells and endothelial cells. This in vitro microfluidic system can be used for modeling inflammatory gastrointestinal tissue, e.g., Crohn's disease, colitis and other inflammatory gastrointestinal disorders. These multicellular, layered microfluidic gut-on-chip further allow for comparisons between types of gastrointestinal tissues, e.g., small intestinal deuodejeum, small intestinal ileium, large intestinal colon, etc., and between disease states of gastrointestinal tissue, i.e. healthy, pre-disease and diseased areas.Type: ApplicationFiled: November 16, 2021Publication date: March 17, 2022Inventors: S. Jordan Kerns, Jenifer Obrigewitch, Micheal Salmon, Benjamin Richards Umiker
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Patent number: 11248203Abstract: A microfluidic device is contemplated comprising an open-top cavity with structural anchors on the vertical wall surfaces that serve to prevent gel shrinkage-induced delamination, a porous membrane (optionally stretchable) positioned in the middle over a microfluidic channel(s). The device is particularly suited to the growth of cells mimicking dermal layers.Type: GrantFiled: January 28, 2021Date of Patent: February 15, 2022Assignee: EMULATE, INCInventors: Daniel Levner, Christopher David Hinojosa, Norman Wen, Antonio Varone, Justin Nguyen, Lina Williamson, S. Jordan Kerns, Catherine Karalis, Geraldine Hamilton, Carol Lucchesi
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Publication number: 20220033757Abstract: A microfluidic device is contemplated comprising an open-top cavity with structural anchors on the vertical wall surfaces that serve to prevent gel shrinkage-induced delamination, a porous membrane (optionally stretchable) positioned in the middle over a microfluidic channel(s). The device is particularly suited to the growth of cells mimicking dermal layers.Type: ApplicationFiled: October 5, 2021Publication date: February 3, 2022Inventors: Daniel Levner, Christopher David Hinojosa, Norman Wen, Antonio Varone, Justin Nguyen, Lina Williamson, S. Jordan Kerns, Catherine Karalis, Geraldine Hamilton, Carol Lucchesi
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Patent number: 11230688Abstract: An in vitro microfluidic gut-on-chip is described herein that mimics the structure and at least one function of specific areas of the gastrointestinal system in vivo. In particular, a multicellular, layered, microfluidic culture is described, allowing for interactions between lamina propria-derived cells and gastrointestinal epithelial cells and endothelial cells. This in vitro microfluidic system can be used for modeling inflammatory gastrointestinal tissue, e.g., Crohn's disease, colitis and other inflammatory gastrointestinal disorders. These multicellular, layered microfluidic gut-on-chip further allow for comparisons between types of gastrointestinal tissues, e.g., small intestinal deuodejeum, small intestinal ileium, large intestinal colon, etc., and between disease states of gastrointestinal tissue, i.e. healthy, pre-disease and diseased areas.Type: GrantFiled: November 21, 2017Date of Patent: January 25, 2022Assignee: EMULATE, INC.Inventors: S. Jordan Kerns, Jenifer Obrigewitch, Michael Salmon, Benjamin Richards Umiker
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Patent number: 11174462Abstract: The invention relates to culturing brain endothelial cells, and optionally astrocytes and neurons in a fluidic device under conditions whereby the cells mimic the structure and function of the blood brain barrier. Culture of such cells in a microfluidic device, whether alone or in combination with other cells, drives maturation and/or differentiation further than existing systems.Type: GrantFiled: April 17, 2018Date of Patent: November 16, 2021Assignees: EMULATE, Inc., Cedars-Sinai Medical CenterInventors: S. Jordan Kerns, Norman Wen, Carolina Lucchesi, Christopher David Hinojosa, Jacob Fraser, Geraldine Hamilton, Gad Vatine, Samuel Sanees, Clive Svendsen, Daniel Levner, Dhruv Sareen
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Publication number: 20210229097Abstract: An in vitro microfluidic “organ-on-chip” is described herein that mimics the structure and at least one function of specific areas of the epithelial system in vivo. In particular, a multicellular, layered, microfluidic culture is described, allowing for interactions between lamina propria-derived cells and the associated tissue specific epithelial cells and endothelial cells. This in vitro microfluidic system can be used for modeling inflammatory tissue, e.g., autoimmune disorders involving epithelia and diseases involving epithelial layers. These multicellular, layered microfluidic “organ-on-chip”, e.g. “epithelia-on-chip” further allow for comparisons between types of epithelia tissues, e.g., lung (Lung-On-Chip), bronchial (Airway-On-Chip), skin (Skin-On-Chip), cervix (Cervix-On-Chip), blood brain barrier (BBB-On-Chip), etc., in additional to neurovascular tissue, (Brain-On-Chip), and between different disease states of tissue, i.e. healthy, pre-disease and diseased areas.Type: ApplicationFiled: March 29, 2021Publication date: July 29, 2021Inventors: S. Jordan Kerns, Riccardo Barrile, Geraldine Hamilton, Catherine Karalis, Daniel Levner, Carolina Lucchesi, Antonio Varone, Remi Villenave
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Patent number: 11067571Abstract: This invention is in the field of surface modification. In particular, the invention relates to the surface modification of microfluidic devices to alter surface hydrophobicity characteristics.Type: GrantFiled: January 10, 2020Date of Patent: July 20, 2021Assignee: EMULATE, INC.Inventors: Daniel Levner, S. Jordan Kerns, Jefferson Puerta
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Publication number: 20210214670Abstract: A microfluidic device is contemplated comprising an open-top cavity with structural anchors on the vertical wall surfaces that serve to prevent gel shrinkage-induced delamination, a porous membrane (optionally stretchable) positioned in the middle over a microfluidic channel(s). The device is particularly suited to the growth of cells mimicking dermal layers.Type: ApplicationFiled: January 28, 2021Publication date: July 15, 2021Inventors: Daniel Levner, Christopher David Hinojosa, Norman Wen, Antonio Varone, Justin Nguyen, Lina Williamson, S. Jordan Kerns, Catherine Karalis, Geraldine Hamilton, Carol Lucchesi
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Patent number: 11059041Abstract: An in vitro microfluidic “organ-on-chip” is described herein that mimics the structure and at least one function of specific areas of the epithelial system in vivo. In particular, a multicellular, layered, microfluidic culture is described, allowing for interactions between lamina propria-derived cells and the associated tissue specific epithelial cells and endothelial cells. This in vitro microfluidic system can be used for modeling inflammatory tissue, e.g., autoimmune disorders involving epithelia and diseases involving epithelial layers. These multicellular, layered microfluidic “organ-on-chip”, e.g. “epithelia-on-chip” further allow for comparisons between types of epithelia tissues, e.g., lung (Lung-On-Chip), bronchial (Airway-On-Chip), skin (Skin-On-Chip), cervix (Cervix-On-Chip), blood brain barrier (BBB-On-Chip), etc., in additional to neurovascular tissue, (Brain-On-Chip), and between different disease states of tissue, i.e. healthy, pre-disease and diseased areas.Type: GrantFiled: September 17, 2020Date of Patent: July 13, 2021Assignee: Emulate, Inc.Inventors: S. Jordan Kerns, Riccardo Barrile, Geraldine Hamilton, Catherine Karalis, Daniel Levner, Carolina Lucchesi, Antonio Varone, Remi Villenave
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Patent number: 11001795Abstract: An in vitro microfluidic gut-on-chip is described herein that mimics the structure and at least one function of specific areas of the gastrointestinal system in vivo. In particular, a multicellular, layered, microfluidic culture is described, allowing for interactions between lamina propria-derived cells and gastrointestinal epithelial cells and endothelial cells. This in vitro microfluidic system can be used for modeling inflammatory gastrointestinal tissue, e.g., Crohn's disease, colitis and other inflammatory gastrointestinal disorders. These multicellular, layered microfluidic gut-on-chip further allow for comparisons between types of gastrointestinal tissues, e.g., small intestinal deuodejeum, small intestinal ileium, large intestinal colon, etc., and between disease states of gastrointestinal tissue, i.e. healthy, pre-disease and diseased areas.Type: GrantFiled: November 21, 2017Date of Patent: May 11, 2021Assignee: Emulate, Inc.Inventors: S. Jordan Kerns, Jenifer Obrigewitch, Michael Salmon, Magdalena Kasendra, Benjamin Richards Umiker
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Publication number: 20210115406Abstract: The present invention relates to a combination of microbes, cell culture systems and microfluidic fluidic systems for use in providing a human Intestine On-Chip with optimal intestinal motility. More specifically, in some embodiments, a microfluidic chip containing intestinal epithelial cells co-cultured with intestinal endothelial cells in the presence of bacteria, such as probiotic bacteria, may find use in providing an Intestine-On-Chip for testing intestinal motility function. In some embodiments, an Intestine On-Chip may be used for identifying (testing) therapeutic compounds continuing probiotic microbes or compounds for inducing intestinal motility for use in treating gastrointestinal disorders or diseases related to intestinal function.Type: ApplicationFiled: November 4, 2020Publication date: April 22, 2021Inventors: S. Jordan Kerns, Catherine Karalis, Janna Nawroth, Remi Villenave, Jenifer Obrigewitch, Doris Roth, Michael Salmon, Athanasia Apostolou, David Conegliano
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Patent number: 10961496Abstract: A microfluidic device is contemplated comprising an open-top cavity with structural anchors on the vertical wall surfaces that serve to prevent gel shrinkage-induced delamination, a porous membrane (optionally stretchable) positioned in the middle over a microfluidic channel(s). The device is particularly suited to the growth of cells mimicking dermal layers.Type: GrantFiled: December 2, 2016Date of Patent: March 30, 2021Assignee: EMULATE, INC.Inventors: Daniel Levner, Christopher David Hinojosa, Norman Wen, Antonio Varone, Justin Nguyen, Lina Williamson, S. Jordan Kerns, Catherine Karalis, Geraldine Hamilton, Carol Lucchesi
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Publication number: 20210031197Abstract: An in vitro microfluidic “organ-on-chip” is described herein that mimics the structure and at least one function of specific areas of the epithelial system in vivo. In particular, a multicellular, layered, microfluidic culture is described, allowing for interactions between lamina propria-derived cells and the associated tissue specific epithelial cells and endothelial cells. This in vitro microfluidic system can be used for modeling inflammatory tissue, e.g., autoimmune disorders involving epithelia and diseases involving epithelial layers. These multicellular, layered microfluidic “organ-on-chip”, e.g. “epithelia-on-chip” further allow for comparisons between types of epithelia tissues, e.g., lung (Lung-On-Chip), bronchial (Airway-On-Chip), skin (Skin-On-Chip), cervix (Cervix-On-Chip), blood brain barrier (BBB-On-Chip), etc., in additional to neurovascular tissue, (Brain-On-Chip), and between different disease states of tissue, i.e. healthy, pre-disease and diseased areas.Type: ApplicationFiled: September 17, 2020Publication date: February 4, 2021Inventors: S. Jordan Kerns, Riccardo Barrile, Geraldine Hamilton, Catherine Karalis, Daniel Levner, Carolina Lucchesi, Antonio Varone, Remi Villenave
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Patent number: 10828638Abstract: An in vitro microfluidic “organ-on-chip” is described herein that mimics the structure and at least one function of specific areas of the epithelial system in vivo. In particular, a multicellular, layered, microfluidic culture is described, allowing for interactions between lamina propria-derived cells and the associated tissue specific epithelial cells and endothelial cells. This in vitro microfluidic system can be used for modeling inflammatory tissue, e.g., autoimmune disorders involving epithelia and diseases involving epithelial layers. These multicellular, layered microfluidic “organ-on-chip”, e.g. “epithelia-on-chip” further allow for comparisons between types of epithelia tissues, e.g., lung (Lung-On-Chip), bronchial (Airway-On-Chip), skin (Skin-On-Chip), cervix (Cervix-On-Chip), blood brain barrier (BBB-On-Chip), etc., in additional to neurovascular tissue, (Brain-On-Chip), and between different disease states of tissue, i.e. healthy, pre-disease and diseased areas.Type: GrantFiled: November 21, 2017Date of Patent: November 10, 2020Assignee: Emulate, Inc.Inventors: S. Jordan Kerns, Riccardo Barrile, Geraldine Hamilton, Catherine Karalis, Daniel Levner, Carolina Lucchesi, Antonio Varone, Remi Villenave
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Publication number: 20200332240Abstract: The present invention contemplates compositions, devices and methods of simulating biological fluids in a fluidic device, including but not limited to a microfluidic chip. In one embodiment, fluid comprising a colloid under flow in a microfluidic chip has a fluid density or viscosity similar to a bodily fluid, e.g. blood, lymph, lung fluid, or the like. In one embodiment, a fluid is provided as a Theologically biomimetic blood surrogate or substitute for simulating physiological shear stress and cell dynamics in fluidic device, including but not limited to immune cells.Type: ApplicationFiled: March 16, 2020Publication date: October 22, 2020Inventors: Antonio Varone, Magdalena Kasendra, Carolina Lucchesi, S. Jordan Kerns, Riccardo Barrile, Sonalee Barthakur
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Publication number: 20200179928Abstract: This invention is in the field of surface modification. In particular, the invention relates to the surface modification of microfluidic devices to alter surface hydrophobicity characteristics.Type: ApplicationFiled: January 10, 2020Publication date: June 11, 2020Inventors: Daniel Levner, S. Jordan Kerns, Jefferson Puerta
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Publication number: 20190359924Abstract: The invention relates to culturing brain endothelial cells, and optionally astrocytes and neurons in a fluidic device under conditions whereby the cells mimic the structure and function of the blood brain barrier. Culture of such cells in a microfluidic device, whether alone or in combination with other cells, drives maturation and/or differentiation further than existing systems.Type: ApplicationFiled: February 26, 2019Publication date: November 28, 2019Inventors: S. Jordan Kerns, Norman Wen, Carolina Lucchesi, Christopher David Hinojosa, Jacob Fraser, Geraldine Hamilton, Gad Vatine, Samuel Sances, Clive Svendsen, Daniel Levner, Dhruv Sareen
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Publication number: 20190031992Abstract: Organs-on-chips are microfluidic devices for culturing living cells in micrometer sized chambers in order to model physiological functions of tissues and organs. Engineered patterning and continuous fluid flow in these devices has allowed culturing of intestinal cells bearing physiologically relevant features and sustained exposure to bacteria while maintaining cellular viability, thereby allowing study of inflammatory bowl diseases. However, existing intestinal cells do not possess all physiologically relevant subtypes, do not possess the repertoire of genetic variations, or allow for study of other important cellular actors such as immune cells. Use of iPSC-derived epithelium, including IBD patient-specific cells, allows for superior disease modeling by capturing the multi-faceted nature of the disease.Type: ApplicationFiled: July 31, 2018Publication date: January 31, 2019Inventors: S. Jordan Kerns, Norman Wen, Carol Lucchesi, Christopher David Hinojosa, Jacob Fraser, Jefferson Puerta, Geraldine Hamilton, Robert Barrett, Clive Svendsen, Daniel Levner, Stephen R. Targan, Michael Workman, Dhruv Sareen, Uthra Rajamani, Magdalena Kasendra
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Publication number: 20180320125Abstract: A microfluidic device is contemplated comprising an open-top cavity with structural anchors on the vertical wall surfaces that serve to prevent gel shrinkage-induced delamination, a porous membrane (optionally stretchable) positioned in the middle over a microfluidic channel(s). The device is particularly suited to the growth of cells mimicking dermal layers.Type: ApplicationFiled: December 2, 2016Publication date: November 8, 2018Inventors: Daniel Levner, Christopher David Hinojosa, Norman Wen, Antonio Varone, Justin Nguyen, Lina Williamson, S. Jordan Kerns, Katia Karalis, Geraldine Hamilton, Carol Lucchesi
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Publication number: 20180305651Abstract: The invention relates to culturing brain endothelial cells, and optionally astrocytes and neurons in a fluidic device under conditions whereby the cells mimic the structure and function of the blood brain barrier. Culture of such cells in a microfluidic device, whether alone or in combination with other cells, drives maturation and/or differentiation further than existing systems.Type: ApplicationFiled: October 19, 2016Publication date: October 25, 2018Inventors: S. Jordan Kerns, Norman Wen, Carolina Lucchesi, Christopher David Hinojosa, Jacob Fraser, Geraldine Hamilton, Gad Vatine, Samuel Sances, Clive Svendsen, Daniel Levner, Dhruv Sareen