Patents by Inventor Sora Rhee
Sora Rhee 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: 20170265856Abstract: A fastener cartridge can comprise a support portion, a tissue thickness compensator positioned relative to the support portion, and a plurality of fasteners positioned within the support portion and/or the tissue thickness compensator which can be utilized to fasten tissue. In use, the fastener cartridge can be positioned in a first jaw of a surgical fastening device, wherein a second jaw, or anvil, can be positioned opposite the first jaw. To deploy the fasteners, a staple-deploying member is advanced through the fastener cartridge to move the fasteners toward the anvil. As the fasteners are deployed, the fasteners can capture at least a portion of the tissue thickness compensator therein along with at least a portion of the tissue being fastened.Type: ApplicationFiled: March 30, 2017Publication date: September 21, 2017Inventors: Frederick E. Shelton, IV, Chester O. Baxter, III, Jeffrey S. Swayze, Jerome R. Morgan, Sora Rhee, Taylor W. Aronhalt
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Patent number: 9763690Abstract: A surgical instrument includes an ultrasonic transducer, a body, and a transducer carrier assembly. The ultrasonic transducer is operable to deliver energy through the surgical instrument to a surgical site. The body is operable to house the ultrasonic transducer. The transducer carrier assembly is in communication with the body and the ultrasonic transducer. The transducer carrier assembly is operable to enable the translation and/or the rotation of the ultrasonic transducer within the body.Type: GrantFiled: October 10, 2011Date of Patent: September 19, 2017Assignee: Ethicon LLCInventors: Kip M. Rupp, Sora Rhee, Samantha L. Sheets, Daniel J. Mumaw, Craig T. Davis
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Patent number: 9737735Abstract: Ultrasound surgical apparatus are disclosed, including: medical ultrasound handpieces with proximally mounted ultrasound radiators configured to create a distally-focused beam of ultrasound energy, in combination with distal guide members for control of focal point depth; medical ultrasound handpieces with proximally mounted ultrasound radiators configured to create a distally-focused beam of ultrasound energy, in combination with distal rolling members for manipulability and control of focal point depth; medical ultrasound handpiece assemblies with coupled end effectors providing a probe with a probe dilation region configured to have an average outside diameter that is equal to or greater than the average outside diameter of a probe tip and neck; as well as junctions to an ultrasonically inactive probe sheath; medical ultrasound handpiece assemblies with coupled end effectors having positionable, ultrasonically inactive probe sheath ends slidably operable to both cover and expose at least a probe tip; and uType: GrantFiled: January 18, 2013Date of Patent: August 22, 2017Assignee: ETHICON LLCInventors: Timothy G. Dietz, Foster B. Stulen, William A. Olson, William Dannaher, John Willis, Sora Rhee, Juergen Burger, Philippe Margairaz, Robert Lockhart, Franz Friedrich, Danik Brand, Herbert Keppner, Jean-Paul Sandoz
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Publication number: 20170196585Abstract: A surgical instrument comprises a body assembly and an end effector. The body assembly includes a control module, an orientation sensor communicatively coupled to the control module, and an energy component. The energy component is operable to activate the end effector at a plurality of energy settings. A storage device is communicatively coupled to the control module and includes a plurality of gesture profiles and corresponding energy settings. The control module is configured to set the energy setting of the energy component to a corresponding energy setting in response to a correlation between the output of the orientation sensor and a gesture profile. In some versions, the control module modifies the energy setting based upon output from a force sensor that measures the force on the end effector. The control module may also decrease the energy setting in response to an anomalous acceleration or deceleration detected by an accelerometer.Type: ApplicationFiled: January 31, 2017Publication date: July 13, 2017Inventors: Daniel W. Price, Sora Rhee, IV, Cory G. Kimball, Timothy G. Dietz, Ashvani K. Madan, Donna L. Korvick, Foster B. Stulen, Jeffrey D. Messerly, William E. Clem, Jacqueline C. Aronhalt, William D. Dannaher, John B. Schulte, Danius P. Silkaitis, Stephen J. Balek, Michael R. Lamping
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Publication number: 20170151708Abstract: Ultrasound surgical apparatus are disclosed, including: medical ultrasound handpieces with proximally mounted ultrasound radiators configured to create a distally-focused beam of ultrasound energy, in combination with distal guide members for control of focal point depth; medical ultrasound handpieces with proximally mounted ultrasound radiators configured to create a distally-focused beam of ultrasound energy, in combination with distal rolling members for manipulability and control of focal point depth; medical ultrasound handpiece assemblies with coupled end effectors providing a probe with a probe dilation region configured to have an average outside diameter that is equal to or greater than the average outside diameter of a probe tip and neck; as well as junctions to an ultrasonically inactive probe sheath; medical ultrasound handpiece assemblies with coupled end effectors having positionable, ultrasonically inactive probe sheath ends slidably operable to both cover and expose at least a probe tip; and uType: ApplicationFiled: February 16, 2017Publication date: June 1, 2017Inventors: Timothy G. Dietz, Foster B. Stulen, William A. Olson, William D. Dannaher, John W. Willis, Sora Rhee, Juergen Burger, Phillippe Margairaz, Robert Lockhart, Franz Friedrich, Danik Brand, Herbert Keppner, Jean-Paul Sandoz
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Publication number: 20170105757Abstract: Various example embodiments described herein are directed to articulating surgical instruments for treating tissue comprising an end effector and a shaft extending proximally from the end effector along a longitudinal axis. In certain embodiments, the shaft comprises a plurality of transverse spacer members as well as first and second rotatable members extending through at least a portion of the plurality of transverse spacer members. The first and second rotatable members may both be biased away from the longitudinal axis such that their respective directions of bias vary with rotation of the first rotatable member. When the respective directions of bias of the first and second rotatable members oppose one another, the shaft may be substantially straight. When the respective directions of bias of the first and second rotatable members are aligned with one another, the shaft may articulate away from the longitudinal axis in the direction of the alignment.Type: ApplicationFiled: December 29, 2016Publication date: April 20, 2017Inventors: Michael P. Weir, Joseph B. Kraimer, Frederick E. Shelton, IV, Stephen J. Balek, Zhifan F. Huang, Sora Rhee, Foster B. Stulen, Carl J. Draginoff, JR.
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Patent number: 9597143Abstract: A system includes a medical device and a charging device. A sterile barrier may be interposed between the medical device and the charging device. The medical device includes an integral power source and an active element. The charging device is configured to charge the integral power source. The charging device may charge the integral power source through direct contact between features of the charging device and features the medical device. The charging device may alternatively charge the integral power source wirelessly, such as through inductive coupling. The medical device may include conductive prongs that are retained by the charging device. The charging device may physically couple with the medical device via magnets. The medical device and the charging device may be provided together in a sterile package as a kit. The kit may also include a reclamation bag to facilitate reclamation of electrical components.Type: GrantFiled: June 2, 2011Date of Patent: March 21, 2017Assignee: Ethicon Endo-Surgery, LLCInventors: Ashvani K. Madan, Donna L. Korvick, Aron O. Zingman, John W. Willis, Kevin L. Houser, Gavin M. Monson, Kevin D. Felder, Michael J. Stokes, Sora Rhee, Timothy G. Dietz, Jeffrey L. Aldridge
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Patent number: 9572592Abstract: A surgical instrument comprises a body assembly and an end effector. The body assembly includes a control module, an orientation sensor communicatively coupled to the control module, and an energy component. The energy component is operable to activate the end effector at a plurality of energy settings. A storage device is communicatively coupled to the control module and includes a plurality of gesture profiles and corresponding energy settings. The control module is configured to set the energy setting of the energy component to a corresponding energy setting in response to a correlation between the output of the orientation sensor and a gesture profile. In some versions, the control module modifies the energy setting based upon output from a force sensor that measures the force on the end effector. The control module may also decrease the energy setting in response to an anomalous acceleration or deceleration detected by an accelerometer.Type: GrantFiled: May 31, 2012Date of Patent: February 21, 2017Assignee: Ethicon Endo-Surgery, LLCInventors: Daniel W. Price, Sora Rhee, Cory G. Kimball, Timothy G. Dietz, Ashvani K. Madan, Donna L. Korvick, Foster B. Stulen, Jeffrey D. Messerly, William E. Clem, Jacqueline C. Aronhalt, William D. Dannaher, John B. Schulte, Danius P. Silkaitis, Stephen J. Balek, Michael R. Lamping
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Publication number: 20160329614Abstract: A system includes a medical device and a charging device. A sterile barrier may be interposed between the medical device and the charging device. The medical device includes an integral power source and an active element. The charging device is configured to charge the integral power source. The charging device may charge the integral power source through direct contact between features of the charging device and features the medical device. The charging device may alternatively charge the integral power source wirelessly, such as through inductive coupling. The medical device may include conductive prongs that are retained by the charging device. The charging device may physically couple with the medical device via magnets. The medical device and the charging device may be provided together in a sterile package as a kit. The kit may also include a reclamation bag to facilitate reclamation of electrical components.Type: ApplicationFiled: July 18, 2016Publication date: November 10, 2016Inventors: Ashvani K. Madan, Donna L. Korvick, Aron O. Zingman, John W. Willis, Kevin L. Houser, Gavin M. Monson, Kevin D. Felder, Michael J. Stokes, Sora Rhee, Timothy G. Dietz, Jeffrey L. Aldridge
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Publication number: 20160296250Abstract: Various embodiments described herein are directed to ultrasonic blades. For example, an ultrasonic blade may comprise a proximally positioned straight section extending along a longitudinal axis and a distally positioned curved section coupled to the straight section and curved away from the longitudinal axis. The curved section may define a radius of curvature and subtend a first angle. A point of tangency between the curved section and the straight section may be positioned at either a node of the ultrasonic blade or an anti-node of the ultrasonic blade.Type: ApplicationFiled: June 20, 2016Publication date: October 13, 2016Inventors: William A. Olson, Foster B. Stulen, Jeffrey D. Messerly, Daniel W. Price, Kevin L. Houser, Craig N. Faller, William D. Dannaher, Sora Rhee, Tylor C. Muhlenkamp
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Publication number: 20160296251Abstract: The present disclosure is directed to end effectors. An end effector includes an outer shaft extending along a longitudinal axis and an inner shaft partially located within the outer shaft. The end effector may include an ultrasonic blade. The inner shaft may include biased and unbiased portions. The inner shaft and outer shaft may be translatable relative to one another. At one translatable position, the biased portion of the inner shaft may be located within the outer shaft and the unbiased portion may be substantially straight along the longitudinal axis. At another translatable position, the biased portion of the inner shaft may be located outside of and distally positioned from the outer shaft such that the biased portion of the inner shaft is bent away from the longitudinal axis.Type: ApplicationFiled: June 20, 2016Publication date: October 13, 2016Inventors: William A. Olson, Foster B. Stulen, Jeffrey D. Messerly, Daniel W. Price, Kevin L. Houser, Craig N. Faller, William D. Dannaher, Sora Rhee, Tylor C. Muhlenkamp
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Publication number: 20160296252Abstract: Various embodiments described herein are directed to curved ultrasonic blades. For example, a curved ultrasonic blade may comprise a proximally positioned straight section and a distally positioned curved section. The curved ultrasonic blade may be positioned within a shaft extending along a longitudinal axis. The curved ultrasonic blade may be translatable relative to the shaft. The curved section of the curved ultrasonic blade may translate from a first position where the curved section is at least partially contained within the shaft to a second position where the curved section curves away from the longitudinal axis. The curved section may define a radius of curvature that increases as the curved section curves away from the longitudinal axis. In another example, the curved ultrasonic blade may comprise a proximally positioned first curved section and a distally positioned second curved section. The curvature of the first curved section may be opposite of the curvature of the second curved section.Type: ApplicationFiled: June 20, 2016Publication date: October 13, 2016Inventors: William A. Olson, Foster B. Stulen, Jeffrey D. Messerly, Daniel W. Price, Kevin L. Houser, Craig N. Faller, William D. Dannaher, Sora Rhee, Tylor C. Muhlenkamp
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Patent number: 9393037Abstract: Various embodiments described herein are directed to ultrasonic blades. For example, an ultrasonic blade may comprise a proximally positioned straight section extending along a longitudinal axis and a distally positioned curved section coupled to the straight section and curved away from the longitudinal axis. The curved section may define a radius of curvature and subtend a first angle. A point of tangency between the curved section and the straight section may be positioned at either a node of the ultrasonic blade or an anti-node of the ultrasonic blade.Type: GrantFiled: June 29, 2012Date of Patent: July 19, 2016Assignee: Ethicon Endo-Surgery, LLCInventors: William A. Olson, Foster B. Stulen, Jeffrey D. Messerly, Daniel W. Price, Kevin L. Houser, William D. Dannaher, Sora Rhee, Tylor C. Muhlenkamp
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Publication number: 20160121143Abstract: A surgical instrument includes a rotatable electrical coupling assembly having a first part and a second part that electrically couple and rotate relative to each other. The second part is carried by and rotates with a tube collar coupled to a transducer. A portion of the transducer is inserted through an aperture of the second part, but does not contact the second part. The first part of the assembly may electrically couple to the second part via pogo pins, brush contacts, or ball bearings. Alternatively, the first part may comprise conductive channels formed in the casing. The second part may comprise a rotatable drum with a conductive trace. In some versions, one or more components may comprise MID components. In another version, the rotatable electrical coupling assembly comprises a rotatable PC board and brush contact. Further still, a circuit board may be provided with the transducer inside a transducer casing.Type: ApplicationFiled: January 11, 2016Publication date: May 5, 2016Inventors: Daniel J. Mumaw, Shawn D. Bialczak, Sora Rhee, Craig T. Davis, John A. Weed, III, Kip M. Rupp, Foster B. Stulen, Timothy G. Dietz, Kevin L. Houser
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Patent number: 9283045Abstract: Various surgical instruments are disclosed. At least one surgical instrument includes an instrument mounting portion configured to mount to a robotic surgical system. The instrument mounting portion includes an interface to mechanically and electrically interface to the surgical instrument adapted for use with the robotic surgical system. A fluid management system is contained within the instrument mounting portion. The fluid management system includes a first container to contain a first fluid agent to be dispensed.Type: GrantFiled: June 29, 2012Date of Patent: March 15, 2016Assignee: Ethicon Endo-Surgery, LLCInventors: Sora Rhee, Foster B. Stulen, Kevin L. Houser, Craig N. Faller
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Publication number: 20150335328Abstract: A fastener cartridge can comprise a support portion, a tissue thickness compensator positioned relative to the support portion, and a plurality of fasteners positioned within the support portion and/or the tissue thickness compensator which can be utilized to fasten tissue. In use, the fastener cartridge can be positioned in a first jaw of a surgical fastening device, wherein a second jaw, or anvil, can be positioned opposite the first jaw. To deploy the fasteners, a staple-deploying member is advanced through the fastener cartridge to move the fasteners toward the anvil. As the fasteners are deployed, the fasteners can capture at least a portion of the tissue thickness compensator therein along with at least a portion of the tissue being fastened.Type: ApplicationFiled: May 27, 2015Publication date: November 26, 2015Inventors: Frederick E. Shelton, IV, Sora Rhee, Chester O. Baxter, III, Taylor W. Aronhalt
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Patent number: 9113865Abstract: A fastener cartridge can comprise a support portion, a tissue thickness compensator positioned relative to the support portion, and a plurality of fasteners positioned within the support portion and/or the tissue thickness compensator which can be utilized to fasten tissue. In use, the fastener cartridge can be positioned in a first jaw of a surgical fastening device, wherein a second jaw, or anvil, can be positioned opposite the first jaw. To deploy the fasteners, a staple-deploying member is advanced through the fastener cartridge to move the fasteners toward the anvil. As the fasteners are deployed, the fasteners can capture at least a portion of the tissue thickness compensator therein along with at least a portion of the tissue being fastened.Type: GrantFiled: April 29, 2011Date of Patent: August 25, 2015Assignee: Ethicon Endo-Surgery, Inc.Inventors: Frederick E. Shelton, IV, Sora Rhee, Chester O. Baxter, III, Taylor W. Aronhalt
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Patent number: 9089338Abstract: A system for inserting components into a medical device includes a container and an attachment member. The attachment member is coupled to a sidewall having an opening and is configured to be coupled to a medical device. Utilizing the attachment member and opening, an insertable component may be inserted into a medical device within the container while limiting the risk of contamination to the interior of the container. Alternatively, a cutting knob and an alignment member mounted to a container may be used. Cutting knob and alignment member are coupled and a knife on cutting knob is rotated about alignment member to create an opening in the container to access the interior of the medical device. Another alternative includes sandwiching an insertable component between an attachable member and the medical device while the attachable member and medical device are contained within flexible packaging that may be torn away.Type: GrantFiled: June 2, 2011Date of Patent: July 28, 2015Assignee: Ethicon Endo-Surgery, Inc.Inventors: Bret W. Smith, David N. Plescia, Michael J. Stokes, Sora Rhee, Timothy G. Dietz, Kevin D. Felder, Jeffrey L. Aldridge, Emmanuel V. Tanghal
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Patent number: 9072523Abstract: An apparatus maintains the sterility of a medical device while providing for the insertion of an insertable component into the medical device. The apparatus includes a medical device having a housing sized to contain the insertable component, an active feature, a cap, and a hinge member. A container encases the medical device within a device recess, a cap recess, and a container cover. The insertable component may be inserted into the housing while limiting potential contact with the exterior of the medical device. An alternative assembly comprises an insertion assembly having a handle and the insertable component detachably attached thereto. The medical device comprises a housing, an active feature, and a flexible member. An insertion tube is insertable within the flexible member to limit contact when the insertable component is inserted into the housing. Yet another configuration includes a resiliently hinged door assembly releasable by a release button.Type: GrantFiled: June 2, 2011Date of Patent: July 7, 2015Assignee: Ethicon Endo-Surgery, Inc.Inventors: Kevin L. Houser, Foster B. Stulen, William D. Dannaher, Bret W. Smith, David N. Plescia, Michael J. Stokes, Sora Rhee, Timothy G. Dietz, Kevin D. Felder, Christopher B. Anderson, Jeffrey L. Aldridge
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Patent number: 9017851Abstract: An apparatus for powering a medical device includes a battery pack, a connection feature on the battery pack, and a protective layer. In some versions the protective layer covers the battery pack and the connection feature to provide a fluid tight seal. In some versions, the connection feature comprises at least one electrode, which may pierce the protective layer to establish electrical communication with the medical device from within the protective layer such that a non-sterile battery pack could be used to deliver power to a sterile medical device without compromising sterility of the medical device. The protective layer may form a compartment. The at least one electrode may have a conical shape to facilitate piercing the protective layer.Type: GrantFiled: June 2, 2011Date of Patent: April 28, 2015Assignee: Ethicon Endo-Surgery, Inc.Inventors: Kevin D. Felder, Christopher B. Anderson, Frederick E. Shelton, IV, Michael J. Stokes, Sora Rhee, Timothy G. Dietz, William D. Dannaher