Patents by Inventor Boun Pravong
Boun Pravong 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: 20140066927Abstract: An electrosurgical system can include an electrosurgical generator, a feedback circuit or controller, and an electrosurgical tool. The feedback circuit can provide an electrosurgery endpoint by determining the phase end point of a tissue to be treated. The electrosurgical system can include more than one electrosurgical tool for different electrosurgical operations and can include a variety of user interface features and audio/visual performance indicators. The electrosurgical system can also power conventional bipolar electrosurgical tools and direct current surgical appliances.Type: ApplicationFiled: November 11, 2013Publication date: March 6, 2014Applicant: Applied Medical Resources CorporationInventors: John R. Brustad, Zoran Falkenstein, Christopher J. Cappello, Gary M. Johnson, Benjamin A. Gianneschi, Olivia J. Tran, Matthew A. Wixey, Kennii Pravongviengkham, Boun Pravong, Haruyasu Yawata, Matthew M. Becerra, Adam J. Cohen, Nabil Hilal, Edward D. Pingleton, Said S. Hilal, Charles C Hart, Chris Wikoff
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Patent number: 8579894Abstract: An electrosurgical tool can be used to fuse tissue. The electrosurgical tool can include a jaw assembly, an elongate shaft, and a handle assembly. Actuation of the handle assembly can actuate the jaw assembly. The elongate shaft can be rotatable without disrupting electrical connection to the jaw assembly. The electrosurgical tool can include a cutting blade to separate fused tissue. The electrosurgical tool can also include a jaw assembly configuration or an exterior cutting electrode to improve surgical access with the tool.Type: GrantFiled: April 1, 2009Date of Patent: November 12, 2013Assignee: Applied Medical Resources CorporationInventors: Zoran Falkenstein, Christopher J. Cappello, Gary M. Johnson, Benjamin A. Gianneschi, Olivia J. Tran, Matthew A. Wixey, Kennii Pravongviengkham, Boun Pravong, Haruyasu Yawata, Matthew M. Becerra, John R. Brustad, Adam J. Cohen, Nabil Hilal, Edward D. Pingleton, Said S. Hilal, Charles C. Hart, Chris R. Wikoff
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Patent number: 8568411Abstract: An electrosurgical tool can be used for tissue dissection. The tool can include several electrodes positioned on a jaw assembly. The electrodes can be selectively connected to a power source in a cutting arrangement or a coagulation arrangement. Switching from the cutting arrangement to the coagulation arrangement can be provided by opening and closing a handle to actuate the jaw assembly.Type: GrantFiled: March 31, 2009Date of Patent: October 29, 2013Assignee: Applied Medical Resources CorporationInventors: Zoran Falkenstein, Kennii Pravongviengkham, Haruyasu Yawata, Boun Pravong, Matthew A. Becerra, Christopher J. Cappello, Gary M. Johnson, Benjamin A. Gianneschi, Olivia J. Tran, Matthew A. Wixey, John R. Brustad, Adam J. Cohen, Nabil Hilal, Edward D. Pingleton, Said S. Hilal, Charles C. Hart, Chris R. Wikoff
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Patent number: 8562598Abstract: An electrosurgical system can include an electrosurgical generator, a feedback circuit or controller, and an electrosurgical tool. The feedback circuit can provide an electrosurgery endpoint by determining the phase end point of a tissue to be treated. The electrosurgical system can include more than one electrosurgical tool for different electrosurgical operations and can include a variety of user interface features and audio/visual performance indicators. The electrosurgical system can also power conventional bipolar electrosurgical tools and direct current surgical appliances.Type: GrantFiled: April 1, 2009Date of Patent: October 22, 2013Assignee: Applied Medical Resources CorporationInventors: Zoran Falkenstein, Christopher J. Cappello, Gary M. Johnson, Benjamin A. Gianneschi, Olivia J. Tran, Matthew A. Wixey, Kennii Pravongviengkham, Boun Pravong, Haruyasu Yawata, Matthew M. Becerra, John R. Brustad, Adam J. Cohen, Nabil Hilal, Edward D. Pingleton, Said S. Hilal, Charles C. Hart, Chris R. Wikoff
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Patent number: 8551088Abstract: Phase end point determination is provided to automatically halt the application of energy to tissue. Prior to the application of energy, the phase end point determination is identified by measuring the product of permittivity and conductivity of the tissue to be treated.Type: GrantFiled: April 1, 2009Date of Patent: October 8, 2013Assignee: Applied Medical Resources CorporationInventors: Zoran Falkenstein, Christopher J. Cappello, Gary M. Johnson, Benjamin A. Gianneschi, Olivia J. Tran, Matthew A. Wixey, Kennii Pravongviengkham, Boun Pravong, Haruyasu Yawata, Matthew M. Becerra, John R. Brustad, Adam J. Cohen, Nabil Hilal, Edward D. Pingleton, Said S. Hilal, Charles C. Hart, Chris R. Wikoff
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Publication number: 20120313325Abstract: A surgical valve includes a housing with a proximal housing portion and a distal housing portion cooperating to define a gel cavity. A seal material is disposed in the gel cavity and includes a gel having flow characteristics and incompressible characteristics. A distal guide tube is provided to facilitate retrograde insertion of a surgical instrument into the seal material. During assembly, pressure is applied by the housing portions to the seal material in order to form a circumferential seal and to close an instrument channel. Manufacture can be facilitated by use of a mandrel for maintaining the structural elements in axial alignment. Complimentary screw threads disposed between the first and second housing portions can be used to pressurize the gel and thereby create a locking force on an inserted instrument. Detented tabs can be provided to facilitate control of this locking force.Type: ApplicationFiled: August 22, 2012Publication date: December 13, 2012Applicant: Applied Medical Resources Corporation, Inc.Inventors: Joseph A. Gonzales, Boun Pravong, Richard C. Ewers, Richard L. Myers
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Patent number: 8308746Abstract: The invention relates to a tissue morcellator for minimally invasive surgery. The morcellator has a metallic cutting ring mounted on a visually transparent hollow cylinder, which in combination with a visually transparent outer morcellator tube enables a surgeon to visualize the inside of the morcellator shaft for detection of loose tissue fragments in the device. A tenaculum used with the morcellation device has a spacer for preventing contact with the blade. The cutting tube can oscillate, rather than rotate, along the longitudinal axis of the cutting tube. The morcellator utilizes an extendable tissue guide on the outer tube of the morcellator shaft for preventing the tissue from rotating along the longitudinal axis of the morcellator tube. This allows the tissue to be continuously rotated into the morcellator device for continuous peel. The tissue guide can also be fully retracted to allow for coring of the bulk tissue.Type: GrantFiled: April 14, 2008Date of Patent: November 13, 2012Assignee: Applied Medical Resources CorporationInventors: Boun Pravong, Kennii Pravongviengkham, Matthew M. Becerra, Matthew A. Wixey, Haruyasu Yawata, Gary M. Johnson, Zoran Falkenstein, John R. Brustad, Charles C. Hart
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Publication number: 20120241076Abstract: A method for manufacturing a kink-resistant tube having drainage holes is provided. A wire is coated with plastic material and wound around a mandrel forming a plurality of windings. The wound coated wire is heated until the plastic coating material melts and bonds the wire windings to form a wire-reinforced sheath having wire-containing sections and non-wire containing sections. Alternatively, a coated or non-coated wire is wound around a mandrel together with separate polymer filament material and then heated. A filament having an elongated cross-section may be employed with the major axis of the elongated cross-section substantially parallel to the longitudinal axis of the sheath. At least one non-wire containing section is identified by passing light through at least one wall of the wire-reinforced sheath. Image capture and analysis via an optical system and microprocessor automatically identify regions to target a drill for forming holes in the non-wire containing sections.Type: ApplicationFiled: March 22, 2012Publication date: September 27, 2012Applicant: Applied Medical Resources CorporationInventors: Edward D. Pingleton, Ghassan Sakakine, Boun Pravong, Michael Palermo, Nathalie Raad
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Patent number: 8262622Abstract: A surgical valve includes a housing with a proximal housing portion and a distal housing portion cooperating to define a gel cavity. A seal material is disposed in the gel cavity and includes a gel having flow characteristics and incompressible characteristics. A distal guide tube is provided to facilitate retrograde insertion of a surgical instrument into the seal material. During assembly, pressure is applied by the housing portions to the seal material in order to form a circumferential seal and to close an instrument channel. Manufacture can be facilitated by use of a mandrel for maintaining the structural elements in axial alignment. Complimentary screw threads disposed between the first and second housing portions can be used to pressurize the gel and thereby create a locking force on an inserted instrument. Detented tabs can be provided to facilitate control of this locking force.Type: GrantFiled: October 28, 2003Date of Patent: September 11, 2012Assignee: Applied Medical Resources CorporationInventors: Joseph A. Gonzales, Boun Pravong, Richard C. Ewers, Richard L. Myers
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Publication number: 20120082970Abstract: A portable surgical training device is provided. The trainer includes a top cover spaced apart from a base to form a simulated body cavity for locating model organs that are substantially obscured from the field of view of the user. The top cover includes a video display, fixed insertion ports and interchangeable inserts containing simulated tissue layers. The training device has open sides for demonstrating and training lateral surgical techniques including a simulated or live tissue colon attached to a support leg for simulating transanal minimally invasive surgery. A training endoscope with an adjustable focal length for use with the trainer and, in particular, with optical trocars is disclosed. The surgical trainer can be angled and is well suited for training laparoscopic surgery techniques and demonstrating surgical instruments.Type: ApplicationFiled: September 29, 2011Publication date: April 5, 2012Applicant: APPLIED MEDICAL RESOURCES CORPORATIONInventors: BOUN PRAVONG, KENNII PRAVONGVIENGKHAM, LEE COHEN, CHARLES C. HART, VIVEK SIKRI, ZORAN FALKENSTEIN, RICK CONKLIN, EDUARDO BOLANOS, ADAM HOKE, JACOB J. FILEK, MICHAEL PALERMO
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Patent number: 8109911Abstract: A surgical access device including a valve housing and an instrument receiving element mounted in the valve housing having an aperture for flexibly receiving and directing instruments having a wide range of diameters. The instrument receiving element includes a braid or mesh tube generally shaped like an hourglass. The surgical access device may include an access septum seal molded from a gel material. The surgical access device can flexibly engage instruments having diameters ranging from about 3.5 mm to about 12.9 mm.Type: GrantFiled: November 30, 2007Date of Patent: February 7, 2012Assignee: Applied Medical Resources CorporationInventors: Scott V. Taylor, John R. Brustad, Boun Pravong, Blair Howe, Judith Howe, legal representative
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Patent number: 8079986Abstract: A surgical access device including a valve housing and an instrument receiving element mounted in the valve housing having an aperture for flexibly receiving and directing instruments having a wide range of diameters. The instrument receiving element includes a braid or mesh tube generally shaped like an hourglass. The surgical access device may include an access septum seal molded from a gel material. The surgical access device can flexibly engage instruments having diameters ranging from about 3.5 mm to about 12.9 mm.Type: GrantFiled: November 30, 2007Date of Patent: December 20, 2011Assignee: Applied Medical Resources CorporationInventors: Scott V. Taylor, John R. Brustad, Boun Pravong, Blair Howe
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Publication number: 20100274231Abstract: Devices, methods, and systems provide a catheter-based device comprising an expandable portion that is placed distally of the obstructive or occluding mass, which substantially prevents fragments generated by ablating the occluding mass with a lithotripter, for example, a laser lithotripter, from traveling upstream, thereby improving the safety and effectiveness of lithotripsy Some embodiments of the device further comprise a through lumen through which fluid is introduced into a renal collecting system, thereby maintains positive pressure that biases the fragments generated by lithotripsy from entering the collecting system.Type: ApplicationFiled: April 22, 2010Publication date: October 28, 2010Applicant: Applied Medical Resources CorporationInventors: Boun Pravong, Charles C. Hart, Ghassan Sakakine, Eric Nguyen
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Publication number: 20090248019Abstract: An electrosurgical tool can be used for tissue dissection. The tool can include several electrodes positioned on a jaw assembly. The electrodes can be selectively connected to a power source in a cutting arrangement or a coagulation arrangement. Switching from the cutting arrangement to the coagulation arrangement can be provided by opening and closing a handle to actuate the jaw assembly.Type: ApplicationFiled: March 31, 2009Publication date: October 1, 2009Applicant: Applied Medical Resources CorporationInventors: Zoran Falkenstein, Christopher J. Cappello, Gary M. Johnson, Benjamin A. Gianneschi, Olivia J. Tran, Matthew A. Wixey, Kennii Pravongviengkham, Boun Pravong, Haruyasu Yawata, Matthew M. Becerra, John R. Brustad, Adam J. Cohen, Nabil Hilal, Edward D. Pingleton, Said S. Hilal, Charles C. Hart, Chris R. Wikoff
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Publication number: 20090248013Abstract: Phase end point determination is provided to automatically halt the application of energy to tissue. Prior to the application of energy, the phase end point determination is identified by measuring the product of permittivity and conductivity of the tissue to be treated. An electrosurgical system can include an electrosurgical generator, a feedback circuit or controller, and an electrosurgical tool. The feedback circuit can provide an electrosurgery endpoint by determining the phase end point of a tissue to be treated. The electrosurgical system can include more than one electrosurgical tool for different electrosurgical operations and can include a variety of user interface features and audio/visual performance indicators. The electrosurgical system can also power conventional bipolar electrosurgical tools and direct current surgical appliances.Type: ApplicationFiled: April 1, 2009Publication date: October 1, 2009Applicant: Applied Medical Resources CorporationInventors: Zoran Falkenstein, Christopher J. Cappello, Gary M. Johnson, Benjamin A. Gianneschi, Olivia J. Tran, Matthew A. Wixey, Kennii Pravongviengkham, Boun Pravong, Haruyasu Yawata, Matthew M. Becerra, John R. Brustad, Adam J. Cohen, Nabil Hilal, Edward D. Pingleton, Said S. Hilal, Charles C. Hart, Chris R. Wikoff
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Publication number: 20090248007Abstract: An electrosurgical system can include an electrosurgical generator, a feedback circuit or controller, and an electrosurgical tool. The feedback circuit can provide an electrosurgery endpoint by determining the phase end point of a tissue to be treated. The electrosurgical system can include more than one electrosurgical tool for different electrosurgical operations and can include a variety of user interface features and audio/visual performance indicators. The electrosurgical system can also power conventional bipolar electrosurgical tools and direct current surgical appliances.Type: ApplicationFiled: April 1, 2009Publication date: October 1, 2009Applicant: Applied Medical Resources CorporationInventors: Zoran Falkenstein, Christopher J. Capello, Gary M. Johnson, Benjamin A. Giannescho, Olivia J. Tran, Matthew A. Wixey, Kennii Provongviengkham, Boun Pravong, Haruyasu Yawata, Matthew M. Becerra, John R. Brustad, Adam J. Cohen, Nabil Hilal, Edward D. Pingleton, Said S. Hilal, Charles C. Hart, Chris R. Wikoff
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Publication number: 20090248020Abstract: An electrosurgical tool can be used to fuse tissue. The electrosurgical tool can include a jaw assembly, an elongate shaft, and a handle assembly. Actuation of the handle assembly can actuate the jaw assembly. The elongate shaft can be rotatable without disrupting electrical connection to the jaw assembly. The electrosurgical tool can include a cutting blade to separate fused tissue. The electrosurgical tool can also include a jaw assembly configuration or an exterior cutting electrode to improve surgical access with the tool.Type: ApplicationFiled: April 1, 2009Publication date: October 1, 2009Applicant: Applied Medical Resources CorporationInventors: Zoran Falkenstein, Christopher J. Cappello, Gary M. Johnson, Benjamin A. Gianneschi, Olivia J. Tran, Matthew A. Wixey, Kennii Pravongviengkham, Boun Pravong, Haruyasu Yawata, Matthew M. Becerra, John R. Brustad, Adam J. Cohen, Nabil Hilal, Edward D. Pingleton, Said S. Hilal, Charles C. Hart, Chris R. Wikoff
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Publication number: 20090248022Abstract: Phase end point determination is provided to automatically halt the application of energy to tissue. Prior to the application of energy, the phase end point determination is identified by measuring the product of permittivity and conductivity of the tissue to be treated.Type: ApplicationFiled: April 1, 2009Publication date: October 1, 2009Applicant: Applied Medical Resources CorporationInventors: Zoran Falkenstein, Christopher J. Cappello, Gary M. Johnson, Benjamin A. Gianneschi, Olivia J. Tran, Matthew A. Wixey, Kennii Pravongviengkham, Boun Pravong, Haruyasu Yawata, Matthew M. Becerra, John R. Brustad, Adam J. Cohen, Nabil Hilal, Edward D. Pingleton, Said S. Hilal, Charles C. Hart, Chris R. Wikoff
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Patent number: 7534317Abstract: A method of manufacturing a kink resistant sheath includes the steps of coating a wire with a plastic material to form an inner tube, placing a braid over the inner tube, applying a spring reinforcement over the braid and applying a second layer of plastic material over the assembly to form an outer tube of a braided reinforced sheath. The plastic material is preferably polyurethane but may be a thermoplastic, thermoset or any plastic material having hard and/or soft durometer.Type: GrantFiled: December 28, 2005Date of Patent: May 19, 2009Assignee: Applied Medical Resources CorporationInventors: John R. Brustad, Payam Adlparvar, Wassim R. Aliahmad, Canh T. Tran, Nabil Hilal, Boun Pravong, Raffi S. Pinedjian, Charles C. Hart
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Publication number: 20080255597Abstract: The invention relates to a tissue morcellator for minimally invasive surgery. The morcellator has a metallic cutting ring mounted on a visually transparent hollow cylinder, which in combination with a visually transparent outer morcellator tube enables a surgeon to visualize the inside of the morcellator shaft for detection of loose tissue fragments in the device. A tenaculum used with the morcellation device has a spacer for preventing contact with the blade. The cutting tube can oscillate, rather than rotate, along the longitudinal axis of the cutting tube. The morcellator utilizes an extendable tissue guide on the outer tube of the morcellator shaft for preventing the tissue from rotating along the longitudinal axis of the morcellator tube. This allows the tissue to be continuously rotated into the morcellator device for continuous peel. The tissue guide can also be fully retracted to allow for coring of the bulk tissue.Type: ApplicationFiled: April 14, 2008Publication date: October 16, 2008Applicant: APPLIED MEDICAL RESOURCES CORPORATIONInventors: Boun Pravong, Kennii Pravongviengkham, Matthew M. Becerra, Matthew A. Wixey, Haruyasu Yawata, Gary M. Johnson, Zoran Falkenstein, John R. Brustad, Charles C. Hart