Wake Forest Baptist Health Womens Services 7 Medical Park Dr, Lexington, NC 27292 (336)2432431 (phone), (336)2432359 (fax)
Education:
Medical School University of North Carolina School of Medicine at Chapel Hill Graduated: 1968
Procedures:
Bladder Repair Hysterectomy Vaginal Repair
Conditions:
Abnormal Vaginal Bleeding Breast Disorders Candidiasis of Vulva and Vagina Endometriosis Female Infertility
Languages:
English Spanish
Description:
Dr. Harris graduated from the University of North Carolina School of Medicine at Chapel Hill in 1968. He works in Lexington, NC and specializes in Gynecology. Dr. Harris is affiliated with Wake Forest Baptist Health-Lexington Medical Center and Wake Forest Baptist Medical Center.
Stratix / Trc Staffing Norcross, GA Nov 2013 to Jan 2014 Packaging Clerk / Warehouse Shipping & Reciving / Refurb TechSMX Conyers, GA May 2008 to Aug 2012 Night StockerRadio Shack Decatur, GA Nov 2003 to Jan 2008 Assistant Sales Manager of Wireless SalesInnovative Corp
Feb 2000 to Aug 2003 Installation TechnicianWestern Auto
Apr 1998 to Jan 2000 Lube Tech & Parts Customer Service Representative
Education:
ITT Technical Institute Duluth, GA 2009 to 2011 Computer Information TechnologyCharlotte Amalie High School 1995 to 1999
Nov 2010 to Present Resource TempBio Lab Conyers, GA Mar 2004 to Aug 2010Integrated Airline Services (IAS) Atlanta, GA Dec 2001 to Mar 2004 In charge of loading and unloading cargoLoading Dock RepresentativeWashington, DC Jul 1999 to Oct 1999Wal-Mart Bowie, MD Mar 1999 to Jul 1999 Shipping and Receiving Representative
Education:
ETI Career Institute Jonesboro, GA Oct 2002 Certificate in Universal EPA HVAC Certification
Marcus Shapiro - Marietta GA, US Jim Heberling - Suwanee GA, US Samuel Harris - Norcross GA, US
Assignee:
Shapiro Fitness, Inc. - Marietta GA
International Classification:
A63B 69/06
US Classification:
482 72
Abstract:
An exercise device is provided for simulating the paddling of a watercraft in order to provide a user with both aerobic and anaerobic exercise. In one aspect, an elongate rod is provided having a first assembly coupled to a distal end of the elongate rod. The first assembly can have at least two degrees of freedom and can be configured for selectively attaching to a resistance source. In another aspect, the device further can have a second assembly attached to a proximal end of the elongate rod. The second assembly can have at least two degrees of freedom and can be configured for selectively attaching to a resistance source.
Nathanael Berglund - Atlanta GA, US Harris Bergman - Marietta GA, US Scott Cahall - Fairport NY, US Jerry Foster - Lawrenceville GA, US Samuel W. Harris - Norcross GA, US Giorgos Hatzilias - Buford GA, US Karol Hatzilias - Atlanta GA, US Ruizhi Hong - Roswell GA, US Wess E. Sharpe - Vinings GA, US David G. Stites - Saint Petersburg FL, US
Assignee:
3DM SYSTEMS, INC. - ATLANTA GA
International Classification:
A61B 1/227 A61B 1/06 A61B 1/07 A61B 1/04
US Classification:
600109
Abstract:
An otoscanner including an otoscanner body, the body comprising a hand grip, the body having mounted upon it an ear probe, a tracking illumination emitter, a plurality of tracking illumination sensors, and a display screen, the otoscanner body having mounted within it an image sensor; the ear probe comprising a wide-angle lens optically coupled to the image sensor, laser light source, a laser optical element, and a source of non-laser video illumination; the plurality of tracking illumination sensors disposed upon the otoscanner body so as to sense reflections of tracking illumination emitted from the tracking illumination emitter and reflected from tracking targets installed at positions that are fixed relative to the scanned ear; the image sensor coupled for data communications to a data processor, with the data processor configured so that it functions by constructing a 3D image of the interior of the scanned ear.
Otoscanner With Pressure Sensor For Compliance Measurement
Nathanael Berglund - Atlanta GA, US Harris Bergman - Marietta GA, US Scott Cahall - Fairport NY, US Jerry Foster - Lawrenceville GA, US Samuel W. Harris - Norcross GA, US Giorgos Hatzilias - Buford GA, US Karol Hatzilias - Atlanta GA, US Ruizhi Hong - Roswell GA, US Wess E. Sharpe - Vinings GA, US David G. Stites - Saint Petersburg FL, US
Assignee:
3DM SYSTEMS, INC. - Atlanta GA
International Classification:
A61B 1/227 A61B 1/06 A61B 1/07 A61B 1/04
US Classification:
600111
Abstract:
An otoscanner including an otoscanner body, the body comprising a hand grip, the body having mounted upon it an ear probe, a tracking illumination emitter, a plurality of tracking illumination sensors, and a display screen, the otoscanner body having mounted within it an image sensor; the ear probe comprising a wide-angle lens optically coupled to the image sensor, laser light source, a laser optical element, and a source of non-laser video illumination; the plurality of tracking illumination sensors disposed upon the otoscanner body so as to sense reflections of tracking illumination emitted from the tracking illumination emitter and reflected from tracking targets installed at positions that are fixed relative to the scanned ear; the image sensor coupled for data communications to a data processor, with the data processor configured so that it functions by constructing a 3D image of the interior of the scanned ear.
Nathanael Berglund - Atlanta GA, US Harris Bergman - Marietta GA, US Scott Cahall - Fairport NY, US Jerry Foster - Lawrenceville GA, US Samuel W. Harris - Norcross GA, US Giorgos Hatzilias - Buford GA, US Karol Hatzilias - Atlanta GA, US Ruizhi Hong - Roswell GA, US Wess E. Sharpe - Vinings GA, US David G. Stites - Saint Petersburg FL, US
Assignee:
3DM SYSTEMS, INC. - Atlanta GA
International Classification:
A61B 1/227 A61B 1/06 A61B 1/07 A61B 1/04
US Classification:
600111
Abstract:
An otoscanner including an otoscanner body, the body comprising a hand grip, the body having mounted upon it an ear probe, a tracking illumination emitter, a plurality of tracking illumination sensors, and a display screen, the otoscanner body having mounted within it an image sensor; wherein the image sensor operates at a video frame rate that is twice a standard video frame rate; a laser light source is strobed during capture by the image sensor of alternate video frames; video frames are captured by the image sensor when only the non-laser video illumination illuminates the scanned ear; and images for constructing 3D images are captured by the image sensor only when the strobed laser light illuminates the scanned ear.
Video Otoscanner With Line-Of-Sight Of Probe And Screen
Nathanael Berglund - Atlanta GA, US Harris Bergman - Marietta GA, US Scott Cahall - Fairport NY, US Jerry Foster - Lawrenceville GA, US Samuel W. Harris - Norcross GA, US Giorgos Hatzilias - Buford GA, US Karol Hatzilias - Atlanta GA, US Ruizhi Hong - Roswell GA, US Wess E. Sharpe - Vinings GA, US David G. Stites - Saint Petersburg FL, US
Assignee:
3DM SYSTEMS, INC. - Atlanta GA
International Classification:
A61B 1/227 A61B 1/06 A61B 1/04
US Classification:
600111
Abstract:
An otoscanner including an otoscanner body, the body comprising a hand grip, the body having mounted upon it an ear probe, a tracking illumination emitter, a plurality of tracking illumination sensors, and a display screen, the otoscanner body having mounted within it an image sensor; the ear probe comprising a wide-angle lens optically coupled to the image sensor, laser light source, a laser optical element, and a source of non-laser video illumination; the display screen coupled for data communications to the image sensor, the display screen displaying images of the scanned ear, the display screen positioned on the otoscanner body in relation to the ear probe so that when the ear probe is positioned for scanning, both the display screen and the ear probe are visible to a operator operating the otoscanner; and a data processor configured to construct a D image of the interior of the scanned ear.
Nathanael Berglund - Atlanta GA, US Harris Bergman - Marietta GA, US Scott Cahall - Fairport NY, US Jerry Foster - Lawrenceville GA, US Samuel W. Harris - Norcross GA, US Giorgos Hatzilias - Buford GA, US Karol Hatzilias - Atlanta GA, US Ruizhi Hong - Roswell GA, US Wess E. Sharpe - Vinings GA, US David G. Stites - Saint Petersburg FL, US
Assignee:
3DM SYSTEMS, INC. - Atlanta GA
International Classification:
A61B 1/227 A61B 1/06 A61B 1/07 A61B 1/04
US Classification:
600111
Abstract:
An otoscanner including an otoscanner body, the body comprising a hand grip, the body having mounted upon it an ear probe, a tracking illumination emitter, a plurality of tracking illumination sensors, and a display screen, the otoscanner body having mounted within it an image sensor; the image sensor coupled for data communications to a data processor, with the data processor configured to function by inferring, from a tracked position of the ear probe, previously recorded statistics describing typical ear sizes according to human demographics, and currently recorded demographic information regarding a person whose ear is scanned, the actual present position of the ear probe in relation to at least one part of the scanned ear; and providing a warning when the probe moves within a predefined distance from the part of the scanned ear.
Nathanael Berglund - Atlanta GA, US Harris Bergman - Marietta GA, US Scott Cahall - Fairport NY, US Jerry Foster - Lawrenceville GA, US Samuel W. Harris - Norcross GA, US Giorgos Hatzilias - Buford GA, US Karol Hatzilias - Atlanta GA, US Ruizhi Hong - Roswell GA, US Wess E. Sharpe - Vinings GA, US David G. Stites - Saint Petersburg FL, US
Assignee:
3DM SYSTEMS, INC. - ATLANTA GA
International Classification:
A61B 1/227
US Classification:
600188
Abstract:
An otoscanner including a conical laser-reflective optical element and a laser light source and the conical laser-reflecting optical element are configured so that the conical laser-reflecting optical element, when illuminated by the laser light source, projects a broken ring of laser light upon an interior surface of the ear when the ear probe is positioned in the ear and a diffractive laser optic lens and the laser light source and the diffractive laser optic lens are configured so that the diffractive laser optic lens, when illuminated by the laser light source, projects upon an interior surface of the ear a fan of laser light at a predetermined angle with respect to a front surface of the diffractive laser optic lens when the ear probe is positioned in the ear.
HARRIS BERGMAN - MARIETTA GA, US SCOTT CAHALL - FAIRPORT NY, US JERRY FOSTER - LAWRENCEVILLE GA, US SAMUEL W. HARRIS - NORCROSS GA, US GIORGOS HATZILIAS - BUFORD GA, US KAROL HATZILIAS - ATLANTA GA, US RUIZHI HONG - ROSWELL GA, US WESS E. SHARPE - VININGS GA, US DAVID G. STITES - SAINT PETERSBURG FL, US
Assignee:
UNITED SCIENCES, LLC - ATLANTA GA
International Classification:
A61B 5/06 A61B 5/00
US Classification:
600426, 600476, 600473
Abstract:
Apparatus and methods for tracking scanner motion with a tracking illumination emitter mounted on a scanner, the scanner including imaging apparatus that captures a sequence of images of a scanned object as the scanner moves with respect to the scanned object; tracking targets installed off the scanner at positions that are fixed relative to a scanned object; one or more tracking illumination sensors mounted on the scanner, the tracking illumination sensors sensing reflections of tracking illumination emitted from the tracking illumination emitter and reflected from the tracking targets as the scanner moves in the process of scanning the scanned object; and one or more data processors, at least one of the data processors coupled for data communications to the tracking illumination sensors, the data processor determining, as the scanner moves, tracked positions of the scanner based upon values of the reflections.
Hillcrest High School Tuscaloosa AL 1989-1993, Cardinal Newman High School West Palm Beach FL 1989-1994, John I Leonard highschool West Palm Beach FL 1989-1995, Dwyer High School Palm Beach Gardens FL 1994-1995
During the two checkpoints, police arrested four drivers determined to be driving under the influence. The drivers were identified by police as Samuel Harris, 43, of Sacramento, and Petaluma residents Keith Wright, 33, Christopher Webb, 46, and Daniel Cronin, 51.