Jan 2014 to 2000 ADMINISTRATIVE ASSISTANTInova Health System Falls Church, VA Jul 2007 to Dec 2013 CASE MANAGEMENT SPECIALISTInova Health System Falls Church, VA May 2004 to Jul 2007 CASE MANAGEMENT ASSISTANTInova Health System Falls Church, VA May 1999 to May 2004 DISCHARGE ARRANGEMENTS COORDINATORInova Health System Falls Church, VA Jan 1996 to May 1999 TRANSPLANT CENTER SCHEDULING COORDINATORInova Health System Falls Church, VA Apr 1986 to Jan 1996 Sr. Accounts Payable Processor
Education:
Northern VA Community College Annandale, VA May 1993 ASSOCIATES OF ARTS in LIBERAL ARTSSlippery Rock State College Slippery Rock, PA Jan 1980 to Dec 1980 BIOLOGYSouthern New Hampshire University Manchester, NH Bachelor of Arts - Currently Enrolled in Program in Graphic Design and Media Arts
Us Patents
Method And Apparatus For Applying Continuous Flow And Uniform Temperature To Generate Thermal Melting Curves In A Microfluidic Device
Ivor T. Knight - Arlington VA, US Deborah J. Boyles - Sterling VA, US
Assignee:
Canon U.S. Life Sciences, Inc. - Rockville MD
International Classification:
C12Q 1/68
US Classification:
435 6
Abstract:
The present invention provides a method for performing thermal melt analysis using a microfluidic device, the method comprising providing a microfluidic device having at least one microfluidic channel, introducing fluid comprising into the at least one microfluidic channel, continuously flowing the fluid through the at least one microfluidic channel while varying the temperature of the entire fluid stream as it moves through the at least one microfluidic channel by uniformly heating the entire fluid stream, and measuring, while continuously flowing the fluid through the at least one microfluidic channel, a detectable property emanating from the fluid,
- Rockville MD, US Deborah J. Boyles - Sterling VA, US
Assignee:
Canon U.S. Life Sciences, Inc. - Rockville MD
International Classification:
C12Q 1/68
Abstract:
The present invention provides a method for performing thermal melt analysis using a microfluidic device, the method comprising providing a microfluidic device having at least one microfluidic channel, introducing fluid comprising into the at least one microfluidic channel, continuously flowing the fluid through the at least one microfluidic channel while varying the temperature of the entire fluid stream as it moves through the at least one microfluidic channel by uniformly heating the entire fluid stream, and measuring, while continuously flowing the fluid through the at least one microfluidic channel, a detectable property emanating from the fluid.