Sep 2007 to Apr 2014 Bakery dept. leadChurch of the Cross
May 2004 to Mar 2013 Volunteer youth leaderArby's Restaurant
Sep 2004 to Aug 2006 Cashier
Education:
California Culinary Academy San Francisco, CA Sep 2006 to Apr 2007 Certificate of Baking and PastryGrace M. Davis High School Modesto, CA Sep 2001 to May 2004 DiplomaOak Grove High School San Jose, CA Sep 2000 to Jun 2001
Dr. Singh graduated from the Wayne State University School of Medicine in 1999. She works in Novi, MI and specializes in Family Medicine. Dr. Singh is affiliated with Providence Park Hospital.
Medical School Lake Erie College of Osteopathic Medicine, Erie Campus Graduated: 2000
Languages:
English
Description:
Dr. Singh graduated from the Lake Erie College of Osteopathic Medicine, Erie Campus in 2000. She works in Maumee, OH and specializes in Family Medicine.
- Tucson AZ, US Zhiming Liao - Livermore CA, US Andrea Muranyi - Tucson AZ, US Kandavel Shanmugam - Oro Valley AZ, US Shalini Singh - Tucson AZ, US Yifei Zhu - San Jose CA, US
International Classification:
G01N 33/574 C07K 16/22 C07K 16/30
Abstract:
The invention provides anti-human pro-epiregulin and anti-human amphiregulin antibodies and methods of using the same. Anti-EREG antibodies raised against amino acids 148-169 and 156-169 of the human EREG protein, and anti-AREG antibodies raised against amino acids 238-252 of the human AREG protein are disclosed. Methods of using these antibodies to detect EREG and AREG and kits and other products for performing such methods are also disclosed.
Systems And Methods For Co-Expression Analysis In Immunoscore Computation
- Tucson AZ, US Ting Chen - Sunnyvale CA, US Shalini Singh - Tucson AZ, US Alisa Tubbs - Phoenix AZ, US
International Classification:
G06T 7/00 G06T 7/00 G06F 19/00
Abstract:
Described herein are methods for co-expression analysis of multiple markers in a tissue sample comprising: computing a heat map of marker expression for each of a plurality of single marker channel images, wherein each of the plurality of single marker channel images comprise a single marker; identifying one or more candidate regions of interest in each heat map of marker expression; computing overlay masks comprising the identified one or more candidate regions of interest from each heat map of marker expression; determining one or more co-localized regions of interest from the overlay masks; mapping the one or more co-localized regions of interest to a same coordinate position in each of the plurality of single marker channel images; and estimating a number of cells in at least one of the determined one or more co-localized regions of interest in each of the plurality of single marker channel images.