PAUL E. SHERMAN, M.D.
Medical Practice at 15 Ave, Seattle, WA

8063915, Nov 22, 2011

Jun 1, 2007

11/756908

Howard Champion - Annapolis MD, US
Paul Sherman - Seattle WA, US
Mary M. Lawnick - Olney MD, US
Paul M. Cashman - North Reading MA, US
Harald Scheirich - Washington DC, US
Timothy Patrick Kelliher - Scotia NY, US

Simquest LLC - Silver Spring MD

G09G 5/00

345619, 345629, 345630, 345632, 345633

A 3D surface wound, injury, and personal protective equipment (PPE) data entry system provides an easily usable graphical user interface through which an examiner can objectively record data relating to surface wounds and injuries sustained by a subject human, as well as PPE used when the wounds/injuries were sustained. The system includes a 3D human model onto which the examiner draws the surface wound(s) and/or damage to the PPE. The subject human's record is stored in a database of similar records. The database records comprise quantifiable, objective data that is easily compared and analyzed. An analysis tool can aggregate a selected population of human subjects within the database to create wound density information that can be statistically analyzed and/or displayed on a standard 3D human model. Such objective wound density information may facilitate improved medical and/or tactical training, and improved PPE design.

2008009, Apr 24, 2008

Jun 1, 2007

11/756884

Howard Champion - Annapolis MD, US
Paul Sherman - Seattle WA, US
Mary Lawnick - Olney MD, US
Paul Cashman - North Reading MA, US
Harald Scheirich - Washington DC, US
Timothy Kelliher - Scotia NY, US

SimQuest LLC - Silver Spring MD

G06F 3/048

715771000

A 3D surface wound, injury, and personal protective equipment (PPE) data entry system provides an easily usable graphical user interface through which an examiner can objectively record data relating to surface wounds and injuries sustained by a subject human, as well as PPE used when the wounds/injuries were sustained. The system includes a 3D human model onto which the examiner draws the surface wound(s) and/or damage to the PPE. The subject human's record is stored in a database of similar records. The database records comprise quantifiable, objective data that is easily compared and analyzed. An analysis tool can aggregate a selected population of human subjects within the database to create wound density information that can be statistically analyzed and/or displayed on a standard 3D human model. Such objective wound density information may facilitate improved medical and/or tactical training, and improved PPE design.

2009001, Jan 8, 2009

Apr 2, 2007

11/695444

Dwight MEGLAN - Westwood MA, US
Robert Waddington - Silver Spring MD, US
Marjorie Moreau - Arlington VA, US
Paul Sherman - Seattle WA, US
Howard Champion - Annapolis MD, US

SimQuest LLC - Silver Spring MD

G09B 23/30

434268

A limb hemorrhage trauma simulator provides didactic and hands-on training for the prehospital treatment of a limb trauma victim. The simulator realistically simulates a wounded limb, providing simulated pulse and hemorrhage blood flow. The simulator provides a simulated scenario in which the wound occurred. The student then responds to the scenario by treating the limb via direct pressure, tourniquet, and/or wound analysis. The simulator modifies hemorrhage blood flow and pulse in response to direct or tourniquet pressure applied to the limb. The simulator records the student's actions to provide feedback and grade the student's response.

2010017, Jul 15, 2010

Jan 14, 2010

12/687648

Dwight Meglan - Westwood MA, US
Albert Dvornik - Somerville MA, US
Julien Lenoir - Roellecourt, FR
Paul S. Sherman - Seattle WA, US

SimQuest LLC - Silver Spring MD

G09B 23/30, G06G 7/60, G06F 3/01, G06F 9/30, G06F 9/46

434267, 703 11, 703 9, 715702, 712203, 712E09016, 718107

A simulator simulates interaction between a surgical tool and biological tissue, providing real time visual and/or haptic feedback. The simulator receives tool input device information representative of a user's movement of a physical tool. The simulator simulates, based on the tool input device information, an interaction between the simulated tool and simulated biological tissue. The simulator uses multiple computational threads, some of which provide their calculations to interrelated threads for use. The simulator displays a visual representation of the simulated interaction between the simulated tool and the simulated biological tissue and provides haptic feedback to the user. The threads may operate asynchronously and have different spatial and/or temporal resolutions. Threads may be selectively activated and deactivated. Threads may move their spatial coverage.