Patents by Inventor Mark Davison
Mark Davison 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: 11857283Abstract: A surgical instrument and method of operating same includes an end effector and a shaft assembly. The shaft assembly has proximal and distal shaft portions respectively extending along proximal and distal axes, a first elongate member, and an articulation section. The articulation section extends between the proximal and distal shaft portions and is configured to articulate about a first articulation axis and about a second articulation axis to thereby respectively deflect the end effector along a first plane and a second plane. The articulation section has a first lumen radially offset from the proximal and distal axes that longitudinally intersects the first and second articulation axes. The first lumen movably supports the first elongate member such that the radial spacing of the first elongate member is maintained relative to the proximal and distal axes at each of the first and second articulation axes during deflection of the end effector.Type: GrantFiled: September 23, 2020Date of Patent: January 2, 2024Assignee: Cilag GmbH InternationalInventors: Mark A. Davison, Jason A. Hill, William G. Saulenas, Christopher W. Birri, Thomas J. Erb
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Patent number: 11786289Abstract: An apparatus includes a body, a shaft assembly, and an end effector. The end effector includes an ultrasonic blade and a clamp arm assembly. The ultrasonic blade is in acoustic communication with an acoustic waveguide of the shaft assembly. The clamp arm assembly is pivotable toward and away from the ultrasonic blade. The clamp arm assembly includes a first electrode and a second electrode. The first and second electrodes are operable to cooperate to apply bipolar RF energy to tissue.Type: GrantFiled: March 31, 2020Date of Patent: October 17, 2023Assignee: Cilag GmbH InternationalInventors: Jason R. Lesko, Catherine A. Corbett, William B. Weisenburgh, II, Barry C. Worrell, Mark A. Davison, Chad P. Boudreaux, Nathan Cummings, Ellen Burkart, William D. Dannaher, Christina M. Hough, Craig N. Faller, Adam N. Brown, Jeffrey D. Messerly, Kai Chen, William E. Clem
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Patent number: 11642163Abstract: Methods and devices for controlling motorized surgical devices are provided. In general, the methods and devices can allow a surgical device to grasp and cut tissue. In some embodiments, the device can include at least one sensor and a motor, and an output of the motor can be configured to be adjusted based at least in part on an output from the at least one sensor. The output of the motor can be configured to provide power for translation of a cutting element along an end effector of the device. Adjusting the motor's output can cause the cutting element to translate through the end effector at different speeds, thereby allowing the cutting element to cut through tissue being grasped by the end effector at different speeds.Type: GrantFiled: April 27, 2018Date of Patent: May 9, 2023Assignee: Cilag GmbH InternationalInventors: Gregory A. Trees, Chad P. Boudreaux, Matthew C. Miller, Mark A. Davison, David C. Yates, John A. Hibner, Jill A. Inkrott-Smith
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Publication number: 20230027481Abstract: An end effector of an electrosurgical device may include a discharge port, an aspiration port, two electrodes, and a diverter formed from a porous material. The diverter includes a matrix having voids to receive fluid from the discharge port. A releasable diverter assembly may include an assembly body configured to receive a pair of electrodes and a diverter composed of a porous material. A shaft assembly of an electrosurgical device may include two electrodes and two fluid cannulae. Each cannula may be disposed proximate to a surface of each of the electrodes. An end effector of an electrosurgical device may include a fluid discharge port, two electrodes, and a diverter disposed therebetween. A proximal edge of the diverter may form a secant line with respect to the end of the discharge port so that fluid emitted by the discharge port is disposed on a surface of the diverter.Type: ApplicationFiled: October 5, 2022Publication date: January 26, 2023Inventors: Mark A. Davison, Craig T. Davis, Jeffrey W. Bullock, Mark E. Tebbe, Shan Wan, Jeffrey L. Aldridge, Ryan M. Asher, Kristen G. Denzinger, Monica L. Z. Rivard, Kevin A. Bash, Eric M. Roberson
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Publication number: 20220395317Abstract: An apparatus includes a shaft assembly and an end effector. The shaft assembly includes an outer sheath, at least one irrigation conduit, and at least one suction conduit. The end effector includes a first electrode, a second electrode, and a web. The electrodes extend distally relative to a distal end of the outer sheath. The electrodes are operable to apply bipolar RF energy to tissue. The web extends laterally between the first and second electrodes. The web is positioned distal to the distal end of the outer sheath.Type: ApplicationFiled: June 23, 2022Publication date: December 15, 2022Inventors: Mark A. Davison, Mark E. Tebbe, Kristen G. Denzinger, Ryan M. Asher, Craig T. Davis, Kevin Bash, Eric Roberson, John E. Brady, Jeffrey A. Bullock, Jeffrey L. Aldridge, Monica L. Zeckel, Shan Wan, Kristen L. D'Uva
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Patent number: 11490951Abstract: An end effector of an electrosurgical device may include a discharge port, an aspiration port, two electrodes, and a diverter formed from a porous material. The diverter includes a matrix having voids to receive fluid from the discharge port. A releasable diverter assembly may include an assembly body configured to receive a pair of electrodes and a diverter composed of a porous material. A shaft assembly of an electrosurgical device may include two electrodes and two fluid cannulae. Each cannula may be disposed proximate to a surface of each of the electrodes. An end effector of an electrosurgical device may include a fluid discharge port, two electrodes, and a diverter disposed therebetween. A proximal edge of the diverter may form a secant line with respect to the end of the discharge port so that fluid emitted by the discharge port is disposed on a surface of the diverter.Type: GrantFiled: September 29, 2017Date of Patent: November 8, 2022Assignee: Cilag GmbH InternationalInventors: Mark A. Davison, Craig T. Davis, Jeffrey W. Bullock, Mark E. Tebbe, Shan Wan, Jeffrey L. Aldridge, Ryan M. Asher, Kristen G. Denzinger, Monica L. Rivard, Kevin A. Bash, Eric M. Roberson
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Publication number: 20220346863Abstract: Aspects of the present disclosure are presented for a medical instrument configured to adjust the power level for sealing procedures to account for changes in tissue impedance levels over time. In some aspects, a medical instrument may be configured to apply power according to a power algorithm to seal tissue by applying a gradually lower amount of power over to time as the tissue impedance level begins to rise out of the “bathtub region,” which is the time period during energy application where the tissue impedance is low enough for electrosurgical energy to be effective for sealing tissue. In some aspects, the power is then cut once the tissue impedance level exceeds the “bathtub region.” By gradually reducing the power, a balance is achieved between still applying an effective level of power for sealing and prolonging the time in which the tissue impedance remains in the “bathtub region.Type: ApplicationFiled: May 23, 2022Publication date: November 3, 2022Inventors: David C. Yates, Amy M. Krumm, Mark A. Davison
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Patent number: 11471209Abstract: Various embodiments are directed to an electrosurgical system including an end effector, a jaw closure trigger, and a control circuit. The end effector includes a first jaw and a second jaw. The control circuit is configured to receive an input indicating a repeat mode, apply a first tissue bite algorithm to a first electrode and a second electrode based on an occurrence of a first tissue bite, enter a hold state at a termination of the first tissue bite algorithm, and determine an occurrence of a second tissue bite. The first tissue bite is based on the second jaw moving toward a closed configuration via the jaw closure trigger. Entering the hold state includes maintaining a sub-therapeutic signal. Determining the occurrence of the second tissue bite includes sensing a reduction in impedance between the first electrode and the second electrode via the sub-therapeutic signal.Type: GrantFiled: July 8, 2019Date of Patent: October 18, 2022Assignee: Cilag GmbH InternationalInventors: David C. Yates, Jeffrey D. Messerly, Mark A. Davison
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Patent number: 11413087Abstract: An apparatus includes a shaft assembly and an end effector. The shaft assembly includes an outer sheath, at least one irrigation conduit, and at least one suction conduit. The end effector includes a first electrode, a second electrode, and a web. The electrodes extend distally relative to a distal end of the outer sheath. The electrodes are operable to apply bipolar RF energy to tissue. The web extends laterally between the first and second electrodes. The web is positioned distal to the distal end of the outer sheath.Type: GrantFiled: August 31, 2017Date of Patent: August 16, 2022Assignee: Cilag GmbH InternationalInventors: Mark A. Davison, Mark E. Tebbe, Kristen G. Denzinger, Ryan M. Asher, Craig T. Davis, Kevin Bash, Eric Roberson, John E. Brady, Jeffrey A. Bullock, Jeffrey L. Aldridge, Monica L. Zeckel, Shan Wan, Kristen L. D'Uva
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Patent number: 11406442Abstract: An articulable wrist for an end effector includes a distal linkage provided at a distal end of the articulable wrist, a proximal linkage provided at a proximal end of the articulable wrist, and a central channel cooperatively defined by the distal and proximal linkages and extending between the distal and proximal ends. A flexible member is arranged within the central channel and has a first end operatively coupled to the distal linkage and a second end axially movable relative to the proximal linkage. One or more conduits are defined in the flexible member to receive one or more central actuation members extending through the flexible member.Type: GrantFiled: November 5, 2018Date of Patent: August 9, 2022Assignee: CILAG GMBH INTERNATIONALInventors: Mark A. Davison, Christopher W. Birri, William George Saulenas, Jalen Lee Wize
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Publication number: 20220168039Abstract: The disclosure provides a method of manufacturing a flexible circuit electrode assembly and an apparatus manufactured by said method. According to the method, an electrically conductive sheet is laminated to an electrically insulative sheet. An electrode is formed on the electrically conductive sheet. An electrically insulative layer is formed on a tissue contacting surface of the electrode. The individual electrodes are separated from the laminated electrically insulative sheet and the electrically conductive sheet. In another method, a flexible circuit is vacuum formed to create a desired profile. The vacuum formed flexible circuit is trimmed. The trimmed vacuum formed flexible circuit is attached to a jaw member of a clamp jaw assembly.Type: ApplicationFiled: December 13, 2021Publication date: June 2, 2022Inventors: Barry C. Worrell, David C. Yates, Joseph D. Dennis, Mark A. Davison, Geoffrey S. Strobl
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Patent number: 11344362Abstract: Aspects of the present disclosure are presented for a medical instrument configured to adjust the power level for sealing procedures to account for changes in tissue impedance levels over time. In some aspects, a medical instrument may be configured to apply power according to a power algorithm to seal tissue by applying a gradually lower amount of power over to time as the tissue impedance level begins to rise out of the “bathtub region,” which is the time period during energy application where the tissue impedance is low enough for electrosurgical energy to be effective for sealing tissue. In some aspects, the power is then cut once the tissue impedance level exceeds the “bathtub region.” By gradually reducing the power, a balance is achieved between still applying an effective level of power for sealing and prolonging the time in which the tissue impedance remains in the “bathtub region.Type: GrantFiled: August 5, 2019Date of Patent: May 31, 2022Assignee: Cilag GmbH InternationalInventors: David C. Yates, Amy M. Krumm, Mark A. Davison
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Patent number: 11337747Abstract: A system for use with a surgical instrument includes an end effector, a memory circuit to store computer-executable instructions, and a processor. The end effector comprises a cutting member and a load cell sensor configured to sense a measure of force used to advance the cutting member through captured tissue. The processor is configured to execute the computer-executable instructions to initiate a first treatment cycle, access the measure of force used during the first treatment cycle to advance the cutting member through the captured tissue, determine that the measure of force exceeds a predetermined threshold, and generate an alert to a user of the surgical instrument based on the determination that a value of the measure of force exceeds the predetermined threshold. The predetermined threshold is based on an accumulation of biological material on the cutting member and a normal operational parameter of the first treatment cycle.Type: GrantFiled: March 8, 2018Date of Patent: May 24, 2022Assignee: Cilag GmbH InternationalInventors: Aaron C. Voegele, Phillip H. Clauda, Kevin L. Houser, Robert A. Kemerling, Mark A. Davison, Gregory A. Trees
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Patent number: 11278346Abstract: A surgical instrument is disclosed. The surgical instrument includes a circuit configured to deliver RF energy to a cartridge disposed in an end effector configured to receive the cartridge, a closure mechanism configured to transition the end effector between an open position and a closed position, a display, and a control circuit operably coupled to the display. The control circuit configured to determine an amount of RF energy delivered to a tissue through the cartridge, display the amount of RF energy on the display, determine a position of the closure mechanism, and display the position of the closure mechanism on the display.Type: GrantFiled: June 28, 2017Date of Patent: March 22, 2022Assignee: Cilag GmbH InternationalInventors: Jeffrey D. Messerly, David C. Yates, Mark A. Davison, Jason L. Harris, Frederick E. Shelton, IV
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Publication number: 20220039861Abstract: An end effector of an instrument is positioned in a patient. An ultrasonic blade of the end effector is positioned against tissue in the patient. The ultrasonic blade is activated to vibrate ultrasonically while the ultrasonic blade is positioned against tissue. At least one electrode of the end effector is positioned against tissue in the patient. The at least one electrode is activated to apply RF electrosurgical energy to tissue against which the at least one electrode is positioned against tissue.Type: ApplicationFiled: August 24, 2021Publication date: February 10, 2022Inventors: Gregory W. Johnson, Jason R. Lesko, Frederick L. Estera, Amy M. Krumm, Catherine A. Corbett, William B. Weisenburgh, II, Barry C. Worrell, Mark A. Davison, Chad P. Boudreaux, John A. Hibner, Nathan Cummings, Ellen Burkart, William D. Dannaher, Christina M. Hough, Joseph Isosaki, Craig N. Faller, Shan Wan, Adam N. Brown, Candice Otrembiak, Eitan T. Wiener, Jeffrey D. Messerly, Kai Chen, Matthew C. Miller, William E. Clem
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Publication number: 20220039858Abstract: An apparatus includes a body, a shaft assembly, and an end effector. The end effector includes an ultrasonic blade and a clamp arm assembly. The ultrasonic blade is in acoustic communication with an acoustic waveguide of the shaft assembly. The clamp arm assembly is pivotable toward and away from the ultrasonic blade. The clamp arm assembly includes a clamp pad and an electrode. The clamp pad is configured to compress tissue against the ultrasonic blade. The clamp pad has a proximal end, a distal end, and a pair of lateral sides extending from the proximal end to the distal end. The electrode is operable to apply RF energy to tissue. The electrode extends along both lateral sides of the clamp pad. The electrode further extends around the distal end of the clamp pad.Type: ApplicationFiled: August 24, 2021Publication date: February 10, 2022Inventors: Gregory W. Johnson, Jason R. Lesko, Frederick L. Estera, Amy M. Krumm, Catherine A. Corbett, William B. Weisenburgh, II, Barry C. Worrell, Mark A. Davison, Chad P. Boudreaux, John A. Hibner, Joseph Isosaki, Shan Wan, Candice Otrembiak, Eitan T. Wiener, Jeffrey D. Messerly, Matthew C. Miller
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Publication number: 20220008120Abstract: An apparatus includes a shaft assembly and an end effector, which includes first and second jaws pivotably coupled together. The first jaw includes a first jaw body and a first electrode surface. The second jaw includes a second jaw body and an electrode assembly, which includes a distal end pivotably supported by the distal end of the second jaw body. The electrode assembly further includes a second electrode surface positioned to face the first electrode surface when the first and second jaws are placed in a closed configuration. The first and second electrode surfaces are operable to apply RF energy to tissue. The electrode assembly further includes at least one compressible member interposed between the second electrode surface and the second jaw body. The at least one compressible is being configured to urge a proximal region of the second electrode surface toward a corresponding region of the first electrode surface.Type: ApplicationFiled: July 9, 2021Publication date: January 13, 2022Inventors: Chad P. Boudreaux, Barry C. Worrell, Mark A. Davison
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Patent number: 11202670Abstract: The disclosure provides a method of manufacturing a flexible circuit electrode assembly and an apparatus manufactured by said method. According to the method, an electrically conductive sheet is laminated to an electrically insulative sheet. An electrode is formed on the electrically conductive sheet. An electrically insulative layer is formed on a tissue contacting surface of the electrode. The individual electrodes are separated from the laminated electrically insulative sheet and the electrically conductive sheet. In another method, a flexible circuit is vacuum formed to create a desired profile. The vacuum formed flexible circuit is trimmed. The trimmed vacuum formed flexible circuit is attached to a jaw member of a clamp jaw assembly.Type: GrantFiled: December 16, 2019Date of Patent: December 21, 2021Assignee: Cilag GmbH InternationalInventors: Barry C. Worrell, David C. Yates, Joseph D. Dennis, Mark A. Davison
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Patent number: 11160604Abstract: An electrosurgical device is disclosed. The electrosurgical device includes a cartridge configured to be disposed within an elongate channel of an end effector. The cartridge includes an electrode having a plurality of electrode portions disposed along a longitudinal axis of the cartridge. The electrode is configured to electrically couple to a generator. Each electrode portion of the plurality of electrode portions is configured to deliver an amount of energy to a tissue placed proximate thereto. An amount of energy delivered by a first electrode portion of the plurality of electrode portions differs from an amount of energy delivered by a second electrode portion of the plurality of electrode portions.Type: GrantFiled: June 28, 2017Date of Patent: November 2, 2021Assignee: Cilag GmbH InternationalInventors: Frederick E. Shelton, IV, David C. Yates, Mark A. Davison, Jason L. Harris
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Patent number: 11141231Abstract: A method includes advancing an end effector of a surgical tool to a surgical site, setting a desired force vector to be assumed on the end effector during actuation of the end effector, engaging tissue at the surgical site with the end effector and calculating a force vector assumed on the end effector, and maneuvering the end effector to obtain the desired force vector.Type: GrantFiled: December 13, 2018Date of Patent: October 12, 2021Assignee: Cilag GmbH InternationalInventors: Mark D. Overmyer, Sol A. Posada, Joshua D. Young, Mark A. Davison, Christopher A. Denzinger