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Kalyan Handique

from Ann Arbor, MI
Age ~52
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Also known as:
Kaylan Handique, Handique Kalyan, Kalyan E
Phone and address:
4964 Walnut Woods Dr, Ann Arbor, MI 48105
Connected to:
Eric J Handis, 57Susan E Handjian, 80Jonathan R Handka, 76Andrew L Handke, 99Lee A Handke, 58Courtney A Handl, 46Jessica L Handlan, 35Wanda Handle, 64Judy M Handleman, 71Julie A Handleman, 47

Kalyan Handique Phones & Addresses

  • 4964 Walnut Woods Dr, Ann Arbor, MI 48105
  • 2710 Windwood Dr, Ann Arbor, MI 48105 (734) 997-0920
  • 241 Fieldcrest St, Ann Arbor, MI 48103 (734) 997-0920
  • 103 Fieldcrest St, Ann Arbor, MI 48103
  • 3017 Forest Creek Ct, Ann Arbor, MI 48108 (734) 973-1435
  • 120 Lake Village Dr, Ann Arbor, MI 48103 (734) 997-0920
  • 1010 Catherine St, Ann Arbor, MI 48104
  • 1929 Plymouth Rd, Ann Arbor, MI 48105 (734) 332-9838
  • Ypsilanti, MI
  • 241 Fieldcrest St, Ann Arbor, MI 48103 (734) 330-9327

Work

Company: Denovo sciences Aug 2011 Position: Ceo

Education

Degree: Ph.D. School / High School: University of Michigan 1995 to 2000 Specialities: Chemical Engineering

Skills

Entrepreneurship • Commercialization • Strategy • R&D • Technology Transfer • Medical Devices • Biotechnology • Product Development • Start Ups • Cross Functional Team Leadership • Business Strategy • Research and Development

Industries

Biotechnology

Public records

Vehicle Records

Kalyan Handique

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Address:
4964 Walnut Wood Dr, Ann Arbor, MI 48105
Phone:
(734) 206-1886
VIN:
5TDDK3EH8CS099339
Make:
TOYOTA
Model:
HIGHLANDER
Year:
2012

Resumes

Resumes

Kalyan Handique Photo 1

R And D Executive

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Location:
46701 Commerce Center Dr, Plymouth, MI 48170
Industry:
Biotechnology
Work:
DeNovo Sciences since Aug 2011
CEO
Augment Ventures - Ann Arbor, MI since Aug 2011
Advisor
3D Biomatrix - Ann Arbor, MI since 2011
Chairman
Frankel Fund since 2010
Advisor
Center for Wireless Integrated MicroSensing and Systems, University of Michigan - Ann Arbor since 2010
Strategic Industrial Advisor
Education:
University of Michigan 1995 - 2000
Ph.D., Chemical Engineering Indian Institute of Technology, Bombay 1991 - 1995
B.Tech, Chemical Engineering Kendriya Vidyalaya, Khanapara, Assam, India
Skills:
Entrepreneurship
Commercialization
Strategy
R&D
Technology Transfer
Medical Devices
Biotechnology
Product Development
Start Ups
Cross Functional Team Leadership
Business Strategy
Research and Development

Publications

Us Patents

Heat-Reduction Methods And Systems Related To Microfluidic Devices

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US Patent:
6692700, Feb 17, 2004
Filed:
Feb 14, 2001
Appl. No.:
09/783225
Inventors:
Kalyan Handique - Ann Arbor MI
Assignee:
HandyLab, Inc. - Ann Arbor MI
International Classification:
B01L 300
US Classification:
422100, 422 681, 422 99, 422102, 204193, 204400, 204600
Abstract:
A system and method for preventing or reducing unwanted heat in a microfluidic of the device while generating heat in selected regions of the device. In one example, current is supplied to a heating element through electric leads, wherein the leads are designed so that the current density in the leads is substantially lower than the current density in the heating element. This may be accomplished using conductive leads which have a cross-sectional area which is substantially greater than the cross-sectional area of the heating element. In another example, unwanted heat in the microfluidic complex is reduced by thermally isolating the electric leads from the microfluidic complex. This may be accomplished by running each lead directly away from the microfluidic complex, through a thermally isolating substrate. After the leads pass through the thermally isolating substrate, they are then routed to the current source. Thus, the thermally isolating substrate substantially blocks the transfer of heat from the leads to the microfluidic complex.

Moving Microdroplets

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US Patent:
6911183, Jun 28, 2005
Filed:
Mar 6, 2000
Appl. No.:
09/518895
Inventors:
Kalyan Handique - Ann Arbor MI, US
Bishnu Gogoi - Scottsdale AZ, US
Mark A. Burns - Ann Arbor MI, US
Assignee:
The Regents of the University of Michigan - Ann Arbor MI
International Classification:
G01N001/10
G01N001/18
US Classification:
422102, 422 56, 422 58, 422 81, 422 82, 422100, 436 52, 436 53, 436180
Abstract:
The movement and mixing of microdroplets through microchannels is described employing microscale devices, comprising microdroplet transport channels, reaction regions, electrophoresis modules, and radiation detectors. The discrete droplets are differentially heated and propelled through etched channels. Electronic components are fabricated on the same substrate material, allowing sensors and controlling circuitry to be incorporated in the same device.

Compositions And Methods For Liquid Metering In Microchannels

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US Patent:
7004184, Feb 28, 2006
Filed:
Jul 23, 2001
Appl. No.:
09/911055
Inventors:
Kalyan Handique - Ann Arbor MI, US
Mark A. Burns - Ann Arbor MI, US
Assignee:
The Reagents of The University of Michigan - Ann Arbor MI
International Classification:
F15D 1/14
US Classification:
137 1
Abstract:
The movement and mixing of microdroplets through microchannels is described employing microscale devices, comprising microdroplet transport channels, reaction regions, electrophoresis modules, and radiation detectors. Microdroplets are metered into defined volumes and are subsequently incorporated into a variety of biological assays. Electronic components are fabricated on the same substrate material, allowing sensors and controlling circuitry to be incorporated in the same device.

Methods And Systems For Control Of Microfluidic Devices

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US Patent:
7010391, Mar 7, 2006
Filed:
Mar 28, 2001
Appl. No.:
09/819105
Inventors:
Kalyan Handique - Ann Arbor MI, US
Karthik Ganesan - Ann Arbor MI, US
Sundaresh N Brahmasandra - Ann Arbor MI, US
Assignee:
HandyLab, Inc. - Ann Arbor MI
International Classification:
G01N 31/00
G01N 1/10
G01N 1/00
G01N 27/26
G01N 27/27
US Classification:
700266, 702 22, 702 19, 436180, 436174, 422100, 422 99, 422102, 422 681, 204450, 204451, 204452, 204600, 204603
Abstract:
The present invention provides control methods, control systems, and control software for microfluidic devices that operate by moving discrete micro-droplets through a sequence of determined configurations. Such microfluidic devices are preferably constructed in a hierarchical and modular fashion which is reflected in the preferred structure of the provided methods and systems. In particular, the methods are structured into low-level device component control functions, middle-level actuator control functions, and high-level micro-droplet control functions. Advantageously, a microfluidic device may thereby be instructed to perform an intended reaction or analysis by invoking micro-droplet control function that perform intuitive tasks like measuring, mixing, heating, and so forth. The systems are preferably programmable and capable of accommodating microfluidic devices controlled by low voltages and constructed in standardized configurations. Advantageously, a single control system can thereby control numerous different reactions in numerous different microfluidic devices simply by loading different easily understood micro-droplet programs.

Methods And Systems For Releasing Intracellular Material From Cells Within Microfluidic Samples Of Fluids

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US Patent:
7192557, Mar 20, 2007
Filed:
Dec 14, 2001
Appl. No.:
10/014519
Inventors:
Betty Wu - Canton MI, US
Karthik Ganesan - Ann Arbor MI, US
Kalyan Handique - Ann Arbor MI, US
Gene Parunak - Ann Arbor MI, US
Assignee:
HandyLab, Inc. - Ann Arbor MI
International Classification:
B32B 5/02
B32B 27/04
B32B 27/12
G01N 21/00
G01N 31/00
US Classification:
422 81, 422 50, 422 55, 422 58, 422 681, 422 63, 422 8201, 422 8205, 422100, 422101, 422102, 422103, 422104, 422 22, 422 20, 436 43, 436 63, 4352831, 4352871, 4352872, 4352885, 4352884, 4352873, 4352852, 4352866
Abstract:
The present invention relates to a microfluidic system for processing a cell-containing liquid. The system includes a lysing zone to receive the cell-containing sample and a positioning element to position the cell-containing sample in a lysing position in the vicinity of a lysing mechanism. The lysing mechanism releases intracellular material, such as DNA or RNA, from the cells. In one embodiment, the lysing mechanism includes electrodes for generating an electric field sufficient to release intracellular contents from the cells. Alternatively, the lysing mechanism may lyse the cells using chemical, heat and/or ultrasonic techniques or any combination of these techniques.

Methods And Systems For Processing Microfluidic Samples Of Particle Containing Fluids

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US Patent:
7270786, Sep 18, 2007
Filed:
Dec 14, 2001
Appl. No.:
10/014520
Inventors:
Gene Parunak - Ann Arbor MI, US
Kalyan Handique - Ann Arbor MI, US
Betty Wu - Canton MI, US
Aaron Kehrer - Ann Arbor MI, US
Assignee:
HandyLab, Inc. - Ann Arbor MI
International Classification:
B32B 5/02
B32B 27/04
B32B 27/12
G01N 21/00
G01N 31/00
US Classification:
422 81, 422 50, 422 55, 422 56, 422 57, 422 58, 422 61, 422 681, 422 82, 422 8205, 422 8209, 422100, 422101, 422102, 422103, 422104, 4352831, 4352852, 4352871, 4352873, 4352887, 436 43, 436 63, 436501, 436 86, 436 89, 436 94
Abstract:
The present invention relates to a microfluidic system for processing a cell-containing liquid. The system includes a microfabricated substrate having an enrichment channel to prepare an enriched cell sample from the cell-containing liquid. A flow through member is in liquid communication with the enrichment zone. The flow through member substantially prevents cells of the cell-containing fluid from exiting the enrichment zone while allowing liquid of the cell-containing liquid to exit the enrichment zone. A gas actuator associated with the enrichment zone provides a gas pressure sufficient to move the enriched cell sample from the enrichment zone.

Controller Cartridge For A Diagnostic Instrument

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US Patent:
D559995, Jan 15, 2008
Filed:
Mar 27, 2006
Appl. No.:
29/257029
Inventors:
Kalyan Handique - Ann Arbor MI, US
Daniel M. Drummond - Livonia MI, US
Gene Parunak - Saline MI, US
Jeff Williams - Chelsea MI, US
Assignee:
HandyLab, Inc. - Ann Arbor MI
International Classification:
2401
US Classification:
D24232

Moving Microdroplets In A Microfluidic Device

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US Patent:
7323140, Jan 29, 2008
Filed:
Feb 15, 2002
Appl. No.:
10/075371
Inventors:
Kalyan Handique - Ypsilanti MI, US
Gene Parunak - Saline MI, US
Assignee:
HandyLab, Inc. - Ann Arbor MI
International Classification:
B32B 5/02
B32B 27/04
B32B 27/12
G01N 21/00
G01N 31/00
US Classification:
422 681, 422 50, 422 55, 422 58, 422 81, 422 82, 422100, 422101, 422102, 422103, 422104, 436 43, 436 52, 436 53, 436 63, 436180, 204193, 20440301, 20440302, 20440303, 4352831, 4352866, 4352865, 4352871, 4352884, 4352885, 4352887, 73 101, 73 102, 73 5301, 73 157
Abstract:
The present invention relates to a system and method for moving samples, such as fluid, within a microfluidic system using a plurality of gas actuators for applying pressure at different locations within the microfluidic. The system includes a substrate which forms a fluid network through which fluid flows, and a plurality of gas actuators integral with the substrate. One such gas actuator is coupled to the network at a first location for providing gas pressure to move a microfluidic sample within the network. Another gas actuator is coupled to the network at a second location for providing gas pressure to further move at least a portion of the microfluidic sample within the network. A valve is coupled to the microfluidic network so that, when the valve is closed, it substantially isolates the second gas actuator from the first gas actuator.
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Kalyan Handique from Ann Arbor, MI, age ~52 Get Report