Patents by Inventor John Phillip Hancock
John Phillip Hancock 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: 8277393Abstract: A disposable tissue removal device comprising a cutting element mounted to a handpiece. The cutting element includes an outer cannula defining a tissue-receiving opening and an inner cannula concentrically disposed within the outer cannula. The outer cannula has a trocar tip at its distal end and a cutting board snugly disposed within the outer cannula. The inner cannula defines an inner lumen that extends the length of the inner cannula and terminates in an inwardly beveled, razor-sharp cutting edge. The inner cannula is driven by both a rotary motor and a reciprocating motor. At the end of its stroke, the inner cannula makes contact with the cutting board to completely sever the tissue. An aspiration vacuum is applied to the inner lumen to aspirate excised tissue through the inner cannula and into a collection trap that is removably mounted to the handpiece. The rotary and reciprocating motors are hydraulically powered through a hydraulic circuit.Type: GrantFiled: May 18, 2004Date of Patent: October 2, 2012Assignee: Suros Surgical Systems, Inc.Inventors: Michael E. Miller, Joseph L. Mark, Charles Butcher, John Phillip Hancock
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Patent number: 8109886Abstract: A disposable tissue removal device comprises a “tube within a tube” cutting element mounted to a handpiece. The inner cannula of the cutting element defines an inner lumen and terminates in an inwardly beveled, razor-sharp cutting edge. The inner cannula is driven by both a rotary motor and a reciprocating motor. At the end of its stroke, the inner cannula makes contact with the cutting board to completely sever the tissue. An aspiration vacuum is applied to the inner lumen to aspirate excised tissue through the inner cannula and into a collection trap that is removably mounted to the handpiece. The rotary and reciprocating motors are hydraulically powered through a foot pedal operated hydraulic circuit. The entire biopsy device is configured to be disposable. In one embodiment, the cutting element includes a cannula hub that can be connected to a fluid source, such as a valve-controlled saline bag.Type: GrantFiled: August 12, 2003Date of Patent: February 7, 2012Assignee: Suros Surgical Systems, Inc.Inventors: Michael E. Miller, Joseph L. Mark, Charles Butcher, John Phillip Hancock
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Patent number: 7883476Abstract: A disposable tissue removal device comprises a “tube within a tube” cutting element mounted to a handpiece. The inner cannula of the cuffing element defines an inner lumen and terminates in an inwardly beveled, razor-sharp cutting edge. The inner cannula is driven by both a rotary motor and a reciprocating motor. At the end of its stroke, the inner cannula makes contact with the cutting board to completely sever the tissue. An aspiration vacuum is applied to the inner lumen to aspirate excised tissue through the inner cannula and into a collection trap that is removably mounted to the handpiece. The rotary and reciprocating motors are hydraulically powered through a foot pedal operated hydraulic circuit. The entire biopsy device is configured to be disposable. In one embodiment, the cutting element includes a cannula hub that can be connected to a fluid source, such as a valve-controlled saline bag.Type: GrantFiled: February 28, 2006Date of Patent: February 8, 2011Assignee: Suros Surgical Systems, Inc.Inventors: Michael E. Miller, Joseph L. Mark, Charles Butcher, John Phillip Hancock
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Patent number: 7585282Abstract: An automatic tissue sampling apparatus for use with a biopsy needle set includes a housing defining a cavity and a forward end opening for passage of an inner needle and outer cannula. Two carriers are slidably disposed within the cavity and are configured to support one of the inner needle and the outer cannula. Springs operably engage each carrier and have a cocked position to store potential energy and a firing position to releases the potential energy and drive the corresponding carrier toward the forward end of the housing. A single-handed cocking mechanism, operable to sequentially move the each driving mechanism to its respective cocked position, includes a manually operated cocking lever positioned outside the housing. A force transmission mechanism operably coupled between the cocking lever and the carriers is configured so that the force required to manually depress the cocking lever does not increase as the springs are compressed.Type: GrantFiled: May 10, 2007Date of Patent: September 8, 2009Assignee: Promex TechnologiesInventor: John Phillip Hancock
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Patent number: 7229419Abstract: An automatic tissue sampling apparatus for use with a biopsy needle set having an inner needle and an outer cannula is provided. The apparatus includes a slidably disposed, spring-biased carrier for each of the inner needle and cannula A cocking mechanism is operable to sequentially move the first carrier to its cocked position and the second carrier to its cocked position. The cocking mechanism includes a manually operated cocking lever positioned outside the housing for single handed manipulation while holding the housing. A force transmission mechanism is operably coupled between the cocking lever and the carriers and configured so that the force required to manually depress the cocking lever to force the springs to the cocked positions does not increase as the springs are compressed.Type: GrantFiled: February 11, 2004Date of Patent: June 12, 2007Assignee: Promex/U.S. Biosy LLCInventor: John Phillip Hancock
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Publication number: 20020082519Abstract: A disposable tissue removal device comprises a “tube within a tube” cutting element mounted to a handpiece. The inner cannula of the cutting element defines an inner lumen and terminates in an inwardly beveled, razor-sharp cutting edge. The inner cannula is driven by both a rotary motor and a reciprocating motor. At the end of its stroke, the inner cannula makes contact with the cutting board to completely sever the tissue. An aspiration vacuum is applied to the inner lumen to aspirate excised tissue through the inner cannula and into a collection trap that is removably mounted to the handpiece. The rotary and reciprocating motors are hydraulically powered through a foot pedal operated hydraulic circuit. The entire biopsy device is configured to be disposable. In one embodiment, the cutting element includes a cannula hub that can be connected to a fluid source, such as a valve-controlled saline bag.Type: ApplicationFiled: May 23, 2001Publication date: June 27, 2002Inventors: Michael E. Miller, Joseph L. Mark, Charles Butcher, John Phillip Hancock