Patents by Inventor Joseph D. Dennis
Joseph D. Dennis 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: 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
-
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
-
Patent number: 10952759Abstract: Various ultrasonic instruments are disclosed. The ultrasonic instruments include structures configured to indicate the cutting length of the instruments, detect when grasped tissue has extended beyond the cutting length of the instrument, and prevent tissue from extending beyond the cutting length. Several techniques for each types of structures are disclosed.Type: GrantFiled: August 17, 2017Date of Patent: March 23, 2021Assignee: Ethicon LLCInventors: Jeffrey D. Messerly, William E. Clem, John A. Weed, III, Eric Stout, Craig T. Davis, John E. Brady, Joseph D. Dennis, Phillip H. Clauda, Monica L. Z. Rivard
-
Patent number: 10828056Abstract: Various ultrasonic instruments are disclosed. The ultrasonic instruments include an ultrasonic waveguide acoustically coupled to an ultrasonic transducer. Several techniques for acoustically coupling the ultrasonic transducer to the ultrasonic waveguide are disclosed.Type: GrantFiled: August 17, 2017Date of Patent: November 10, 2020Assignee: Ethicon LLCInventors: Jeffrey D. Messerly, Benjamin D. Dickerson, Rafael J. Ruiz Ortiz, Ryan M. Asher, Joseph D. Dennis, Brian D. Black, Craig T. Davis, Mark E. Tebbe, Ion V. Nicolaescu, Frederick Estera, William A. Olson, Amelia Pierce, James Wilson, William D. Dannaher, Fajian Zhang, Foster B. Stulen
-
Patent number: 10779847Abstract: Aspects of the present disclosure include various ultrasonic surgical instruments. At least one disclosed surgical instrument includes a waveguide including a blade and a transducer base plate. The transducer base plate may be coupled to the waveguide to define a tapered joint at an interface between the waveguide and the transducer base plate. The transducer base plate may include first and second sides defining corresponding first and second flat faces configured to receive first and second piezoelectric elements. The first and second piezoelectric elements are configured to operate in a D31 mode.Type: GrantFiled: August 17, 2017Date of Patent: September 22, 2020Assignee: Ethicon LLCInventors: Jeffrey D. Messerly, Brian D. Black, Frederick Estera, Jason R. Lesko, Benjamin M. Boyd, Kevin M. Fiebig, Chad P. Boudreaux, Grace E. Waters, Kristen G. Denzinger, Amy M. Krumm, Amelia A. Pierce, Chad E. Eckert, Joseph D. Dennis, Ion V. Nicolaescu, Monica L. Zeckel, William A. Olson, Patrick J. Scoggins, Larry A. Pummill, Jr., John S. Frazier, William A. Crawford, Brian J. Hemmelgarn, Eric Stout, Benjamin D. Dickerson
-
Publication number: 20200240977Abstract: A system for conducting the identification and quantification of micro-organisms, e.g., bacteria in urine samples which includes: 1) several disposable cartridges for holding four disposable components including a centrifuge tube, a pipette tip having a 1 ml volume, a second pipette tip having a 0.5 ml volume, and an optical cup or cuvette; 2) a sample processor for receiving the disposable cartridges and processing the urine samples including transferring the processed urine sample to the optical cups; and 3) an optical analyzer for receiving the disposable cartridges and configured to analyze the type and quantity of micro-organisms in the urine sample. The disposable cartridges with their components including the optical cups or cuvettes are used in the sample processor, and the optical cups or cuvettes containing the processed urine samples are used in the optical analyzer for identifying and quantifying the type of micro-organism existing in the processed urine samples.Type: ApplicationFiled: April 7, 2020Publication date: July 30, 2020Inventors: Gal Ingber, William G. Atterbury, Russell H. Barnes, Douglas E. Boyd, Joseph D. Dennis, Jonathan Gurfinkel, Dave Holley, Steven E. Huckaby, Thomas A. Klausing, John S. Laudo, Kevin Sadeski, Jason A. Schaefer, K. Bryan Scott, Carol Stillman, Sherwood Talbert, John Tallarico
-
Patent number: 10656140Abstract: A system for conducting the identification and quantification of micro-organisms, e.g., bacteria in urine samples which includes: 1) several disposable cartridges for holding four disposable components including a centrifuge tube, a pipette tip having a 1 ml volume, a second pipette tip having a 0.5 ml volume, and an optical cup or cuvette; 2) a sample processor for receiving the disposable cartridges and processing the urine samples including transferring the processed urine sample to the optical cups; and 3) an optical analyzer for receiving the disposable cartridges and configured to analyze the type and quantity of micro-organisms in the urine sample. The disposable cartridges with their components including the optical cups or cuvettes are used in the sample processor, and the optical cups or cuvettes containing the processed urine samples are used in the optical analyzer for identifying and quantifying the type of micro-organism existing in the processed urine samples.Type: GrantFiled: February 6, 2017Date of Patent: May 19, 2020Assignee: POCARED Diagnostics LTD.Inventors: Gal Ingber, William G. Atterbury, Russell H. Barnes, Douglas E. Boyd, Joseph D. Dennis, Jonathan Gurfinkel, Dave Holley, Steven E. Huckaby, Thomas A. Klausing, John S. Laudo, Kevin Sadeski, Jason A. Schaefer, K. Bryan Scott, Carol Stillman, Sherwood Talbert, John Tallarico
-
Publication number: 20200113624Abstract: 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 16, 2019Publication date: April 16, 2020Inventors: Barry C. Worrell, David C. Yates, Joseph D. Dennis, Mark A. Davison, Geoffrey S. Strobl
-
Patent number: 10555769Abstract: 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: February 22, 2016Date of Patent: February 11, 2020Assignee: Ethicon LLCInventors: Barry C. Worrell, David C. Yates, Joseph D. Dennis, Mark A. Davison, Geoffrey S. Strobl
-
Publication number: 20180078268Abstract: Various ultrasonic instruments are disclosed. The ultrasonic instruments include structures configured to indicate the cutting length of the instruments, detect when grasped tissue has extended beyond the cutting length of the instrument, and prevent tissue from extending beyond the cutting length. Several techniques for each types of structures are disclosed.Type: ApplicationFiled: August 17, 2017Publication date: March 22, 2018Inventors: Jeffrey D. Messerly, William E. Clem, John A. Weed, III, Eric Stout, Craig T. Davis, John Brady, Joseph D. Dennis, Phillip H. Clauda, Monica L. Zeckel
-
Publication number: 20180055532Abstract: Various ultrasonic surgical instruments are disclosed. At least one disclosed surgical instrument includes a waveguide including a blade and a transducer base plate. The transducer base plate coupled to the waveguide to define a joint at an interface between the waveguide and the transducer base plate. The transducer base plate including first and second sides defining corresponding first and second flat faces configured to receive first and second piezoelectric elements. The first and second piezoelectric elements are configured to operate in a D31 mode.Type: ApplicationFiled: August 17, 2017Publication date: March 1, 2018Inventors: Jeffrey D. Messerly, Brian D. Black, Frederick Estera, Jason R. Lesko, Benjamin M. Boyd, Kevin M. Fiebig, Chad P. Boudreaux, Grace E. Waters, Kristen G. Denzinger, Amy M. Krumm, Amelia Pierce, Chad E. Eckert, Joseph D. Dennis, Ion V. Nicolaescu, Monica L. Zeckel, William A. Olson, Patrick J. Scoggins, Larry A. Pummill, JR., John S. Frazier, William A. Crawford, Brian J. Hemmelgarn, Eric Stout, Benjamin D. Dickerson
-
Publication number: 20180056095Abstract: Various ultrasonic instruments are disclosed. The ultrasonic instruments include an ultrasonic waveguide acoustically coupled to an ultrasonic transducer. Several techniques for acoustically coupling the ultrasonic transducer to the ultrasonic waveguide are disclosed.Type: ApplicationFiled: August 17, 2017Publication date: March 1, 2018Inventors: Jeffrey D. Messerly, Benjamin D. Dickerson, Rafael J. Ruiz Ortiz, Ryan M. Asher, Joseph D. Dennis, Brian D. Black, Craig T. Davis, Mark E. Tebbe, Ion V. Nicolaescu, Frederick Estera, William A. Olson, Amelia Pierce, James Wilson, William D. Dannaher, Fajian Zhang, Foster B. Stulen
-
Publication number: 20170238991Abstract: 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: February 22, 2016Publication date: August 24, 2017Inventors: Barry C. Worrell, David C. Yates, Joseph D. Dennis, Mark A. Davison, Geoffrey S. Strobl
-
Publication number: 20170146515Abstract: A system for conducting the identification and quantification of micro-organisms, e.g., bacteria in urine samples which includes: 1) several disposable cartridges for holding four disposable components including a centrifuge tube, a pipette tip having a 1 ml volume, a second pipette tip having a 0.5 ml volume, and an optical cup or cuvette; 2) a sample processor for receiving the disposable cartridges and processing the urine samples including transferring the processed urine sample to the optical cups; and 3) an optical analyzer for receiving the disposable cartridges and configured to analyze the type and quantity of micro-organisms in the urine sample. The disposable cartridges with their components including the optical cups or cuvettes are used in the sample processor, and the optical cups or cuvettes containing the processed urine samples are used in the optical analyzer for identifying and quantifying the type of micro-organism existing in the processed urine samples.Type: ApplicationFiled: February 6, 2017Publication date: May 25, 2017Inventors: Gal Ingber, William G. Atterbury, Russell H. Barnes, Douglas E. Boyd, Joseph D. Dennis, Jonathan Gurfinkel, Dave Holley, Steven E. Huckaby, Thomas A. Klausing, John S. Laudo, Kevin Sadeski, Jason A. Schaefer, K. Bryan Scott, Carol Stillman, Sherwood Talbert, John Tallarico
-
Patent number: 9606105Abstract: A system for conducting the identification and quantification of micro-organisms, e.g., bacteria in urine samples which includes: 1) several disposable cartridges for holding four disposable components including a centrifuge tube, a pipette tip having a 1 ml volume, a second pipette tip having a 0.5 ml volume, and an optical cup or cuvette; 2) a sample processor for receiving the disposable cartridges and processing the urine samples including transferring the processed urine sample to the optical cups; and 3) an optical analyzer for receiving the disposable cartridges and configured to analyze the type and quantity of micro-organisms in the urine sample. The disposable cartridges with their components including the optical cups or cuvettes are used in the sample processor, and the optical cups or cuvettes containing the processed urine samples are used in the optical analyzer for identifying and quantifying the type of micro-organism existing in the processed urine samples.Type: GrantFiled: July 14, 2014Date of Patent: March 28, 2017Assignee: POCARED DIAGNOSTICS LTD.Inventors: Gal Ingber, William G. Atterbury, Russell H. Barnes, Douglas E. Boyd, Joseph D. Dennis, Jonathan Gurfinkel, Dave Holley, Steven E. Huckaby, Thomas A. Klausing, Kevin Sadeski, Jason A. Schaefer, K. Bryan Scott, Carol Stillman, Sherwood Talbert, John Tallarico, John S. Laudo
-
Publication number: 20150088089Abstract: An apparatus (10) includes a body (2), a plunger (5), and an occlusion (4). The body is able to hold one or more medical substances therein. The body defines a longitudinal axis extending therethrough. The plunger is positioned within a portion of the body and is able to axially advance along the longitudinal axis. The plunger also defines an opening extending therethrough. The occlusion is able to extend through at least a portion of the opening of the plunger so that the plunger and the occlusion fluidly divide the body. The plunger is able to exert a first outward force against the body. The plunger is able to exert a second outward force against the body when the occlusion has been removed where the second outward force is less than the first outward force.Type: ApplicationFiled: April 26, 2013Publication date: March 26, 2015Inventors: Rush L. Bartlett, II, Peter M. Greco, Kevin D. Predmore, Brian C. Kelley, Joseph D. Dennis, Christopher P. McKenzie
-
Publication number: 20150010993Abstract: A system for conducting the identification and quantification of micro-organisms, e.g., bacteria in urine samples which includes: 1) several disposable cartridges for holding four disposable components including a centrifuge tube, a pipette tip having a 1 ml volume, a second pipette tip having a 0.5 ml volume, and an optical cup or cuvette; 2) a sample processor for receiving the disposable cartridges and processing the urine samples including transferring the processed urine sample to the optical cups; and 3) an optical analyzer for receiving the disposable cartridges and configured to analyze the type and quantity of micro-organisms in the urine sample. The disposable cartridges with their components including the optical cups or cuvettes are used in the sample processor, and the optical cups or cuvettes containing the processed urine samples are used in the optical analyzer for identifying and quantifying the type of micro-organism existing in the processed urine samples.Type: ApplicationFiled: July 14, 2014Publication date: January 8, 2015Inventors: Gal Ingber, William G. Atterbury, Russell H. Barnes, Douglas E. Boyd, Joseph D. Dennis, Jonathan Gurfinkel, Dave Holley, Steven E. Huckaby, Thomas A. Klausing, Kevin Sadeski, Jason A. Schaefer, K. Bryan Scott, Carol Stillman, Sherwood Talbert, John Tallarico, John S. Laudo
-
Patent number: 8808649Abstract: A system for conducting the identification and quantification of micro-organisms, e.g., bacteria in urine samples which includes: 1) several disposable cartridges for holding four disposable components including a centrifuge tube, a pipette tip having a 1 ml volume, a second pipette tip having a 0.5 ml volume, and an optical cup or cuvette; 2) a sample processor for receiving the disposable cartridges and processing the urine samples including transferring the processed urine sample to the optical cups; and 3) an optical analyzer for receiving the disposable cartridges and configured to analyze the type and quantity of micro-organisms in the urine sample. The disposable cartridges with their components including the optical cups or cuvettes are used in the sample processor, and the optical cups or cuvettes containing the processed urine samples are used in the optical analyzer for identifying and quantifying the type of micro-organism existing in the processed urine samples.Type: GrantFiled: October 10, 2008Date of Patent: August 19, 2014Assignee: Pocared Diagnostics Ltd.Inventors: Gal Ingber, William G. Atterbury, Russell H. Barnes, Douglas E. Boyd, Joseph D. Dennis, Jonathan Gurfinkel, Dave Holley, Steven E. Huckaby, Thomas A. Klausing, John S. Laudo, Kevin Sadeski, Jason A. Schaefer, K. Bryan Scott, Carol Stillman, Sherwood Talbert, John Tallarico
-
Publication number: 20110008825Abstract: A system for conducting the identification and quantification of micro-organisms, e.g., bacteria in urine samples which includes: 1) several disposable cartridges for holding four disposable components including a centrifuge tube, a pipette tip having a 1 ml volume, a second pipette tip having a 0.5 ml volume, and an optical cup or cuvette; 2) a sample processor for receiving the disposable cartridges and processing the urine samples including transferring the processed urine sample to the optical cups; and 3) an optical analyzer for receiving the disposable cartridges and configured to analyze the type and quantity of micro-organisms in the urine sample. The disposable cartridges with their components including the optical cups or cuvettes are used in the sample processor, and the optical cups or cuvettes containing the processed urine samples are used in the optical analyzer for identifying and quantifying the type of micro-organism existing in the processed urine samples.Type: ApplicationFiled: October 10, 2008Publication date: January 13, 2011Applicant: POCARED DIAGNOSTICS LTD.Inventors: Gal Ingber, William G. Atterbury, Russell H. Barnes, Douglas E. Boyd, Joseph D. Dennis, Jonathan Gurfinkel, Dave Holley, Steven E. Huckaby, Thomas A. Klausing, John S. Laudo, Kevin Sadeski, Jason A. Schaefer, K. Bryan Scott, Carol Stillman, Sherwood Talbert, John Tallarico