Product Sales Specialist at Girl Scouts San Diego-Imperial Council
Location:
San Diego, California
Industry:
Nonprofit Organization Management
Work:
Girl Scouts San Diego-Imperial Council since Jun 2012
Product Sales Specialist
Girl Scouts San Diego-Imperial Council Sep 2008 - Jul 2012
Volunteer Support Coordinator
Wildfire Recovery Project Nov 2007 - Sep 2008
Crisis Counselor/Outreach
Volunteer Center of Napa Valley Oct 2006 - Aug 2007
Project Coordinator
Education:
Sonoma State University
Bachelor of Arts (B.A.), Sociology
Dr. Locke graduated from the University of Kansas School of Medicine in 1991. He works in Basalt, CO and specializes in Family Medicine. Dr. Locke is affiliated with Aspen Valley Hospital.
Kevin Kelly Covey - Marysville WA, US Kelly JoAnn Locke - Woodinville WA, US Shawn Robert Bertagnole - Lake Stevens WA, US
Assignee:
Medtronic Emergency Response Systems, Inc. - Redmond WA
International Classification:
A61N 1/362
US Classification:
607 5
Abstract:
The invention presents techniques for making the operation of an automated external defibrillator easier to understand for an operator. The automated external defibrillator includes defibrillation electrodes packaged in a sealed, easy-to-open pouch. Visual cues such as instructive pictures show the operator how to open the pouch, retrieve the defibrillation electrodes and correctly position the electrodes on a patient's chest.
Kevin Kelly Covey - Marysville WA, US Kelly JoAnn Locke - Woodinville WA, US Shawn Robert Bertagnole - Lake Stevens WA, US
Assignee:
Physio-Control, Inc. - Redmond WA
International Classification:
A61N 1/362
US Classification:
607 5, 607142, 607152
Abstract:
The invention presents techniques for making the operation of an automated external defibrillator easier to understand for an operator. The automated external defibrillator includes defibrillation electrodes packaged in a sealed, easy-to-open pouch. Visual cues such as instructive pictures show the operator how to open the pouch, retrieve the defibrillation electrodes and correctly position the electrodes on a patient's chest.
User Interface Method And Apparatus For A Medical Device
D. Craig Edwards - Fall City WA, US Kelly J. Locke - Woodinville WA, US Mark Gausman - Bellevue WA, US Alex Otman - Bothell WA, US Richard C. Nova - Kirkland WA, US Shawn R. Bertagnole - Lake Stevens WA, US
Assignee:
Physio-Control, Inc. - Redmond WA
International Classification:
A61N 1/39
US Classification:
607 5
Abstract:
A user interface method and apparatus is described for use with a defibrillator () such as an automated external defibrillator (AED). The user interface comprises a plurality of layered user interface components which become available to the operator of the defibrillator () as they become necessary or appropriate during the operation of the defibrillator () and treatment of the patient. In one embodiment, the layered user interface components comprise an on/off actuator (), a lid (), an electrode package () containing defibrillation electrodes (), and a shock key (), as well as accompanying visual and aural instructions for operating the defibrillator () and for treating the patient.
Kelly Locke - Woodinville WA, US Richard Cardin - Duvall WA, US
Assignee:
Medtronic Physio-Control Manufacturing Corp.
International Classification:
H02J007/00
US Classification:
320/111000
Abstract:
A selectively removable charging pack is provided, which is operable to recharge the power source of a portable external defibrillator when coupled thereto. The charging pack comprises an elongate body of generally triangular shaped cross-section having a front region, a back region, a top region, and left and right sides and that form a bottom region at the convergence of left and right sides. The body houses a charging source in the form of charging cells that are operable to recharge the power source of a portable external defibrillator when inserted in its charging well. The front of the charging pack is formed with a latch, which may be utilized by a user to remove the charging pack from the defibrillator. The latch automatically secures the charging pack in the charging well when the charging pack is inserted into the defibrillator.
Single-Action Method Of Activating And Exposing User Interface Of Medical Device
Kelly Locke - Woodinville WA, US Shawn Bertagnole - Lake Stevens WA, US Richard Cardin - Duvall WA, US
Assignee:
Medtronic Physio-Control Manufacturing Corp.
International Classification:
A61N001/39
US Classification:
607/005000
Abstract:
The invention provides a method for sequentially activating a medical device and exposing at least a portion of the user interface of the medical device to an operator, in a single action to be performed by the operator. The medical device, for example, an automated external defibrillator (AED), includes a housing having a user interface and a lid that is coupled to the housing. The lid, when closed, is covering at least a portion of the user interface. In one embodiment, the medical device further includes an on/off button. The button is configured such that, when an operator depresses the button, it causes a switch to close to thereby activate the medical device, and further causes the lid to open via a latch mechanism.
User Interface Method And Apparatus For A Medical Device
Kelly J. Locke - Woodinville WA, US Mark B. Gausman - Bellevue WA, US Alex Otman - Bothell WA, US Richard C. Nova - Kirkland WA, US Shawn R. Bertagnole - Lake Stevens WA, US
Assignee:
Physio-Control, Inc. - Redmond WA
International Classification:
A61N 1/39
US Classification:
607 5
Abstract:
A user interface method and apparatus is described for use with a defibrillator () such as an automated external defibrillator (AED). The user interface comprises a plurality of layered user interface components which become available to the operator of the defibrillator () as they become necessary or appropriate during the operation of the defibrillator () and treatment of the patient. In one embodiment, the layered user interface components comprise an on/off actuator (), a lid (), an electrode package () containing defibrillation electrodes (), and a shock key (), as well as accompanying visual and aural instructions for operating the defibrillator () and for treating the patient.