PETER SAMI GABRAIL
Pilots at Pleasant Ave, Minneapolis, MN

License number

Minnesota A4655025

Issued Date

Jul 2015

Expiration Date

Jul 2016

Professional information

Principal Software Engineer At Imricor Medical Systems

Position:

Principal Software Engineer at Imricor Medical Systems

Location:

Greater Minneapolis-St. Paul Area

Industry:

Medical Devices

Work:

Imricor Medical Systems - Principal Software Engineer Remote Technologies, Inc May 2003 - May 2008 - Senior Software Engineer Embedded Technologies, Inc / B-Square Corporation 1998 - 2002 - Senior Software Engineer Smith Corona 1987 - 1989 - Software Developer, contract Advanced Medical Devices 1987 - 1988 - Software Engineer

Education:

Rochester Institute of Technology 1982 - 1987
Bachelor's, Computer Science

System And Method For Identifying And Communicating With An Interventional Medical Device

US Patent:

2013021, Aug 15, 2013

Filed:

Feb 8, 2013

Appl. No.:

13/762958

Inventors:

Peter S. Gabrail - Minneapolis MN, US
Douglas A. Page - Apple Valley MN, US
Steven R. Wedan - Savage MN, US

Assignee:

IMRICOR MEDICAL SYSTEMS, INC. - Burnsville MN

International Classification:

A61B 5/00

US Classification:

600373

Abstract:

A system and method of identifying and communicating with an interventional medical device is provided. The system includes a novel catheter handle operably coupled to the shaft of a catheter at the distal end and an electrophysiology recording system at the proximal end. The catheter handle includes a visual identification system visible through a lens on the catheter handles and a microcontroller with a memory structure, the memory structure including catheter identification information. The visual identification system includes a light emitting diode, which is visible from the outside of the catheter handle through the lens. When a user of the EP recording system selects a desired color for the coupled catheter, the desired color is communicated to the microcontroller in the catheter handle and the microcontroller causes the visual identification to display the requested color so that the desired color is visible by the user.

Method For Mri Compatible Medical Device Temperature Monitoring

US Patent:

2013003, Feb 14, 2013

Filed:

Oct 12, 2012

Appl. No.:

13/651007

Inventors:

Gregg S. Stenzel - Victoria MN, US
Steven R. Wedan - Savage MN, US
Peter Gabrail - Minneapolis MN, US

Assignee:

IMRICOR MEDICAL SYSTEMS, INC. - Burnsville MN

International Classification:

G01K 11/32

US Classification:

374161, 374E11016

Abstract:

A method of estimating temperature includes selecting a plurality of known calibration temperature values; determining a bulk wavelength for each of the calibration temperature values; formulating a calibration data set that includes the plurality of known temperature values and the corresponding plurality of bulk wavelengths; and using the calibration data set to determine an estimated current temperature value based upon a current bulk wavelength, wherein the current temperature value is estimated based upon one or more data points in the calibration data set.

Mri Compatible Medical Device Temperature Monitoring System And Method

US Patent:

2011029, Dec 8, 2011

Filed:

Mar 4, 2010

Appl. No.:

13/202691

Inventors:

Steven J. Jester - Eden Prairie MN, US
Gregg S. Stenzel - Victoria MN, US
Steven R. Wedan - Savage MN, US
Peter Gabrail - Minneapolis MN, US

Assignee:

Imricor Medical Systems, Inc. - Burnsville MN

International Classification:

G01K 11/32

US Classification:

374161, 374E11016

Abstract:

A temperature monitoring system for a medical device comprises an optical transmit/receive unit, an elongate optical fiber having a proximal end, a distal end, and an inner core extending between the proximal end and the distal end, and one or more fiber Bragg grating elements formed in the inner core of the optical fiber. The optical fiber is operably coupled to the transmit/receive unit at the proximal end. At least a portion of the optical fiber is also operably coupled to a medical device and is structured to measure temperature at one or more temperature sensing locations on the medical device.