Search

Aparajita Dutta

from Royersford, PA
Get Report
Related to:
Mitrajit Dutta, 53
Connected to:
Akshita Dutta, 32Aloke K Dutta, 71Amitabh S Dutta, 63Amlan Dutta, 41Aniruddha Dutta, 41Antara C Dutta, 42Archana Dutta, 52Arvind Dutta, 61Ashutosh Dutta, 57Asish K Dutta, 50

Aparajita Dutta Phones & Addresses

  • Royersford, PA
  • King of Prussia, PA
  • Durham, NH
  • Philadelphia, PA
  • Maplewood, NJ

Work

Company: Metasystems Dec 2007 Position: Applications scientist & client services manager

Education

School / High School: North Eastern Hill University 1997 Specialities: MSc in Zoology

Skills

Cell and Tissue culture (primary and cel... • Immuno-fluorescence and FISH • Molecular Cytogenetics • Cancer Cytogenetics • Fluorescence microscopy • Imaging and Image analysis • Assay development for automation (high ...

Resumes

Resumes

Aparajita Dutta Photo 1

Aparajita Dutta

View page
Location:
United States
Aparajita Dutta Photo 2

Aparajita Dutta

View page
Aparajita Dutta Photo 3

Aparajita Dutta

View page
Aparajita Dutta Photo 4

Aparajita Dutta

View page
Aparajita Dutta Photo 5

Aparajita Dutta Marlborough, MA

View page
Work:
MetaSystems

Dec 2007 to 2000
Applications Scientist & Client Services Manager
Columbia University Medical Center, Columbia University
New York, NY
May 2005 to Oct 2007
Post Doctoral Research Scientist
Cytogenetics Lab, Winthrop University Hospital
Mineola, NY
Oct 2004 to Feb 2005
Technologist Trainee
IUC- Dept. of Atomic Energy

2001 to 2003
Senior Research Fellow
IUC- Department of Atomic Energy

1998 to 2001
Junior Research Fellow
Pine Mount School, Shillong, India

1997 to 1997
Teacher
Education:
North Eastern Hill University
1997
MSc in Zoology
North Eastern Hill University
1995
BSc in Biology
Skills:
Cell and Tissue culture (primary and cell lines), Immuno-fluorescence and FISH , Molecular Cytogenetics, Cancer Cytogenetics, Fluorescence microscopy, Imaging and Image analysis, Assay development for automation (high throughput applications)

Publications

Us Patents

Systems And Methods For High-Throughput Radiation Biodosimetry

View page
US Patent:
7822249, Oct 26, 2010
Filed:
Aug 24, 2007
Appl. No.:
11/895417
Inventors:
Guy Garty - Dobbs Ferry NY, US
David J. Brenner - New York NY, US
Gerhard Randers-Pehrson - Ossining NY, US
Y. Lawrence Yao - New York NY, US
Nabil Simaan - New York NY, US
Alessio Salerno - Montreal, CA
Anubha Bhatla - Secaucus NJ, US
Jian Zhang - New York NY, US
Oleksandra V. Lyulko - New York NY, US
Aparajita Dutta - Waltham MA, US
Assignee:
The Trustees of Columbia University in the City of New York - New York NY
International Classification:
G06K 9/00
US Classification:
382128
Abstract:
Systems and methods for high-throughput radiation biodosimetry are disclosed herein. In some embodiments, a high-throughput methods of analyzing a population for radiation exposure can include, in various possible sequences: marking a first capillary designed to retain a first sample from the population with a first identifier; transporting a plurality of samples to a biodosimetry system; inputting the samples into the biodosimetry system; centrifuging the plurality of samples including the first sample wherein each sample can be retained in a capillary and the first sample can be retained in the first capillary; transferring the plurality of capillaries including the first capillary from the centrifuge to a cutting device using a robotic device; cutting the first capillary; reading the first identifier; transferring at least one portion of the first sample from the first capillary to a well in an array, wherein the array can include one or more filters in a multi-well plate; correlating the first identifier to a location of the array that includes the at least one portion of the first sample; one or more cycles of biological processing, which can include addition of a reagent and/or incubation of a selected temperature such as, for example, 37 C. , 4 C. , room temperature, and the like; sealing the array; positioning the array adjacent to an imaging element; focusing the imaging element; capturing an image of the first sample in the array; and analyzing the image to determine whether the first sample indicates a level of radiation exposure exceeding a predetermined threshold.

Systems And Methods For Robotic Transport

View page
US Patent:
20090054222, Feb 26, 2009
Filed:
Aug 24, 2007
Appl. No.:
11/895485
Inventors:
Jian Zhang - New York NY, US
Alessio Salerno - Montreal, CA
Nabil Simaan - New York NY, US
Y. Lawrence Yao - New York NY, US
Gerhard Randers-Pehrson - Ossining NY, US
Guy Garty - Dobbs Ferry NY, US
Aparajita Dutta - Waltham MA, US
David J. Brenner - New York NY, US
International Classification:
B04B 5/10
US Classification:
494 17, 494 37, 901 6
Abstract:
Systems and methods for robotic transport are disclosed herein. In some embodiments, robotic systems for transporting biological samples include: a plurality of capillary vessels, in which each capillary vessel can contain a biological sample from a population; a receptacle that can contain the plurality of capillary vessels; a centrifuge; a first robotic device that can transport the receptacle between an input module and the centrifuge; a second robotic device that can transport the receptacle between the centrifuge and a sample harvest location; a cutting device that can cut each of the plurality of capillary vessels; a multi-well plate having a plurality of wells arranged in an array; and a third robotic device that can transfer at least one portion of each of the plurality of biological samples from each of the plurality of capillary vessels to a corresponding well in the array.

Systems And Methods For Cutting Materials

View page
US Patent:
20120132313, May 31, 2012
Filed:
Aug 24, 2007
Appl. No.:
11/895557
Inventors:
Anubha Bhatla - Secaucus NJ, US
Alessio Salerno - Montreal, CA
Nabil Simaan - New York NY, US
Y. Lawrence Yao - New York NY, US
Gerhard Randers-Pehrson - Ossining NY, US
Guy Y. Garty - Dobbs Ferry NY, US
Aparajita Dutta - Waltham MA, US
David J. Brenner - New York NY, US
International Classification:
B65B 3/26
US Classification:
141 1, 141 83
Abstract:
Systems and methods for cutting materials are disclosed herein In some embodiments, methods of at least partially severing a capillary vessel can include: focusing a laser on a predetermined point on the capillary vessel, said capillary vessel containing a biological sample; and cutting the capillary vessel using a laser at the predetermined point. In some embodiments, the methods further can include capturing an image of the capillary vessel and analyzing the image to determine the predetermined point. In some embodiments, a beam of the laser can be moved using one or more galvanometric mirrors. In some embodiments, the methods further can include cutting a plurality of capillary vessels using the laser. In some embodiments, the methods can include utilizing a plurality of lasers, and/or further can include rotating the capillary vessel while the laser can be cutting the capillary vessel. In some embodiments, cutting the capillary vessel can include cutting only a portion of the capillary vessel.
Control profile
Aparajita Dutta from Royersford, PA Get Report