Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.
Type:
Grant
Filed:
October 7, 2013
Date of Patent:
December 8, 2015
Assignee:
McGinley Engineered Solutions, LLC
Inventors:
Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.
Type:
Application
Filed:
October 7, 2013
Publication date:
March 5, 2015
Applicant:
McGinley Engineered Solutions, LLC
Inventors:
Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.
Type:
Application
Filed:
October 7, 2013
Publication date:
March 5, 2015
Applicant:
McGinley Engineered Solutions, LLC
Inventors:
Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.
Type:
Application
Filed:
September 4, 2013
Publication date:
March 5, 2015
Applicant:
McGinley Engineered Solutions, LLC
Inventors:
Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.
Type:
Application
Filed:
October 7, 2013
Publication date:
March 5, 2015
Applicant:
McGinley Engineered Solutions, LLC
Inventors:
Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers
Abstract: A measurement system and method for determining a depth of penetration of a working portion of a surgical instrument (e.g., a rotating drill bit in a bore). A first sensor outputs a first signal representative of a displacement of the leading edge of the drill bit in the bore. A second sensor outputs a second signal representative of a force applied to the leading edge of the drill bit. A processor outputs a third signal representative of the depth of penetration of the leading edge of the drill bit when the leading edge of the drill bit passes from a first medium having a first density to a second medium having a second density. The third signal is based on the first and second signals.
Type:
Application
Filed:
October 7, 2013
Publication date:
March 5, 2015
Applicant:
McGinley Engineered Solutions, LLC
Inventors:
Joseph C. McGinley, Kevin D. Simmons, Peter A. Privitera, Henry K. Sim, Shigeru Tanaka, David J. Rinaldis, Graham R. Faulknor, Martin A. Leugers