Patents by Inventor Tyler W. Crone
Tyler W. Crone 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: 11813031Abstract: A system for delivering energy to a patient's body includes a plurality of probes, a touch-sensitive display screen, and a controller communicatively coupled to each of the probes and the display screen. The controller is configured to perform operations including displaying a plurality of dynamically sized channel control regions within a user interface of the touch-sensitive display screen. Each of the plurality of channel control regions corresponds with at least one of the plurality of probes and is sized based at least in part on a number of the plurality of probes. The operations can include detecting a user touch action directed to a user-selected channel control region of the plurality of dynamically sized channel control regions. The operations can include performing a control action associated with the probe(s) that correspond with the user-selected channel control region when the user touch action is detected.Type: GrantFiled: March 2, 2023Date of Patent: November 14, 2023Assignee: Avent, Inc.Inventors: Joseph A. Cesa, Lisa M. McGregor, Jennifer J. Barrett, Tyler W. Crone, Lee W. Rhein, Christopher W. Thurrott, Morgan Rudolph, Scott Woodruff
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Patent number: 11737819Abstract: A system for delivering energy to a patient's body is disclosed that includes a plurality of probes, a touch-sensitive display screen, and a controller communicatively coupled to each of the probes and the display screen. The controller is configured to perform operations including displaying a virtual control object in the user interface of the touch-sensitive display screen that is associated with an operating parameter of a treatment procedure performed with the probe. The controller is configured to adjust the operating parameter when a user touch action is directed to the virtual control object. The controller is configured to convert the virtual control object into a non-control label based, at least in part, on a current status of the treatment procedure. The controller is configured to prohibit adjustment of the operating parameter using the non-control label in response to a user touch action that is directed to the non-control label.Type: GrantFiled: May 20, 2019Date of Patent: August 29, 2023Assignee: Avent, Inc.Inventors: Joseph A. Cesa, Lisa M. McGregor, Jennifer J. Barrett, Tyler W. Crone, Lee W. Rhein, Christopher W. Thurrott, Morgan Rudolph, Scott Woodruff
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Publication number: 20230200919Abstract: A system for delivering energy to a patient's body includes a plurality of probes, a touch-sensitive display screen, and a controller communicatively coupled to each of the probes and the display screen. The controller is configured to perform operations including displaying a plurality of dynamically sized channel control regions within a user interface of the touch-sensitive display screen. Each of the plurality of channel control regions corresponds with at least one of the plurality of probes and is sized based at least in part on a number of the plurality of probes. The operations can include detecting a user touch action directed to a user-selected channel control region of the plurality of dynamically sized channel control regions. The operations can include performing a control action associated with the probe(s) that correspond with the user-selected channel control region when the user touch action is detected.Type: ApplicationFiled: March 2, 2023Publication date: June 29, 2023Inventors: Joseph A. Cesa, Lisa M. McGregor, Jennifer J. Barrett, Tyler W. Crone, Lee W. Rhein, Christopher W. Thurrott, Morgan Rudolph, Scott Woodruff
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Patent number: 11622820Abstract: A system for delivering energy to a patient's body includes a plurality of probes, a touch-sensitive display screen, and a controller communicatively coupled to each of the probes and the display screen. The controller is configured to perform operations including displaying a plurality of dynamically sized channel control regions within a user interface of the touch-sensitive display screen. Each of the plurality of channel control regions corresponds with at least one of the plurality of probes and is sized based at least in part on a number of the plurality of probes. The operations can include detecting a user touch action directed to a user-selected channel control region of the plurality of dynamically sized channel control regions. The operations can include performing a control action associated with the probe(s) that correspond with the user-selected channel control region when the user touch action is detected.Type: GrantFiled: May 13, 2022Date of Patent: April 11, 2023Assignee: Avent, Inc.Inventors: Joseph A. Cesa, Lisa M. McGregor, Jennifer J. Barrett, Tyler W. Crone, Lee W. Rhein, Christopher W. Thurrott, Morgan Rudolph, Scott Woodruff
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Publication number: 20220338941Abstract: A system for delivering energy to a patient's body includes a plurality of probes, a touch-sensitive display screen, and a controller communicatively coupled to each of the probes and the display screen. The controller is configured to perform operations including displaying a plurality of dynamically sized channel control regions within a user interface of the touch-sensitive display screen. Each of the plurality of channel control regions corresponds with at least one of the plurality of probes and is sized based at least in part on a number of the plurality of probes. The operations can include detecting a user touch action directed to a user-selected channel control region of the plurality of dynamically sized channel control regions. The operations can include performing a control action associated with the probe(s) that correspond with the user-selected channel control region when the user touch action is detected.Type: ApplicationFiled: May 13, 2022Publication date: October 27, 2022Inventors: Joseph A. Cesa, Lisa M. McGregor, Jennifer J. Barrett, Tyler W. Crone, Lee W. Rhein, Christopher W. Thurrott, Morgan Rudolph, Scott Woodruff
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Patent number: 11331152Abstract: A system for delivering energy to a patient's body is disclosed that includes a plurality of probes, a touch-sensitive display screen, and a controller communicatively coupled to each of the probes and the display screen. The controller is configured to perform operations including displaying a plurality of dynamically sized channel control regions within a user interface of the touch-sensitive display screen. Each of the plurality of channel control regions corresponds with at least one of the plurality of probes and is sized based at least in part on a number of the plurality of probes. The operations can include detecting a user touch action directed to a user-selected channel control region of the plurality of dynamically sized channel control regions. The operations can include performing a control action associated with the probe(s) that correspond with the user-selected channel control region when the user touch action is detected.Type: GrantFiled: May 20, 2019Date of Patent: May 17, 2022Assignee: Avent, Inc.Inventors: Joseph A. Cesa, Lisa M. McGregor, Jennifer J. Barrett, Tyler W. Crone, Lee W. Rhein, Christopher W. Thurrott, Morgan Rudolph, Scott Woodruff
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Publication number: 20210393315Abstract: A system for delivering energy to a patient's body includes a plurality of probes for delivering at least one of electrical or radiofrequency energy to the patient's body and a controller communicatively coupled to the plurality of probes and configured to present a display including a collapsible control panel that overlays a plurality of independent control panels each indicating one or more real-time operating parameters associated with the plurality of probes. The collapsible control panel includes a first graphical element for starting a treatment procedure for all of the plurality of probes simultaneously and a second graphical element that, when selected by the user, causes the display to dynamically update by closing the collapsible control panel to present third graphical elements in each of the plurality of independent control panels, the third graphical elements configured to start an individual treatment procedure for an associated one of the plurality of probes.Type: ApplicationFiled: September 3, 2021Publication date: December 23, 2021Inventors: Lisa M. McGregor, Lee Rhein, Tyler W. Crone, Joseph A. Cesa
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Patent number: 11135003Abstract: A system and method for delivering energy to a patient's body includes a plurality of probes each having an elongate member with a distal region having an electrically non-conductive outer circumferential portion and a proximal region. Each of the plurality of probes further includes an electrically conductive energy delivery device extending distally from the electrically non-conductive outer circumferential portion for delivering one of electrical and radiofrequency energy to the patient's body. The energy delivery devices further include an electrically conductive outer circumferential surface. The system also includes at least one controller communicatively coupled to each of the plurality of probes. The controller includes a user interface having a control screen. The control screen includes an independent control module and a simultaneous control module that allows a user to select between independent control or simultaneous control of the plurality of probes.Type: GrantFiled: July 13, 2018Date of Patent: October 5, 2021Assignee: AVENT, INC.Inventors: Lisa M. McGregor, Lee Rhein, Tyler W. Crone, Joseph A. Cesa, Christopher W. Thurrott, Morgan Rudolph, Scott Woodruff
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Publication number: 20210236200Abstract: An ablation system for treating tissue in a patient's body includes an energy source, one or more probes connected to the energy source, and a controller communicatively coupled to one or more probes. Each of the probes includes an elongate member having a distal region with an electrically non-conductive outer circumferential portion and a proximal region. The probes further include an electrically conductive energy delivery device extending distally from the electrically non-conductive outer circumferential portion. The controller includes one or more processors and one or more memory devices. The one or more memory devices are configured to store computer-readable instructions that when executed by the one or more processors cause the one or more processors to perform operations that include detecting a number of probes connected to the energy source and allocating a portion of the predetermined power supply to each of the probes.Type: ApplicationFiled: April 19, 2021Publication date: August 5, 2021Inventors: Lisa M. McGregor, Lee Rhein, Tyler W. Crone, Jennifer J. Barrett
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Publication number: 20210169557Abstract: A system and method of treating tissue of a patient's body includes providing a power source coupled to at least one probe assembly. The probe assembly has at least one an elongate member with a distal region and a proximal region. The distal region has an electrically and thermally-conductive energy delivery device that includes one or more internal lumens and an electrically and thermally-conductive protrusion having a temperature sensing element. The method also includes inserting the energy delivery device into the patient's body. Further, the method includes routing the energy delivery device to the tissue of the patient's body. Moreover, the method includes simultaneously circulating the cooling fluid through the internal lumens via at least one pump assembly and delivering energy from the power source to the tissue through the energy delivery device.Type: ApplicationFiled: May 23, 2019Publication date: June 10, 2021Inventors: Ruoya Wang, Tyler W. Crone, Joseph DiPietro, Jennfer J. Barrett, Rasagnya M. Viswandha
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Publication number: 20210169555Abstract: A method for preparing a cooled radiofrequency probe for use to treat tissue of a patient's body includes providing a plurality of cooled radiofrequency probes. Each of the plurality of cooled radiofrequency probes includes an elongate member with a distal region and a proximal region. The distal regions each have an electrically and thermally-conductive energy delivery device for delivering one of electrical and radiofrequency energy to the patient's body. The electrically and thermally-conductive energy delivery devices each have one or more internal lumens for circulating a cooling fluid therethrough and an electrically and thermally-conductive protrusion having a temperature sensing element. The temperature sensing elements of each protrusion extends from a distal end of the energy delivery device. Further, each of the temperature sensing elements has a different length that extends from the distal end of the energy delivery device.Type: ApplicationFiled: May 28, 2019Publication date: June 10, 2021Inventors: Ruoya Wang, Tyler W. Crone, Joseph DiPietro, Jennifer J. Barrett, Rasagnya M. Viswanadha
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Publication number: 20210169556Abstract: A method of treating tissue of a patient's body includes providing a power source coupled to at least one probe assembly. The probe assembly includes an elongate member with a distal region and a proximal region. The distal region has an electrically and thermally-conductive energy delivery device for delivering one of electrical and radiofrequency energy to the patient's body. The electrically and thermally-conductive energy delivery device has one or more internal lumens for circulating a cooling fluid therethrough and an electrically and thermally-conductive protrusion having a temperature sensing element. The temperature sensing element extends from a distal end of the energy delivery device. The method includes inserting the energy delivery device of the at least one probe assembly into the patient's body. Further, the method includes routing the energy delivery device of the at least one probe assembly to the tissue of the patient's body.Type: ApplicationFiled: May 28, 2019Publication date: June 10, 2021Inventors: Ruoya Wang, Jennifer J. Barrett, Joseph DiPietro, Rasagnya M. Viswanadha, Tyler W. Crone
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Patent number: 10980599Abstract: An ablation system for treating tissue in a patient's body includes an energy source, one or more probes connected to the energy source, and a controller communicatively coupled to one or more probes. Each of the probes includes an elongate member having a distal region with an electrically non-conductive outer circumferential portion and a proximal region. The probes further include an electrically conductive energy delivery device extending distally from the electrically non-conductive outer circumferential portion. The controller includes one or more processors and one or more memory devices. The one or more memory devices are configured to store computer-readable instructions that when executed by the one or more processors cause the one or more processors to perform operations. More specifically, the operations include detecting a number of probes connected to the energy source and allocating a portion of the predetermined power supply to each of the probes based on the number of probes detected.Type: GrantFiled: July 5, 2018Date of Patent: April 20, 2021Assignee: Avent, Inc.Inventors: Lisa M. McGregor, Lee Rhein, Tyler W. Crone, Jennifer J. Barrett
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Publication number: 20200367963Abstract: A system for delivering energy to a patient's body is disclosed that includes a plurality of probes, a touch-sensitive display screen, and a controller communicatively coupled to each of the probes and the display screen. The controller is configured to perform operations including displaying a virtual control object in the user interface of the touch-sensitive display screen that is associated with an operating parameter of a treatment procedure performed with the probe. The controller is configured to adjust the operating parameter when a user touch action is directed to the virtual control object. The controller is configured to convert the virtual control object into a non-control label based, at least in part, on a current status of the treatment procedure. The controller is configured to prohibit adjustment of the operating parameter using the non-control label in response to a user touch action that is directed to the non-control label.Type: ApplicationFiled: May 20, 2019Publication date: November 26, 2020Inventors: Joseph A. Cesa, Lisa M. McGregor, Jennifer J. Barrett, Tyler W. Crone, Lee W. Rhein, Christopher W. Thurrott, Morgan Rudolph, Scott Woodruff
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Publication number: 20200367975Abstract: A system for delivering energy to a patient's body is disclosed that includes a plurality of probes, a touch-sensitive display screen, and a controller communicatively coupled to each of the probes and the display screen. The controller is configured to perform operations including displaying a plurality of dynamically sized channel control regions within a user interface of the touch-sensitive display screen. Each of the plurality of channel control regions corresponds with at least one of the plurality of probes and is sized based at least in part on a number of the plurality of probes. The operations can include detecting a user touch action directed to a user-selected channel control region of the plurality of dynamically sized channel control regions. The operations can include performing a control action associated with the probe(s) that correspond with the user-selected channel control region when the user touch action is detected.Type: ApplicationFiled: May 20, 2019Publication date: November 26, 2020Inventors: Joseph A. Cesa, Lisa M. McGregor, Jennifer J. Barrett, Tyler W. Crone, Lee W. Rhein, Christopher W. Thurrott, Morgan Rudolph, Scott Woodruff
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Publication number: 20200188054Abstract: The present invention is directed to a system for delivering radiofrequency ablation energy to an area or volume of tissue. The system includes a wrap, where a stiffening element surrounds an opening in the wrap, where the stiffening element transfers radial compression to the area or volume of tissue, where the radial compression increases stability of the area or volume of tissue; and at least one radiofrequency ablation probe having an active electrode, where the at least one radiofrequency ablation probe is connected to a radiofrequency generator via a lead. A device that includes a wrap and a method of delivering radiofrequency ablation energy to a volume of tissue via the device are also described.Type: ApplicationFiled: June 14, 2018Publication date: June 18, 2020Inventors: Ruoya Wang, Rasagnya M. Viswanadha, Jennifer J. Barrett, Tyler W. Crone, Joseph DiPietro, Kun-Chi Wu
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Publication number: 20200015879Abstract: A system and method for delivering energy to a patient's body includes a plurality of probes each having an elongate member with a distal region having an electrically non-conductive outer circumferential portion and a proximal region. Each of the plurality of probes further includes an electrically conductive energy delivery device extending distally from the electrically non-conductive outer circumferential portion for delivering one of electrical and radiofrequency energy to the patient's body. The energy delivery devices further include an electrically conductive outer circumferential surface. The system also includes at least one controller communicatively coupled to each of the plurality of probes. The controller includes a user interface having a control screen. The control screen includes an independent control module and a simultaneous control module that allows a user to select between independent control or simultaneous control of the plurality of probes.Type: ApplicationFiled: July 13, 2018Publication date: January 16, 2020Inventors: Lisa M. McGregor, Lee Rhein, Tyler W. Crone, Joseph A. Cesa, Christopher W. Thurrott, Morgan Rudolph, Scott Woodruff
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Publication number: 20200008867Abstract: An ablation system for treating tissue in a patient's body includes an energy source, one or more probes connected to the energy source, and a controller communicatively coupled to one or more probes. Each of the probes includes an elongate member having a distal region with an electrically non-conductive outer circumferential portion and a proximal region. The probes further include an electrically conductive energy delivery device extending distally from the electrically non-conductive outer circumferential portion. The controller includes one or more processors and one or more memory devices. The one or more memory devices are configured to store computer-readable instructions that when executed by the one or more processors cause the one or more processors to perform operations. More specifically, the operations include detecting a number of probes connected to the energy source and allocating a portion of the predetermined power supply to each of the probes based on the number of probes detected.Type: ApplicationFiled: July 5, 2018Publication date: January 9, 2020Inventors: Lisa M. McGregor, Lee Rhein, Tyler W. Crone, Jennifer J. Barrett
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Patent number: D875255Type: GrantFiled: May 30, 2018Date of Patent: February 11, 2020Assignee: Avent, Inc.Inventors: Ruoya Wang, Jennifer J. Barrett, Tyler W. Crone, Craig F. Steinman, Kun-Chi Wu