Patents by Inventor Michael John Bergmann
Michael John Bergmann 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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Patent number: 12616845Abstract: Modulation of foreign body responses in living tissue, and more particularly, devices and related methods for light-based modulation of foreign body responses in living tissue are disclosed. Light sources are disclosed that provide light with characteristics for modulation of foreign body responses that may be elicited by percutaneous and/or subcutaneous devices, including medical devices and other consumer electronic devices. Light delivery structures are disclosed that propagate light from the light sources to irradiate associated subcutaneous tissues. Modulation of foreign body responses may include inhibiting collagen and fibrous tissue generation, modulating inflammation and healing, and/or increasing nitric oxide production and/or release. By modulating foreign body responses associated with percutaneous and/or subcutaneous devices, performance characteristics and lifetimes of such devices may be improved.Type: GrantFiled: May 26, 2021Date of Patent: May 5, 2026Assignee: KNOW Bio, LLCInventors: Michael John Bergmann, Mark Tapsak, David T. Emerson, F. Neal Hunter, Andrew P. Gaudet de Lestard
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Patent number: 12557444Abstract: Light-emitting diode (LED) chips and, more particularly, structures of LED chips with electrically insulating substrates and related methods are disclosed. LED chips include at least one opening that extends through a substrate to provide an electrical pathway to an active LED structure. Another electrical connection may be provided on the active LED structure in a position that forms a vertical contact arrangement. The at least one opening may extend through the substrate and into a portion of the active LED structure to provide increased surface area for the electrical connection. Additional LED chip structures include another opening on the active LED structure that is registered with the opening in the substrate, and electrical connections to a same layer of the active LED structure may be provided within each opening. Related methods include laser drilling the at least one opening in the substrate.Type: GrantFiled: April 27, 2023Date of Patent: February 17, 2026Assignee: CreeLED, Inc.Inventors: Michael Check, Michael John Bergmann, David Suich, Kevin Haberern
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Patent number: 12508439Abstract: Methods and related devices for impinging light on tissue, for example within a body of a patient, to induce various biological effects are disclosed. Biological effects may include at least one of inactivating and/or inhibiting growth of one or more pathogens, upregulating a local immune response, stimulating enzymatic generation of nitric oxide to increase endogenous stores of nitric oxide, releasing nitric oxide from endogenous stores of nitric oxide, and inducing an anti-inflammatory effect. Wavelengths of light are selected based on intended biological effects for one or more of targeted tissue types and targeted pathogens. Light treatments may provide multiple pathogenic biological effects, either with light of a single wavelength or with light having multiple wavelengths. Devices and methods for light treatments are disclosed that provide light doses for inducing biological effects on various targeted pathogens and targeted tissues with increased efficacy and reduced cytotoxicity.Type: GrantFiled: January 13, 2021Date of Patent: December 30, 2025Assignee: KNOW Bio, LLCInventors: Nathan Stasko, David T. Emerson, Adam Cockrell, F. Neal Hunter, Michael John Bergmann, Rebecca McDonald, Nicholas William Medendorp, Jr., Gerald H. Negley, Katelyn P. Reighard
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Patent number: 12447354Abstract: Illumination devices for impinging light on tissue, for example within a body cavity of a patient, to induce various biological effects are disclosed. Biological effects may include at least one of inactivating and/or inhibiting growth of one or more pathogens, upregulating a local immune response, increasing endogenous stores of nitric oxide, releasing nitric oxide from endogenous stores, and inducing an anti-inflammatory effect. Wavelengths of light are selected based on intended biological effects for one or more of targeted tissue types and targeted pathogens. Light treatments may provide multiple pathogenic biological effects, either with light of a single wavelength or with light having multiple wavelengths. Devices for light treatments are disclosed that provide light doses for inducing biological effects on various targeted pathogens and tissues with increased efficacy and reduced cytotoxicity.Type: GrantFiled: January 29, 2021Date of Patent: October 21, 2025Assignee: KNOW Bio, LLCInventors: F. Neal Hunter, Antony Paul van de Ven, Nathan Stasko, David T. Emerson, Michael John Bergmann, Thomas Matthew Womble, Adam Cockrell, Rebecca McDonald
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Patent number: 12397169Abstract: Methods and related devices for impinging light on tissue, for example within a body of a patient, to induce various biological effects are disclosed. Biological effects may include at least one of inactivating and/or inhibiting growth of one or more pathogens, upregulating a local immune response, stimulating enzymatic generation of nitric oxide to increase endogenous stores of nitric oxide, releasing nitric oxide from endogenous stores of nitric oxide, and inducing an anti-inflammatory effect. Wavelengths of light are selected based on intended biological effects for one or more of targeted tissue types and targeted pathogens. Light treatments may provide multiple pathogenic biological effects, either with light of a single wavelength or with light having multiple wavelengths. Devices and methods for light treatments are disclosed that provide light doses for inducing biological effects on various targeted pathogens and targeted tissues with increased efficacy and reduced cytotoxicity.Type: GrantFiled: January 13, 2021Date of Patent: August 26, 2025Assignee: KNOW BIO, LLCInventors: Nathan Stasko, David T. Emerson, Adam Cockrell, F. Neal Hunter, Michael John Bergmann, Rebecca McDonald, Nicholas William Medendorp, Jr., Gerald H. Negley, Katelyn P. Reighard
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Patent number: 12390657Abstract: Illumination devices for impinging light on tissue, for example within a body cavity of a patient, to induce various biological effects are disclosed. Biological effects may include at least one of inactivating and/or inhibiting growth of one or more pathogens, upregulating a local immune response, increasing endogenous stores of nitric oxide, releasing nitric oxide from endogenous stores, and inducing an anti-inflammatory effect. Biological effects may include upregulating and downregulating inflammatory immune response molecules within a target tissue. Wavelengths of light are selected based on intended biological effects for one or more of targeted tissue types and targeted pathogens. Light treatments may provide multiple pathogenic biological effects, either with light of a single wavelength or with light having multiple wavelengths.Type: GrantFiled: November 14, 2023Date of Patent: August 19, 2025Assignee: KNOW Bio, LLCInventors: Adam Cockrell, Jacob Kocher, David T. Emerson, Michael John Bergmann, Thomas Matthew Womble, Antony Paul van de Ven, Nathan Stasko, F. Neal Hunter, Rebecca McDonald
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Patent number: 12179035Abstract: Methods and related devices for impinging light on tissue, for example within a body of a patient, to induce various biological effects are disclosed. Biological effects may include at least one of inactivating and/or inhibiting growth of one or more pathogens, upregulating a local immune response, stimulating enzymatic generation of nitric oxide to increase endogenous stores of nitric oxide, releasing nitric oxide from endogenous stores of nitric oxide, and inducing an anti-inflammatory effect. Wavelengths of light are selected based on intended biological effects for one or more of targeted tissue types and targeted pathogens. Light treatments may provide multiple pathogenic biological effects, either with light of a single wavelength or with light having multiple wavelengths. Devices and methods for light treatments are disclosed that provide light doses for inducing biological effects on various targeted pathogens and targeted tissues with increased efficacy and reduced cytotoxicity.Type: GrantFiled: January 13, 2021Date of Patent: December 31, 2024Assignee: KNOW Bio, LLCInventors: Nathan Stasko, David T. Emerson, Adam Cockrell, F. Neal Hunter, Michael John Bergmann, Rebecca McDonald, Nicholas William Medendorp, Jr., Gerald H. Negley, Katelyn P. Reighard
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Patent number: 12144998Abstract: Methods and related devices for impinging light on tissue, for example within a body of a patient, to induce various biological effects are disclosed. Biological effects may include at least one of inactivating and/or inhibiting growth of one or more pathogens, upregulating a local immune response, stimulating enzymatic generation of nitric oxide to increase endogenous stores of nitric oxide, releasing nitric oxide from endogenous stores of nitric oxide, and inducing an anti-inflammatory effect. Wavelengths of light are selected based on intended biological effects for one or more of targeted tissue types and targeted pathogens. Light treatments may provide multiple pathogenic biological effects, either with light of a single wavelength or with light having multiple wavelengths. Devices and methods for light treatments are disclosed that provide light doses for inducing biological effects on various targeted pathogens and targeted tissues with increased efficacy and reduced cytotoxicity.Type: GrantFiled: January 13, 2021Date of Patent: November 19, 2024Assignee: KNOW Bio, LLCInventors: Nathan Stasko, David T. Emerson, Adam Cockrell, F. Neal Hunter, Michael John Bergmann, Rebecca McDonald, Nicholas William Medendorp, Jr., Gerald H. Negley, Katelyn P. Reighard
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Patent number: 12109429Abstract: Methods and related devices for impinging light on tissue, for example within a body of a patient, to induce various biological effects are disclosed. Biological effects may include at least one of inactivating and/or inhibiting growth of one or more pathogens, upregulating a local immune response, stimulating enzymatic generation of nitric oxide to increase endogenous stores of nitric oxide, releasing nitric oxide from endogenous stores of nitric oxide, and inducing an anti-inflammatory effect. Wavelengths of light are selected based on intended biological effects for one or more of targeted tissue types and targeted pathogens. Light treatments may provide multiple pathogenic biological effects, either with light of a single wavelength or with light having multiple wavelengths. Devices and methods for light treatments are disclosed that provide light doses for inducing biological effects on various targeted pathogens and targeted tissues with increased efficacy and reduced cytotoxicity.Type: GrantFiled: December 10, 2020Date of Patent: October 8, 2024Assignee: KNOW Bio, LLCInventors: Nathan Stasko, David T. Emerson, Adam Cockrell, F. Neal Hunter, Michael John Bergmann, Rebecca McDonald, Nicholas William Medendorp, Jr., Gerald H. Negley, Katelyn P. Reighard
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Publication number: 20240293681Abstract: Illumination devices for impinging light on tissue, for example within a body cavity of a patient, to induce various biological effects are disclosed. Biological effects may include at least one of inactivating and/or inhibiting growth of one or more pathogens, upregulating a local immune response, increasing endogenous stores of nitric oxide, releasing nitric oxide from endogenous stores, and inducing an anti-inflammatory effect. Wavelengths of light are selected based on intended biological effects for one or more of targeted tissue types and targeted pathogens. Light treatments may provide multiple pathogenic biological effects, either with light of a single wavelength or with light having multiple wavelengths. Devices for light treatments are disclosed that provide light doses for inducing biological effects on various targeted pathogens and tissues with increased efficacy and reduced cytotoxicity.Type: ApplicationFiled: May 9, 2024Publication date: September 5, 2024Inventors: F. Neal Hunter, Antony Paul van de Ven, Nathan Stasko, David T. Emerson, Michael John Bergmann, Thomas Matthew Womble, Adam Cockrell, Rebecca McDonald
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Patent number: 12029914Abstract: Methods and related devices for impinging light on tissue, for example within a body of a patient, to induce various biological effects are disclosed. Biological effects may include at least one of inactivating and/or inhibiting growth of one or more pathogens, upregulating a local immune response, stimulating enzymatic generation of nitric oxide to increase endogenous stores of nitric oxide, releasing nitric oxide from endogenous stores of nitric oxide, and inducing an anti-inflammatory effect. Wavelengths of light are selected based on intended biological effects for one or more of targeted tissue types and targeted pathogens. Light treatments may provide multiple pathogenic biological effects, either with light of a single wavelength or with light having multiple wavelengths. Devices and methods for light treatments are disclosed that provide light doses for inducing biological effects on various targeted pathogens and targeted tissues with increased efficacy and reduced cytotoxicity.Type: GrantFiled: January 13, 2021Date of Patent: July 9, 2024Assignee: KNOW Bio, LLCInventors: Nathan Stasko, David T. Emerson, Adam Cockrell, F. Neal Hunter, Michael John Bergmann, Rebecca McDonald, Nicholas William Medendorp, Jr., Gerald H. Negley, Katelyn P. Reighard
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Patent number: 12011611Abstract: Illumination devices for impinging light on tissue, for example within a body cavity of a patient, to induce various biological effects are disclosed. Biological effects may include at least one of inactivating and/or inhibiting growth of one or more pathogens, upregulating a local immune response, increasing endogenous stores of nitric oxide, releasing nitric oxide from endogenous stores, and inducing an anti-inflammatory effect. Wavelengths of light are selected based on intended biological effects for one or more of targeted tissue types and targeted pathogens. Light treatments may provide multiple pathogenic biological effects, either with light of a single wavelength or with light having multiple wavelengths. Devices for light treatments are disclosed that provide light doses for inducing biological effects on various targeted pathogens and tissues with increased efficacy and reduced cytotoxicity.Type: GrantFiled: January 29, 2021Date of Patent: June 18, 2024Assignee: KNOW Bio, LLCInventors: F. Neal Hunter, Antony Paul van de Ven, Nathan Stasko, David T. Emerson, Michael John Bergmann, Thomas Matthew Womble, Adam Cockrell, Rebecca McDonald
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Patent number: 11998758Abstract: Methods and related devices for impinging light on tissue, for example within a body of a patient, to induce various biological effects are disclosed. Biological effects may include at least one of inactivating and/or inhibiting growth of one or more pathogens, upregulating a local immune response, stimulating enzymatic generation of nitric oxide to increase endogenous stores of nitric oxide, releasing nitric oxide from endogenous stores of nitric oxide, and inducing an anti-inflammatory effect. Wavelengths of light are selected based on intended biological effects for one or more of targeted tissue types and targeted pathogens. Light treatments may provide multiple pathogenic biological effects, either with light of a single wavelength or with light having multiple wavelengths. Devices and methods for light treatments are disclosed that provide light doses for inducing biological effects on various targeted pathogens and targeted tissues with increased efficacy and reduced cytotoxicity.Type: GrantFiled: January 13, 2021Date of Patent: June 4, 2024Assignee: KNOW Bio, LLCInventors: Nathan Stasko, David T. Emerson, Adam Cockrell, F. Neal Hunter, Michael John Bergmann, Rebecca McDonald, Nicholas William Medendorp, Jr., Gerald H. Negley, Katelyn P. Reighard
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Patent number: 11986666Abstract: Illumination devices for impinging light on tissue, for example within a body cavity of a patient, to induce various biological effects are disclosed. Biological effects may include at least one of inactivating and/or inhibiting growth of one or more pathogens, upregulating a local immune response, increasing endogenous stores of nitric oxide, releasing nitric oxide from endogenous stores, and inducing an anti-inflammatory effect. Biological effects may include upregulating and downregulating inflammatory immune response molecules within a target tissue. Wavelengths of light are selected based on intended biological effects for one or more of targeted tissue types and targeted pathogens. Light treatments may provide multiple pathogenic biological effects, either with light of a single wavelength or with light having multiple wavelengths.Type: GrantFiled: February 11, 2021Date of Patent: May 21, 2024Assignee: KNOW Bio, LLCInventors: Adam Cockrell, Jacob Kocher, David T. Emerson, Michael John Bergmann, Thomas Matthew Womble, Antony Paul van de Ven, Nathan Stasko, F. Neal Hunter, Rebecca McDonald
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Publication number: 20240075312Abstract: Illumination devices for impinging light on tissue, for example within a body cavity of a patient, to induce various biological effects are disclosed. Biological effects may include at least one of inactivating and/or inhibiting growth of one or more pathogens, upregulating a local immune response, increasing endogenous stores of nitric oxide, releasing nitric oxide from endogenous stores, and inducing an anti-inflammatory effect. Biological effects may include upregulating and downregulating inflammatory immune response molecules within a target tissue. Wavelengths of light are selected based on intended biological effects for one or more of targeted tissue types and targeted pathogens. Light treatments may provide multiple pathogenic biological effects, either with light of a single wavelength or with light having multiple wavelengths.Type: ApplicationFiled: November 14, 2023Publication date: March 7, 2024Inventors: Adam Cockrell, Jacob Kocher, David T. Emerson, Michael John Bergmann, Thomas Matthew Womble, Antony Paul van de Ven, Nathan Stasko, F. Neal Hunter, Rebecca McDonald
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Patent number: 11916165Abstract: Monolithic LED chips are disclosed comprising a plurality of active regions on a submount, wherein the submount comprises integral electrically conductive interconnect elements in electrical contact with the active regions and electrically connecting at least some of the active regions in series. The submount also comprises an integral insulator element electrically insulating at least some of the interconnect elements and active regions from other elements of the submount. The active regions are mounted in close proximity to one another with at least some of the active regions having a space between adjacent ones of the active regions that is 10 percent or less of the width of one or more of the active regions. The space is substantially not visible when the LED chip is emitting, such that the LED chips emits light similar to a filament.Type: GrantFiled: October 2, 2020Date of Patent: February 27, 2024Assignee: CreeLED, Inc.Inventors: Kevin W. Haberern, Matthew Donofrio, Bennett Langsdorf, Thomas Place, Michael John Bergmann
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Publication number: 20240024699Abstract: Illumination devices for impinging light on tissue, for example within a body cavity of a patient, to induce various biological effects are disclosed. Biological effects may include at least one of inactivating and/or inhibiting growth of one or more pathogens, upregulating a local immune response, increasing endogenous stores of nitric oxide, releasing nitric oxide from endogenous stores, and inducing an anti-inflammatory effect. Wavelengths of light are selected based on intended biological effects for one or more of targeted tissue types and targeted pathogens. Light treatments may provide multiple pathogenic biological effects, either with light of a single wavelength or with light having multiple wavelengths. Devices for light treatments are disclosed that provide light doses for inducing biological effects on various targeted pathogens and tissues with increased efficacy and reduced cytotoxicity.Type: ApplicationFiled: October 4, 2023Publication date: January 25, 2024Inventors: David T. Emerson, Michael John Bergmann, Thomas Matthew Womble, Antony Paul van de Ven, Nathan Stasko, F. Neal Hunter, Adam Cockrell, Rebecca McDonald, James Michael Lay
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Publication number: 20230411562Abstract: Solid-state lighting devices including light-emitting diodes (LEDs) and more particularly light-extraction features for LED chips and related methods are disclosed. Light-extraction features include structures formed in or on light-emitting surfaces of substrates. Light-extraction features may include repeating patterns of features with dimensions that, along with reduced substrate thicknesses, provide targeted emission profiles for flip-chip structures, such as Lambertian emission profiles. Dimensions include certain height to width ratios for various substrate thicknesses. Additional light-extraction features with smaller dimensions may be formed along portions or side surfaces of larger light-extraction features.Type: ApplicationFiled: June 21, 2022Publication date: December 21, 2023Inventors: Michael Check, Michael John Bergmann, Alan Wellford Dillon, Kevin Haberern
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Patent number: 11837585Abstract: An LED wafer includes LED dies on an LED substrate. The LED wafer and a carrier wafer are joined. The LED wafer that is joined to the carrier wafer is shaped. Wavelength conversion material is applied to the LED wafer that is shaped. Singulation is performed to provide LED dies that are joined to a carrier die. The singulated devices may be mounted in an LED fixture to provide high light output per unit area.Type: GrantFiled: November 24, 2020Date of Patent: December 5, 2023Assignee: CreeLED, Inc.Inventors: Michael John Bergmann, David Todd Emerson, Joseph G. Clark, Christopher P. Hussell
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Publication number: 20230361249Abstract: Light-emitting diode (LED) chips and, more particularly, structures of LED chips with electrically insulating substrates and related methods are disclosed. LED chips include at least one opening that extends through a substrate to provide an electrical pathway to an active LED structure. Another electrical connection may be provided on the active LED structure in a position that forms a vertical contact arrangement. The at least one opening may extend through the substrate and into a portion of the active LED structure to provide increased surface area for the electrical connection. Additional LED chip structures include another opening on the active LED structure that is registered with the opening in the substrate, and electrical connections to a same layer of the active LED structure may be provided within each opening. Related methods include laser drilling the at least one opening in the substrate.Type: ApplicationFiled: April 27, 2023Publication date: November 9, 2023Inventors: Michael Check, Michael John Bergmann, David Suich, Kevin Haberern