Patents by Inventor Beth A. Lindborg

Beth A. Lindborg 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).

  • Publication number: 20260061186
    Abstract: The present invention provides a single surgical method, procedure and/or system that creates open visual and physical access to an identified spinal treatment site that initially comprises spinal levels to be treated, wherein the spinal levels comprise at least one dorsal root ganglion. A spinal treatment procedure is performed generally in combination with implantation of a neuromodulation system that may comprise placement of electrical lead(s) on the at least one dorsal root ganglion, wherein each lead is in operative connection with a pulse generator that may also be implanted during the surgical method. Electrical stimulation may be generated with the pulse generator through the electrical leads to the at least one dorsal root ganglion during and/or after the closure of the identified spinal treatment site.
    Type: Application
    Filed: November 10, 2025
    Publication date: March 5, 2026
    Inventors: Michael Park, Matthew Hunt, Nazmi Peyman, Justin D. Zenanko, Christopher G. Frank, Beth A. Lindborg, Kyle Grube, Kathy Hill, Gregory F. Molnar
  • Patent number: 12515041
    Abstract: The present invention provides a single surgical method, procedure and/or system that creates open visual and physical access to an identified spinal treatment site that initially comprises spinal levels to be treated, wherein the spinal levels comprise at least one dorsal root ganglion. A spinal treatment procedure is performed generally in combination with implantation of a neuromodulation system that may comprise placement of electrical lead(s) on the at least one dorsal root ganglion, wherein each lead is in operative connection with a pulse generator that may also be implanted during the surgical method. Electrical stimulation may be generated with the pulse generator through the electrical leads to the at least one dorsal root ganglion during and/or after the closure of the identified spinal treatment site.
    Type: Grant
    Filed: February 10, 2022
    Date of Patent: January 6, 2026
    Assignee: SynerFuse, Inc.
    Inventors: Michael Park, Matthew Hunt, Nazmi Peyman, Justin D. Zenanko, Christopher G. Frank, Beth A. Lindborg, Kyle Grube, Kathy Hill, Gregory F. Molnar
  • Patent number: 12343524
    Abstract: The present invention provides a single surgical method, procedure and/or system that creates open direct visual and/or physical access to an identified spinal treatment site that comprises both targeted vertebral and spinal levels to be treated, wherein the spinal levels comprise at least one dorsal root ganglion. A spinal treatment procedure may be performed generally in combination with implantation of a neuromodulation system that may comprise placement of electrical lead(s) on the at least one dorsal root ganglion, wherein each lead is in operative connection with a pulse generator that may also be implanted during the surgical method. Electrical stimulation may be generated with the pulse generator through the electrical leads to the at least one dorsal root ganglion during and/or after the closure of the identified spinal treatment site.
    Type: Grant
    Filed: April 11, 2023
    Date of Patent: July 1, 2025
    Assignee: SynerFuse, Inc.
    Inventors: Michael Park, Matthew Hunt, Nazmi Peyman, Justin D. Zenanko, Christopher G. Frank, Beth A. Lindborg, Kyle Grube, Kathy Hill, Gregory F. Molnar
  • Patent number: 11813467
    Abstract: The present invention comprises implantable neuromodulation systems and methods comprising a protective pouch that at least partially encases an implantable pulse generator prior to implanting in a patient and is adapted to be secured within the surgical site. A lead placement tool configured to receive an electrical lead(s) along at least part of the length of the tool within an open channel or groove to assist in placing electrical leads at the desired target. The lead placement tool may have at least one, or two, angles that provide a bend or angle between first and/or second end regions relative to a straight central region and an open channel along at least one of these regions. A harness for receiving and protecting at least a portion of the length of electrical leads in operative communication with an implantable pulse generator is provided. The harness is adapted to be secured within the surgical site.
    Type: Grant
    Filed: October 28, 2019
    Date of Patent: November 14, 2023
    Assignee: SynerFuse, Inc.
    Inventors: Gregory F. Molnar, Nazmi Peyman, Kari W. Wright, Justin D. Zenanko, Beth A. Lindborg, Kathleen W. Hill, Kyle R. Grube, Michael C. Park, Matthew A. Hunt
  • Publication number: 20230241377
    Abstract: The present invention provides a single surgical method, procedure and/or system that creates open direct visual and/or physical access to an identified spinal treatment site that comprises both targeted vertebral and spinal levels to be treated, wherein the spinal levels comprise at least one dorsal root ganglion. A spinal treatment procedure may be performed generally in combination with implantation of a neuromodulation system that may comprise placement of electrical lead(s) on the at least one dorsal root ganglion, wherein each lead is in operative connection with a pulse generator that may also be implanted during the surgical method. Electrical stimulation may be generated with the pulse generator through the electrical leads to the at least one dorsal root ganglion during and/or after the closure of the identified spinal treatment site.
    Type: Application
    Filed: April 11, 2023
    Publication date: August 3, 2023
    Inventors: Gregory F. Molnar, Christopher G. Frank, Justin D. Zenanko, Beth A. Lindborg, Nazmi Peyman, Kyle Grube, Michael Park, Matthew Hunt, Kathy Hill
  • Patent number: 11638817
    Abstract: The present invention provides a single surgical method, procedure and/or system that creates open direct visual and/or physical access to an identified spinal treatment site that comprises both targeted vertebral and spinal levels to be treated, wherein the spinal levels comprise at least one dorsal root ganglion. A spinal treatment procedure may be performed generally in combination with implantation of a neuromodulation system that may comprise placement of electrical lead(s) on the at least one dorsal root ganglion, wherein each lead is in operative connection with a pulse generator that may also be implanted during the surgical method. Electrical stimulation may be generated with the pulse generator through the electrical leads to the at least one dorsal root ganglion during and/or after the closure of the identified spinal treatment site.
    Type: Grant
    Filed: October 5, 2020
    Date of Patent: May 2, 2023
    Assignee: SynerFuse, Inc.
    Inventors: Gregory F. Molnar, Christopher G. Frank, Justin D. Zenanko, Beth A. Lindborg, Nazmi Peyman, Kyle Grube, Michael Park, Matthew Hunt, Kathy Hill
  • Publication number: 20230032093
    Abstract: The present invention provides a single surgical method, procedure and/or system that creates open visual and physical access to an identified spinal treatment site that comprises both targeted vertebral and spinal levels to be treated, wherein the spinal levels comprise at least one dorsal root ganglion. A spinal treatment procedure is performed generally in combination with implantation of a neuromodulation system that may comprise placement of electrical lead(s) on the at least one dorsal root ganglion, wherein each lead is in operative connection with a pulse generator that may also be implanted during the surgical method. Electrical stimulation may be generated with the pulse generator through the electrical leads to the at least one dorsal root ganglion during and/or after the closure of the identified spinal treatment site.
    Type: Application
    Filed: October 10, 2022
    Publication date: February 2, 2023
    Inventors: Gregory F. Molnar, Christopher G. Frank, Justin D. Zenanko, Beth A. Lindborg, Nazmi Peyman, Kyle Grube, Michael Park, Matthew Hunt, Kathy Hill
  • Patent number: 11471673
    Abstract: The present invention provides a single surgical method, procedure and/or system that creates open visual and physical access to an identified spinal treatment site that comprises both targeted vertebral and spinal levels to be treated, wherein the spinal levels comprise at least one dorsal root ganglion. A spinal treatment procedure is performed generally in combination with implantation of a neuromodulation system that may comprise placement of electrical lead(s) on the at least one dorsal root ganglion, wherein each lead is in operative connection with a pulse generator that may also be implanted during the surgical method. Electrical stimulation may be generated with the pulse generator through the electrical leads to the at least one dorsal root ganglion during and/or after the closure of the identified spinal treatment site.
    Type: Grant
    Filed: April 28, 2020
    Date of Patent: October 18, 2022
    Assignee: SynerFuse, Inc.
    Inventors: Gregory F. Molnar, Christopher G. Frank, Justin D. Zenanko, Beth A. Lindborg, Nazmi Peyman, Kyle Grube, Michael Park, Matthew Hunt, Kathy Hill
  • Publication number: 20220161026
    Abstract: The present invention provides a single surgical method, procedure and/or system that creates open visual and physical access to an identified spinal treatment site that initially comprises spinal levels to be treated, wherein the spinal levels comprise at least one dorsal root ganglion. A spinal treatment procedure is performed generally in combination with implantation of a neuromodulation system that may comprise placement of electrical lead(s) on the at least one dorsal root ganglion, wherein each lead is in operative connection with a pulse generator that may also be implanted during the surgical method. Electrical stimulation may be generated with the pulse generator through the electrical leads to the at least one dorsal root ganglion during and/or after the closure of the identified spinal treatment site.
    Type: Application
    Filed: February 10, 2022
    Publication date: May 26, 2022
    Inventors: Gregory F. Molnar, Christopher G. Frank, Justin D. Zenanko, Beth A. Lindborg, Nazmi Peyman, Kyle Grube, Michael Park, Matthew Hunt, Kathy Hill
  • Patent number: 11247046
    Abstract: The present invention provides a single surgical method, procedure and/or system that creates open visual and physical access to an identified spinal treatment site that initially comprises spinal levels to be treated, wherein the spinal levels comprise at least one dorsal root ganglion. A spinal treatment procedure is performed generally in combination with implantation of a neuromodulation system that may comprise placement of electrical lead(s) on the at least one dorsal root ganglion, wherein each lead is in operative connection with a pulse generator that may also be implanted during the surgical method. Electrical stimulation may be generated with the pulse generator through the electrical leads to the at least one dorsal root ganglion during and/or after the closure of the identified spinal treatment site.
    Type: Grant
    Filed: July 23, 2019
    Date of Patent: February 15, 2022
    Assignee: SynerFuse, Inc.
    Inventors: Gregory F. Molnar, Christopher G. Frank, Justin D. Zenanko, Beth A. Lindborg, Nazmi Peyman, Kyle Grube, Michael Park, Matthew Hunt, Kathy Hill
  • Publication number: 20210093855
    Abstract: The present invention provides various embodiments of neuromodulation systems, and improvements thereof, capable of being implanted at a spinal treatment site and capable of being implanted at the same time and/or in combination with a spinal procedure being performed at the spinal treatment site. The present invention further includes improvements in the number and types of neuromodulation therapies that can be implanted at the spinal treatment site and improvements to the neuromodulation systems used for delivering such neuromodulation therapies.
    Type: Application
    Filed: November 23, 2020
    Publication date: April 1, 2021
    Inventors: Gregory F. Molnar, Nazmi Peyman, Beth A. Lindborg, Kathleen W. Hill, Kyle R. Grube, Michael C. Park, Matthew A. Hunt, Justin D. Zenanko, Susan Alpert
  • Publication number: 20210093875
    Abstract: The present invention comprises implantable neuromodulation systems and methods comprising a protective pouch that at least partially encases an implantable pulse generator prior to implanting in a patient and is adapted to be secured within the surgical site. The pouch may be secured to a pedicle screw and/or a fixation rod, or to a vertebral body.
    Type: Application
    Filed: November 23, 2020
    Publication date: April 1, 2021
    Inventors: Gregory F. Molnar, Nazmi Peyman, Justin D. Zenanko, Beth A. Lindborg, Kathleen W. Hill, Kyle R. Grube, Michael C. Park, Matthew A. Hunt
  • Publication number: 20210069500
    Abstract: The present invention provides various embodiments of neuromodulation systems, and improvements thereof, capable of being implanted at a spinal treatment site and capable of being implanted at the same time and/or in combination with a spinal procedure being performed at the spinal treatment site. The present invention further includes improvements in the number and types of neuromodulation therapies that can be implanted at the spinal treatment site and improvements to the neuromodulation systems used for delivering such neuromodulation therapies.
    Type: Application
    Filed: November 23, 2020
    Publication date: March 11, 2021
    Inventors: Gregory F. Molnar, Nazmi Peyman, Beth A. Lindborg, Kathleen W. Hill, Kyle R. Grube, Michael C. Park, Matthew A. Hunt, Justin D. Zenanko, Susan Alpert
  • Publication number: 20210069499
    Abstract: The present invention provides a single surgical method, procedure and/or system that creates open direct visual and/or physical access to an identified spinal treatment site that initially comprises spinal levels to be treated, wherein the spinal levels include at least one dorsal root ganglion. A spinal treatment procedure is performed generally in combination with implantation of a neuromodulation system that may comprise placement of electrical lead(s) on the at least one dorsal root ganglion, wherein each lead is in operative connection with a pulse generator that may also be implanted during the surgical method. Electrical stimulation may be generated with the low-profile pulse generator through the electrical leads to the at least one dorsal root ganglion during and/or after the closure of the identified spinal treatment site.
    Type: Application
    Filed: November 3, 2020
    Publication date: March 11, 2021
    Inventors: Gregory F. Molnar, Christopher G. Frank, Justin D. Zenanko, Beth A. Lindborg, Nazmi Peyman, Kyle Grube, Michael Park, Matthew Hunt, Kathy Hill
  • Publication number: 20210069501
    Abstract: The present invention provides various embodiments of neuromodulation systems, and improvements thereof, capable of being implanted at a spinal treatment site and capable of being implanted at the same time and/or in combination with a spinal procedure being performed at the spinal treatment site. The present invention further includes improvements in the number and types of neuromodulation therapies that can be implanted at the spinal treatment site and improvements to the neuromodulation systems used for delivering such neuromodulation therapies.
    Type: Application
    Filed: November 23, 2020
    Publication date: March 11, 2021
    Inventors: Gregory F. Molnar, Nazmi Peyman, Beth A. Lindborg, Kathleen W. Hill, Kyle R. Grube, Michael C. Park, Matthew A. Hunt, Justin D. Zenanko, Susan Alpert
  • Publication number: 20210024973
    Abstract: A method of using microfluidic chips to significantly accelerate the time to identify and quantify microbes in a biological sample and test them for antibiotic resistance, particularly for urinary tract infections. A first microfluidic chip uses antibody or similar probes to identify and quantify any microbes present. The same or a similar chip uses antibody or similar probes to identify microbes with DNA or RNA known to indicate antibiotic resistance. Another microfluidic chip tests for antibiotic susceptibility of any microbes by growing them in very small wells in the presence of antibiotics, reducing the time required for such testing by as much as 95%. Another microfluidic chip runs traditional urinalysis or similar tests.
    Type: Application
    Filed: July 23, 2020
    Publication date: January 28, 2021
    Applicant: Urinary Technologies, Inc.
    Inventors: Michael D. FINCH, Kee Onn FONG, Saurabh KOTIAN, Cyrus B. MUNSHI, Advitiya MAHAJAN, Beth A. LINDBORG
  • Publication number: 20210023361
    Abstract: The present invention provides a single surgical method, procedure and/or system that creates open direct visual and/or physical access to an identified spinal treatment site that comprises both targeted vertebral and spinal levels to be treated, wherein the spinal levels comprise at least one dorsal root ganglion. A spinal treatment procedure may be performed generally in combination with implantation of a neuromodulation system that may comprise placement of electrical lead(s) on the at least one dorsal root ganglion, wherein each lead is in operative connection with a pulse generator that may also be implanted during the surgical method. Electrical stimulation may be generated with the pulse generator through the electrical leads to the at least one dorsal root ganglion during and/or after the closure of the identified spinal treatment site.
    Type: Application
    Filed: October 5, 2020
    Publication date: January 28, 2021
    Inventors: Gregory F. Molnar, Christopher G. Frank, Justin D. Zenanko, Beth A. Lindborg, Nazmi Peyman, Kyle Grube, Michael Park, Matthew Hunt, Kathy Hill
  • Publication number: 20210016082
    Abstract: The present invention provides a single surgical method, procedure and/or system that creates open visual and physical access to an identified spinal treatment site that initially comprises spinal levels to be treated, wherein the spinal levels comprise at least one targeted dorsal root ganglion. A spinal treatment procedure is performed generally in combination with implantation of a neuromodulation system that may comprise placement of electrodes located on leads, the electrodes placed on separate ones of the at least one targeted dorsal root ganglion, wherein each lead is in operative connection with a pulse generator that may also be implanted during the surgical method. Placement of each electrode is facilitated by direct visual and/or direct physical access to the targeted dorsal root ganglion.
    Type: Application
    Filed: October 5, 2020
    Publication date: January 21, 2021
    Inventors: Gregory F. Molnar, Christopher G. Frank, Justin D. Zenanko, Beth A. Lindborg, Nazmi Peyman, Kyle Grube, Michael Park, Matthew Hunt, Kathy Hill
  • Publication number: 20200254237
    Abstract: The present invention provides a single surgical method, procedure and/or system that creates open visual and physical access to an identified spinal treatment site that comprises both targeted vertebral and spinal levels to be treated, wherein the spinal levels comprise at least one dorsal root ganglion. A spinal treatment procedure is performed generally in combination with implantation of a neuromodulation system that may comprise placement of electrical lead(s) on the at least one dorsal root ganglion, wherein each lead is in operative connection with a pulse generator that may also be implanted during the surgical method. Electrical stimulation may be generated with the pulse generator through the electrical leads to the at least one dorsal root ganglion during and/or after the closure of the identified spinal treatment site.
    Type: Application
    Filed: April 28, 2020
    Publication date: August 13, 2020
    Inventors: Gregory F. Molnar, Christopher G. Frank, Justin D. Zenanko, Beth A. Lindborg, Nazmi Peyman, Kyle Grube, Michael Park, Matthew Hunt, Kathy Hill
  • Patent number: 10738342
    Abstract: Several microfluidic chips are used to significantly accelerate the time to identify and quantify microbes in a biological sample and test them for antibiotic resistance, particularly for urinary tract infections. A first microfluidic chip uses antibody or similar probes to identify and quantify any microbes present. The same or a similar chip uses antibody or similar probes to identify microbes with DNA or RNA known to indicate antibiotic resistance. Another microfluidic chip tests for antibiotic susceptibility of any microbes by growing them in very small wells in the presence of antibiotics, reducing the time required for such testing by as much as 95%. Another microfluidic chip runs traditional urinalysis or similar tests.
    Type: Grant
    Filed: August 26, 2019
    Date of Patent: August 11, 2020
    Assignee: Urinary Technologies, Inc.
    Inventors: Michael D. Finch, Kee Onn Fong, Saurabh Kotian, Cyrus B. Munshi, Advitiya Mahajan, Beth A. Lindborg