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Company Information:

Company Name:
DRVISION TECHNOLOGIES, LLC
Address:
15921 NE 8TH ST, STE 200
BELLEVUE, WA
Phone:
N/A
URL:
N/A
EIN:
126260011
DUNS:
827582656
Number of Employees:
N/A
Woman-Owned?:
No
Minority-Owned?:
No
HUBZone-Owned?:
No

Commercialization:

Has been acquired/merged with?:
N/A
Has had Spin-off?:
N/A
Has Had IPO?:
N/A
Year of IPO:
N/A
Has Patents?:
N/A
Number of Patents:
N/A
Total Sales to Date $:
$ 0.00
Total Investment to Date $
$ 0.00
POC Title:
N/A
POC Name:
N/A
POC Phone:
N/A
POC Email:
N/A
Narrative:
N/A

Award Totals:

Program/Phase Award Amount ($) Number of Awards
SBIR Phase I $3,652,631.00 4
SBIR Phase II $5,062,802.00 3

Award List:

Robust Analysis of Subcellular Time-lapse Assays

Award Year / Program / Phase:
2005 / SBIR / Phase I
Award Amount:
$100,000.00
Agency:
HHS
Principal Investigator:
Abstract:
DESCRIPTION (provided by applicant): Our goal is to develop and commercialize live cell, time-lapse microscopy image informatics software specialized for the high throughput quantification of subcellular functions such as the analysis of signaling in spines and dendrites. The software integrates… More

Robust Characterization of Moving Objects for Subcellular Time-lapse Assays

Award Year / Program / Phase:
2006 / SBIR / Phase I
Award Amount:
$100,000.00
Agency:
HHS
Principal Investigator:
Abstract:
DESCRIPTION (provided by applicant): A new generation of microscope and fluorescent probe technologies are enabling the quantitative characterization of the dynamics of discreet proteins and organelles in living cells. Though these assays are increasingly common, the state of the art image… More

Individual Cell Motility Image Informatics

Award Year / Program / Phase:
2006 / SBIR / Phase I
Award Amount:
$100,000.00
Agency:
HHS
Principal Investigator:
Abstract:
DESCRIPTION (provided by applicant): Cell motility is fundamental process central to embryonic development, immune response, wound healing, angiogenesis, tissue engineering and various disease processes including cancer metastasis. Quantitative single cell motility assays provide a powerful tool to… More

Phase II: Robust analysis of subcellular time-lapse assays

Award Year / Program / Phase:
2007 / SBIR / Phase II
Award Amount:
$749,955.00
Agency:
HHS
Principal Investigator:
Abstract:
DESCRIPTION (provided by applicant): The goal of this project is to develop and commercialize next generation live cell, time-lapse microscopy image recognition software specialized for high throughput quantification of subcellular functions. The software integrates novel and robust methods of… More

Analysis of tracking based phenotypes in CNS

Award Year / Program / Phase:
2009 / SBIR / Phase II
Award Amount:
$1,365,115.00
Agency:
HHS
Principal Investigator:
Abstract:
DESCRIPTION (provided by applicant): Project Summary The objective of this project is to develop Prototype and Scale kinetic image recognition software to score tracking based phenotypes in a broad range of microscopy based central nervous system (CNS) a pplications. The target software tool can… More

Efficient patient-specific cell generation by image-guidance

Award Year / Program / Phase:
2011 / SBIR / Phase I
Award Amount:
$3,352,631.00
Agency:
HHS
Principal Investigator:
Shih-jong J. Lee – 425-653-5589
Abstract:
DESCRIPTION (provided by applicant): This fast-track proposal applies advanced kinetic image pattern recognition (KIPR) technologies to predict induced pluripotent stem cell (iPSC) reprogramming colonies' differentiation outcomes for significantly improvedyield and robustness of differentiation… More

Efficient patient-specific cell generation by image-guidance

Award Year / Program / Phase:
2012 / SBIR / Phase II
Award Amount:
$2,947,732.00
Agency:
HHS
Principal Investigator:
Shih-jong J. Lee – 425-653-5589
Abstract:
DESCRIPTION (provided by applicant): This fast-track proposal applies advanced kinetic image pattern recognition (KIPR) technologies to predict induced pluripotent stem cell (iPSC) reprogramming colonies' differentiation outcomes for significantly improvedyield and robustness of differentiation… More